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Politicians slam Albanese's "hypocritical" private jet use

Anthony Albanese has been urged to consider his carbon footprint after his controversial usage of a private jet. A group of independent MPs have asked the Prime Minister to offset his carbon usage after it was revealed that he and two other ministers chartered two private planes to attend the same clean energy event in the NSW Hunter Valley. Albanese was joined by Climate Change and Energy Minister Chris Bowen and Industry and Science Minister Ed Husic to fly to the region from Canberra on Thursday to announce a $1bn to support Australian manufacturing in solar technology. Teal MP Zali Steggall urged the leaders to offset their carbon emissions from the short journey when it was revealed that the three men flew separately in two separate Royal Australian Air Force jets. “I certainly hope they were offsetting the emissions of those two jets with companies, like Green fleet and other places like that where you can offset the emissions of your travel,” Ms Stegall told Sunrise. “I certainly hope and I call on the Minister for Climate Change to do that. Look, as a lowly independent, we don’t get the luxuries of flying in the ADF jets.” Private jets have a dramatically higher carbon footprint per passenger than commercial planes, with the average private jet emitting two tonnes of carbon an hour. Mr Bowen defended the use of the planes, saying the use of two private jets was a decision made by the airforce for safety reasons. “The Prime Minister has a large jet available to him and that would normally be what we take,” he said on Monday. “The runway at Scone wasn’t strong enough to take a large jet so the air force … decided for two jets.” Opposition transport spokeswoman Bridget McKenzie said the government should consider “jet pooling” and should make a conscious effort to cut down on the harmful use of private jets, which emit more carbon per passenger than commercial planes. “I fail to see why these guys, when they’re leaving from the same place on the same day, within 30 minutes of each other, couldn’t have either shared the plane or indeed, some of them, if they couldn’t all fit, use the commercial options that were available to them to fly direct from Canberra to Newcastle to make the announcement,” Senator McKenzie said. “It’s quite incredible.” Image credits: Getty Images

Travel Trouble

To avoid the worst of climate change we have to change how we travel

In September last year I embarked on a 5 week trip throughout Italy and France. We swam in the waters of Cinque Terre, ate the best pizza we’d ever had in Naples, and walked blisters into our feet through the streets of Paris. The marvels of modern aviation meant I completed my 32,000 km round trip in roughly 24 hours each way. But while I budgeted for the monetary costs associated with the trip, I neglected to consider another crucial one – the carbon cost. Humans are changing the Earth’s climate. It is estimated our activities have caused about 1°C of additional atmospheric warming since the industrial revolution. The Intergovernmental Panel on Climate Change (IPCC) says <a href="https://www.ipcc.ch/sr15/chapter/spm/" target="_blank" rel="noreferrer noopener">crossing a 1.5°C threshold</a> will unleash devastating climate change impacts on human life and ecosystems. To keep global warming to below 1.5°C, as called for in the <a href="https://unfccc.int/process-and-meetings/the-paris-agreement" target="_blank" rel="noreferrer noopener">Paris Agreement</a>, emissions must peak before 2025 at the latest, halve by 2030, and reach net-zero as soon as possible before 2050. The <a href="https://www.unwto.org/the-glasgow-declaration-on-climate-action-in-tourism" target="_blank" rel="noreferrer noopener">Glasgow Declaration on Climate Action in Tourism</a>, launched at <a href="https://www.un.org/en/climatechange/cop26" target="_blank" rel="noreferrer noopener">COP26</a>, commits the tourism sector to these goals. So, what will global tourism look like as it begins to decarbonise? Will it necessitate changing the way I approach travel in the coming decades? Paul Peeters, a professor of sustainable transport and tourism at Breda University of Applied Sciences in the Netherlands is one of the principal authors of a report released last year that seeks to <a href="https://pure.buas.nl/ws/portalfiles/portal/27136592/Peeters_Papp_EnvisionTourism_report.pdf" target="_blank" rel="noreferrer noopener">envision tourism in 2030 and beyond.</a> <h2 class="wp-block-heading">Tourism and emissions: how big of a contributor is it?</h2> Tourism is a major contributor to climate change. According to Peeters, at least 5% of global CO2 emissions come from tourism and travel, with some estimates as high as 8-11% if you include indirect (supply chain) emissions. These emissions are inequitable, about half of the global tourism footprint is caused by travel between the richest countries. If global tourism continues unchanged, it’s predicted to increase emissions by 73% by 2050, compared to 2019. In this scenario, the sector will use over 66% of the world’s remaining carbon budget between 2023 and 2100. Peeters says this is not a viable way forward. But it doesn’t mean that tourism will cease to exist, or that we must stop flying altogether. Instead, the modelling he presents finds there is a plausible decarbonisation pathway that allows tourism to continue with similar levels of growth in global revenue, trips, and guest nights compared to 2019, while also achieving net-zero emissions, by 2050. This model is called the Tourism Decarbonisation Scenario (TDS) and it requires us to re-think how we travel. <h2 class="wp-block-heading">How do you put tourism emissions into a holding pattern?</h2> “If you look at the division of the [emissions from] different parts of travel, then in general… transport takes about 75-80%, 20% goes to the accommodation sector,” says Peeters. That 20% also includes activities, like visiting museums or amusement parks. “And then within transport, you see that about more than half of the emissions come from aviation, while at the same time aviation serves about a quarter of all trips,” he says. Each country party to the Paris Agreement – a legally binding international treaty on climate change – is required to establish a <a href="https://www.un.org/en/climatechange/all-about-ndcs#:~:text=Simply%20put%2C%20an%20NDC%2C%20or,and%20adapt%20to%20climate%20impacts." target="_blank" rel="noreferrer noopener">Nationally Determined Contribution</a> (NDC). An NDC is an action plan to cut emissions and adapt to climate impacts, updated every 5 years. Most of tourism – like accommodation and on-ground transportation – falls within the Paris Agreement and these NDCs and will decarbonise through changes already happening in the legislation of each country. For instance, the transition to electrified forms of travel and accommodation powered by renewable energy. So, as a tourist, I won’t need to change my behaviour there. “But it’s not true for aviation. And the problem is that aviation, in terms of governance, has got an exemption,” says Peeters. Aviation emissions are much harder to reduce. The International Civil Aviation Organization – ICAO – governs international aviation. It has a long-term aspirational goal for net-zero carbon emissions by 2050, and to achieve these goals is pursuing improvements to <a href="https://cosmosmagazine.com/science/engineering/hydrogen-fuelled-planes/">aircraft technology</a>, <a href="https://cosmosmagazine.com/technology/energy/from-refinery-to-biofuel-reactor/">sustainable aviation fuels</a>, and <a href="https://cosmosmagazine.com/earth/climate/carbon-offsetting-right/">carbon offsets</a>. But Peeters’ modelling says this won’t be enough. “The final technology is low or zero emission aircraft technology,” he says. “But that takes decades to develop and then decades to replace the whole fleet – you are not buying a new aircraft every year like a car. “That technology will come […] much faster actually than 10 years ago, but still it’s at a pace that we will have it by the end of the century fully implemented, not before. “We need an international body that governs the growth of aviation that actually stops it for the next couple of decades, to create a timeframe for the technology we need.” So until sustainable aviation technology can be fully implemented, the key is to slow the rate of growth of aviation. <h2 class="wp-block-heading">Further does not equal better</h2> In 2019, nearly all long-distance travel over 16,000 kms return trip was by air. These trips, equivalent to flying return Shanghai to Sydney or further, made up just 2% of all trips in 2019. But they were the most polluting – accounting for 19% of tourism’s total carbon emissions. My roundtrip from Australia to Europe sits in this bracket. I estimate my seats on those planes probably came with a carbon footprint of about 6.4 tonnes of CO2 altogether. To put that in perspective, the average Australian emits 15 tonnes per year, according to <a href="https://ourworldindata.org/co2/country/australia" target="_blank" rel="noreferrer noopener">ourworldindata.org</a>, and I emitted almost half that in just 48 hours. Failing to curb the growth of these longest-haul trips means they will make up 4% of all trips but account for a massive 41% of tourism’s total emissions by 2050. To prevent this, the TDS says we need to cap them at 2019 levels – about 120 million return trips per year. In this scenario, shorter distance trips up to 900km return – that’s roughly equivalent to flying from Rome to Milan in Italy – and those by car, rail, coach, and ferry, would increase to 81% of all trips by 2050. Longer distance trips (return journeys of more than 7,000km, roughly equivalent to return flying Sydney to Perth and further) would also grow less quickly than current rates and account for 3.5% of all trips by 2050 (down from 6.0% in 2019). This could have flow-on benefits, especially for local tourism. “So, you keep the number of trips, and you keep the number of nights – you could even increase that a little bit as a compensation maybe for not being able to travel so far, then you can travel deeper. And that means the total revenues in the sector can grow as we are used to because the number of trips and the number of nights generate most of the revenues,” explains Peeters. <h2 class="wp-block-heading">What curbing the aviation industry could look like</h2> So, what will this mean for my travel habits in the coming years, if further isn’t better? It will likely involve a switch in mindset to consider whether an alternative, less carbon intensive mode of transport exists to reach the destination I have in mind. According to Peeters, even 1 fewer person sitting in an aircraft’s seats can measurably change its emissions. “Aircraft are quite lightweight, half of the weight of an aircraft taking off is not its structure. But it means that if you remove 100 kilograms, even off an Airbus A320, you can measure the difference in fuel consumption. It will save, I calculated it for flights, just a 1,500 km flight, already up to 10 kilograms of CO2,” says Peeters. Compare that to a different mode – adding an additional person to an already incredibly heavy train will add perhaps half a kilogram in emissions at most, probably less. It’s a little embarrassing to admit that I’ve never considered the idea of an interstate road trip, taking the car across the border or opting for a coach or train instead of flying, as a viable option for domestic travel in Australia. But it has for other people. <a href="https://flightfree.net.au/about/" target="_blank" rel="noreferrer noopener">Flight Free Australia</a> encourages us to stop flying, and people have already taken their pledge to swear off air travel – whether for the next 12 months or until it’s ‘climate safe’ to do so again. As for Europe… Well, Peeter’s report predicts that ticket prices will increase, with the cost of flying increasing to 0.18 $/pkm in 2050, from 0.06 $/pkm in 2019, caused mainly by mandates for sustainable aviation e-fuels. Entire families have event attempted to make it from one end of the world to another without setting foot on a plane – a months-long journey ultimately <a href="https://www.abc.net.au/news/2023-12-22/british-family-travel-australia-without-flying-carbon-footprint/103256280" target="_blank" rel="noreferrer noopener">foiled</a> by cyclones north of Darwin. Whether the changes outlined in the Envisioning Tourism in 2030 and Beyond report are made to the aviation industry, already my perspective on flying is changing. Why would I reduce my carbon footprint in other areas of my life, but turn around and negate those efforts by jumping on a plane? It doesn’t mean that I have to give up travel, just change my perspective on what makes a worthy destination. “You see a growing number of people, particularly young people, that say, ‘I stopped flying, whatever happens, I never go anymore’,” says Peeters. “And it makes your life so much easier. You don’t have to choose every time ‘should I fly?’. No, if you can’t get there by train, car, or whatever, you don’t go. And then you go somewhere else, of course, you’re not sitting at home. And you discover that somewhere else is also beautiful.” <div> <noscript data-spai="1"><img decoding="async" fetchpriority="high" class="aligncenter size-full wp-image-198773" src="https://cdn.shortpixel.ai/spai/q_lossy+ret_img+to_auto/cosmosmagazine.com/wp-content/uploads/2023/11/Cosmos-Catch-Up-embed_728x150-1.jpg" data-spai-egr="1" alt="Sign up to our weekly newsletter" width="600" height="154" title="to avoid the worst of climate change we have to change how we travel 2"></noscript> </div>  <img id="cosmos-post-tracker" style="opacity: 0; height: 1px!important; width: 1px!important; border: 0!important; position: absolute!important; z-index: -1!important;" src="https://syndication.cosmosmagazine.com/?id=294884&title=To+avoid+the+worst+of+climate+change+we+have+to+change+how+we+travel" width="1" height="1" loading="lazy" aria-label="Syndication Tracker" data-spai-target="src" data-spai-orig="" data-spai-exclude="nocdn" />  <div class="share-syndicate-wrapper margin-top-1"> <div class="article-sharing"> Image credits: Getty Images </div> </div> <div id="contributors"> <a href="https://cosmosmagazine.com/synergy/to-avoid-the-worst-of-climate-change-we-have-to-change-how-we-travel/">This article</a> was originally published on <a href="https://cosmosmagazine.com">Cosmos Magazine</a> and was written by <a href="https://cosmosmagazine.com/contributor/imma-perfetto/">Imma Perfetto</a>. </div>

Travel Trouble

Flying home for Christmas? Carbon offsets are important, but they won’t fix plane pollution

<a href="https://theconversation.com/profiles/susanne-becken-90437">Susanne Becken</a>, <a href="https://theconversation.com/institutions/griffith-university-828">Griffith University</a> and <a href="https://theconversation.com/profiles/brendan-mackey-152282">Brendan Mackey</a>, <a href="https://theconversation.com/institutions/griffith-university-828">Griffith University</a> Australia is an important player in the global tourism business. In 2016, <a href="https://www.tra.gov.au/research/research">8.7 million visitors arrived in Australia and 8.8 million Australians went overseas</a>. A further 33.5 million overnight trips were made domestically. But all this travel comes at a cost. According to the <a href="http://tourismdashboard.org/explore-the-data/carbon-emissions/">Global Sustainable Tourism Dashboard</a>, all Australian domestic trips and one-way international journeys (the other half is attributed to the end point of travel) amount to 15 million tonnes of carbon dioxide for 2016. That is 2.7% of global aviation emissions, despite a population of only 0.3% of the global total. The peak month of air travel in and out of Australia is December. Christmas is the time where people travel to see friends and family, or to go on holiday. More and more people are <a href="http://climatecommunication.yale.edu/publications/analysis-of-a-119-country-survey-predicts-global-climate-change-awareness/">aware of the carbon implications of their travel</a> and want to know whether, for example, they should purchase carbon offsets or not. Our <a href="http://www.sciencedirect.com/science/article/pii/S0969699716302538">recent study in the Journal of Air Transport Management</a> showed that about one third of airlines globally offer some form of carbon offsetting to their customers. However, the research also concluded that the information provided to customers is often insufficient, dated and possibly misleading. Whilst local airlines <a href="https://www.qantasfutureplanet.com.au/#aboutus">Qantas</a>, <a href="https://www.virginaustralia.com/nz/en/about-us/sustainability/carbon-offset-program/">Virgin Australia</a> and <a href="https://www.airnewzealand.co.nz/sustainability-customer-carbon-offset">Air New Zealand</a> have relatively advanced and well-articulated carbon offset programs, others fail to offer scientifically robust explanations and accredited mechanisms that ensure that the money spent on an offset generates some real climate benefits. The notion of carbon compensation is actually more difficult than people might think. To help explain why carbon offsetting does make an important climate contribution, but at the same time still adds to atmospheric carbon, we created an <a href="https://www.youtube.com/watch?v=xsh-erzGlR0">animated video clip</a>. <figure><iframe src="https://www.youtube.com/embed/xsh-erzGlR0?wmode=transparent&start=0" width="440" height="260" frameborder="0" allowfullscreen="allowfullscreen"></iframe><figcaption>Jack’s journey.</figcaption></figure> The video features Jack, a concerned business traveller who begins purchasing carbon credits. However, he comes to the realisation that the carbon emissions from his flights are still released into the atmosphere, despite the credit. The concept of “carbon neutral” promoted by airline offsets means that an equal amount of emissions is avoided elsewhere, but it does not mean there is no carbon being emitted at all – just relatively less compared with the scenario of not offsetting (where someone else continues to emit, in addition to the flight). This means that, contrary to many promotional and educational materials (see <a href="https://www.youtube.com/watch?v=cGB2OAg5ffA">here</a> for instance), carbon offsetting will not reduce overall carbon emissions. Trading emissions means that we are merely maintaining status quo. A steep reduction, however, is what’s required by every sector if we were to reach the net-zero emissions goal by 2050, agreed on in the <a href="http://unfccc.int/paris_agreement/items/9485.php">Paris Agreement</a>. Carbon offsetting is already an important “<a href="http://www.sciencedirect.com/science/article/pii/S0261517714000910">polluter pays</a>” mechanism for travellers who wish to contribute to climate mitigation. But it is also about to be institutionalised at large scale through the new UN-run <a href="https://www.icao.int/environmental-protection/Pages/market-based-measures.aspx">Carbon Offsetting and Reduction Scheme for International Aviation (CORSIA)</a>. CORSIA will come into force in 2021, when participating airlines will have to purchase carbon credits for emissions above 2020 levels on certain routes. The availability of carbon credits and their integrity is of major concern, as well as how they align with national obligations and mechanisms agreed in the Paris Agreement. Of particular interest is <a href="http://www.carbon-mechanisms.de/en/introduction/the-paris-agreement-and-article-6/">Article 6</a>, which allows countries to cooperate in meeting their climate commitments, including by “trading” emissions reductions to count towards a national target. The recent COP23 in Bonn highlighted that CORSIA is widely seen as a potential source of billions of dollars for offset schemes, supporting important climate action. Air travel may provide an important intermediate source of funds, but ultimately the aviation sector, just like anyone else, will have to reduce their own emissions. This will mean major advances in technology – and most likely a contraction in the fast expanding global aviation market. <h2>Travelling right this Christmas</h2> In the meantime, and if you have booked your flights for Christmas travel, you can do the following: <ul> <li> pack light (every kilogram will cost additional fuel) </li> <li> minimise carbon emissions whilst on holiday (for instance by biking or walking once you’re there), and </li> <li> support a <a href="http://www.co2offsetresearch.org/consumer/Standards.html">credible offsetting program</a>. </li> </ul> And it’s worth thinking about what else you can do during the year to minimise emissions – this is your own “carbon budget”.<img style="border: none !important; box-shadow: none !important; margin: 0 !important; max-height: 1px !important; max-width: 1px !important; min-height: 1px !important; min-width: 1px !important; opacity: 0 !important; outline: none !important; padding: 0 !important;" src="https://counter.theconversation.com/content/89148/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/susanne-becken-90437">Susanne Becken</a>, Professor of Sustainable Tourism and Director, Griffith Institute for Tourism, <a href="https://theconversation.com/institutions/griffith-university-828">Griffith University</a> and <a href="https://theconversation.com/profiles/brendan-mackey-152282">Brendan Mackey</a>, Director of the Griffith Climate Change Response Program, <a href="https://theconversation.com/institutions/griffith-university-828">Griffith University</a> Image credits: Getty Images This article is republished from <a href="https://theconversation.com">The Conversation</a> under a Creative Commons license. Read the <a href="https://theconversation.com/flying-home-for-christmas-carbon-offsets-are-important-but-they-wont-fix-plane-pollution-89148">original article</a>.

Travel Trouble

It’s time to limit how often we can travel abroad – ‘carbon passports’ may be the answer

<a href="https://theconversation.com/profiles/ross-bennett-cook-1301368">Ross Bennett-Cook</a>, <a href="https://theconversation.com/institutions/university-of-westminster-916">University of Westminster</a> The summer of 2023 has been very significant for the travel industry. By the end of July, international tourist arrivals globally <a href="https://www.unwto.org/news/international-tourism-swiftly-overcoming-pandemic-downturn">reached 84% of pre-pandemic levels</a>. In <a href="https://joint-research-centre.ec.europa.eu/jrc-news-and-updates/eu-tourism-almost-full-recovery-pre-pandemic-levels-2023-10-23_en">some European countries</a>, such as France, Denmark and Ireland, tourism demand even surpassed its pre-pandemic level. This may be great <a href="https://skift.com/insight/state-of-travel/">news economically</a>, but there’s concern that a return to the status quo is already showing dire environmental and social consequences. The summer saw record-breaking heatwaves across many parts of the world. People were forced to flee <a href="https://www.theguardian.com/world/2023/jul/24/greece-wildfires-corfu-evia-rhodes-heatwave-northern-hemisphere-extreme-weather-temperatures-europe">wildfires in Greece</a> and <a href="https://www.independent.co.uk/climate-change/news/hawaii-fires-update-biden-b2393188.html">Hawaii</a>, and extreme <a href="https://www.manchestereveningnews.co.uk/news/world-news/foreign-office-issues-spain-weather-27339111">weather warnings</a> were issued in many popular holiday destinations like Portugal, Spain and Turkey. Experts <a href="https://theconversation.com/european-heatwave-whats-causing-it-and-is-climate-change-to-blame-209653">attributed these extreme conditions</a> to climate change. Tourism is part of the problem. The tourism sector <a href="https://wttc.org/Portals/0/Documents/Reports/2021/WTTC_Net_Zero_Roadmap.pdf">generates around one-tenth</a> of the greenhouse gas emissions that are driving the climate crisis. The negative impacts of tourism on the environment have become so severe that some are suggesting drastic changes to our travel habits are inevitable. In a <a href="https://www.intrepidtravel.com/sites/intrepid/files/basic_page/files/A%20Sustainable%20Future%20For%20Travel%20From%20Crisis%20To%20Transformation-231016-02.pdf">report</a> from 2023 that analysed the future of sustainable travel, tour operator Intrepid Travel proposed that “carbon passports” will soon become a reality if the tourism industry hopes to survive. <h2>What is a carbon passport?</h2> The idea of a carbon passport centres on each traveller being assigned a yearly carbon allowance that they cannot exceed. These allowances can then “ration” travel. This concept may seem extreme. But the idea of personal carbon allowances is not new. A <a href="https://publications.parliament.uk/pa/cm200708/cmselect/cmenvaud/565/565.pdf">similar concept</a> (called “personal carbon trading”) was discussed in the House of Commons in 2008, before being shut down due to its perceived complexity and the possibility of public resistance. The <a href="https://www.nature.org/en-us/get-involved/how-to-help/carbon-footprint-calculator/#:%7E:text=A%20carbon%20footprint%20is%20the,is%20closer%20to%204%20tons.">average annual carbon footprint</a> for a person in the US is 16 tonnes – one of the highest rates in the world. In the UK this figure sits at 11.7 tonnes, still more than five times the figure recommended by the <a href="https://www.openaccessgovernment.org/the-average-british-carbon-footprint-is-five-times-over-paris-agreement-recommendations/152669/#:%7E:text=Despite%20rising%20environmental%20awareness%20across,equivalent%20(tCO2e)%20per%20year.">Paris Agreement</a> to keep global temperature rise below 1.5°C. Globally, the average annual carbon footprint of a person is closer to 4 tonnes. But, to have the best chance of preventing temperature rise from overshooting 2°C, the average global carbon footprint <a href="https://www.nature.org/en-us/get-involved/how-to-help/carbon-footprint-calculator/#:%7E:text=Globally%2C%20the%20average%20carbon%20footprint,tons%20doesn't%20happen%20overnight!">needs to drop</a> to under 2 tonnes by 2050. This figure equates to around <a href="https://www.theguardian.com/environment/ng-interactive/2019/jul/19/carbon-calculator-how-taking-one-flight-emits-as-much-as-many-people-do-in-a-year">two return flights</a> between London and New York. Intrepid Travel’s report predicts that we will see carbon passports in action by 2040. However, <a href="https://www.politico.eu/article/travel-short-haul-flights-europe-under-fire-climate-change-cop26/">several laws and restrictions</a> have been put in place over the past year that suggest our travel habits may already be on the verge of change. <h2>Targeting air travel</h2> Between 2013 and 2018, the amount of CO₂ emitted by commercial aircrafts worldwide <a href="https://theicct.org/sites/default/files/publications/ICCT_CO2-commercl-aviation-2018_20190918.pdf">increased by 32%</a>. Improvements in fuel efficiency are slowly reducing per passenger emissions. But <a href="https://www.sciencedirect.com/science/article/pii/S1352231014004889">research</a> from 2014 found that whatever the industry’s efforts to reduce its carbon emissions, they will be outweighed by the growth in air traffic. For emission reductions to have any meaningful effect, ticket prices would have to rise by 1.4% each year, discouraging some people from flying. However, in reality, <a href="https://www.climatecentral.org/news/increase-in-flights-will-outweigh-carbon-cuts-17875">ticket prices are falling</a>. Some European countries are beginning to take measures to reduce air travel. As of April 1 2023, passengers on short-haul flights and older aircraft in Belgium have been <a href="https://www.euronews.com/green/2022/12/12/private-jets-and-short-haul-flights-face-pollution-busting-tax-increases-in-belgium">subject to increased taxes</a> to encourage alternative forms of travel. Less than two months later France banned <a href="https://www.bbc.co.uk/news/world-europe-65687665">short-haul domestic flights</a> where the same trip can be made by train in two-and-a-half hours or less. <a href="https://businesstravelerusa.com/news/spain-to-follow-frances-lead-plans-to-ban-short-haul-domestic-flights/">Spain</a> is expected to follow suit. A similar scheme could also be on the horizon for Germany. In 2021, a <a href="https://www.cleanenergywire.org/news/seventy-percent-germans-favour-banning-short-haul-flights-survey">YouGov poll</a> found that 70% of Germans would support such measures to fight climate change if alternative transport routes like trains or ships were available. <h2>Cruises and carbon</h2> It’s not just air travel that’s being criticised. An <a href="https://www.transportenvironment.org/wp-content/uploads/2023/06/The-return-of-the-cruise-June-2023.pdf">investigation</a> by the European Federation for Transport and Environment in 2023 found that cruise ships pump four times as many sulphuric gases (which are proven to cause acid rain and <a href="https://www.forbes.com/sites/jamesellsmoor/2019/04/26/cruise-ship-pollution-is-causing-serious-health-and-environmental-problems/?sh=468ee2f637db">several respiratory conditions</a>) into the atmosphere than all of Europe’s 291 million cars combined. Statistics like these have forced European destinations to <a href="https://www.ft.com/content/8727387d-590d-43bd-a305-b5ec208a4dfe">take action</a> against the cruise industry. In July, Amsterdam’s council <a href="https://www.bbc.co.uk/news/world-europe-66264226">banned cruise ships</a> from docking in the city centre in a bid to reduce tourism and pollution – an initiative that has shown success elsewhere. In 2019 Venice was the most polluted European port, due to large numbers of cruise ship visits. But it dropped to 41st place in 2022 after a ban on large cruise ships entering the city’s waters <a href="https://www.transportenvironment.org/discover/europes-luxury-cruise-ships-emit-as-much-toxic-sulphur-as-1bn-cars-study/">reduced air pollutants from ships</a> in Venice by 80%. <h2>Changing destinations</h2> Intrepid Travel’s report also highlights that not only how we travel, but <a href="https://joint-research-centre.ec.europa.eu/jrc-news-and-updates/global-warming-reshuffle-europes-tourism-demand-particularly-coastal-areas-2023-07-28_en">where we travel</a> will soon be impacted by climate change. Boiling temperatures will probably diminish the allure of traditional beach destinations, prompting European tourists to search for cooler destinations such as Belgium, Slovenia and Poland for their summer holidays. <a href="https://www.travelweekly.com/Travel-News/Tour-Operators/Travelers-seek-cooler-destinations-this-summer">Several travel agencies</a> reported seeing noticeable increases in holiday bookings to cooler European destinations like Scandinavia, Ireland and the UK during 2023’s peak summer travel months. Whatever the solution may be, changes to our travel habits look inevitable. Destinations across the globe, from <a href="https://www.theneweuropean.co.uk/barcelonas-war-on-tourism-ada-colau/">Barcelona</a> to the <a href="https://www.dw.com/en/italy-tourism-bans-controls-fees-restrictions/a-66453047">Italian riveria</a> and even <a href="https://theconversation.com/death-on-everest-the-boom-in-climbing-tourism-is-dangerous-and-unsustainable-114033">Mount Everest</a> are already calling for limits on tourist numbers as they struggle to cope with crowds and pollution. Holidaymakers should prepare to change their travel habits now, before this change is forced upon them. <a href="https://theconversation.com/profiles/ross-bennett-cook-1301368">Ross Bennett-Cook</a>, Visiting Lecturer, School of Architecture + Cities, <a href="https://theconversation.com/institutions/university-of-westminster-916">University of Westminster</a> Image credits: Getty Images This article is republished from <a href="https://theconversation.com">The Conversation</a> under a Creative Commons license. Read the <a href="https://theconversation.com/its-time-to-limit-how-often-we-can-travel-abroad-carbon-passports-may-be-the-answer-216503">original article</a>.

International Travel

What to wear for a climate crisis

<a href="https://theconversation.com/profiles/rachael-wallis-568028">Rachael Wallis</a>, <a href="https://theconversation.com/institutions/university-of-southern-queensland-1069">University of Southern Queensland</a> When people move to the country from the city, they need to change their wardrobes, my <a href="https://rgs-ibg.onlinelibrary.wiley.com/doi/abs/10.1111/area.12540">research on tree-changers</a> in Australia found. The new context of their lives means the clothes they wore for the city no longer work for their new lives. This is also true in the climate crisis. Our context has changed. When we decide what clothes to buy, we now need to bring into play a wider range of values than the appearance of a garment, its newness and novelty and whether we like it or not. As the Intergovernmental Panel on Climate Change (IPCC) <a href="https://www.ipcc.ch/assessment-report/ar6/">states</a>, if we are to have any hope of avoiding a world that is too hot and unpredictable to live in, we need to do everything we possibly can, right now, to cut greenhouse gas emissions into the atmosphere. The fashion industry contributes <a href="https://www.frontiersin.org/articles/10.3389/fenvs.2022.973102/full">up to 10% of global emissions</a> – more than international aviation and shipping combined. It also contributes to biodiversity loss, pollution, landfill issues, unsafe work practices and more. Australia’s carbon footprint from the consumption and use of fashion is the <a href="https://hotorcool.org/unfit-unfair-unfashionable/">world’s biggest</a>, a dubious distinction in a materialistic world. So this is an area where the choices we make can have big impacts. While individual action will not solve all of the above problems, it will help as we move towards the structural and systemic change needed to live sustainably. If we are concerned about these issues, responding thoughtfully means we will live our lives according to our values. And that’s an <a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6326475/">important factor</a> in living well, flourishing and being happy. <iframe id="datawrapper-chart-teOOs" style="border: none;" title="Carbon footprints from fashion consumption in G20 nations" src="https://datawrapper.dwcdn.net/teOOs/2/" width="100%" height="589" frameborder="0" scrolling="no" aria-label="Stacked Bars" data-external="1"></iframe> <h2>Lessons from wartime</h2> It’s not the first time people have adapted their clothing in response to the demands of a crisis. During the second world war, <a href="https://www.iwm.org.uk/history/how-clothes-rationing-affected-fashion-in-the-second-world-war">clothing styles changed</a> in the United Kingdom and Australia. To conserve precious resources, shorter skirts, minimal detailing and a focus on utility became the norm. People adapted their personal aesthetics and appearance because the situation was grave and they wanted to “do their bit” to help with the war effort. This was a collective necessity in dire times. This wartime response reflected the priorities and values of society as a whole as well as most people in that society. In other words, buying less (rationing meant this was not just a choice), mending and making do with what was already there was part of a value system that contributed to the Allied victory. In novels and other writing from the era, it is clear that at times it was not easy and it could be frustrating. There was, however, a public consensus that it was necessary. This shared commitment to the war effort became a value that made personal sacrifices worthwhile and satisfying. <h2>So what can we do today?</h2> In our current context, the <a href="https://hotorcool.org/unfit-unfair-unfashionable/">most helpful thing we can do</a> is to buy fewer new clothes and wear them for longer. Australians buy a lot of clothes, about <a href="https://www.cleanup.org.au/fastfashion">56 items per year</a> on average. That makes Australians the <a href="https://hotorcool.org/unfit-unfair-unfashionable/">second highest textiles consumers in the world</a> after <a href="https://www.cleanup.org.au/fastfashion">the USA</a> , and is <a href="https://www.greenpeace.org/static/planet4-international-stateless/2017/09/76e05528-fashion-at-the-crossroads.pdf">60% more than we bought even 15 years ago</a>. The <a href="https://www.eea.europa.eu/publications/textiles-in-europes-circular-economy">price of clothes has dropped significantly</a> over the past couple of decades, and the <a href="https://hotorcool.org/unfit-unfair-unfashionable/">number of clothes</a> people have in their closets has grown. If we begin to shift away from our slavish devotion to newness and novelty – following the dictates of fashion – to a mindset of value-led sufficiency, we can appreciate more fully the feel of lived-in, mended or altered clothes. There is a feeling of comfort in pulling on an old garment that is soft with age and repeated washing. There is <a href="https://www.google.com.au/books/edition/Loved_Clothes_Last/StfnDwAAQBAJ?hl=en&gbpv=1&dq=joy+of+creative+mending&pg=PT7&printsec=frontcover#v=onepage&q=joy%20of%20creative%20mending&f=false">joy in extending a garment’s life</a> through creative mending, especially when that aligns with our values. The Berlin-based <a href="https://hotorcool.org/unfit-unfair-unfashionable/">Hot or Cool Institute</a> suggests a wardrobe of 74 garments (including shoes but excluding undergarments) is typically sufficient for people who live in a two-season climate (in the tropics) and 85 pieces for those who live in a four-season climate, as most Australians do. If we buy ten to 12 new items a year, we can replace our entire wardrobe in about seven years. Buying second-hand instead of new is even better because it doesn’t add to current production emissions. If we buy second-hand, it still doesn’t mean we should buy more than we need. <h2>Choosing clothes to fit our values</h2> To live authentic lives that are fulfilling and satisfying in deep and meaningful ways, we need to be true to our selves. In the case of clothing, we should evaluate our choices in relation to the values we hold. And if we do care about living sustainably, that means changing those choices we feel are no longer suited to the climate crisis. Clothes need to reflect a person’s situation as well as their identity to <a href="https://research.usq.edu.au/item/q4x53/the-phenomenological-and-discursive-practice-of-place-in-lifestyle-migration-a-case-study-of-stanthorpe-queensland">“work” well</a>. This may mean that what we wear changes as we make different buying decisions, just as people did in the second world war and as tree-changers do. We may start to look different, but that change signifies our values in action. Best of all, clothing choices that align with keeping global warming to less than 1.5 degrees will have a long-term impact as significant as winning the war.<img style="border: none !important; box-shadow: none !important; margin: 0 !important; max-height: 1px !important; max-width: 1px !important; min-height: 1px !important; min-width: 1px !important; opacity: 0 !important; outline: none !important; padding: 0 !important;" src="https://counter.theconversation.com/content/214478/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/rachael-wallis-568028">Rachael Wallis</a>, Research Assistant, Youth Community Futures, <a href="https://theconversation.com/institutions/university-of-southern-queensland-1069">University of Southern Queensland</a> Image credits: Getty Images This article is republished from <a href="https://theconversation.com">The Conversation</a> under a Creative Commons license. Read the <a href="https://theconversation.com/what-to-wear-for-a-climate-crisis-214478">original article</a>.

Beauty & Style

How air travellers can cut their door-to-door emissions right now – by as much as 13% on the Sydney-Melbourne route

<a href="https://theconversation.com/profiles/rico-merkert-90253">Rico Merkert</a>, <a href="https://theconversation.com/institutions/university-of-sydney-841">University of Sydney</a> and <a href="https://theconversation.com/profiles/david-li-1460445">David Li</a>, <a href="https://theconversation.com/institutions/university-of-sydney-841">University of Sydney</a> Our climate is changing, and airlines are under pressure to reduce emissions from air travel. For many of us, especially in Australia, flying is an essential form of transport, so how can we reduce its environmental impact? Getting to and from the airport is an overlooked aspect of air travel that offers an immediate way to cut total carbon emissions from the trip by a surprisingly large amount. Our newly published <a href="https://www.sciencedirect.com/science/article/pii/S1361920923002468">research</a> shows for an average economy passenger flying from Sydney to Melbourne, the carbon emissions from using a fossil-fuelled car to get to and from the airports make up a staggering 13.5% of the total door-to-door emissions. At a global scale, this number reaches 12.1% for long-haul flights and up to 22.8% for short-haul air journeys. For comparison, in the International Air Transport Association’s <a href="https://www.iata.org/en/programs/environment/roadmaps/">2050 net-zero emission roadmap</a>, 13% of global airline decarbonisation will come from electric and hydrogen propulsion. A further 65% is to come from mass adoption of sustainable aviation fuel. This is fuel produced from non-petroleum-based renewable sources such as some municipal solid waste, woody biomass, fats, greases and oils. Each of these big lifters requires a mammoth level of investment and technological breakthroughs, and comes with limitations and risks. Some solutions might make air travel prohibitively expensive. Airlines are moving mountains to decarbonise, but there are increasing concerns their net-zero plans might not stack up. In contrast, a 13.5% emission reduction on a Sydney-Melbourne door-to-door journey today may sound like a dream. Yet our research shows it’s easily achievable if travellers can be persuaded to change how they get to and from the airport. <h2>So how can travellers be convinced to switch?</h2> <a href="https://www.cambridge.org/core/journals/agricultural-and-resource-economics-review/article/future-of-carbon-labeling-factors-to-consider/FDBC62244F2ACA29A7602886085B4A91">Research</a> has shown carbon “labelling” helps shift consumer behaviour towards greener choices. It’s a bit like how the nutrition label on the back of our cereal box helps us choose healthier options. For instance, when searching for a flight on online travel platform Skyscanner, all flight options are displayed with carbon emissions, so consumers can make a more informed choice. Two <a href="https://escholarship.org/uc/item/5n53672m">recent</a> <a href="https://journals.sagepub.com/doi/abs/10.1177/03611981211046924">studies</a> at the University of California, Davis, suggest showing consumers the emission outcomes of different gate-to-gate flight choices, such as aircraft types and transit stops, can prompt them to choose greener flights, reducing emissions by up to 3.8%. But air journeys don’t start or end at airports. They start at home and end at destinations, or vice versa. Our air-travel carbon emissions are divided into ground and air segments and counted as airport and airline emissions respectively. While airlines focus on gate-to-gate decarbonisation through future technologies, the door-to-door emissions produced by travel to and from airports can be reduced immediately. Let’s look at an example of a Sydney-to-Melbourne trip. Say you travel from North Sydney to Sydney Airport by car, then fly to Melbourne Airport and catch a taxi to the city centre. That trip emits 82 kilograms of CO₂ door-to-door. But if you use a train, bus or electric vehicle (charged from a renewable source) to travel to and from the airport, the emissions from your trip drop to 71kg: a 13.5% fall door-to-door. Although travel platforms are increasingly communicating gate-to-gate emissions to consumers, we’re not aware of any that are including door-to-door emissions. Helping climate-conscious consumers understand the door-to-door carbon impact of airport ground connections could drive them to choose greener options such as public transport and electric vehicles. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=464&fit=crop&dpr=1 600w, https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=464&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=464&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=583&fit=crop&dpr=1 754w, https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=583&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/541364/original/file-20230807-15-mp3dlr.png?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=583&fit=crop&dpr=3 2262w" alt="Google Flights chart of air travel options showing emissions and cost" /></a><figcaption>Travel aggregator search platforms are now labelling carbon emissions when offering flight options. Google Flights</figcaption></figure> <h2>Give airlines an incentive to inform passengers</h2> Governments and airports have long collaborated in driving consumers towards greener ground transit options. For instance, Transport for NSW has set a 50% emission-reduction <a href="https://www.future.transport.nsw.gov.au/sites/default/files/2022-09/Future_Transport_Strategy_2.pdf">target</a> for 2030. However, consumer adoption of these options has remained low. <a href="https://www.ttf.org.au/wp-content/uploads/2016/09/TTF_Accessing_Sydney_Airport.pdf">Most airport trips</a> in Australia today are still made by conventional car. As consumers, we have relationships with airlines that we don’t have with airports. When it comes to flying, we choose our airline carefully. Yet we rarely think about how we get to the airport. Airlines are experts in customer communication and engagement. They operate some of the largest frequent-flyer programs in the world. Last time we checked, Qantas had <a href="https://www.finder.com.au/frequent-flyer/qantas">15 million</a> program members and Virgin had <a href="https://newsroom.virginaustralia.com/release/velocity-frequent-flyer-soars-11-million-members">11 million</a>. Through these channels, airlines learn about us and how we tick when it comes to making flying choices. This puts them in an ideal position to keep us informed about door-to-door travel and drive the transition towards greener airport ground-connection options. To give them an incentive to do so, their efforts should be recognised through emission accounting. <h2>A cost-effective way to cut emissions</h2> Travellers using the Sydney Airport train station must pay an <a href="https://www.opal.com.au/en/opal-fares/airport_station_access_fee/">access fee</a>, which adds <a href="https://airportlink.com.au/trip-information/price/">A$15.74</a> to the cost of the journey. As our <a href="https://www.sciencedirect.com/science/article/pii/S1361920923002468">paper</a> highlights, the average customer using the airport train removes 2.7kg of CO₂. Achieving the same amount of decarbonisation during the flight using more sustainable aviation fuel – which is more expensive – would cost the customer about the same: between $10 and $16. So there is an opportunity for airlines to highlight this decarbonisation outcome as a way to persuade travellers to reconsider driving a car or catching a taxi, and instead take the airport train or bus. Airlines could also consider collaborating with airports to build airport charging facilities for electric vehicles as uptake in Australia approaches a <a href="https://www.theguardian.com/australia-news/2023/jul/31/australian-electric-vehicles-ev-sales-rise-increase">double-digit share</a> of new vehicle sales. This overlooked opportunity to cut door-to-door emissions from air travel has a substantial upside. It deserves far more attention from airlines, airports and consumers.<img style="border: none !important; box-shadow: none !important; margin: 0 !important; max-height: 1px !important; max-width: 1px !important; min-height: 1px !important; min-width: 1px !important; opacity: 0 !important; outline: none !important; padding: 0 !important;" src="https://counter.theconversation.com/content/211099/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/rico-merkert-90253">Rico Merkert</a>, Professor in Transport and Supply Chain Management and Deputy Director, Institute of Transport and Logistics Studies (ITLS), University of Sydney Business School, <a href="https://theconversation.com/institutions/university-of-sydney-841">University of Sydney</a> and <a href="https://theconversation.com/profiles/david-li-1460445">David Li</a>, PhD Candidate, Institute of Transport and Logistics Studies, <a href="https://theconversation.com/institutions/university-of-sydney-841">University of Sydney</a> Image credits: Getty Images This article is republished from <a href="https://theconversation.com">The Conversation</a> under a Creative Commons license. Read the <a href="https://theconversation.com/how-air-travellers-can-cut-their-door-to-door-emissions-right-now-by-as-much-as-13-on-the-sydney-melbourne-route-211099">original article</a>.

Domestic Travel

Southampton to Shanghai by train – one climate change researcher’s quest to avoid flying

Academics travel a lot. Whether for fieldwork or conferences, we’re often <a href="https://theconversation.com/university-sector-must-tackle-air-travel-emissions-118929">encouraged</a> to do it. Often internationally, invariably by aeroplane. But while globetrotting might make us feel important, a recent <a href="https://www.sciencedirect.com/science/article/pii/S0959652619311862">study</a> suggests there’s no connection between academic air-miles and career advancement. With the obvious realities of the climate crisis, and with air travel being the <a href="https://theconversation.com/its-time-to-wake-up-to-the-devastating-impact-flying-has-on-the-environment-70953">single quickest</a> way an average person can contribute to climate change, some academics are trying to stay on the ground whenever possible. Within a broader <a href="https://www.flightfree.co.uk/">campaign</a> to encourage people to go “flight-free”, there’s a community of <a href="https://academicflyingblog.wordpress.com/">academics</a> challenging the reliance on flying that’s typically sat uneasily at the heart of their careers. I’m a member of that community. I pledged not to fly in 2019 and 2020, and then won a fellowship to study Chinese attitudes to sustainability which required me to go to China for fieldwork. Suddenly, the consequences of my pledge became very real. <figure class="align-center "><img src="https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=388&fit=crop&dpr=1 600w, https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=388&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=388&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=488&fit=crop&dpr=1 754w, https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=488&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/285327/original/file-20190723-110154-1grcjbv.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=488&fit=crop&dpr=3 2262w" alt="" /><figcaption>Not only do planes release a lot of CO₂ during flight, the white ‘contrails’ they leave behind warm the atmosphere further. <a class="source" href="https://www.shutterstock.com/image-photo/passenger-airplanes-on-air-busy-traffic-1089042554?src=lgi_phsJCpzeLwXItWfMbw-1-17&studio=1">FotoHelin/Shutterstock</a></figcaption></figure> Life on the rails When I told my managers that I intended to get to China by train, I was met with a mixture of responses. Some thought I was mad, some admired my principles, some thought I was an awkward bugger. Maybe they were all right. In any case, what I was doing had certainly created more work for myself. I began trying to convince senior staff to release funds from my research budget to arrange visas, and thinking through the nitty-gritty of a trip across Europe, Russia and a big chunk of China itself. The cost of the trains was over £2,000, dwarfing the £700 I could pay for a London to Beijing return flight. Time-wise, the train trip took just under two weeks each way. But in terms of carbon emissions my trip was a steal, contributing <a href="https://www.gov.uk/government/publications/greenhouse-gas-reporting-conversion-factors-2019">just 10%</a> of the emissions of the equivalent flights. The cost, complexity and discomfort of such a long solo trip did occasionally make me wonder if it wouldn’t just be easier to fly (answer: it would). But I was determined to honour my pledge and show other academics – by my own extreme example – that it is possible to do international work without flights. <figure class="align-center "><img src="https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=450&fit=crop&dpr=1 600w, https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=450&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=450&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=566&fit=crop&dpr=1 754w, https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=566&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/285316/original/file-20190723-110175-szuvp8.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=566&fit=crop&dpr=3 2262w" alt="" /><figcaption>The author meets a train guard in Siberia. Roger Tyers, Author provided</figcaption></figure> Considering it involved 21 train connections, my journey went surprisingly smoothly. I took a series of “short” trips from Southampton, changing in London, Brussels, Cologne, Berlin and then onto my first sleeper train from Warsaw to Kiev (avoiding Belarus which would have required another visa). My first experience on the Kiev-bound, Soviet-style sleeper train was something of a shock. Unsure of the etiquette when sharing a tiny cabin with two or three others with limited English, I soon learned that body language, Google translate and sharing food breaks the ice. Luckily, my no-flying trip was a recurring source of conversation, fascination and bafflement for many of my fellow travellers. After one night in Kiev, I took another overnight train to Moscow. Russia was something of a test – on my return journey I travelled 2,600 miles between Irkutsk and Moscow, spending 90 hours on a single train. Had this not been a work trip, I would have gladly stopped more often. Making friends with fellow passengers – mainly Russians on work trips or family visits, or European and Chinese tourists doing the bucket list Trans-Siberian route – certainly helped pass the time. The Siberian scenery – millions of trees on a seemingly endless loop – became somewhat repetitive, but the monotony afforded me time to read, write, plan and contemplate. The most spectacular journey was the Trans-Mongolian section, passing the edge of Lake Baikal, the world’s largest lake rimmed with snow-capped mountains, over the green steppes of northern Mongolia, across the Gobi desert, and finally through the mountainous valleys encircling Beijing. It’s hard not to be awed and inspired that these train lines exist in such remote parts of our planet. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&rect=0%2C0%2C1003%2C1003&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&rect=0%2C0%2C1003%2C1003&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=600&fit=crop&dpr=1 600w, https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=600&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=600&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=754&fit=crop&dpr=1 754w, https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=754&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/285302/original/file-20190723-110154-qqgn2n.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=754&fit=crop&dpr=3 2262w" alt="" /></a><figcaption>The track stretches for miles across the Mongolian plains. Roger Tyers, Author provided</figcaption></figure> Calling at Beijing China now has more high-speed railways than the rest of the world combined, and they do it in style. Beijing to Shanghai, a trip covering 1,300km, takes less than four and a half hours, with a solid internet connection throughout and the most legroom I enjoyed on any of my trips. The downer is that China’s electrified trains will, <a href="https://theconversation.com/china-wrestles-with-insecure-gas-supplies-but-stays-strong-on-longer-term-plan-for-renewables-117445">like most of their electricity</a>, be powered by coal. But on the upside, these trains are likely to take passengers off domestic flights – a lesson for Europe and the US. I enjoyed using them to visit my other field sites in Hangzhou and Ningbo before finally retracing my steps back, over 6,000 miles to the UK, clutching a load of new data, a heap of memories, and a sore back. The focus group data I collected in China, with members of their urban middle classes, has enforced my view that both ‘bottom-up’ social and cultural pressure, as well as “top-down” infrastructure and fiscal policy will be required in any country facing up the complex challenges of climate change. <figure class="align-center "><img src="https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=600&fit=crop&dpr=1 600w, https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=600&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=600&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=754&fit=crop&dpr=1 754w, https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=754&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/285360/original/file-20190723-110162-1jhj505.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=754&fit=crop&dpr=3 2262w" alt="" /><figcaption>The author at the end of his outward journey in Tiananmen Square. Roger Tyers, Author provided</figcaption></figure> I admit that my story is somewhat privileged – not everyone can take the train to China for work, and I doubt I’ll make a habit of it. Much depends on geography too. The UK is relatively well connected by surface transport options like rail, but many still fly - the UK has the <a href="https://www.iata.org/pressroom/pr/Pages/2018-10-24-02.aspx">third largest</a> air passenger market, behind only the US and China. The bigger policy goal is to make train tickets less expensive relative to flights. In the meantime, academics can play a leadership role, both individually and <a href="https://theconversation.com/researchers-set-an-example-fly-less-111046">institutionally</a>. Universities could consider publishing records of staff flights, building low-carbon travel modes into grant proposals by default, and making videoconferencing facilities fantastic. Recent <a href="https://www.sciencedirect.com/science/article/pii/S0959652619311862">research</a> has shown, unsurprisingly, that climate researchers are taken more seriously if they practise what they preach. If we can lead by example in reducing our own flying carbon footprints while still conducting great research, then others – students, policymakers and other professionals – are far more likely to take notice. Writen by Roger Tyers. Republished with permission from <a href="https://theconversation.com/southampton-to-shanghai-by-train-one-climate-change-researchers-quest-to-avoid-flying-120015" target="_blank" rel="noopener">The Conversation</a>. Image: Getty Images

International Travel

Building and construction emissions and energy use reaches record levels

Despite improvements in energy efficiency, greenhouse pollution levels from the building and construction sector reached an all-time high in 2021. A new report on the building and construction sector by the United Nations Environment Programme released for COP27 found energy demand in buildings – for heating, cooling, lighting and equipment – increased by 4% from 2020 levels. As a result, the sector’s emissions increased 5% compared to 2020. While the increase partly reflects a re-bound in building and construction activities after the pandemic, energy and emissions levels were also above 2019 levels. This is significant because the sector accounts for around a third of total energy demand, the report says. The UN Secretary General Antonio Guterres told the opening forum of COP27 that the future of the planet is in our hands. “…and the clock is ticking. We are in the fight of our lives. And we are losing. Greenhouse gas emissions keep growing. Global temperatures keep rising. And our planet is fast approaching tipping points that will make climate chaos irreversible. “We are on a highway to climate hell with our foot still on the accelerator. “ With the release of the report, UNEP executive director, Inger Andersen added: “If we do not rapidly cut emissions in line with the Paris Agreement, we will be in deeper trouble.” The UNEP report argues investments in energy efficiency must be sustained in the face of growing crises – such as the war in Ukraine and rising energy and living costs – to help with reducing energy demand, avoiding greenhouse gas pollution and reducing energy cost volatility. “The solution may lie in governments directing relief towards low and zero-carbon building investment activities through financial and non-financial incentives,” Andersen says. Also critical to reducing the sector’s emissions are including buildings in climate pledges under the Paris Agreement – known as Nationally Determined Contributions – and mandatory building energy codes. The report’s recommendations include: building coalitions of stakeholders in support of sustainable buildings, governments introducing mandatory building energy codes and government policies, increasing investment in energy efficiency and commitments from industry.  <img id="cosmos-post-tracker" style="opacity: 0; height: 1px!important; width: 1px!important; border: 0!important; position: absolute!important; z-index: -1!important;" src="https://syndication.cosmosmagazine.com/?id=222598&title=Building+and+construction+emissions+and+energy+use+reaches+record+levels" width="1" height="1" />  <div id="contributors"> <a href="https://cosmosmagazine.com/earth/building-emissions-reach-record-levels/" target="_blank" rel="noopener">This article</a> was originally published on Cosmos Magazine and was written by Petra Stock. Image: Getty Images </div>

Real Estate

Climate change: the fairest way to tax carbon is to make air travel more expensive

Despite the fact that poorer people generally <a href="https://doi.org/10.1017/sus.2020.12">have lower emissions</a>, taxes on the carbon dioxide (CO₂) our activities emit tend to affect people on low incomes <a href="https://iopscience.iop.org/article/10.1088/1748-9326/ac2cb1">more</a> than richer people. Having less money means you can ill afford a switch to an untaxed alternative, like an electric car, or pay for carbon-saving measures like home insulation. You are also more likely to struggle to use less of an essential good like petrol or gas for heating, even if the price goes up. Carbon taxes on energy that people use in their homes – for heating, cooking or watching TV – charge consumers for the emissions per kilowatt-hour (kWh) of electricity, gas or oil used. Economists would say that these kinds of carbon taxes are <a href="https://doi.org/10.1088/1748-9326/ac2cb1">regressive</a>, because using energy to heat and power your home is a necessity and poorer people will use a much higher share of their income to pay for these things – and the taxes – than richer people. While total emissions have been <a href="https://www.nature.com/articles/s41558-019-0419-7">falling</a> in several rich countries over the last few years, emissions from cars and other means of transport are <a href="https://doi.org/10.1088/1748-9326/abee4e">growing</a>. The rise in air travel emissions has been especially rapid: a roughly <a href="https://doi.org/10.1016/j.atmosenv.2020.117834">sevenfold increase</a> between 1960 and 2018 globally. What’s more, the fuels for heating and powering homes or driving cars are taxed, but the fuel airlines use is exempt due to <a href="https://theconversation.com/how-a-1940s-treaty-set-airlines-on-a-path-to-high-emissions-and-low-regulation-148818">an international agreement</a> from 1944. And although Europeans generally <a href="https://www.sciencedirect.com/science/article/pii/S095937801831238X?via%3Dihub">disapprove</a> of carbon taxes, <a href="https://www.tandfonline.com/doi/full/10.1080/09669582.2022.2115050">our study</a> has revealed one type which could prove popular. In the first analysis of its kind to consider the effect on different income bands, we found that carbon taxes on air travel – what we describe as luxury emissions – nearly always affect the rich more. <h2>Tax burdens from air travel</h2> Our research examined how the burden from four different taxes on air travel would fall across income groups in the UK. It shows that all of these taxes are progressive: they burden richer people more than poorer people as a proportion of income. This is because people on higher incomes are <a href="https://doi.org/10.1016/j.tbs.2021.05.008">much more likely to fly</a>, and fly more often. Air travel taxes that apply to passengers could be levied on the emissions of each passenger per flight. People could also be taxed according to the distance they travel, or their seat class. An aeroplane’s economy class occupies the least space per person, while business- and first-class passengers take up more room and so are responsible for more emissions than the average passenger. A person could also be taxed for the number of flights they take. A <a href="https://afreeride.org/">frequent flyer levy</a> would exempt the first return flight a person takes in a year, but would tax subsequent flights at an increasing rate. We found that taxes that take both flight emissions and the number of flights per passenger into account distribute the tax burden fairest. The reason for this is that frequent air travel (all flights after the first return flight) is even more unequally distributed in society: the top 10% of emitters are responsible for 60.8% of flight emissions but for 83.7% of emissions from frequent flights. Who else except the wealthy is likely to be affected by taxes on air travel? We found that, in the UK, university graduates, employed people, young and middle-aged adults, residents of London, as well as first- and second-generation migrants are also more likely to fly than their counterparts, regardless of income. Our results showed that recent migrants with friends and family abroad are relatively likely to fly often, even when on a low income. So allowances or extra support for recent migrants could make the design of such taxes fairer. Overall, taxes on air travel are far more socially just than taxes on necessities such as home energy use and could curb luxury emissions in a way that nurtures broad support for more sweeping decarbonisation measures such as those designed to limit car travel, like <a href="https://www.nature.com/articles/s41560-022-01057-y">expanding bus and cycling lanes</a>. So why do politicians and others claim, as former UK treasury minister Robert Jenrick did in 2019, that air travel taxes <a href="https://www.thesun.co.uk/news/8128492/labour-holiday-tax-family-break/">disproportionately hit the poor</a>? It’s possible that they underestimate how little people in low-income groups actually fly, perhaps due to their typically middle- and upper-class backgrounds. A less charitable interpretation is that they have ulterior motives for opposing such taxes. Social scientists claim that exaggerating or misrepresenting the social justice consequences of environmental policy is one of the most common <a href="https://theconversation.com/climate-denial-hasnt-gone-away-heres-how-to-spot-arguments-for-delaying-climate-action-141991">arguments </a>used to stall vital action on climate change. Image credits: Getty Images This article originally appeared on <a href="https://theconversation.com/climate-change-the-fairest-way-to-tax-carbon-is-to-make-air-travel-more-expensive-191632" target="_blank" rel="noopener">The Conversation</a>.

Travel Tips

Sustainable aviation fuels – is Australia being left behind?

Some solutions in renewable energy are relatively easy. Solar panels on roofs for example, or battery powered cars. But our obsession with air travel is significantly harder to decarbonise. Batteries are too heavy except on very short flights, and other zero carbon solutions in aviation are few and far between. Without removing air travel altogether, the next best thing is something called ‘sustainable aviation fuels’ or SAFs. While many other countries are ramping up their SAF production and already mixing it in with traditional fuels, Australia is being left behind. “It’s a shame if Qantas meets its 10 per cent sustainable aviation fuel target in 2030 by just buying it offshore,” said Qantas CEO Alan Joyce earlier this year. “That would be terrible outrage in my mind, and it’s a terrible dropping of the ball in Australia.” <h2>What is sustainable aviation fuel?</h2> SAFs are lower carbon fuels. They can be made of either biomass like waste oil or alcohol – called biofuels, or built chemically, brick-by-brick from carbon dioxide and green hydrogen – called e-fuels. Biofuels particularly are not a zero-carbon alternative, but they are markedly better than traditional fossil fuel-based jet fuel. These fuels can be used just by themselves – called 100% SAF-powered – and they have very similar chemistry to traditional fossil jet fuel so they’re just as effective. The problem though is the cost. They’re up to four times as expensive as traditional jet fuel, and around the world there’s just not that much of it on the market – less than 1% of jet fuel available. “Aviation fuels represent about 7-8% of all fuel consumption I believe, and of course in a country like Australia it’s an even bigger part of our liquid fuel consumption,” Lars Nielsen, a professor at the Australian Institute of Bioengineering and Nanotechnology, told Cosmos. “A very large part of the cost of flying is the aviation fuel. Nobody’s jumping to pay more for flying to Europe, therefore, it’s market demand. Are the customers willing to pay the extra price that would be involved with it?” As we decarbonise other areas of emissions – like electricity, transport and agriculture – aviation emissions as a percentage of total emissions are likely to skyrocket. While we could lower our reliance on flying (a small but growing habit), or discover completely zero carbon solutions for aviation, working out how to make SAFs sustainable and cost effective is important. Nielsen has worked with SAF in the past, as part of a project called the Queensland Sustainable Aviation Fuel Initiative. The group was trying to work out if three different sources of biofuels – sugar cane crop, algae, and a drought resistant tree called pongamia – could be made cost efficient compared to traditional fossil based jet fuels. “Whenever the prices of jet fuel go high, people start getting interested,” he says. “The only thing that could happen at a reasonable speed was sugar to fuel. But even then, we could see the prices were not competitive [even though] it’s technically very feasible.” <h2>International Jet Fuel</h2> Despite these problems, companies have started creating SAFs and selling them to aviation companies around the world. Heathrow for example is the largest major airport user of SAFs. This is partially due to a government mandate requiring 10% of jet fuel be SAF by 2030, and a priority to have at least 5 commercial-scale SAF plants under construction in the UK by 2025. This is on top of Heathrow airport putting in place SAF incentives earlier this year. In the US, the government has launched the Sustainable Aviation Fuel Grand Challenge to reduce the cost, enhance the sustainability, and expand the production and use of SAF. United Airlines has used over five million gallons at Los Angeles International Airport, while JetBlue has signed a ten-year uptake agreement to receive at least 670 million gallons of blended SAF to its three New York area airports – JFK, La Guardia, and Newark. But there have already been some kinks in the system, particularly with first generation biofuels. “What was really quite disastrous is that in 2005 Europe committed to using biodiesel. Of course, biodiesel manufacturers in Europe found out the cheapest oil source we have is palm oil,” Nielson said. “It expanded quite significantly the amount of biodiesel incorporated.” Unfortunately, a report in 2016 found that Europe’s switch might have increased greenhouse gas emissions. They reported that emissions from biodiesel are more than three times higher than those from conventional diesel engines when indirect effects are considered. The EU has now committed to phasing out these ‘first generation biofuels’ by 2030, but it highlights that not all sustainable fuels are equal. <h2>Australia is being left behind</h2> Meanwhile, in Australia we have barely made it into first-generation biofuels. The Queensland Sustainable Fuel Initiative shut down in the early 2010s, and there hasn’t been much traction since. This is both in getting the SAF into planes, as well as creating the fuel in Australia. Having a SAF industry in Australia would create jobs, potentially use waste products like used fry oil, as well as lower the emissions getting the fuel shipped halfway across the world. There have been a few toes dipped into the water in the past few years. In 2017 Virgin Australia announced a trial to add SAF through Brisbane Airport’s fuel supply system. It finished up in 2018, after being used in 195 flights from Brisbane. However, since the completion of the trial, there has been no other SAF incorporated into Australia’s jet fuel supply. Despite Virgin committing to net zero emissions by 2050, there’s currently no concrete plans for SAF to be used in their planes. Instead, they are prioritising modernising planes, lowering operational efficiencies, ground emissions, waste management and expanding the carbon offsetting programs. “Virgin Australia continues to work proactively with government and industry to establish a program for the viable commercial production of sustainable aviation fuel here in Australia,” a Virgin Australia Spokesperson told Cosmos in a statement. In March this year Qantas announced a Climate Action Plan where they pledged 10% SAF by 2030, and 60% by 2050. They also invested $50 million dollars in domestic production of SAF. Currently, the only SAF being used in the Qantas fleet is from the Heathrow Airport, but they’ve agreed to purchase SAF for its operations from California from 2025. In April, the Queensland government announced the first commercial sustainable aviation fuel biorefinery in Australia, which is hoping to provide 350 million litres of sustainable aviation fuel and renewable diesel once it’s up and running. We might be waiting a while though – construction isn’t set to start until 2023, and the company behind the facility – Oceania Biofuels – has suggested that operations won’t begin until at least 2025. With the government’s 35% reduction in emissions by 2030, and net zero by 2050, working out how to create and incorporate SAFs to meet demand needs to be a priority. The previous government released a ‘bioenergy roadmap’ back in November last year, however the report has almost no commitments and limited funding for SAFs. Currently the Albanese government is still in the planning stages of creating any SAF initiatives. “The Minister for Transport has already outlined her intention to form a Jet Zero-style council to work across the aviation sector to help co-ordinate ongoing work to drive down aviation emissions,” a spokesperson for the Minister for Infrastructure and Transport, Catherine King, told Cosmos. “In addition, our upcoming Aviation White Paper will consider as a priority how to maximise the aviation sector’s contribution to achieving net zero carbon emissions, including through sustainable aviation fuel and emerging technologies. “The Minister is also establishing a unit in the department to work across government and with industry to drive down domestic transport sector emissions.” This article originally appeared on <a href="https://cosmosmagazine.com/earth/sustainable-aviation-fuels-is-australia-being-left-behind/" target="_blank" rel="noopener">cosmosmagazine.com</a> and was written by Jacinta Bowler. Image: Shutterstock

Travel Trouble

We may be underestimating just how bad carbon-belching SUVs are for the climate – and for our health

Australia’s love for fuel-hungry and fuel-inefficient SUVs is hampering our ability to bring transport emissions down. SUVs make up half of all new car sales last year, a National Transport Commission <a href="https://www.ntc.gov.au/light-vehicle-emissions-intensity-australia" target="_blank" rel="noopener">report</a> revealed this week – up from a quarter of all sales a decade ago. As a result, the carbon emitted by all new cars sold in Australia dropped only 2% in 2021, the report found. Sales of battery electric vehicles tripled last year, but still make up just 0.23% of all cars and light commercial vehicles on our roads. In internationally peer-reviewed <a href="https://www.transport-e-research.com/_files/ugd/d0bd25_5ccb87ff39e545809bd1f92872e3069a.pdf" target="_blank" rel="noopener">research</a> earlier this year, we measured the emissions of five SUVs driving around Sydney, and our findings suggest the situation may actually be worse than the new report finds. The National Transport Commission’s numbers are based on the “New European Drive Cycle” (NEDC) emissions test. Our research found the real-world emissions of SUVs are, on average, about 30% higher than the NEDC values. This means we are not reducing fleet average emissions by a few percent per year, but actually probably increasing them by a few percent every year. <h2>What the report found</h2> The transport sector is responsible for <a href="https://www.dcceew.gov.au/sites/default/files/documents/national-inventory-report-2020-volume-1.pdf" target="_blank" rel="noopener">almost 20% of Australia’s emissions</a>, ranking third behind the electricity and agriculture sector. The first year of the COVID pandemic only reduced transport carbon dioxide emissions by about 7%, compared to 2019 emission levels. Overall, Australia’s pride in carbon-belching transport is evident by the fact transport CO₂ emissions have risen 14% between 2005 and 2020. SUVs are generally larger and heavier than other passenger cars, which means they need quite a bit more energy and fuel per kilometre of driving when compared with smaller, lighter cars. Although SUV sales are <a href="https://www.theguardian.com/environment/2020/aug/03/ban-suv-adverts-to-meet-uk-climate-goals-report-urges" target="_blank" rel="noopener">rising globally</a>, the Australian fleet is unique due to its large portion of SUVs in the on-road fleet, often with four-wheel-drive capability. According to the National Transport Commission report, sales of four-wheel-drives and utes surged by more than 43,000 in 2021, while large SUV sales rose by around 25,000. <blockquote class="twitter-tweet"> Wild trend over the last decade of Australians shifting to bigger vehicles. "SUVs represented 25 per cent of total sales in 2011, they had increased to over half (53 per cent) of total sales in 2021." <a href="https://t.co/pCm0ASFYKd">pic.twitter.com/pCm0ASFYKd</a> — Michael Mazengarb (@MichaelM_ACT) <a href="https://twitter.com/MichaelM_ACT/status/1570228921081409538?ref_src=twsrc%5Etfw">September 15, 2022</a></blockquote> Rapidly shifting to electric cars is an important way to bring emissions down. But the report found in 2021, just 2.8% of Australia’s car sales were electric. Compare this to 17% in Europe, 16% in China and 5% in the United States. In Australia, there is still no option to buy an electric ute, and electric vehicles remain <a href="https://theconversation.com/why-labors-new-tax-cut-on-electric-vehicles-wont-help-you-buy-one-anytime-soon-187847" target="_blank" rel="noopener">prohibitively expensive</a>. <h2>Measuring SUV emissions in Sydney</h2> There are a <a href="https://www.transport-e-research.com/_files/ugd/d0bd25_041d08e4653743f5a4416f79fe1dbc13.pdf" target="_blank" rel="noopener">range of methods</a> scientists use to measure vehicle emissions. One popular method worldwide uses so-called “on-board portable emission monitoring systems”. These systems are effective because they enable second-by-second emissions testing under a variety of real-world driving conditions on the road. On the other hand, the New European Drive Cycle (NEDC) emissions test is conducted in the laboratory. It was also developed in the early 1970s and reflects unrealistic driving behaviour, because test facilities at the time could not deal with significant changes in speed. We fitted five SUVs with a portable emission monitoring system and drove them a little over 100 kilometres around Sydney in various situations, such as in the city and on the freeway. We then compared our measurements with the <a href="https://www.greenvehicleguide.gov.au/" target="_blank" rel="noopener">Green Vehicle Guide</a> – the national guide to vehicle fuel consumption and environmental performance, which is also based on the NEDC test. Our measurements of fuel consumption and CO₂ emissions were consistently higher. This varied from <a href="https://theconversation.com/the-road-to-new-fuel-efficiency-rules-is-filled-with-potholes-heres-how-australia-can-avoid-them-188814" target="_blank" rel="noopener">16% to 65% higher than NEDC values</a>, depending on the actual car and driving conditions. On average, real-world fuel consumption and CO₂ emissions were both 27% higher than NEDC values. Importantly, this gap has increased substantially from <a href="https://www.transport-e-research.com/_files/ugd/d0bd25_00dcaa41d8d046d3a7b84a65a2135bb7.pdf" target="_blank" rel="noopener">about 10% in 2008</a>. Indeed, <a href="https://www.transport-e-research.com/_files/ugd/d0bd25_00dcaa41d8d046d3a7b84a65a2135bb7.pdf" target="_blank" rel="noopener">previous research</a> from 2019 found fleet average greenhouse gas emissions for new Australian cars and SUVs has probably been increasing by 2-3% percent per year since 2015, rather than the reported annual reduction by, for instance, the National Transport Commission. This detailed analysis showed a sustained increase in vehicle weight and a shift to the sale of more four-wheel-drive cars (in other words, SUVs) are probably the main factors contributing to this change. <h2>More bad news for SUVs</h2> <a href="https://www.transport-e-research.com/_files/ugd/d0bd25_041d08e4653743f5a4416f79fe1dbc13.pdf" target="_blank" rel="noopener">We also recently</a> summarised the results of various emission measurement campaigns conducted in Australia and compared them with international studies. These include results from a study of vehicle emissions in a tunnel, and a study of vehicle emissions measured on the road with remote sensing. We found modern diesel SUVs and cars or diesel light commercial vehicles (such as utes) in Australia and New Zealand have relatively high emissions of nitrogen oxides and soot – both important air pollutants. <a href="https://www.mdpi.com/1660-4601/18/1/254" target="_blank" rel="noopener">Around 2,600 deaths</a> are attributed to fine-particle air pollution in Australia each year. Transport and industrial activities (such as mining) are the main sources of this. And in 2015, an <a href="https://nespurban.edu.au/wp-content/uploads/2018/11/CAULRR06_SubmissionFuelQualityStandardsAct2000_Mar2017.pdf" target="_blank" rel="noopener">estimated 1,715 deaths</a> were attributed to vehicle exhaust emissions – 42% more than the road toll that year. The <a href="https://www.transport-e-research.com/_files/ugd/d0bd25_fc46b0a0b8ec45a0ae1ab01499e145d4.pdf" target="_blank" rel="noopener">remote sensing emissions data</a> suggest 1% of one to two-year-old diesel SUVs and 2% of one-to-two year old diesel light commercial vehicles have issues with their particulate filters, leading to high soot emissions. These percentages are high when compared with a <a href="https://ee.ricardo.com/news/remote-sensing-demonstrating-diesel-particulate-f" target="_blank" rel="noopener">similar study</a> conducted in the United Kingdom, which could not find any clear evidence of filter issues. <h2>Three ways to move forward</h2> Ever increasing SUVs sales are a drag on successfully reducing Australia’s total greenhouse gas emissions. So what should we do? Of course there are several things to consider, but in terms of fuel efficiency and greenhouse gas emissions, we believe there are three main points. First, we need to make sure we have realistic fuel use and emissions data. This means the National Transport Commission and Green Vehicle Guide should stop using the NEDC values and shift to more realistic emissions data. We acknowledge this is not a simple matter and it requires a lot more testing. Second, <a href="https://www.mdpi.com/2071-1050/14/6/3444" target="_blank" rel="noopener">we need to</a> electrify transport as fast as we can, wherever we can. This is crucial, but not the whole solution. To ensure Australia meets its net-zero emissions target, we also need to seriously consider energy and fuel efficiency in transport. This could be by promoting the sales of smaller and lightweight vehicles, thereby optimising transport for energy efficiency. In all of this, it will be essential for car manufacturers to take responsibility for their increasing contributions to climate change. From this perspective, they should move away from marketing profitable fossil-fueled SUVs that clog up our roads, and instead offer and promote lighter, smaller and electric vehicles. This article originally appeared on <a href="https://theconversation.com/we-may-be-underestimating-just-how-bad-carbon-belching-suvs-are-for-the-climate-and-for-our-health-190743" target="_blank" rel="noopener">The Conversation</a>. Image: Shutterstock

Travel Trouble

Labor’s climate change bill is set to become law – but 3 important measures are missing

Labor’s climate change bill was <a href="https://www.afr.com/policy/energy-and-climate/climate-bill-all-but-certain-after-pocock-reiterates-support-20220906-p5bftz" target="_blank" rel="noopener">poised</a> to pass the Senate after the government agreed to <a href="https://www.davidpocock.com.au/climate_bills_and_jobs_skills_consultation" target="_blank" rel="noopener">amendments</a> proposed by independent senator David Pocock to improve accountability and transparency. <a href="https://www.aph.gov.au/Parliamentary_Business/Bills_Legislation/Bills_Search_Results/Result?bId=r6885" target="_blank" rel="noopener">The law</a> would set a national emissions target for 2030 and define a process to ratchet it up over time, as well as enshrining the goal of net-zero emissions by 2050. The independent <a href="https://www.climatechangeauthority.gov.au/" target="_blank" rel="noopener">Climate Change Authority</a> will recommend future targets. These are sound and useful elements and will serve Australia’s climate policymaking well. Yet three important elements are not in the bill: a long-term roadmap, securing the future of the Climate Change Authority, and measures for a proper national conversation on our journey to net-zero emissions. And the 43% emissions reduction target should be considered only a starting point. <h2>Is 43% emissions reduction enough?</h2> The bill mandates that Australia reduce its greenhouse gas emissions by 43% by 2030, compared to 2005 levels. Labor took that target to the federal election and has been unwilling to negotiate on it since winning office. <div data-id="17"> </div> Is a 43% reduction in Australia’s emissions adequate in the context of the Paris Agreement? There is no single objective yardstick for which country should do how much towards a global goal. And the trajectory of global emissions after 2030 – as well as before – matters greatly for longer-term global warming. But an assessment is nevertheless possible, and it suggests that strengthening the target, perhaps by a lot, would be appropriate. Emissions reductions <a href="https://www.ipcc.ch/site/assets/uploads/2022/04/IPCC_AR6_WGIII_PressRelease_English.pdf" target="_blank" rel="noopener">in this broad range</a> are what’s needed globally to limit warming to 2℃ compared to pre-industrial levels. But high-income, high-emitting countries – Australia prominent among them – are rightfully expected to reduce their carbon footprint more quickly than developing countries, or countries where the economy is already relatively low-carbon. What’s more, the effort needed by Australia to meet the 43% target is less than that required by many other countries. This is due to <a href="https://www.dcceew.gov.au/climate-change/publications/australias-emissions-projections-2021" target="_blank" rel="noopener">reductions</a> in emissions from the land use and forestry sector more than a decade ago, and because we have <a href="https://ideas.repec.org/p/een/camaaa/2021-78.html" target="_blank" rel="noopener">lots of opportunities</a> to cut emissions easily. <a href="https://ccep.crawford.anu.edu.au/sites/default/files/uploads/ccep_crawford_anu_edu_au/2021-10/afr_energy-climate_keynote_jotzo_oct2021.pdf" target="_blank" rel="noopener">Big further reductions</a> can be made by accelerating the shift from coal to renewables, better energy efficiency, electrifying transport, and cleaner processes in industry and agriculture. An Australian reduction of the present order is definitely incompatible with limiting global warming to 1.5℃ – the global aspiration for limiting climate change. And it would be a contortion to argue it’s somehow in line with “well below 2℃”, the Paris Agreement’s <a href="https://www.climatecollege.unimelb.edu.au/files/site1/docs/%5Bmi7%3Ami7uid%5D/ClimateTargetsPanelReport.pdf" target="_blank" rel="noopener">long-term goal</a>. All that said, a 43% emission reduction target improves a lot on the previous government’s target. And enshrining it in law sends an important message. It makes zero-emissions options much more investable, and signals internationally that Australia is back on climate change action. <h2>A trajectory to net-zero</h2> Attention will soon shift to Australia’s 2035 emissions target. The bill commits the <a href="https://www.climatechangeauthority.gov.au/" target="_blank" rel="noopener">Climate Change Authority</a> to recommend that target, and new targets every five years from then on. If the government of the day does not accept that advice, it will need to explain its dissent to parliament. That is good process. But Australia also needs to plot a forward trajectory beyond the next five-year period, because the investments that matter most are made on longer timescales. Such “roadmapping” would shed light on questions such as: <ul> <li> what are the indicative targets for 2040 and beyond, on the way to net-zero emissions? </li> <li> what might be the balance between remaining greenhouse gas emissions and removing emissions from the atmosphere, whether through forests and land-based carbon, or technological solutions? </li> </ul> The Climate Change Authority may choose to do such an analysis, mapping out scenarios and possible trajectories. But such advice would have stronger standing if there was a legal requirement for it. <h2>Securing the Climate Change Authority</h2> The bill puts the Climate Change Authority centre stage, but it doesn’t make sure it will always be properly equipped to do its job. A future government might not like to hear a strong independent voice, and could quieten it by starving it. It’s happened before, following the Abbott government’s attempt to <a href="https://www.theguardian.com/environment/2014/dec/08/abbott-government-accused-of-trying-to-set-up-climate-change-talks-for-failure" target="_blank" rel="noopener">abolish</a> the authority. The Climate Change Authority needs to run a deeply inclusive and very extensive consultation process for future recommendations on the target. Not just roundtables and submissions to a website, but a really big effort to take the analysis to groups right across Australian society and take their views into account. Let’s hope this and future governments will give their political backing for an inclusive process, and fund the authority to do so. <h2>A proper national conversation</h2> In any case, Australia needs a national long-term emissions reduction strategy. It should answer questions such as: <ul> <li> what will the shift to net-zero emissions mean for our economy, both nationally and regionally? </li> <li> what needs to be done to prepare for the changes, maximise the upsides and deal with the downsides? </li> </ul> Such a strategy must be much more than just another report based on modelling with some stakeholder discussions along the way. What’s needed is a proper national conversation about how we tackle the transition to net-zero emissions. This would bring out all available information and the many different perspectives, opportunities and vulnerabilities. It requires people coming together to really understand the issues and, where possible, to forge agreement. That conversation should involve all major groups: businesses and business associations, non-government organisations, unions, community leaders, youth groups and so forth. The research sector would provide data and analysis, and the media would make the debate a public one, in many formats and dimensions. Governments at all levels would be involved – but they would not control the process. Some political instincts run against such truly open processes. But they’re essential – and the climate change bill doesn’t directly provide for them. This article originally appeared on <a href="https://theconversation.com/labors-climate-change-bill-is-set-to-become-law-but-3-important-measures-are-missing-190102" target="_blank" rel="noopener">The Conversation</a>. Image: Shutterstock

Legal

Warming oceans may force New Zealand’s sperm and blue whales to shift to cooler southern waters

The world’s oceans are absorbing more than <a href="https://www.un.org/en/climatechange/science/climate-issues/ocean-impacts" target="_blank" rel="noopener">90% of the excess heat and energy</a> generated by rising greenhouse gas emissions. But, as the oceans keep warming, rising sea temperatures generate unprecedented cascading effects that include the melting of polar ice, rising seas, marine heatwaves and ocean acidification. This in turn has profound impacts on marine biodiversity and the lives and livelihoods of coastal communities, especially in island nations such as New Zealand. In our latest <a href="https://www.sciencedirect.com/science/article/pii/S1470160X22007075?via%3Dihub" target="_blank" rel="noopener">research</a>, we focused on great whales – sperm and blue whales in particular. They are crucial for maintaining healthy marine ecosystems, but have limited options to respond to climate change: either adapt, die, or move to stay within optimal habitats. We used mathematical models to predict how they are likely to respond to warming seas by the end of the century. Our results show a clear southward shift for both species, mostly driven by rising temperatures at the sea surface. <h2>Computing the fate of whales</h2> Data on the local abundance of both whales species are <a href="https://www.int-res.com/abstracts/meps/v690/p201-217/" target="_blank" rel="noopener">deficient</a>, but modelling provides a powerful tool to predict how their range is likely to shift. We used a <a href="http://macroecointern.dk/pdf-reprints/AraujoNew2007.pdf" target="_blank" rel="noopener">combination of mathematical models</a> (known as correlative species distribution models) to predict the future range shifts of these whale species as a response to three future climate change scenarios of differing severity, as outlined by the Intergovernmental Panel on Climate Change (<a href="https://www.ipcc.ch/" target="_blank" rel="noopener">IPCC</a>). We applied these models, using the whales’ present distributions, to build a set of environmental “rules” that dictate where each species can live. Using climate-dependent data such as sea-surface temperature and chlorophyll A (a measure of phytoplankton growth), as well as static data such as water depth and distance to shore, we applied these rules to forecast future habitat suitability. We chose a scenario of “<a href="https://www.nature.com/articles/d41586-020-00177-3" target="_blank" rel="noopener">modest</a>” response to cutting greenhouse gas emissions (the IPCC’s mitigation strategy RCP4.5), which is the most likely given the current policies, and a worst-case scenario (no policy to cut emissions, RCP8.5), assuming the reality will likely be somewhere between the two. Our projections suggest current habitats in the ocean around the North Island may become unsuitable if sea-surface temperatures continue to rise. These range shifts become even stronger with increasing severity of climate change. For sperm whales, which are currently abundant off Kaikōura where they support eco-tourism businesses, the predicted distribution changes are even more evident than for blue whales, depending on the climate change scenario. While our results do not predict an overall reduction in suitable habitat that would lead to local extinctions, the latitudinal range shifts are nevertheless bound to have important ecological consequences for New Zealand’s marine ecosystems and the people who depend on them. <h2>How whales maintain ecosystems</h2> Great whales are marine ecosystem engineers. They modify their habitats (or create new ones), to suit their needs. In fact, these activities create conditions that other species rely on to survive. They engineer their environment on several fronts. By feeding in one place and releasing their faeces in another, whales convey minerals and other nutrients such as nitrogen and iron from the deep water to the surface, as well as across regions. This process, known as a “<a href="https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0013255" target="_blank" rel="noopener">whale pump</a>”, makes these nutrients available for phytoplankton and other organisms to grow. This is very important because phytoplankton contributes about <a href="https://education.nationalgeographic.org/resource/plankton-revealed" target="_blank" rel="noopener">half of all oxygen to the atmosphere</a> and also captures <a href="https://www.imf.org/Publications/fandd/issues/2019/12/natures-solution-to-climate-change-chami" target="_blank" rel="noopener">about 40% of all released carbon dioxide</a>. By helping the growth of phytoplankton, whales indirectly contribute to the <a href="https://theconversation.com/tiny-plankton-drive-processes-in-the-ocean-that-capture-twice-as-much-carbon-as-scientists-thought-136599" target="_blank" rel="noopener">natural ocean carbon sink</a>. On top of this, each great whale accumulates about <a href="https://www.arcticwwf.org/the-circle/stories/protecting-the-earth-by-protecting-whales/" target="_blank" rel="noopener">33 tonnes of carbon dioxide in their body</a>, which they take to the ocean floor when they die and their carcass sinks. Ultimately, the impact of warming oceans on whale distribution is an additional stress factor on ecosystems already under pressure from wider threats, including acidification, pollution and over-exploitation. <h2>A way forward to help whales</h2> Sperm whales are the largest toothed whales (odontocetes) and deep-diving apex predators. They primarily feed on squid and fish that live near the bottom of the sea. Blue whales are baleen whales (mysticetes) and filter small organisms from the water. They feed at the surface on zooplankton, particularly dense krill schools along coastlines where cold water from the deep ocean rises toward the surface (so-called <a href="https://oceanservice.noaa.gov/facts/upwelling.html" target="_blank" rel="noopener">upwelling areas</a>). These differences in feeding habits lead to divergent responses to ocean warming. Blue whales show a more distinct southerly shift than sperm whales, particularly in the worst-case scenario, likely because they feed at the surface where ocean warming will be more exacerbated than in the deep sea. Both species have important foraging grounds off New Zealand which may be compromised in the future. Sperm whales are currently occurring regularly off Kaikōura, while blue whales forage in the South Taranaki Bight. Despite these ecological differences, our results show that some future suitable areas around the South Island and offshore islands are common to both species. These regions could be considered sanctuaries for both species to retreat to or expand their habitat in a warming world. This should warrant <a href="https://environment.govt.nz/assets/Publications/Files/Environmental-Report-Card-Marine-Areas-with-Legal-protection_0.pdf" target="_blank" rel="noopener">increased protection of these areas</a>. This article originally appeared on <a href="https://theconversation.com/warming-oceans-may-force-new-zealands-sperm-and-blue-whales-to-shift-to-cooler-southern-waters-188522" target="_blank" rel="noopener">The Conversation</a>. Image: Shutterstock

Travel Trouble

Supermarket delivery by robot better for the climate

Along with their <a href="https://twitter.com/historymatt/status/1525776275939418113" target="_blank" rel="noreferrer noopener">cult following on social media</a>, autonomous delivery robots travelling on footpaths could be the most climate-friendly way to do your grocery shopping. Around the world, <a href="https://cosmosmagazine.com/people/will-covid-19-change-our-cities/" target="_blank" rel="noreferrer noopener">COVID-19 has seen a change</a> in the way people shop for groceries. Instead of driving to the supermarket more people are ordering online for pick-up or home delivery, and even in some places, delivery <a href="https://cosmosmagazine.com/technology/robotics/drone-delivery-groceries-canberra/" target="_blank" rel="noreferrer noopener">by drone</a> or robot. In the United States supermarket home delivery services grew 54% between 2019 and 2020. In Australia, Woolworths and Coles experienced <a href="https://theconversation.com/coles-and-woolworths-are-moving-to-robot-warehouses-and-on-demand-labour-as-home-deliveries-soar-166556" target="_blank" rel="noreferrer noopener">unprecedented demand.</a> The rapid growth in e-commerce has seen an increased focus on the greenhouse gas emissions associated with the <a href="https://cosmosmagazine.com/earth/sustainability/to-help-the-environment-should-you-shop-in-store-or-online/" target="_blank" rel="noreferrer noopener">‘last-mile’ delivery</a>. A study by University of Michigan researchers and the Ford Motor Co modelled the emissions associated with the journey of a 36-item grocery basket from shop to home via a number of alternative transport options. Their study is <a href="https://pubs.acs.org/doi/pdf/10.1021/acs.est.2c02050" target="_blank" rel="noreferrer noopener">published</a> in the journal Environmental Science & Technology. “This research lays the groundwork for understanding the impact of e-commerce on greenhouse gas emissions produced by the grocery supply chain,” says the study’s senior author Greg Keoleian<a href="https://seas.umich.edu/research/faculty/greg-keoleian" target="_blank" rel="noopener">,</a> director of the Centre for Sustainable Systems at University of Michigan School for Environment and Sustainability. The researchers modelled 72 different ways the groceries could travel from the warehouse to the customer. Across all options, the results showed ‘last-mile’ transport emissions to be the major source of <a href="https://cosmosmagazine.com/earth/food-transport-emissions-cost/">supply chain emissions</a>. <div class="newsletter-box"> <div id="wpcf7-f6-p201307-o1" class="wpcf7" dir="ltr" lang="en-US" role="form"> <form class="wpcf7-form mailchimp-ext-0.5.62 spai-bg-prepared init" action="/earth/climate/robot-delivery-better-for-the-climate/#wpcf7-f6-p201307-o1" method="post" novalidate="novalidate" data-status="init"> <input class="wpcf7-form-control wpcf7-text referer-page" name="referer-page" type="hidden" value="https://cosmosmagazine.com/" data-value="https://cosmosmagazine.com/" aria-invalid="false" /> </form> </div> </div> They found the conventional option of driving to the supermarket in a petrol or diesel car to be the most polluting, creating six kilograms of carbon dioxide (CO2). All other choices had lower emissions, with footpath delivery robots the cleanest for the climate, at one kg CO2. A customer who switched to an electric vehicle could halve their emissions. But they could achieve a similar impact on emissions by reducing their shopping frequency. Without buying a new car, households who halved the frequency of supermarket trips reduced emissions by 44%. Keoleian says the study emphasises the “important role consumers can serve in reducing emissions through the use of trip chaining and by making carefully planned grocery orders.” Trip chaining refers to combining grocery shopping with other errands. All home delivery options had lower emissions than in-store shopping – in part due to the efficiencies gained in store operation and transport – with the potential to cut emissions by 22 – 65%. Footpath robots are being trialled in cities across the United States, Europe and China. These four or six wheeled robots carry items like supermarket shopping or retail items over short distances. Most have a delivery range around three kilometres. <figure class="wp-block-embed is-type-rich is-provider-twitter wp-block-embed-twitter"> <div class="wp-block-embed__wrapper"> <div class="entry-content-asset"> <div class="embed-wrapper"> <div class="inner"> <div class="twitter-tweet twitter-tweet-rendered spai-bg-prepared" style="display: flex; max-width: 500px; width: 100%; margin-top: 10px; margin-bottom: 10px;"><iframe id="twitter-widget-0" class="spai-bg-prepared" style="position: static; visibility: visible; width: 500px; height: 612px; display: block; flex-grow: 1;" title="Twitter Tweet" src="https://platform.twitter.com/embed/Tweet.html?creatorScreenName=CosmosMagazine&dnt=true&embedId=twitter-widget-0&features=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%3D%3D&frame=false&hideCard=false&hideThread=false&id=1525776275939418113&lang=en&origin=https%3A%2F%2Fcosmosmagazine.com%2Fearth%2Fclimate%2Frobot-delivery-better-for-the-climate%2F&sessionId=84ec360f0f0db6f38136f997db6585736d09d60a&siteScreenName=CosmosMagazine&theme=light&widgetsVersion=b7df0f50e1ec1%3A1659558317797&width=500px" frameborder="0" scrolling="no" allowfullscreen="allowfullscreen" data-tweet-id="1525776275939418113"></iframe></div> </div> </div> </div> </div> </figure> <a>Starship robots</a> is one example. Since launching in 2014, their robots have completed three million autonomous home deliveries in cities across Estonia, the United Kingdom, Finland and the United States.  <img id="cosmos-post-tracker" style="opacity: 0; height: 1px!important; width: 1px!important; border: 0!important; position: absolute!important; z-index: -1!important;" src="https://syndication.cosmosmagazine.com/?id=201307&title=Supermarket+delivery+by+robot+better+for+the+climate" width="1" height="1" />  <div id="contributors"> <a href="https://cosmosmagazine.com/earth/climate/robot-delivery-better-for-the-climate/" target="_blank" rel="noopener">This article</a> was originally published on <a href="https://cosmosmagazine.com" target="_blank" rel="noopener">Cosmos Magazine</a> and was written by <a href="https://cosmosmagazine.com/contributor/petra-stock" target="_blank" rel="noopener">Petra Stock</a>. Petra Stock has a degree in environmental engineering and a Masters in Journalism from University of Melbourne. She has previously worked as a climate and energy analyst. Image: Getty Images </div>

Technology

Supervolcanoes: deadly for life, deadly for climate

A collaboration of Australian and Swedish scientists has found that current carbon dioxide (CO2) emission rates are 200 times that of even the most catastrophic ancient supervolcano event. Known as the ‘Great Dying’, that event about 252 million years ago wiped out at least 90% of the species on Earth, and 96% of marine animals. But not all supervolcanic events are linked to mass extinctions. Recent research led by Dr Qiang Jiang, then at Curtin University’s School of Earth and Planetary Sciences, Australia, indicates that some past supervolcanic events involved a slower rate of release of CO2 or less CO2 overall, or both, and that this was unrelated to the size of the eruption. To investigate these ideas, Jiang and team looked at the two largest supervolcanic regions of the past 540 million years – approximately the time at which complex life forms emerged on Earth. The largest, the Ontang Java province, is now split into three pieces around New Zealand and the Solomon Islands, explains Dr Hugo Olierook, study co-author and Research Fellow of Geology at Curtin, with most of it underwater or inaccessible. So the team turned its attention to the second-largest volcanic province, known as the Kerguelen large volcanic province – a body of solidified lava that’s three times the size of France in the southern Indian Ocean. The researchers dated samples collected from Kerguelen using Argon-Argon dating, which indicated an age of around 120 million years. “The new age data revealed that the Kerguelen eruptions were, in fact, active right across the global oceanic anoxic event 120 million years ago,” says Professor Fred Jourdan, Director of the Western Australian Argon Isotope Facility at Curtin. “But while they may have rapidly degraded the environment for marine organisms, it did not lead to a deadly mass extinction.” Armed with powerful microscopes and lasers, the team then looked deep inside the basalt samples for tiny (10-micron diameter) frozen magma blobs known as inclusions and measured the pockets of volatiles – molecules that become gasses easily (water, CO2 and hydrogen sulphide, for instance) – released from the magma blob as it solidified and shrank. When compared to similar gas studies of supervolcanoes associated with mass-extinction events, Jiang and team found that the Kerguelen province emitted at least five times less CO2 and at a rate 30 times slower than volcanic eruptions that wiped out entire life forms. Out of the big five extinction events since animals arose, four have been attributable to supervolcanoes, which deplete oceans of oxygen and cause global climate change on time scales too small for evolutionary adaption of many land and marine animals. Earth does have mechanisms through which carbon is drawn down into oceans, rocks and soils, explains Olierook. “Shells incorporate carbon into their structure, and oceans themselves draw down carbon into ocean beds, but this happens on the order of a few hundreds of thousands of years.” When the rates of CO2 emissions far outpace the drawdown cycle – such as during CO2-rich supervolcanic events, then the balance is upset. So, why are some supervolcanoes rich in CO2? There are a few likely reasons. When hot magma rises to the surface, it can interact with the rock layers it cuts through. In the case of CO2-rich supervolcanoes, Olierook says that the magma has intruded through “organic rich sedimentary basins, heating them up and turning to a sort of peat and coal, the kind of material that easily becomes CO2”. In the case of the two largest supervolcanoes, they “sat in the middle of the ocean. So, there was no really big amount of organic-rich material there,” he says. There is also the possibility that the rising magma itself is carbon-rich – something Olierook hopes to research further in the future. Finally, the research team compared the current rates of CO2 emission with those during the supervolcanic events that resulted in catastrophic mass extinctions. “Alarmingly our calculations also show that we are now currently emitting carbon dioxide 200 times faster than those supervolcanic eruptions that caused the most severe mass extinctions,” says Olierook. While this sounds like bad news all around, it also contains a faint glimmer of hope. “If we’re able to slow down our CO2 emissions now, we will actually see the effects of slowing it down now,” says Olierook. “We are certainly not at the point of having the highest ever CO2 in our atmosphere, yet – there was far more CO2 in the atmosphere, say 100 million years ago. “So, if we can focus on slowing the rate of CO2 emissions down, we could get to a level where our planet can cope with the emitted CO2.” This article originally appeared on <a href="https://cosmosmagazine.com/earth/supervolcanoes-deadly-life-and-climate/" target="_blank" rel="noopener">cosmosmagazine.com</a> and was written by Clare Kenyon. Image: Shutterstock

Travel Trouble

Travelling around the globe might not have to cost the Earth

The last time you booked a flight online, you may have been offered the chance to ‘offset’ the carbon produced by your travel. This is due in part to recognition that the aviation industry is responsible for around 5% of human-made emissions resulting in climate change. The efforts by this sector to respond to its environmental impact can range from switching fuels (from coal to biomass, for instance), more efficient combustion processes (by improving aircraft engines, for example), protecting forests or promoting sustainable development in local communities. Now, in a potentially ground-breaking innovation for long-haul flights, a team of researchers at the Swiss Federal Institute of Technology, Zürisch (ETH Zurich) have developed an all-in-one solar-powered tower that’s able to use energy from the Sun’s rays to convert water and carbon dioxide into synthetic fuels. Think: water + carbon dioxide = energy. Sound familiar? Well, it should. It’s what many plants do to make energy for themselves. The ETH Zurich process has a lot in common, really, explains Dr Jessica Allen, a chemical engineer and renewable energy technologies expert at the University of Newcastle. Although in this case, “industrial photosynthesis might be a better term as this particular process doesn’t involve any physiological mechanisms like plants and living material”, says Allen. The proof-of-concept solar tower consists of 169 Sun-tracking panels that reflect and concentrate sunlight into a tower-top solar reactor. Here, energy from the Sun’s rays meets a combination of water, carbon dioxide and a special structure made of ceria (cerium oxide), which is porous and “acts like a filter network, undergoing many reduction-oxidation (also known as redox) reactions”, says Allen. These reaction cycles produce syngas (synthesis gas), which is then converted to liquid fuels such as diesel and kerosene (which is used as jet fuel for long-haul flights) via a well-established process known as the Fischer-Tropsch reaction, which typically occurs in the presence of metal catalysts, temperatures of 150–300°C and pressures of several tens of atmospheres. Much work remains to translate the process to industrial scale. Currently, the energy efficiency of the process is only at 4%, meaning that out of 100 parts of energy available, only four parts are captured in the process. This is something the researchers are keen to push up towards around 15%. According to Allen, that’s still at the low end of the energy efficiency of current solar-to-electricity and solar-to-thermal energy generation. She says that efficiency is crucial when it comes to systems that use land area for solar collection (such as solar panels and the ETH Zurich tower’s reflectors): “A low efficiency will mean a large land area to generate the required fuel.” Where the CO2 comes from is also very important. At present, it’s injected into the system, but the next obvious step is to start capturing it directly from the air. At that point the fuel production process might be considered carbon neutral, as the amount of CO2 captured from the air is the same as the amount released during fuel combustion. Direct-from-air carbon dioxide capture comes at a cost, though. “There is a fairly major energy penalty for doing direct air capture, because it’s quite hard to filter out carbon dioxide from the rest of the gasses,” says Allen. Then there’s the carbon footprint related to the manufacture and production of equipment and materials, but Allen urges a long-term outlook: “In the system that we’re in at the moment there will be an emission penalty for the materials, however, in the long term, we’ll eventually be manufacturing these things using zero emission approaches.” This will make the whole process – and not just the fuel itself – carbon neutral. The average fuel consumption of a Boeing 747 (which are still used as long-haul cargo transport today) is around 4L per second. For a flight of 10 hours, this equates to 144,000L of fuel. In the future, EHT Zurich researchers will work to increase the system’s energy efficiency to 15%, capture more heat in the process and improve the ceria structures in the reactor in addition to capturing CO2 directly from the air. Their long-term aim is to scale the process to an industrial size – in which enough fuel can be produced to truly fly us into a carbon-neutral aviation future. This article originally appeared on <a href="https://cosmosmagazine.com/science/carbon-neutral-travel-wont-cost-earth/" target="_blank" rel="noopener">cosmosmagazine.com</a> and was written by Clare Kenyon. Image: Shutterstock

Travel Trouble

Tragic reason family of six almost killed themselves

A family of six have been hospitalised after receiving a near-fatal dose of carbon monoxide. Emergency services were called to a home in the Sydney suburb of Merrylands on Tuesday after reports one of the family members had fallen ill. It quickly became apparent to paramedics that the those inside, a family and friends consisting of four adults and two boys, were suffering from <a href="https://oversixty.com.au/property/home-hints-tips/carbon-monoxide-what-is-it-and-why-is-it-deadly" target="_blank" rel="noopener">carbon monoxide poisoning</a> after they all showed signs of drowsiness and nausea and were rushed to hospital. The family are believed to have been using a charcoal cooker to help heat their home, and had fallen asleep with it still burning. "Thankfully one person was aware enough to call Triple-0, preventing a potential tragedy," NSW Ambulance Inspector Andrew McApline said. Fire and Rescue NSW later shared a photo of the barbecue used inside the home and urged people not to rely on these appliances as indoor heaters. "Never bring outdoor heaters or cookers inside and never rely on charcoal beads for heating in confined spaces," it said. This comes just weeks after NSW Health issued a warning about the dangers of potential carbon monoxide poisoning during an especially cold winter. “Burning charcoal, BBQ coal outdoor heaters, and portable backup generators (indoors) are some of the biggest concerns,” Dr Richard Broome, Director of Environmental Health at NSW Health, said. Victoria’s former Director of Energy Safety, Paul Fearon, branded carbon monoxide the "silent killer" following a spate of poisonings. Dr Christine Cowie, a Senior Research Fellow at the University of NSW’s Centre for Air Quality and Health Research and Evaluation, told <a href="https://au.news.yahoo.com/silent-killer-carbon-monoxide-hospitalises-six-in-sydney-poisoning-014841958.html" target="_blank" rel="noopener">Yahoo News</a> that there is "no advanced warning" for poisonings due to carbon monoxide's odourless gas. When the gas does take control of the body, symptoms, such as headaches, tiredness and vomiting, are often confused with the flu, Dr Cowie explained, which can in turn prove fatal if not acted on immediately. Image credits: Nine News

Caring

Carbon monoxide: what is it and why is it deadly?

Many of us are familiar with the typical results of burning fuels such as coal, natural gas and oil. The reaction produces heat which we harness to warm our homes, heat water and cook food, power vehicles and generate electricity. Combustion also produces gases, most obviously carbon dioxide. This is produced when the carbon, locked away in the petrol, gas or wood, reacts with oxygen in the air. We can’t see or smell carbon dioxide – it’s non-toxic and is unreactive – so most of the time as it drifts away into the air around us and we don’t give it a moment’s thought. But carbon dioxide isn’t the only gas that results from burning of fuels. Carbon monoxide can also be produced. This too is invisible, tasteless and odourless. Unlike its chemical cousin, though, carbon monoxide is extremely poisonous. The difference between the two gases is small but very significant. Carbon dioxide has a central carbon atom flanked by two oxygens, hence the “di” (meaning two) in the name, and the chemical formula CO₂. It is a very stable molecule because the carbon atom has fully reacted with the oxygens, leaving it with no potential to form bonds with anything else. Carbon monoxide consists of a carbon and a single oxygen (hence the “mono” in the name and the formula CO). As a result the carbon is still able to react with other molecules. This reactivity is the root of its poisonous nature. <h2>Carbon monoxide poisoning</h2> Carbon monoxide poisoning results from the way it interacts with proteins that carry oxygen around your body. Normally haemoglobin in your blood binds oxygen as it passes through your lungs and then releases it where it is needed in the various organs of your body. Carbon monoxide also binds to haemoglobin, and it sticks over 200 times stronger than oxygen. This means it blocks the haemoglobin’s ability to bind oxygen and limits the body’s ability to move oxygen around the body. The early symptoms of carbon monoxide poisoning include headaches or dizziness, breathlessness, nausea, tiredness, chest and stomach pains and visual problems. These are quite general and are easily confused with viral infections, food poisoning or just being tired. So low level poisoning is often overlooked. Higher doses result in loss of consciousness, long term heart and brain damage and death. So how can we avoid being poisoned by this gas? Carbon monoxide is produced at high levels when fuels aren’t burnt correctly. This frequently occurs when wood, coal and charcoal fires are left to smoulder, or petrol, gas and kerosene appliances (such as boilers and space heaters) are not maintained properly. This is especially dangerous if generators, charcoal burners or barbecues are used in confined and poorly ventilated spaces such as tents and bars which allow CO to build up in the space with deadly consequences. Early <a href="https://ewn.co.za/2022/06/30/carbon-monoxide-may-have-caused-enyobeni-tavern-deaths-paul-o-sullivan">media</a> reports suggest that carbon monoxide caused the deaths of <a href="https://www.news24.com/citypress/news/enyobeni-tavern-tragedy-what-we-know-so-far-20220627">21 young people</a> at a tavern (club) in South Africa’s Eastern Cape province in June. However, officials are still investigating and are yet to confirm the cause of these tragic deaths. <h2>Keeping safe</h2> Carbon monoxide poisoning is deadly, but it can also be easily avoided. Maintenance: Make sure your vehicles, boilers, chimneys, generators and space heaters are inspected and maintained by a qualified technician at least once a year. During the rest of the year, check that gas flames are blue and not yellow or orange. And look out for soot around appliances and pilot lights that go out frequently. Ventilation: Never use camp stoves, barbecues or charcoal heaters indoors or in tents. Only ever use petrol and diesel generators outdoors and well away from open windows and doors. Never use gas space heaters while you are sleeping, and only ever use them in well ventilated spaces. Never leave a vehicle running in a garage. Monitoring: Buy carbon monoxide monitors and install them near boilers, fireplaces and anywhere where you might use an indoor space heater. Seek treatment: If you think you or anyone near you is suffering from carbon monoxide poisoning then seek medical treatment. Image credits: Getty Images This article originally appeared on <a href="https://theconversation.com/carbon-monoxide-what-is-it-and-why-is-it-deadly-186949" target="_blank" rel="noopener">The Conversation</a>.

Home Hints & Tips

Keen to retrofit your home to lower its carbon footprint and save energy? Consider these 3 things

If you’re anything like me, you’re increasingly <a href="https://www.abc.net.au/news/2021-09-16/work-from-home-productivity-commission-study/100465258" target="_blank" rel="noopener">working from home</a>, one that was built before energy efficiency measures were introduced in Australia. With temperatures along the east coast plunging and <a href="https://theconversation.com/why-did-gas-prices-go-from-10-a-gigajoule-to-800-a-gigajoule-an-expert-on-the-energy-crisis-engulfing-australia-184304" target="_blank" rel="noopener">power bills skyrocketing</a>, heating (and cooling) our homes is an energy intensive, expensive affair. Almost <a href="https://www.abc.net.au/news/2021-11-04/energy-efficiency-carbon-offset-homes-sharehouse-rentals/100590596" target="_blank" rel="noopener">8 million homes</a> across Australia lack sufficient insulation, use sub-par heating and cooling equipment, or are badly designed. Indeed, these 8 million pre-energy rated homes <a href="http://www.powerhousingaustralia.com.au/resources/" target="_blank" rel="noopener">account for 18% of Australia’s greenhouse gas emissions</a>. And <a href="https://theconversation.com/if-youre-renting-chances-are-your-home-is-cold-with-power-prices-soaring-heres-what-you-can-do-to-keep-warm-184472" target="_blank" rel="noopener">research finds</a> 26% of Australians across all housing types can’t stay warm at least half of the time during winter. Retrofitting this housing stock to be more energy efficient is essential to successfully meet Australia’s target of cutting emissions 43% by 2030, while finding comfort in our future of intensifying climate extremes. <blockquote class="twitter-tweet"> A take-away from the current energy supply squeeze: energy efficiency pays. Whether retrofit or new build, do it to high standards and reap the benefits. Also, we need proper minimum standards in buildings and fleet wide emissions standards for vehicles. — Frank Jotzo (@frankjotzo) <a href="https://twitter.com/frankjotzo/status/1536988473495736320?ref_src=twsrc%5Etfw">June 15, 2022</a></blockquote> My <a href="https://www.intechopen.com/chapters/79914" target="_blank" rel="noopener">research into net-zero emissions retrofitting</a> identifies three broad categories that must be considered when retrofitting existing homes to be more climate friendly: <ol> <li> <a href="https://multicomfort.saint-gobain.co.uk/recommended-level-of-light-into-a-building/" target="_blank" rel="noopener">visual comfort</a>: the sufficient quality, quantity and distribution of light </li> <li> <a href="http://www.greeneducationfoundation.org/green-building-program-sub/learn-about-green-building/1239-thermal-comfort.html" target="_blank" rel="noopener">thermal comfort</a>: determined by the temperature, humidity, air flow and a person’s physical condition </li> <li> energy consumption: the amount of energy we use, and the <a href="https://www.yourhome.gov.au/materials/embodied-energy" target="_blank" rel="noopener">energy used</a> in manufacturing, transporting, constructing, maintaining, and removal of materials to build our homes. </li> </ol> 1. Visual comfort It’s vital to understand how much sunlight the outside and interior of your home is exposed to. One can, accordingly, re-organise interior functions based on the demand for lighting, heating or cooling needs. During summer, spaces used often during the day, such as your home office, could benefit from being in places that receive less direct sunlight, so are cooler. In winter, consider moving your home office set up to a room with higher levels of direct sunlight, where it’s warmer. This will naturally reduce the amount of energy needed to cool or heat these rooms while allowing for comfortable working conditions. Other ways we can find more visual comfort include modifying the size of windows and skylights to let in more sunlight. To diffuse harsh lighting, consider <a href="https://www.geelongaustralia.com.au/common/public/documents/8d37431053e9065-Imap%202-1%20Sunshading.pdf" target="_blank" rel="noopener">adding screens, sun baffles, overhangs, or pergolas</a> over windows. You can also replace your lights with LEDs equipped with linear controllers and motion sensors in places where lights tend to be left on. <a href="https://www.energy.gov.au/households/lighting#:%7E:text=LEDs%20are%20better%20value%20for,bulbs%20ending%20up%20in%20landfill." target="_blank" rel="noopener">LEDs use around 75% less energy than halogen light bulbs</a>. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=400&fit=crop&dpr=1 600w, https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=400&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=400&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=503&fit=crop&dpr=1 754w, https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=503&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/469149/original/file-20220616-11-lzxmcp.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=503&fit=crop&dpr=3 2262w" alt="" /></a><figcaption>Moving your home office to rooms with more sunshine can help you save energy in winter. Unsplash, <a class="license" href="http://creativecommons.org/licenses/by/4.0/" target="_blank" rel="noopener">CC BY</a></figcaption></figure> 2. Thermal comfort Older Australian homes are <a href="https://blog.csiro.au/draught-proof-house/" target="_blank" rel="noopener">incredibly draughty</a>, and a lot of the energy we spend cooling or heating our homes escapes outside due to poor insulation. Retrofitting to improve your home’s natural ventilation can reduce the number of times you need to switch on the heater or air conditioner. <a href="https://www.greenbuilding.org.au/Articles/Sealing-Building-Envelope.htm" target="_blank" rel="noopener">Sealing outside and internal surfaces</a> until they’re airtight is crucial. <a href="https://build.com.au/how-improve-your-homes-insulation" target="_blank" rel="noopener">Different surfaces</a> – whether walls, floors or ceilings – require different methods, types and thicknesses of insulation. Walls, for instance, require a “blow-in” method. This can involve installing cellulose foam or <a href="https://build.com.au/glass-wool-insulation" target="_blank" rel="noopener">glasswool</a> (made from fibreglass) into the wall, via a <a href="https://build.com.au/wall-insulation" target="_blank" rel="noopener">small hole through the wall cavities</a> (for cellulose foam) or laying glasswool batts in wall cavities. Floors, on the other hand, can require insulation panels fitted between timber or steel supports or foam boards. <a href="https://zeroenergyproject.org/build/twelve-steps-affordable-zero-energy-home-construction-design/super-insulate-net-zero-building-envelope/" target="_blank" rel="noopener">Also important</a> is to choose materials and methods that maximise insulation while minimising thermal bridging. A <a href="https://blog.passivehouse-international.org/what-is-a-thermal-bridge/" target="_blank" rel="noopener">thermal bridge</a> is a weak point where heat is lost, such as wall intersections, connecting points of mounting brackets, and even penetration points of electric cables. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=450&fit=crop&dpr=1 600w, https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=450&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=450&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=566&fit=crop&dpr=1 754w, https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=566&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/469147/original/file-20220616-21-adexyd.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=566&fit=crop&dpr=3 2262w" alt="" /></a><figcaption>Insulating the walls is crucial to stabilise temperatures inside. Shutterstock</figcaption></figure> Between <a href="https://blog.csiro.au/renovating-or-retrofitting/" target="_blank" rel="noopener">ten and 35%</a> of the energy we spend cooling or heating our homes escapes through single glazed windows and doors. Installing double or triple glazed windows and doors will go a long way to keep temperatures more stable inside. It’s worth noting the <a href="https://build.com.au/window-energy-rating-scheme" target="_blank" rel="noopener">energy performance rating systems</a> on measurement labels, which are often attached to window and door units you can buy in stores. Ultimately, a combination of improved natural ventilation and mechanical ventilation (such as air conditioners as fans) can result in considerable energy savings – <a href="https://thefifthestate.com.au/articles/making-the-building-do-the-work-natural-ventilation-design/" target="_blank" rel="noopener">up to 79%</a> in some instances. 3. Energy consumption While the above strategies will result in significant energy savings, it’s also vital to consider the energy required to produce and manufacture <a href="https://www.pembina.org/pub/embodied-carbon-retrofits" target="_blank" rel="noopener">retrofitting materials</a>. Consider using salvaged or recycled materials where possible, or choosing locally made products which avoid emissions associated with transport. Effectively installing solar panels can offset this “hidden” carbon. Let’s say you’ve done all you can to lower your home’s carbon footprint – you’ve rolled out insulation, installed double glazed windows and made the most of sunshine. You can then calculate the energy you still use to heat or cool your home. This number will determine how many rooftop solar panels you should install to break even, rather than simply installing as many panels that can fit. This will not only save you money, but also minimise waste. Researchers estimate that by 2047, Australia will accumulate <a href="https://theconversation.com/stop-removing-your-solar-panels-early-please-its-creating-a-huge-waste-problem-for-australia-160546" target="_blank" rel="noopener">1 million tonnes</a> of solar panel waste. It’s worth opting for solar panels with micro-inverters, which capture optimal energy performance per panel while allowing you to add more panels in future if needed. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" sizes="(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px" srcset="https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=400&fit=crop&dpr=1 600w, https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=400&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=400&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=503&fit=crop&dpr=1 754w, https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=503&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/469146/original/file-20220616-11210-4f8kun.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=503&fit=crop&dpr=3 2262w" alt="" /></a><figcaption>Solar panels can offset some of the carbon associated with manufacturing the materials you’ve purchased. Shutterstock</figcaption></figure> Another option is to use <a href="https://www.radiantheatingandcooling.com.au/geothermal-or-air-source-heat-pumps/" target="_blank" rel="noopener">air-source heat pumps</a>, which absorb heat from outside and bring it inside (like a reverse air conditioner). These can take the form of mini-split heat pumps for individual rooms, or multi-zone installations. They can sense indoor temperature, and operate at variable speeds and heating or cooling intensity, which means their energy performance is very efficient. My <a href="https://www.intechopen.com/chapters/79914" target="_blank" rel="noopener">research</a> finds well-planned use of such systems can reduce the energy used for heating by 69% and cooling by 38%. It’s well worth the effort These retrofitting ideas might seem expensive, or take too much time. However, they’ll often save you money in the long run as energy prices become increasingly uncertain. You can look to <a href="https://www.everybuildingcounts.com.au/?__hstc=213300875.d01baaf20feef1321eed69f68f6b9ce7.1644286749265.1644286749265.1644286749265.1&__hssc=213300875.1.1644286749266&__hsfp=475898586" target="_blank" rel="noopener">Every Building Counts</a>, an initiative by the <a href="https://new.gbca.org.au/" target="_blank" rel="noopener">Green Building Council</a> and the <a href="https://www.propertycouncil.com.au/" target="_blank" rel="noopener">Property Council of Australia</a>, which provides practical plans for emission reduction. Australia can also learn from ongoing efforts by the <a href="https://energiesprong.org/?country=the-netherlands" target="_blank" rel="noopener">Energiesprong network</a> in the Netherlands. This network is industrialising energy efficiency with <a href="https://energiesprong.org/this-dutch-construction-innovation-shows-its-possible-to-quickly-retrofit-every-building/" target="_blank" rel="noopener">prefabricated retrofitting building elements</a>. Some initiatives include lightweight insulated panels that can simply be placed in front of existing walls of homes. These panels are precisely fitted after carefully laser scanning a facade and robotically cutting openings to match existing homes. Harnessing contemporary technology is vital for a speedy net-zero transition.<img style="border: none !important; box-shadow: none !important; margin: 0 !important; max-height: 1px !important; max-width: 1px !important; min-height: 1px !important; min-width: 1px !important; opacity: 0 !important; outline: none !important; padding: 0 !important;" src="https://counter.theconversation.com/content/175921/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/nimish-biloria-772399" target="_blank" rel="noopener">Nimish Biloria</a>, Associate Professor of Architecture, <a href="https://theconversation.com/institutions/university-of-technology-sydney-936" target="_blank" rel="noopener">University of Technology Sydney</a> This article is republished from <a href="https://theconversation.com" target="_blank" rel="noopener">The Conversation</a> under a Creative Commons license. Read the <a href="https://theconversation.com/keen-to-retrofit-your-home-to-lower-its-carbon-footprint-and-save-energy-consider-these-3-things-175921" target="_blank" rel="noopener">original article</a>. Image: Getty Images

Home Hints & Tips

Here are the most effective things you can do to fight climate change

Limiting global warming to 1.5℃ above pre-industrial levels requires reaching <a href="https://theconversation.com/net-zero-carbon-neutral-carbon-negative-confused-by-all-the-carbon-jargon-then-read-this-151382">net zero</a> emissions by the middle of this century. This means that, in less than three decades, we need to reverse more than a century of rising emissions and bring annual emissions down to near zero, while balancing out all remaining <a href="https://www.cdp.net/en/articles/climate/how-can-companies-handle-so-called-residual-emissions">unavoidable emissions</a> by actively removing carbon from the atmosphere. To help speed this process as individuals, we’ve got to do everything we can to cut down our use of fossil fuels. But many people <a href="https://www.ipsos.com/en/ipsos-perils-perception-climate-change">aren’t aware</a> of the most effective ways to do this. Thankfully, the <a href="https://theconversation.com/five-key-points-in-the-ipcc-report-on-climate-change-impacts-and-adaptation-178195">latest report</a> by the UN climate change panel <a href="https://www.ipcc.ch/">IPCC</a> devotes a chapter to all the ways in which changes in people’s behaviour can accelerate the transition to net zero. The chapter includes an analysis of 60 individual actions which can help fight climate change, building on <a href="https://environment.leeds.ac.uk/faculty/news/article/5471/global-study-uncovers-best-ways-to-change-consumption-to-cut-carbon-footprint">research</a> led by Diana Ivanova at the University of Leeds – and to which I contributed. We grouped these actions into three areas: avoiding consumption, shifting consumption and improving consumption (making it more efficient). <h2>What to avoid</h2> By far the most effective things to avoid involve transport. Living <a href="https://theconversation.com/car-ownership-is-likely-to-become-a-thing-of-the-past-and-so-could-public-transport-110550">without a car</a>reduces greenhouse gas emissions by an average of 2 tonnes of CO₂ emissions per person per year, while avoiding a single long distance return flight cuts emissions by an average of 1.9 tonnes. That’s equivalent to driving a <a href="https://www.eea.europa.eu/ims/co2-performance-of-new-passenger">typical EU car</a> more than 16,000km from <a href="https://www.google.com/maps/dir/Hamburg/Ulaanbaatar,+Mongolia/@50.3406451,40.6332697,4z/data=!3m1!4b1!4m14!4m13!1m5!1m1!1s0x47b161837e1813b9:0x4263df27bd63aa0!2m2!1d9.9936819!2d53.5510846!1m5!1m1!1s0x5d96925be2b18aab:0xe606927864a1847f!2m2!1d106.9057439!2d47.8863988!3e0">Hamburg, Germany to Ulaanbaatar, Mongolia</a> and back. Since the vast majority of the world’s population do not fly at all – and of those who do, only a <a href="https://www.businesstraveller.com/business-travel/2021/03/31/majority-of-flights-taken-by-a-small-percentage-of-flyers/">small percentage</a> fly frequently – fliers can make very substantial reductions to their carbon footprints with each flight they avoid. <h2>What to shift</h2> But living sustainably is not just about giving things up. Large reductions in emissions can be achieved by shifting to a different way of doing things. Because driving is so polluting, for example, shifting to <a href="https://theconversation.com/12-best-ways-to-get-cars-out-of-cities-ranked-by-new-research-180642">public transport</a>, walking or cycling can make an enormous change, with <a href="https://theconversation.com/we-transformed-a-london-borough-into-a-game-to-get-fewer-people-travelling-by-car-heres-what-happened-171035">added benefits</a> for your personal health and local air pollution levels. Likewise, because of the high emissions associated with <a href="https://theconversation.com/meat-eating-is-a-big-climate-issue-but-isnt-getting-the-attention-it-deserves-170855">meat and dairy</a> – particularly those produced by farming sheep and cows – shifting towards more sustainable diets can substantially reduce your carbon footprint. A <a href="https://www.independent.co.uk/life-style/health-and-families/veganism-environmental-impact-planet-reduced-plant-based-diet-humans-study-a8378631.html">totally vegan diet</a> is the most effective way to do this, but sizeable savings can be made simply by <a href="https://theconversation.com/five-ways-the-meat-on-your-plate-is-killing-the-planet-76128">switching</a> from beef and lamb to pork and chicken. <h2>What to improve</h2> Finally, the things we do already could be made more efficient by improving <a href="https://theconversation.com/oceans-and-their-largest-inhabitants-could-be-the-key-to-storing-our-carbon-emissions-180901">carbon</a> efficiency at home: for example by using insulation and <a href="https://theconversation.com/no-space-for-a-heat-pump-heres-how-your-whole-street-could-get-off-gas-heating-180005">heat pumps</a>, or producing your own renewable energy by installing <a href="https://theconversation.com/solar-panels-on-half-the-worlds-roofs-could-meet-its-entire-electricity-demand-new-research-169302">solar panels</a>. Switching from a combustion car to an electric one – ideally a battery EV, which generates <a href="https://www.energy.gov/sites/default/files/2014/03/f9/thomas_fcev_vs_battery_evs.pdf">much larger reductions</a> in emissions than hybrid or fuel cell EVs – will make your car journeys more efficient. Plus, its effect on emissions will increase as time goes by and the amount of electricity generated by renewables grows. In the race to net zero, <a href="https://theconversation.com/climate-breakdown-even-if-we-miss-the-1-5-c-target-we-must-still-fight-to-prevent-every-single-increment-of-warming-178581">every tonne of CO₂</a> really does count. If more of us take even a few of these suggestions into account, we’re collectively more likely to be able to achieve the ambitious goals set out in the <a href="https://theconversation.com/the-paris-agreement-is-working-as-intended-but-weve-still-got-a-long-way-to-go-173478">Paris climate agreement</a>. Of course, these changes will need to be backed by major political action on sustainability at the same time. If we’re to use less fossil fuel energy, the use of fossil fuels needs to be either restricted or made more expensive. The social consequences of this need to be carefully managed so that <a href="https://carbonpricingdashboard.worldbank.org/what-carbon-pricing">carbon pricing schemes</a> can benefit people on lower incomes: which can happen if <a href="https://www.mcc-berlin.net/en/research/policy-briefs/taxreform.html">revenues are redistributed</a> to take the financial burden off poorer households. But there’s a whole lot more that governments could do to help people to live more sustainably, such as providing better, safer public transport and “<a href="https://theconversation.com/from-walking-to-cycling-how-we-get-around-a-city-is-a-gender-equality-issue-new-research-175014">active travel</a>” infrastructure (such as bike lanes and pedestrian zones) so that people have alternatives to driving and flying. There’s no avoiding the fact that if political solutions are to address climate change with the urgency our global situation requires, these solutions will limit the extent to which we can indulge in carbon-intensive behaviours. More than anything, we must vote into power those prepared to make such tough decisions for the sake of our planet’s future. Image credits: Getty Images This article originally appeared on <a href="https://theconversation.com/here-are-the-most-effective-things-you-can-do-to-fight-climate-change-183555" target="_blank" rel="noopener">The Conversation</a>.

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Here are the most effective things you can do to fight climate change

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Politicians slam Albanese's "hypocritical" private jet use

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Here are the most effective things you can do to fight climate change

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