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3 key differences between an ocean and river cruise

People often have a personal preference when it comes to ocean cruises or river cruises, so if you’re not sure what to go for, it’s best to know how they really differ before booking your next trip. Here are the three key differences between an ocean and river cruise. 1. Cost River cruises are initially more expensive, and travellers can expect the price to be from $200-500 per person per night. Ocean ships can cost less than $100 per night if you get a good deal. However, once onboard your ocean cruise there will be a likelihood that you splurge on extra costs such as drinks, tours and souvenirs. 2. Inclusions Only the most upmarket ocean cruises are all-inclusive but on an ocean cruise if you want mealtime alcohol, Wi-Fi and other extras, you will be expected to pay up. All these extras are included in river-cruise fares and sometimes airport transfers are included too. River cruises require you to pay a heftier sum upon booking but if you are going on an ocean cruise, be sure to keep track of your spending. 3. Ship amenities On river cruises, expect your onboard entertainment to be a massage room, fitness room or hot tub as most of the focus is on the destination. However, ocean cruises are lined with Broadway-styled shows, casinos, kids’ clubs, water parks, spas and various pools. If you prefer a quiet, intimate setting then river cruises would suit your desires but if you want a wide-range of entertainment, ocean cruises are for you. Image credits: Shutterstock

Cruising

"Go back to your ocean": Olympic medallist insulted by French customs officer

An Aussie Olympic medallist was caught off guard upon his return home to Brisbane, when he was called out by a French customs officer. Jack Robinson, who won silver in the surfing competition in Tahiti as part of the Paris Games, was returning to Aussie shores with his medal in tow and happy with his Olympic performance. However, when he was greeted by a customs officer who happened to be French, things took a turn. The Frenchman took the opportunity to stick it to the Aussie Olympic runner up, relishing the fact that Kauli Vaast, from France, had won gold in the comp. Taking to TikTok to share the hilarious encounter with his followers, Mr Robinson said: "what are the odds of being welcomed like this?" <div class="embed" style="font-size: 16px; box-sizing: inherit; margin: 0px; padding: 0px; border: 0px; vertical-align: baseline; outline: currentcolor !important;"><iframe class="embedly-embed" style="box-sizing: inherit; margin: 0px; padding: 0px; border-width: 0px; border-style: none; vertical-align: baseline; width: 600px; max-width: 100%; outline: currentcolor !important;" title="tiktok embed" src="https://cdn.embedly.com/widgets/media.html?src=https%3A%2F%2Fwww.tiktok.com%2Fembed%2Fv2%2F7400700745911225618&display_name=tiktok&url=https%3A%2F%2Fwww.tiktok.com%2F%40jackrobinsonsurf%2Fvideo%2F7400700745911225618%3Fembed_source%3D121374463%252C121451205%252C121439635%252C121433650%252C121404359%252C121351166%252C121331973%252C120811592%252C120810756%253Bnull%253Bembed_masking%26refer%3Dembed%26referer_url%3Dwww.escape.com.au%252Fnews%252Faussie-silver-medal-surfer-jack-robinson-brutally-burned-by-french-customs-officer%252Fnews-story%252F48306be5756c2cf2d353787e823bf812%26referer_video_id%3D7400700745911225618&image=https%3A%2F%2Fp16-sign-sg.tiktokcdn.com%2Fobj%2Ftos-alisg-p-0037%2F99adeff03a574c23861d622aa90e9b89_1723109925%3Flk3s%3Db59d6b55%26nonce%3D74009%26refresh_token%3Db5b746d3b3a1eb36e30b00a6f4cd678d%26x-expires%3D1723780800%26x-signature%3Dh7x7Li%252B%252BEw4xdRkWkw2PKU3jkNQ%253D%26shp%3Db59d6b55%26shcp%3D-&key=59e3ae3acaa649a5a98672932445e203&type=text%2Fhtml&schema=tiktok" width="340" height="700" frameborder="0" scrolling="no" allowfullscreen="allowfullscreen"></iframe></div> "Yeah ze French guy in the Australian customs. So on my way back from Tahiti I arrive from ze flight and I get ze dec-er-al-ation, I come to ze customs, the guy looks at me and says 'Ey, better luck next time zon, go back to your ocean.'" Despite the customs officer's remarks, many Aussies praised Robinson's performance in Tahiti, as fans hailed his "amazing efforts". His TikTok was flooded with comments, with many saying they believed that the officer "did not mean it badly", as Robinson confirmed he had taken the jibe in his stride. Others said the Frenchman could "go back to his 'La Seine'", while others remarked, "Bro the French are cocky asf, you did good man" and "Why the French so smug? That's a Tahitian gold, not a 'French' one." Image credits: TikTok

Travel Trouble

Disaster, opulence, and the merciless ocean: why the Titanic disaster continues to enthral

<a href="https://theconversation.com/profiles/kristie-patricia-flannery-1220337">Kristie Patricia Flannery</a>, <a href="https://theconversation.com/institutions/australian-catholic-university-747">Australian Catholic University</a> The question on many minds this week is why did some of the world’s richest men risk death to venture to the bottom of the sea in a cold and cramped <a href="https://www.nytimes.com/2023/06/20/us/oceangate-titanic-missing-submersible.html">“experimental” submersible</a> for a chance to glimpse the wreck of the Titanic? The “unsinkable” ship that sunk on its maiden voyage across the Atlantic in 1912 after colliding with an iceberg is arguably the world’s most well-known boat. The Titanic is recognisable to more of the world’s population than, say, the Niña, the Pinta, and the Santa Maria (Christopher Colombus’s fleet that launched the Spanish conquest of the Americas), or Captain Cook’s HMS Endeavour (the tall ship that set in motion the British conquest of Australia). The Endeavour’s long-forgotten wreck was found scuttled off the coast of Rhode Island <a href="https://theconversation.com/has-captain-cooks-ship-endeavour-been-found-debate-rages-but-heres-whats-usually-involved-in-identifying-a-shipwreck-176363">just last year</a>. The Titanic’s maiden voyage and calamitous end was one of the biggest news stories of 1912, and has continued to fascinate us ever since. The disaster inspired songs and multiple films in the twentieth century, including James Cameron’s 1997 epic romance, which long reigned as the <a href="https://en.wikipedia.org/wiki/List_of_highest-grossing_films#Timeline_of_highest-grossing_films">highest-grossing film of all time</a>. More recently, Titanic exhibitions that invite visitors to examine relics and <a href="https://titanicexhibition.com/nyc/#sec_instafeed">explore the ship’s recreated rooms have attracted huge crowds in New York, Seville and Hong Kong</a>. <h2>Opulence and immigrants</h2> There are two reasons why we are so drawn to the Titanic, and why the super-rich are apparently willing to part with their money and even risk their lives to catch a glimpse of its broken hull. The first is its opulence. The White Start Line that built the Titanic advertised the ship as the most luxurious ever to set sail. Wealthy passengers paid up to £870 for the privilege of occupying the Titanic’s most expensive and spacious first-class cabins. To put this 110-year-old money in perspective, when the first world war broke out in 1914, infantry soldiers in the British army were paid a basic salary of around £20 per year. Titanic movies and exhibitions are popular because audiences enjoy the voyeurism of gazing on the ship’s beautiful furnishings, the stunning clothes worn by its rich and beautiful passengers, and their elaborate meals in fancy restaurants. First-class passengers feasted on <a href="https://online.ucpress.edu/gastronomica/article-abstract/9/4/32/93511/The-Night-the-Good-Ship-Went-Down-Three-Fateful">multi-course dinners</a> with salmon, steak, and pâté de foie gras. Chefs in Australia and around the globe occasionally <a href="https://www.timeout.com/melbourne/things-to-do/titanic-dining-experience">recreate Titanic meals</a> for curious clients. Hundreds of poor immigrant passengers, represented by Jack (played by Leonardo DiCaprio) in Cameron’s movie, were also aboard the Titanic. They lived in crowded quarters and enjoyed less thrilling meals such as boiled beef and potatoes. If their ilk were the only people on board the Titanic, the ship would arguably have faded quickly from memory. <figure><iframe src="https://www.youtube.com/embed/erAQ9LkftwA?wmode=transparent&start=0" width="440" height="260" frameborder="0" allowfullscreen="allowfullscreen"></iframe></figure> <h2>The power of the sea</h2> The fact the Titanic was touted as unsinkable also adds to its allure. The ship, whose name evoked its massive size, was engineered to cheat the ocean. When it departed England it symbolised man’s domination over nature. At the bottom of the Atlantic, it serves as a visceral reminder of the indomitable sea’s awesome power. The same two factors - the excess of the voyage, and its defeat by the sea – are now driving the current global interest in the Titan submersible disaster. Few world events garner so much attention, including statements from Downing Street and the White House, and live news blogs from The New York Times and the Guardian. The Titan, like the Titanic, commands our attention because of its obscenely rich passengers, who each reportedly paid US$250,000 (or between four and five times the average US salary) to visit the wreck of the famous ship that battled the sea and lost. And then there is the intriguing mystery and power of the sea. News outlets are publishing helpful graphics that try to teach our terrestrial brains to comprehend just how deep the ocean is, and how far below the sea’s surface the Titanic and possibly the Titan lie. <h2>The limits of human knowledge</h2> Last night I spied <a href="https://neal.fun/deep-sea/">Neal Argawal’s Deep Sea</a> website circulating on social media. The site allows viewers to scroll from the sea surface to the sea floor, diving down past images of various marine animals that inhabit different oceanic depths. At 114 metres is an orca, and 332m marks the the deepest depth a human has ever reached using SCUBA gear. It takes a lot of scrolling to descend to the Titanic almost 4,000m below the waves. Besides gross income inequality, reflecting on the Titan and the Titanic invite us to confront just how little we can “see” of the sea in this age of mass surveillance. Not even the powerful US navy, assisted by the Canadian, UK and French governments, can muster the resources and technology required to locate, let alone rescue, the missing submersible. As the sea seems to have swallowed yet another ship, we are reminded of limits of human knowledge and mastery over the ocean.<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/208200/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/kristie-patricia-flannery-1220337">Kristie Patricia Flannery</a>, Research Fellow, Institute for Humanities and Social Sciences, <a href="https://theconversation.com/institutions/australian-catholic-university-747">Australian Catholic 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/disaster-opulence-and-the-merciless-ocean-why-the-titanic-disaster-continues-to-enthral-208200">original article</a>.

Travel Trouble

Arctic Ocean could be ice-free in summer by 2030s, say scientists – this would have global, damaging and dangerous consequences

<a href="https://theconversation.com/profiles/jonathan-bamber-102567">Jonathan Bamber</a>, <a href="https://theconversation.com/institutions/university-of-bristol-1211">University of Bristol</a> The Arctic Ocean could be ice-free in summer by the 2030s, even if we do a good job of reducing emissions between now and then. That’s the worrying conclusion of a new study in <a href="https://www.nature.com/articles/s41467-023-38511-8">Nature Communications</a>. Predictions of an ice-free Arctic Ocean have a long and complicated history, and the 2030s is sooner than most scientists had thought possible (though it is later than some had wrongly forecast). What we know for sure is the disappearance of sea ice at the top of the world would not only be an emblematic sign of climate breakdown, but it would have global, damaging and dangerous consequences. The Arctic has been experiencing climate heating <a href="https://theconversation.com/arctic-is-warming-nearly-four-times-faster-than-the-rest-of-the-world-new-research-188474">faster than any other part of the planet</a>. As it is at the frontline of climate change, the eyes of many scientists and local indigenous people have been on the sea ice that covers much of the Arctic Ocean in winter. This thin film of frozen seawater expands and contracts with the seasons, reaching a minimum area in September each year. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?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/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=184&fit=crop&dpr=1 600w, https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=184&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=184&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=232&fit=crop&dpr=1 754w, https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=232&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/530136/original/file-20230605-19-mdh85y.gif?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=232&fit=crop&dpr=3 2262w" alt="Animation of Arctic sea ice from space" /></a><figcaption>Arctic sea ice grows until March and then shrinks until September. <a class="source" href="https://www.nasa.gov/feature/esnt/2022/nasa-finds-2022-arctic-winter-sea-ice-10th-lowest-on-record">NASA</a></figcaption></figure> The ice which remains at the end of summer is called multiyear sea ice and is considerably thicker than its seasonal counterpart. It acts as barrier to the transfer of both moisture and heat between the ocean and atmosphere. Over the past 40 years this multiyear sea ice has shrunk from around <a href="http://polarportal.dk/en/sea-ice-and-icebergs/sea-ice-extent0/">7 million sq km to 4 million</a>. That is a loss equivalent to roughly the size of India or 12 UKs. In other words, it’s a big signal, one of the most stark and dramatic signs of fundamental change to the climate system anywhere in the world. As a consequence, there has been considerable effort invested in determining when the Arctic Ocean might first become ice-free in summer, sometimes called a “blue ocean event” and defined as when the sea ice area drops below 1 million sq kms. This threshold is used mainly because older, thicker ice along parts of Canada and northern Greenland is expected to remain long after the rest of the Arctic Ocean is ice-free. We can’t put an exact date on the last blue ocean event, but one in the near future would likely mean open water at the North Pole for the first time in <a href="https://www.nature.com/articles/nature10581">thousands of years</a>. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.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/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=712&fit=crop&dpr=1 600w, https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=712&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=712&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=895&fit=crop&dpr=1 754w, https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=895&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/530138/original/file-20230605-29-9uuhxu.png?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=895&fit=crop&dpr=3 2262w" alt="Annotated map of Arctic" /></a><figcaption>The thickest ice (highlighted in pink) is likely to remain even if the North Pole is ice-free. <a class="source" href="https://nsidc.org/arcticseaicenews/2015/05/new-tools-for-sea-ice-thickness/">NERC Center for Polar Observation and Modelling</a>, <a class="license" href="http://creativecommons.org/licenses/by-sa/4.0/">CC BY-SA</a></figcaption></figure> One problem with predicting when this might occur is that sea ice is notoriously difficult to model because it is influenced by both atmospheric and oceanic circulation as well as the flow of heat between these two parts of the climate system. That means that the climate models – powerful computer programs used to simulate the environment – need to get all of these components right to be able to accurately predict changes in sea ice extent. <h2>Melting faster than models predicted</h2> Back in the 2000s, an assessment of early generations of climate models found they generally <a href="https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2007GL029703">underpredicted the loss of sea ice</a> when compared to satellite data showing what actually happened. The models predicted a loss of about 2.5% per decade, while the observations were closer to 8%. The next generation of models did better but were <a href="https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2012GL052676">still not matching observations</a> which, at that time were suggesting a blue ocean event would happen by mid-century. Indeed, the latest <a href="https://www.ipcc.ch/report/sixth-assessment-report-working-group-i/">IPCC climate science report</a>, published in 2021, reaches a similar conclusion about the timing of an ice-free Arctic Ocean. As a consequence of the problems with the climate models, some scientists have attempted to extrapolate the observational record resulting in the controversial and, ultimately, incorrect assertion that this would happen <a href="https://www.theguardian.com/environment/2016/aug/21/arctic-will-be-ice-free-in-summer-next-year">during the mid 2010s</a>. This did not help the credibility of the scientific community and its ability to make reliable projections. <h2>Ice-free by 2030?</h2> The scientists behind the latest study have taken a different approach by, in effect, calibrating the models with the observations and then using this calibrated solution to project sea ice decline. This makes a lot of sense, because it reduces the effect of small biases in the climate models that can in turn bias the sea ice projections. They call these “observationally constrained” projections and find that the Arctic could become ice-free in summer as early as 2030, even if we do a good job of reducing emissions between now and then. <figure class="align-center zoomable"><a href="https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.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/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=600&h=394&fit=crop&dpr=1 600w, https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=600&h=394&fit=crop&dpr=2 1200w, https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=600&h=394&fit=crop&dpr=3 1800w, https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&h=495&fit=crop&dpr=1 754w, https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=30&auto=format&w=754&h=495&fit=crop&dpr=2 1508w, https://images.theconversation.com/files/530365/original/file-20230606-21-usmovg.jpg?ixlib=rb-1.1.0&q=15&auto=format&w=754&h=495&fit=crop&dpr=3 2262w" alt="Walruses on ice floe" /></a><figcaption>Walruses depend on sea ice. As it melts, they’re being forced onto land. outdoorsman / shutterstock</figcaption></figure> There is still plenty of uncertainty around the exact date – about <a href="https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2016GL070067">20 years or so</a> – because of natural chaotic fluctuations in the climate system. But compared to previous research, the new study still brings forward the most likely timing of a blue ocean event by about a decade. <h2>Why this matters</h2> You might be asking the question: so what? Other than some polar bears not being able to hunt in the same way, why does it matter? Perhaps there are even benefits as the previous US secretary of state, Mike Pompeo, <a href="https://edition.cnn.com/2019/05/06/politics/pompeo-sea-ice-arctic-council/index.html">once declared</a> – it means ships from Asia can potentially save around 3,000 miles of journey to European ports in summer at least. But Arctic sea ice is an important component of the climate system. As it dramatically reduces the amount of sunlight absorbed by the ocean, removing this ice is predicted to further accelerate warming, through a process known as a positive feedback. This, in turn, will make the Greenland ice sheet <a href="https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2014GL059770">melt faster</a>, which is already a major contributor to <a href="https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2021RG000757">sea level rise</a>. The loss of sea ice in summer would also mean changes in <a href="https://www.ipcc.ch/report/ar6/wg2/chapter/ccp6/">atmospheric circulation and storm tracks</a>, and fundamental shifts in ocean biological activity. These are just some of the <a href="https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2021RG000757">highly undesirable consequences</a> and it is fair to say that the disadvantages will far outweigh the slender benefits. <a href="https://theconversation.com/profiles/jonathan-bamber-102567">Jonathan Bamber</a>, Professor of Physical Geography, <a href="https://theconversation.com/institutions/university-of-bristol-1211">University of Bristol</a> 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/arctic-ocean-could-be-ice-free-in-summer-by-2030s-say-scientists-this-would-have-global-damaging-and-dangerous-consequences-206974">original article</a>. Images: Getty

Travel Trouble

13 fascinating facts about the world’s oceans

The reason it’s blue The ‘deep blue sea’ – and our ‘blue planet’ along with it! – owe their iconic colour to the light of the sun. When the sun shines on the ocean, the water absorbs the longer red and orange wavelengths of light while reflecting blue light back. This will only happen, though, with a large amount of water; the more water you have, the bluer it is. This is why the water you drink out of a glass doesn’t appear ocean-blue. This process of light absorption and reflection is also the reason the sky is blue – but the blue colour of the ocean is not because it’s reflecting the colour of the sky, as many people believe. The ocean is full of gold The phrase ‘liquid gold’ was never so applicable. Believe it or not, every drop of ocean water contains a teeny-tiny bit of real gold. It’s such an inconsequential amount that you’re not going to get rich by scooping up seawater – there are about 13 billionths of a gram of gold in every litre of seawater. But when you consider just how much ocean water there is on the entire planet, that does add up to a lot of gold. About 20 million tonnes of it, to be specific! Considering that that amount would be worth hundreds of trillions of dollars, the ocean’s hidden gold is truly an unattainable fortune. It comprises 99 per cent of the planet’s habitable space Wait, what happened to only 70 per cent? Well, there’s a difference between the amount of the Earth’s surface covered by ocean (that’s 70 per cent) and the total amount of space. With the depths of the oceans taken into account, the ocean comprises a whopping 99 per cent of all habitable space on the planet. Despite all that open space, though, the ocean isn’t as populated as the land is, in part because the deepest parts of the ocean are inhospitable to all but a few life forms. Someone once free dived 253 metres into the ocean Compared to the actual deepest point of the ocean (the Mariana Trench stretches down nearly 11 kilometres), 253 metres may not seem that deep. But when you consider that this intrepid diver was accompanied only by a wetsuit, a weighted sled and an air balloon to help him float back to the top – without even scuba gear – his accomplishment seems a lot more noteworthy. It’s the deepest part of the ocean ever reached by a free-diving human (as opposed to a human inside a machine). The diver, Herbert Nitsch, completed his historic feat in 2012, and he currently holds 33 separate world records in free diving. Through rigorous training, he’s been able to increase his lung capacity to more than twice the usual amount of air. The pressure at the bottom of the ocean is extreme… …it’s like being-crushed-under-a-pile-of-elephants extreme. At the bottom of the Mariana Trench, the pressure is about eight tonnes per 6.5 square centimetres, the equivalent of about 100 fully grown elephants. It’s so intense that, while we do have machines capable of withstanding it, equipment has simply imploded under that amount of pressure. It helps power the internet The next time you’re watching a funny cat video or enjoying a Netflix binge, make sure you thank the ocean. The vast majority of the cables that power the internet, allowing access to it across the entire globe, are underwater. Wires called ‘submarine communications cables’ crisscross the ocean floors and were put in place by boats built solely for that purpose. To ensure that the cables remain undisturbed, they have to be placed on relatively flat stretches of the ocean floor, away from ocean ecosystems or shipwrecks. Some of the cables even have a coating that protects them from being damaged, should a hungry shark come across them. The biggest waterfall in the world is underwater… It might seem counter-intuitive to think that there are bodies of water within the oceans, but it’s true! Deep within the ocean, caverns and fissures on the ocean floor form when water oozes through the layers of salt beneath it. This water, filled with dissolved salt, is denser than the water around it and settles into the fissures. It’s this type of dense water that forms the Denmark Strait, a massive cascade of water that plummets 3500 metres. This is because the colder water of the strait sinks when it collides with the less dense water around it. …and so is the world’s tallest mountain (partly, at least) With 70 per cent of Earth’s surface covered by oceans, it makes sense. But that doesn’t make it any less mind-boggling to learn that in Hawaii, there is a mountain that would make Mount Everest look like a bunny hill if they were side-by-side. Mauna Kea is half under the water and half above it, and, from top to bottom, it stretches a whopping 10,000 metres. That’s more than a kilometre taller than Mount Everest! We consider Mount Everest the tallest mountain because it reaches the highest distance above sea level, but in terms of height from top to bottom, this half-submerged Hawaiian volcano is the champion. There’s a spot in the Pacific where you’re closer to space than anywhere on Earth This unique spot, the furthest on the entire planet from land, goes by the name ‘the oceanic pole of inaccessibility’, or, more concisely, ‘Point Nemo’. We know what you’re thinking – its name does not come from a cartoon fish but from the hero of 20,000 Leagues Under the Sea. It’s located smack in the southern Pacific Ocean, and you’d have to travel 1600 kilometres from even the closest points of land to reach it. Those points of land are Motu Nui, far off the western coast of Chile; Ducie Island, one of the Pitcairn Islands between South America and Australia; and Maher Island, off the coast of Antarctica. And it’s at least 1600 kilometres from each of them. That’s so far that the closest people to Point Nemo are often up in space! The International Space Station orbits just 400 kilometres above Earth’s surface. Now that gives ‘finding Nemo’ a whole new meaning. Most of Earth’s oxygen comes from the oceans And no, it’s not the ‘O’ of H2O. When it comes to ocean facts, most people don’t know about 70 per cent of our planet’s entire supply of oxygen is a waste product created by marine-dwelling plankton. These minuscule creatures take in carbon dioxide and produce oxygen during photosynthesis, and this oxygen plays a vital role in the life of every oxygen-breathing creature on the planet. According to National Geographic, one type of plankton called Prochlorococcus produces so much oxygen that it’s most likely responsible for one of every five breaths we take. No one knows for sure what made this mysterious undersea noise In 1997, the National Oceanic and Atmospheric Administration detected a mysterious undersea sound – incredibly loud and at a very low frequency – and puzzled for years over its origin. <a href="https://www.youtube.com/watch?v=ZA2wY5-yiGY">Take a listen here</a>. It may sound a little bit like your stomach when you’re hungry, but scientists have theorised that everything from a massive marine animal to a shifting iceberg is responsible. Icebergs cracking and shifting on the ocean floor produce a similar sound, so that’s the most likely explanation, but there’s no definite answer yet as to what it is. A rubber duck accident helped researchers understand ocean currents We’re used to ‘spills’ in the ocean having disastrous effects, but this one proved to be something of a happy accident. In 1992, a crate of bath toys on its way from China to the United States broke, spilling thousands of rubber ducks and other floating toys into the Pacific. Oceanographers seized the opportunity to learn more about the movements of the ocean. Oceanographer Curtis Ebbesmeyer headed up the research efforts, asking beachgoers all over the world to report sightings of the ducks and their floating friends. The ducks travelled far and wide, ending up everywhere from Europe to Alaska to Hawaii and continuing to be spotted well into the 2000s. The fleet of toys became affectionately known as ‘the Friendly Floatees’. Antarctic-dwelling fish have a protein that keeps them from freezing Unsurprisingly, the water around the poles can get pretty chilly. Yet there are still plenty of fish that make their home there. A group of fish called notothenioidei comprises over 120 species all native to the Southern Ocean near Antarctica. The water in that area hovers around temperatures of -2° and 10° Celsius. Even when it’s technically below freezing, the dissolved salts in the seawater keep it from doing so. But how does marine life possibly stay alive there? Well, these fish have a biological component called a glycoprotein that allows them to live where they do; it acts as a natural antifreeze, essentially. The protein prevents ice crystals from forming in their blood, allowing it to flow normally. Written by Meghan Jones. This article first appeared in <a href="https://www.readersdigest.com.au/true-stories-lifestyle/science-technology/13-fascinating-facts-about-the-worlds-oceans" target="_blank" rel="noopener">Reader’s Digest</a>. For more of what you love from the world’s best-loved magazine, <a href="http://readersdigest.innovations.com.au/c/readersdigestemailsubscribe?utm_source=over60&utm_medium=articles&utm_campaign=RDSUB&keycode=WRA87V" target="_blank" rel="noopener">here’s our best subscription offer.</a> Image: Getty Images

International Travel

Missing cruise passenger rescued after over 15 hours in ocean

A passenger on a Carnival Valor cruise ship has been rescued by the US Coast Guard after spending more than 15 hours in the waters of the Gulf of Mexico. The 28-year-old was with his sister at the ship’s bar on the night of Wednesday, November 23, but didn’t return after he left to use the toilet. According to a statement from Carnival, the sister reported her brother missing the following day. Another passenger on the cruise, Mike Anderson, told CNN that announcements were made on the ship and people “noticed security starting to search the boat with a photo of the missing (passenger) in their phones”. Mr Anderson said passengers were later told their arrival to their port of call in Cozumel, Mexico, was delayed, while his wife said one of the pools was drained. After a lengthy search, the man was finally spotted about 30 kilometres off the coast of Louisiana on Thursday night by rescue crews that had been scouring a 320-kilometre area along the gulf. Lieutenant Seth Gross of the US Coast Guard said the man may have been in the water for over 15 hours, the “absolute longest that I’ve heard about”. He said that “all available resources” were launched to locate the man, including a small boat from Florida, a New Orleans-based helicopter, and planes from Florida and Alabama. The man was hoisted onto the helicopter and was responsive. "He was able to identify his name, confirmed that he was the individual that fell overboard," Lieutenant Gross told CNN on Friday, adding that the man had signs of “hypothermia, shock and dehydration” but could walk and talk. "The fact that he was able to keep himself afloat and above the surface of the water for such an extended period of time, it's just something you can't take for granted and certainly something that'll stick with me forever," Lieutenant Gross added, describing it as “just one of those Thanksgiving miracles”. He said that the case was unlike anything he had seen in his 17-year career with the Coast Guard and “could have had a much more difficult ending”. "It took a total team effort from Coast Guard watchstanders, response crews, and our professional maritime partners operating in the Gulf of Mexico to locate the missing individual and get him to safety,” he said. While the man has been reported to be in a stable condition, it is still unclear how or when he fell into the water. Image: Getty Images

Cruising

740,000km of fishing line and 14 billion hooks: we reveal just how much fishing gear is lost at sea each year

Two per cent of all fishing gear used worldwide ends up polluting the oceans, our <a href="https://doi.org/10.1126/sciadv.abq0135" target="_blank" rel="noopener">new research</a> finds. To put that into perspective, the amount of longline fishing gear littering the ocean each year can circle the Earth more than 18 times. We interviewed 450 fishers from seven of the world’s biggest fishing countries including Peru, Indonesia, Morocco and the United States, to find out just how much gear enters the global ocean. We found at current loss rates, in 65 years there would be enough fishing nets littering the sea to cover the entire planet. This lost fishing equipment, known as ghost gear, can cause heavy social, economic and environmental damage. Hundreds of thousands of animals <a href="https://link.springer.com/article/10.1007/s11160-018-9520-7" target="_blank" rel="noopener">are estimated to die</a> each year from unintentional capture in fishing nets. Derelict nets can continue to fish indiscriminately for decades. Our research findings help highlight where to focus efforts to stem the tide of fishing pollution. It can also help inform fisheries management and policy interventions from local to global scales. <h2>14 billion longline hooks litter the sea each year</h2> The data we collected came directly from fishers themselves. They experience this issue firsthand and are best poised to inform our understanding of fishing gear losses. We surveyed fishers using five major gear types: gillnets, longlines, purse seine nets, trawl nets, and pots and traps. We asked how much fishing gear they used and lost annually, and what gear and vessel characteristics could be making the problem worse. This included vessel and gear size, whether the gear contacts the seafloor, and the total amount of gear used by the vessel. We coupled these surveys with information on global fishing effort data from commercial fisheries. Fishers use different types of nets to catch different types of fish. Our research found the amount of nets littering the ocean each year include: <ul> <li>740,000 kilometres of longline mainlines</li> <li>nearly 3,000 square kilometres of gill nets</li> <li>218 square kilometres of trawl nets</li> <li>75,000 square kilometres of purse seine nets</li> </ul> In addition, fishers lose over 25 million pots and traps and nearly 14 billion longline hooks each year. These estimates cover only commercial fisheries, and don’t include <a href="https://link.springer.com/chapter/10.1007/978-3-319-97758-4_15" target="_blank" rel="noopener">the amount</a> of fishing line and other gear lost by recreational fishers. We also estimate that between 1.7% and 4.6% of all land-based plastic waste travels into the sea. This amount likely exceeds lost fishing gear. However, fishing gear is designed to catch animals and so is generally understood as <a href="https://www.sciencedirect.com/science/article/pii/S0308597X15002985" target="_blank" rel="noopener">the most environmentally damaging</a> type of plastic pollution in research to date. <h2>Harming fishers and marine life</h2> Nearly 700 species of marine life <a href="https://www.sciencedirect.com/science/article/abs/pii/S0025326X14008571?via%3Dihub" target="_blank" rel="noopener">are known to</a> interact with marine debris, many of which are near threatened. Australian and US <a href="https://www.sciencedirect.com/science/article/pii/S0308597X15002985#bib6" target="_blank" rel="noopener">research in 2016</a> found fishing gear poses the biggest entanglement threats to marine fauna such as sea turtles, marine mammals, seabirds and whales. Other marine wildlife including sawfish, dugong, hammerhead sharks and crocodiles are also known to get <a href="https://onlinelibrary.wiley.com/doi/full/10.1111/j.1442-8903.2010.00525.x" target="_blank" rel="noopener">entangled in fishing gear</a>. Other <a href="https://conbio.onlinelibrary.wiley.com/doi/full/10.1111/conl.12781" target="_blank" rel="noopener">key problematic items</a> include balloons and plastic bags. Lost fishing gear is not only an environmental risk, but it also has an economic impact for the fishers themselves. Every metre of lost net or line is a cost to the fisher – not only to replace the gear but also in its potential catch. Additionally, many fisheries have already gone through significant reforms to reduce their environmental impact and improve the sustainability of their operations. Some losses are attributable to how gear is operated. For instance, bottom trawl nets – which can get caught on reefs – are lost more often that nets that don’t make contact with the sea floor. The conditions of the ocean can also make a significant difference. For example, fishers commonly reported that bad weather and overcrowding contributes to gear losses. Conflicts between gears coming into contact can also result in gear losses, such as when towed nets cross drifting longlines or gillnets. Where fish are depleted, fishers must expend more effort, operate in worse conditions or locations, and are more likely to come in contact with others’ gear. All these features increase losses. <h2>What do we do about it?</h2> We actually found lower levels of fishing gear losses in our current study than in <a href="https://onlinelibrary.wiley.com/doi/full/10.1111/faf.12407" target="_blank" rel="noopener">a previous review</a> of the historical literature on the topic. Technological improvements, such as better weather forecasts and improved marking and tracking of fishing gear may be reducing loss rates. Incentives can further reduce losses resulting in ghost gear. This could include buyback programs for end-of-life fishing gear, reduced cost loans for net replacement, and waste receptacles in ports to encourage fishers to return used fishing gear. Technological improvements and management interventions could also make a difference, such as requirements to mark and track gear, as well as regular gear maintenance and repairs. Developing effective fishing management systems can improve food security, leave us with a healthier environment, and create more profitable businesses for the fishers who operate in it. This article originally appeared on <a href="https://theconversation.com/740-000km-of-fishing-line-and-14-billion-hooks-we-reveal-just-how-much-fishing-gear-is-lost-at-sea-each-year-192024" target="_blank" rel="noopener">The Conversation</a>. Image: CSIRO

Travel Trouble

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

“Vast ocean of love": Olivia's husband releases new message

John Easterling has honoured his “courageous” late wife Olivia Newton-John in a moving post on her official Instagram, along with a sweet throwback photo of the couple. Easterling, who broke the news of <a href="https://www.oversixty.com.au/health/caring/honouring-dame-olivia-newton-john" target="_blank" rel="noopener">her sudden passing on August 8</a>, remembered his wife of 14 years and the love they shared. “Our love for each other transcends our understanding,” Easterling began. “Every day we expressed our gratitude for this love that could be so deep, so real, so natural. We never had to ‘work’ on it. We were in awe of this great mystery and accepted the experience of our love as past, present and forever.” <blockquote class="instagram-media" style="background: #FFF; border: 0; border-radius: 3px; box-shadow: 0 0 1px 0 rgba(0,0,0,0.5),0 1px 10px 0 rgba(0,0,0,0.15); margin: 1px; max-width: 540px; min-width: 326px; padding: 0; width: calc(100% - 2px);" data-instgrm-captioned="" data-instgrm-permalink="https://www.instagram.com/p/ChFqQeQvBVd/?utm_source=ig_embed&utm_campaign=loading" data-instgrm-version="14"> <div style="padding: 16px;"> <div style="display: flex; flex-direction: row; align-items: center;"> <div style="background-color: #f4f4f4; border-radius: 50%; flex-grow: 0; height: 40px; margin-right: 14px; width: 40px;"> </div> <div style="display: flex; flex-direction: column; flex-grow: 1; justify-content: center;"> <div style="background-color: #f4f4f4; border-radius: 4px; flex-grow: 0; height: 14px; margin-bottom: 6px; width: 100px;"> </div> <div style="background-color: #f4f4f4; border-radius: 4px; flex-grow: 0; height: 14px; width: 60px;"> </div> </div> </div> <div style="padding: 19% 0;"> </div> <div style="display: block; height: 50px; margin: 0 auto 12px; width: 50px;"> </div> <div style="padding-top: 8px;"> <div style="color: #3897f0; font-family: Arial,sans-serif; font-size: 14px; font-style: normal; font-weight: 550; line-height: 18px;">View this post on Instagram</div> </div> <div style="padding: 12.5% 0;"> </div> <div style="display: flex; flex-direction: row; margin-bottom: 14px; align-items: center;"> <div> <div style="background-color: #f4f4f4; border-radius: 50%; height: 12.5px; width: 12.5px; transform: translateX(0px) translateY(7px);"> </div> <div style="background-color: #f4f4f4; height: 12.5px; transform: rotate(-45deg) translateX(3px) translateY(1px); width: 12.5px; flex-grow: 0; margin-right: 14px; margin-left: 2px;"> </div> <div style="background-color: #f4f4f4; border-radius: 50%; height: 12.5px; width: 12.5px; transform: translateX(9px) translateY(-18px);"> </div> </div> <div style="margin-left: 8px;"> <div style="background-color: #f4f4f4; border-radius: 50%; flex-grow: 0; height: 20px; width: 20px;"> </div> <div style="width: 0; height: 0; border-top: 2px solid transparent; border-left: 6px solid #f4f4f4; border-bottom: 2px solid transparent; transform: translateX(16px) translateY(-4px) rotate(30deg);"> </div> </div> <div style="margin-left: auto;"> <div style="width: 0px; border-top: 8px solid #F4F4F4; border-right: 8px solid transparent; transform: translateY(16px);"> </div> <div style="background-color: #f4f4f4; flex-grow: 0; height: 12px; width: 16px; transform: translateY(-4px);"> </div> <div style="width: 0; height: 0; border-top: 8px solid #F4F4F4; border-left: 8px solid transparent; transform: translateY(-4px) translateX(8px);"> </div> </div> </div> <div style="display: flex; flex-direction: column; flex-grow: 1; justify-content: center; margin-bottom: 24px;"> <div style="background-color: #f4f4f4; border-radius: 4px; flex-grow: 0; height: 14px; margin-bottom: 6px; width: 224px;"> </div> <div style="background-color: #f4f4f4; border-radius: 4px; flex-grow: 0; height: 14px; width: 144px;"> </div> </div> <p style="color: #c9c8cd; font-family: Arial,sans-serif; font-size: 14px; line-height: 17px; margin-bottom: 0; margin-top: 8px; overflow: hidden; padding: 8px 0 7px; text-align: center; text-overflow: ellipsis; white-space: nowrap;"><a style="color: #c9c8cd; font-family: Arial,sans-serif; font-size: 14px; font-style: normal; font-weight: normal; line-height: 17px; text-decoration: none;" href="https://www.instagram.com/p/ChFqQeQvBVd/?utm_source=ig_embed&utm_campaign=loading" target="_blank" rel="noopener">A post shared by Olivia Newton-John (@therealonj)</a> </div> </blockquote> The 70-year-old called his wife a “healer”, honouring her courage, kindness and her dedication to cancer awareness and research through the Olivia Newton-John Cancer Research Institute. “At Olivia’s deepest essence she was a healer using her mediums of song, of words, of touch,” he continued. “She was the most courageous woman I’ve ever known. Her bandwidth for genuinely caring for people, for nature and all creatures almost eclipses what is humanely possible. It is only the grace of God that has allowed me to share the depth and passion of her being for so long. “In her most difficult times, she always had the spirit, the humor, and the will power [sic] to move things into the light.” Easterling ended his post by thanking fans for their messages of love and support following Newton-John’s death, and that her love has even helped him navigate his grief. “Even now as her soul soars, the pain and holes in my heart are healed with the joy of her love and the light that shines forward,” Easterling wrote. “Our family deeply appreciates the vast ocean of love and support that has come our way. “Onward Ho.” Comments of support flooded in from friends and family praising Easterlings words, with <a href="https://www.oversixty.com.au/health/caring/olivia-s-niece-reveals-final-heartbreaking-moments" target="_blank" rel="noopener">Tottie Goldsmith</a>, Newton-John’s niece, commenting that the pair were “true soulmates”. “So beautifully said,” Jane Seymour commented. “She loved and adored you with every fibre of her soul and we could all dream of having that love and support in our lives. God bless you all.” “I am so grateful to have experienced her talent, sweetness and genuine respect,” country singer Stella Parton shared. “Thank you for being the truly wonderful soul mate to travel with her on this earth. May your life always be so much richer for sharing in her light and love.” “Dear John, what a beautiful tribute to your darling wife,” one fan said. “Our hearts are with you every step of the way.” “Such beautiful words for a lovely lady. To find a love so wonderful is a true gift,” another added. Image: @therealonj (Instagram)

Caring

Illegal fishers and wayward sharks are in the sights of new multispectral imaging

The oceans are warming. Reefs are dying. Fish are on the move. As a result, sharks and illegal fishers are scouring Australia’s coast in search of an increasingly elusive catch, and that, says ESpy Ocean founder Ian Dewey, is having an immense impact on everything from regional tourism to ocean ecologies. Illegal fishers, like sharks, are elusive predators. Their survival depends on being fast, silent and unexpected. They’re threatening a $1.6-billion regional Australia industry. Sharks also aren’t behaving the way they used to. They’re turning up in unexpected places, at unexpected times, which can result in tragedy. “Everyone says use drones or dirigibles to spot them,” Dewey says. “But everyone knows that when we’re on the beach in our string bikinis and Speedos, the last thing we want is a drone above us.” With dark fleets of illegal fishing boats turning off their tracking systems to breach international boundaries, time is of the essence in addressing the problem, just as it is with wayward sharks. “Both are increasing problems,” Dewey says. “I only know in terms of the illegal fishing missions that we’ve been involved in, but invariably there are people around protected areas on a daily basis”. Traditional spotter aircraft can’t cope, and using satellites to track vessels isn’t anything new. What is new is multispectral imaging. A regular camera captures an image on just three channels red, green and blue (RGB) – generating a crisp image of the visible spectrum if the weather is clear. A multispectral image has up to 110 different frequencies, ranging from ultraviolet to microwave. This imaging technology is nothing new. What is new is applying machine learning to identifying what it “sees”. “So it was a matter of working out what we can do through clouds in all kinds of weather, preferably right on dawn,” says Dewey. “I just started going through what frequencies can do what and – if we are looking for a boat – what the hell’s it gonna look like?” It’s a similar story for sharks – what multispectral signatures do different species give, at what depth, under what conditions, at what time? Dewey says the potential to extract such detail from hyperspectral imaging is enormous. It can identify what a boat is made from, what sort of paint has been used (and how old it is), and what equipment is on the deck. “All these things mean that your picture is different to every other boat in the ocean,” he says. “If we see you today, we can see you tomorrow, match those frequencies, and say – we got you!” ESpy demonstrated the potential of the technology for New South Wales Fisheries over the last Easter long weekend. Suitable satellites were identified, access to their hyperspectral cameras was secured, and patrol vessels were stationed in strategic locations waiting for a call to action. “Our system is incredibly fast, which gives us the edge,” Dewey says. “Generally, our system allows boats to be caught red-handed. That makes it so much easier where the courts are concerned.” The shark-spotting challenge is a more recent project. ESpy is in initial discussions with NSW Fisheries and the University of South Australia’s Industrial AI Research Centre to develop techniques to spot the predators first thing in the morning and use established behavioural patterns to predict where they could move during the day. While trespassing trawlers present a major issue, the deadliest offender is often someone much closer to home. One dragnet can strip an ecosystem of everything from algae and small crustaceans to dolphins and turtles, leaving damage that can take years to recover. “Our big problem in Australia is the little guy who throws out a net once or twice,” Dewey says. “He’s generally local, or at least from within 100-or-so kilometres. But he’s got a high risk of being caught, so he just wants to get in and take as much as possible as quickly as possible.” <img id="cosmos-post-tracker" src="https://syndication.cosmosmagazine.com/?id=195119&title=Illegal+fishers+and+wayward+sharks+are+in+the+sights+of+new+multispectral+imaging" width="1" height="1" />This article originally appeared on <a href="https://cosmosmagazine.com/earth/oceans/espy-oceans-tracking-waters/" target="_blank" rel="noopener">cosmosmagazine.com</a> and was written by Jamie Seidel. Image: Shutterstock <div id="cosmos-link-back"></div>

Travel Trouble

Why Viking is No.1 in the world for river and ocean cruising

When it comes to cruises, you want to make sure you’ve made the best possible choice in terms of picking the ship, the itinerary and the quality of services on hand. After being consistently voted the world’s best when it comes to river and ocean cruising, this is definitely where Viking comes in. Viking’s river, ocean and expedition cruises are perfect for curious travellers to set off and explore the world in comfort and style – not just this year, but in 2023 and 2024 as well. From their exquisite dining experiences to their wholesome cultural enrichment programmes, incredible onshore experiences and unmatched inclusions, let’s dive (literally and figuratively) a little deeper into what Viking are doing – and what they most definitely are NOT doing – to set themselves apart in the world of ocean cruising. <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60_SKY_Lofoten_Midnight_Sun_MXL0691_Red_lightSkyWide.jpg" alt="Viking" width="1280" height="720" /> More bang for your buck Viking’s Inclusive Value mantra means they include everything you need and nothing you do not. Worth more than $200 a day, guests will benefit from features and services ranging from a free guided excursion in every port of call to complimentary WiFi, plus beer, wine and soft drinks on board with lunch and dinner. You’ll also enjoy 24-hour specialty coffees, teas and bottled water, with access to their top-rated spa and state-of-the-art fitness centre. You can also access self-service launderettes, avoid port taxes and fees, as well as ground transfers with Viking Air purchase. Your stateroom includes a private veranda, a king-size bed with luxury linens and pillows, as well as a separate seating area where you can enjoy a 42-inch flat-screen LCD TV with complimentary movies on demand. Each room is decked out with a spacious closet and drawers, a mini-bar (of course), security safe, a hair dryer, spacious glass-enclosed shower with heated bathroom floor and anti-fog mirror. You will also be covered head-to-toe by Premium Freyja toiletries and enjoy plush robes and slippers. <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60-Chefs_Table_Plate_16-650.jpg" alt="Viking" width="1280" height="720" /> Exquisite dining The Restaurant, the main dining venue onboard each state-of-the-art Viking vessel, offers delicious regional cuisines from only the best locally sourced ingredients. This gives passengers not only the opportunity to explore their destination, but also the chance to explore different cultures through food. However, if you’re looking for something a little more specific, say Italian, then Manfredi’s is the place to be. Be transported to the farms of Tuscany or the city of Rome with its divine and authentic Italian meals. Those looking to extend themselves even further in a culinary sense and learn a little more about food and wine pairings will find themselves drawn inexorably to The Chef’s Table – where you’ll experience several courses, each paired with select wines all thoughtfully prepared for your enriching experience. If you’re into something a little more dynamic and want to observe the world-renowned chefs working their magic, then the World Café is the place to be. The open kitchen will have you watching on in excitement as your phenomenal sushi and seafood dishes are prepared, set against a backdrop of the breathtaking panoramic views from the Aquavit Terrace. <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60-CC_SEA_Restaurant_Window_Views-1280x720-1.jpg" alt="Viking" width="1280" height="720" /> However, if you want to switch places with the hard-working chefs and actually have a hand in cooking yourself, you are more than welcome to head over to The Kitchen Table to immerse yourself in local culture and cuisine. Here, the on board cooking school gives passengers a thrilling first-hand experience in how the chefs prepare meals for guests. If you’re looking to relax a bit before dinner then the Wintergarden is the place to be, where you can indulge in several different teas under a canopy of Scandinavian trellised wood while listening to a soft string quartet. Otherwise, head on over to Mamsen’s in the Explorers’ Lounge, which offers some of the best culturally enriching Norwegian specialties for breakfast, lunch, an afternoon snack or evening treat. Looking to keep it simple for an afternoon snack? Look no further than the Pool Grill, which has casual meals prepared to order. Otherwise, head up to your room and take advantage of the 24/7 room service on offer (we won’t tell anyone about that extra tempting midnight snack). <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60-STAR_Wintergarden_Horiz_124-1280x720-1.jpg" alt="Viking" width="1280" height="720" /> Cultural enrichment How extraordinary to be able to gain invaluable insights and knowledge while also relaxing on holiday. That’s right, Viking has so much on offer for its guests and it’ll have you wanting more. First on the list are the world-class guest lecturers, all of whom are experts in their field and include archaeologists, authors, former diplomats and even news correspondents. It’s their job (and passion) to share important information with you on your destinations’ art, architecture, music, geopolitics, the natural world and so much more. Alternatively, you can have one-on-one discussions with the onboard historian ready to enrich your mind with their in-depth stories and facts. <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60-CC_ORION_Resident_Scientist_Book-Ocean-Entertainment-Option-2.jpg" alt="Viking" width="1280" height="720" /> Another powerfully enriching Viking experience is the performing arts sector, where you are more than welcome to enjoy an incredible work of art or one of dozens of destination experiences. Could it be the Portuguese fado with its melancholy melodies and poignant lyrics? Or traditional Greek dancing or Italian opera. The choices are staggering. If you’re intrigued to see what’s on offer at your next onshore destination, there are informative multimedia presentations on Amsterdam, Bergen, Venice, San Juan, Vancouver, Tokyo and even Sydney that highlight the must-see landmarks during your shore visits. Viking’s knowledgable local guides are passionate about their unique region. They will introduce you to the iconic and the obscure, so you can soak up the culture, art, history and architecture of your destination while gaining an insight into the local way of life. <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60-Arles_Arena_Group_Excursion_2913.jpg" alt="Viking" width="1280" height="720" /> The cultural enrichment continues on board with a unique collection of original artworks on board every ship. Viking also has an exclusive deal with Oslo’s Munch Museum where guests can explore the entire collection of Norway’s most famous artist, Edvard Munch. This museum brings “magic” on board with an interactive event daily and showcasing the amazing artworks curated by Munch. Otherwise, indulge your mind with a TED Talk, where passengers can enjoy short and powerful talks about the arts, history, geography, science and even longevity. Fancy a night at The Met? Well, all you need to do is head to The Theater and enjoy the world-class production under the starlit “sky”. If you want to keep it simple, then there’s a special spot for you in the small cinemas where you can enjoy short films that will inform you about the iconic destinations you’re travelling through. Kick back and relax by listening to the classical music from Viking’s resident pianist, guitarist, violinist and cellist. Or head over to the onboard library, which have been expertly curated by independent London bookseller Heywood Hill – who dedicated hundreds of hours of his time into understanding what Viking guests most want to read on their journeys. <img src="https://oversixtydev.blob.core.windows.net/media/2022/06/O60-CC_-SEA_Dubrovnik_Sunset_SKY_red.jpg" alt="Viking" width="1280" height="720" /> What Viking definitely is NOT If we haven’t managed to convince you as to why you should be travelling with Viking, then let these be the cherries on top of your next cruising adventure. Each Viking cruise ship absolutely promises no casinos, no children under the age of 18, no umbrella drinks, no photography sales or art auctions, no charge for beer or wine at lunch or dinner and you can dine in a choice of restaurants at no additional cost. Wi-Fi comes included and you won’t be charged for using the laundry, there are no hidden entry fees for the spa and no undue pressure on spa sales of any kind. And perhaps most important of all, there’s no waiting in endless queues. All that’s left is a clear focus on you, on the quality of the service, and on making sure that every journey provides you with memories to last a lifetime. For more information and to book your next Viking adventure, <a href="https://www.vikingcruises.com.au/oceans/cruise-destinations/index.html?utm_medium=content&utm_source=oversixty&utm_campaign=native-findacruise-ocean" target="_blank" rel="noopener">click here</a>. This is a sponsored article produced in partnership with <a href="https://www.vikingcruises.com.au/oceans/cruise-destinations/index.html?utm_medium=content&utm_source=oversixty&utm_campaign=native-findacruise-ocean" target="_blank" rel="noopener">Viking</a>.

Cruising

Inside Simon Baker's new rustic Bondi home with stunning ocean views

Simon Baker has purchased a $6million home in Sydney’s Bondi Beach, a new report has claimed. The Australian actor allegedly bought the three-bedroom cottage after it was offered for sale by social commentator Ruth Ostrow. The property, which also contains three bathrooms, is set in lush tropical gardens and boasts ocean views. There is an idyllic patio area to entertain guests, while interiors take on a neutral colour palette with polished wooden floorboards, whitewashed walls, high ceilings and timber accents. The reported purchase comes after Simon and his ex-wife Rebecca Rigg, reportedly sold their three-bedroom home in Bronte, Sydney, for almost $17million. According to Domain in September, the former couple shocked property watchers with the lucrative sale, especially given they purchased the home for just $6.5million back in 2015. Boasting sweeping ocean views and located in one of Sydney's most sought-after suburbs - the former Baker residence offers the ultimate in coastal living. A number of images were listed by CoreLogic following the sale in 2015, with reports revealing the pair made no major improvements on the property after acquiring it. The couple announced their split last year after having been together for 29 years. Images: Domain

Real Estate

New record for ocean-front property

Dee Why has hit a new residential suburb record, with the off-market sale of a headland home scoring just under $10 million. The oceanfront home at 14 Summit Ave sold to expats for a confidential sum but it is believed it is at least three times the $3.03 figure which the home was purchased for in 2014. A spokesman for Max Walls International confirmed the 765sqm cul-de-sac property did trade but couldn’t comment on the sale. He did however share there was a growing number of Australians living overseas who were returning home after the pandemic and looking to secure premium Sydney property. “In Dee Why they are looking from Molong St to Monash Pde and they have up to $15m American dollars for the right property,” the spokesman said. Robert Klaric, The Property Expert buyers advocate, was more forthcoming saying he was engaged by the purchaser to find a front row headland property. The previous record for Dee Why was $8.05m set in June 2021 for 7 Lookout Ave, another oceanfront headland property at the end of a cul-de-sac one street away from Summit Ave. Images: Real Estate.com.au

Real Estate

What causes a tsunami? An ocean scientist explains the physics of these destructive waves

On Jan. 15, 2022, the Hunga Tonga-Hunga Ha’apai volcano in Tonga erupted, sending a tsunami racing across the Pacific Ocean in all directions. As word of the eruption spread, government agencies on surrounding islands and in places as far away as New Zealand, Japan and even the U.S. West Coast issued tsunami warnings. Only about 12 hours after the initial eruption, tsunami waves a few feet tall <a href="https://www.cnn.com/2022/01/15/asia/tsunami-warning-tonga-volcano-intl-hnk/index.html">hit California shorelines</a> – more than 5,000 miles away from the eruption. I’m a <a href="https://scholar.google.com/citations?user=kAGkuGgAAAAJ&hl=en&oi=ao">physical oceanographer</a> who studies waves and turbulent mixing in the ocean. Tsunamis are one of my favorite topics to teach my students because the physics of how they move through oceans is so simple and elegant. Waves that are a few feet tall hitting a beach in California might not sound like the destructive waves the term calls to mind, nor what you see in <a href="https://www.youtube.com/watch?v=QhdSbCUn-oE">footage of tragic tsunamis from the past</a>. But tsunamis are not normal waves, no matter the size. So how are tsunamis different from other ocean waves? What generates them? How do they travel so fast? And why are they so destructive? <a href="https://images.theconversation.com/files/441389/original/file-20220118-17-1wdrep5.gif?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/441389/original/file-20220118-17-1wdrep5.gif?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="A satellite view a large ash cloud and shockwave." /></a> When the Hunga Tonga-Hunga Ha'apai volcano erupted, it launched ash into the atmosphere, created a powerful shock wave and displaced a huge amount of water, generating a tsunami that raced across the ocean. <a href="https://commons.wikimedia.org/wiki/File:Tonga_Volcano_Eruption_2022-01-15_0410Z_to_0550Z.gif#/media/File:Tonga_Volcano_Eruption_2022-01-15_0410Z_to_0550Z.gif" class="source">Japan Meteorological Agency via WikimediaCommons</a>, <a href="http://creativecommons.org/licenses/by/4.0/" class="license">CC BY</a> <h2>Deep displacement</h2> Most waves are <a href="https://theconversation.com/what-makes-the-worlds-biggest-surfable-waves-150600">generated by wind</a> as it blows over the ocean’s surface, transferring energy to and displacing the water. This process creates the waves you see at the beach every day. Tsunamis are created by an entirely different mechanism. When an underwater earthquake, volcanic eruption or landslide displaces a large amount of water, that energy has to go somewhere – so it generates a series of waves. Unlike wind-driven waves where the energy is confined to the upper layer of the ocean, the energy in a series of tsunami waves extends throughout the entire depth of the ocean. Additionally, a lot more water is displaced than in a wind-driven wave. Imagine the difference in the waves that are created if you were to blow on the surface of a swimming pool compared to the waves that are created when someone jumps in with a big cannonball dive. The cannonball dive displaces a lot more water than blowing on the surface, so it creates a much bigger set of waves. Earthquakes can easily move huge amounts of water and cause dangerous tsunamis. Same with large undersea landslides. In the case of the Tonga tsunami, the massive explosion of the volcano displaced the water. Some scientists are speculating that the eruption <a href="https://youtu.be/B54HbfqDbK4">also caused an undersea landslide</a> that contributed to the large amount of displaced water. Future research will help confirm whether this is true or not. <iframe width="440" height="260" src="https://www.youtube.com/embed/etVdMBjAVm0?wmode=transparent&start=0" frameborder="0" allowfullscreen=""></iframe> This simulation from the National Oceanic and Atmospheric Administration shows how tsunami waves propagated away from an earthquake that occurred about 600 miles from Tonga in 2021. <h2>Tsunami waves travel fast</h2> No matter the cause of a tsunami, after the water is displaced, <a href="https://www.youtube.com/playlist?list=PL3BDBAAAA7D4EB2DA">waves propagate outward</a> in all directions – similarly to when a stone is thrown into a serene pond. Because the energy in tsunami waves reaches all the way to the bottom of the ocean, the depth of the sea floor is the primary factor that determines how fast they move. Calculating the speed of a tsunami is actually quite simple. You just multiply the depth of the ocean – 13,000 feet (4,000 meters) on average – by gravity and take the square root. Doing this, you get an average speed of about 440 miles per hour (700 kilometers per hour). This is much faster than the speed of typical waves, which can <a href="https://www.surfline.com/surf-news/fast-swell-travel/87799">range from about 10 to 30 mph</a> (15 to 50 kph). This equation is what oceanographers use to estimate when a tsunami will reach faraway shores. The tsunami on Jan. 15 hit Santa Cruz, California, 12 hours and 12 minutes after the initial eruption in Tonga. Santa Cruz is 5,280 miles (8,528 kilometers) from Tonga, which means that the tsunami traveled at 433 mph (697 kph) – nearly identical to the speed estimate calculated using the ocean’s average depth. <a href="https://images.theconversation.com/files/441392/original/file-20220118-17-oocmnd.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/441392/original/file-20220118-17-oocmnd.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="A flooded airport runway covered in debris." /></a> Many tsunamis, including the 2011 Tsunami in Japan, move inland and can flood areas far from the coast. <a href="https://commons.wikimedia.org/wiki/File:SendaiAirportMarch16.jpg#/media/File:SendaiAirportMarch16.jpg" class="source">U.S. Air Force photo/Staff Sgt. Samuel Morse via WikimediaCommons</a> <h2>Destruction on land</h2> Tsunamis are rare compared to ubiquitous wind-driven waves, but they are often much more destructive. The <a href="https://www.britannica.com/event/Indian-Ocean-tsunami-of-2004">2004 Indian Ocean tsunami</a> killed 225,000 people. <a href="https://dx.doi.org/10.2188%2Fjea.JE20120114">More than 20,000 lost their lives</a> in the 2011 Japan tsunami. What makes tsunamis so much more destructive than normal waves? <a href="https://images.theconversation.com/files/441394/original/file-20220118-19-v4uwmj.gif?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/441394/original/file-20220118-19-v4uwmj.gif?ixlib=rb-1.1.0&q=45&auto=format&w=237&fit=clip" alt="An animation showing waves approaching a shoreline." /></a> As waves approach shore, they get pushed upward by the rising seafloor. <a href="https://commons.wikimedia.org/wiki/File:Propagation_du_tsunami_en_profondeur_variable.gif#/media/File:Propagation_du_tsunami_en_profondeur_variable.gif" class="source">Régis Lachaume via Wikimedia Commons</a>, <a href="http://creativecommons.org/licenses/by-sa/4.0/" class="license">CC BY-SA</a> In the open ocean, tsunami waves can be small and may even be undetectable by a boat at the surface. But as the tsunami approaches land, the ocean gets progressively shallower and all the wave energy that extended thousands of feet to the bottom of the deep ocean gets compressed. The displaced water needs to go somewhere. The only place to go is up, so the waves get taller and taller as they approach shore. When tsunamis get to shore, they often do not crest and break like a typical ocean wave. Instead, they are more like a large wall of water that can inundate land near the coast. It is as if sea level were to suddenly rise by a few feet or more. This can cause <a href="https://www.usgs.gov/special-topics/water-science-school/science/tsunamis-and-tsunami-hazards">flooding and very strong currents</a> that can easily sweep people, cars and buildings away. Luckily, tsunamis are rare and not nearly as much of a surprise as they once were. There is now an extensive array of bottom pressure sensors, called <a href="https://nctr.pmel.noaa.gov/Dart/">DART buoys</a>, that can sense a tsunami wave and allow government agencies to <a href="https://www.noaa.gov/explainers/us-tsunami-warning-system">send warnings</a> prior to the arrival of the tsunami. If you live near a coast – especially on the Pacific Ocean where the vast majority of tsunamis occur – be sure to <a href="https://www.ready.gov/sites/default/files/2020-03/tsunami-information-sheet.pdf">know your tsunami escape route</a> for getting to higher ground, and listen to tsunami warnings if you receive one. The eruption of the Hunga Tonga-Hunga Ha’apai volcano severed the main communication cable that connects the people of Tonga to the rest of the world. While the science of tsunamis can be fascinating, these are serious natural disasters. Only a <a href="https://www.bbc.com/news/world-asia-60039617">few deaths have been reported</a> so far from Tonga, but many people are missing and the true extent of the damage from the tsunami is still unknown.<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; text-shadow: none !important;" src="https://counter.theconversation.com/content/175213/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/sally-warner-1179849">Sally Warner</a>, Assistant Professor of Climate Science, <a href="https://theconversation.com/institutions/brandeis-university-1308">Brandeis University</a> 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-causes-a-tsunami-an-ocean-scientist-explains-the-physics-of-these-destructive-waves-175213">original article</a>. Image: Gado via Getty Images

International Travel

Hitting the beach this summer? Here are some of our top animal picks to look out for

Australia has one of the longest coastlines in the world. And it’s packed with life of all shapes and sizes – from lively dolphins leaping offshore, to tiny crabs scurrying into their holes. Here is just some of the diverse coastal life you might expect to see this summer, if you <a href="https://www.sciencedirect.com/science/article/pii/S0006320720307722">spend some</a> time at the water’s edge. <h2>Dolphins and turtles</h2> We’re fortunate to have 15 species of dolphin (and one porpoise!) living in Australian waters. The large <a href="https://australian.museum/learn/animals/mammals/bottlenose-dolphin/">bottlenose dolphins</a> (Tursiops spp.) are relatively common and can be spotted all the way around our coast. You might see them playing in the waves, jumping out of the water, or even surfing among humans. <a href="https://images.theconversation.com/files/436606/original/file-20211209-133881-1px5omu.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436606/original/file-20211209-133881-1px5omu.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Bottlenose dolphin mother and cals" /></a> Bottlenose dolphins are generally grey with a lighter underside and have a pronounced, curved dorsal (upper) fin. Shutterstock Turtles are less obvious, but can be spotted as they bob their heads out of the water to breathe. Australia’s coasts are home to six of the world’s seven sea turtles (all <a href="https://www.environment.gov.au/cgi-bin/sprat/public/publicthreatenedlist.pl?wanted=fauna">listed as either vulnerable or endangered</a>). The more common green turtle (Chelonia mydas) can be found everywhere except in the coldest southern waters. In summer, the turtles travel north to the tropical waters of QLD, NT and WA to reproduce – laying their eggs in the warm sand. <a href="https://images.theconversation.com/files/436586/original/file-20211209-19-1u2t59m.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436586/original/file-20211209-19-1u2t59m.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="" /></a> Green turtles often get tangled in discarded fishing gear and nets and can die from ingesting plastics, so don’t litter! John Turnbull/Flickr, Author provided Another reptile you might encounter in the eastern coastal areas is the water dragon (Intellagama lesueurii). You’ll find them hovering around beach-side picnic areas, looking for tasty treats such as flies, ants, bugs, native fruits and flowers. As with all native animals, it’s important not to feed them. <a href="https://images.theconversation.com/files/436590/original/file-20211209-25-1e71enk.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436590/original/file-20211209-25-1e71enk.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="" /></a> Water dragons are good swimmers and stay near the water. John Turnbull/Flickr, Author provided <h2>Heads in the clouds</h2> If you cast your eyes up, you’ll see many coastal bird species soaring above. Two of our favourites are the protected white-bellied sea eagle (Haliaeetus leucogaster) and the sooty oystercatcher (Haematopus fuliginosus). Both rely on marine animals for food, and nest in coastal areas right around Australia. <a href="https://images.theconversation.com/files/436592/original/file-20211209-140109-1c0pnm4.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436592/original/file-20211209-140109-1c0pnm4.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=237&fit=clip" alt="" /></a> With a wingspan of up to 2m, you can find white-bellied sea eagles soaring above headlands. WikiCommons The sea eagle mostly feeds on fish, turtles and sea snakes. It was recently <a href="https://www.environment.gov.au/cgi-bin/sprat/public/publicspecies.pl?taxon_id=943">listed as either threatened, endangered, or vulnerable in four states</a>, largely as a result of coastal developments. Meanwhile the sooty oystercatcher is, well, all black. It has distinctive bright-orange eyes and a long beak. Sooties can be found strutting among the seaweed and sea squirts on rocky shores. As the name suggests, these birds enjoy eating molluscs and other invertebrates. <a href="https://images.theconversation.com/files/436593/original/file-20211209-21-1h1czbf.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436593/original/file-20211209-21-1h1czbf.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="" /></a> The sooty gives a loud whistling call before taking flight. John Turnbull/Flickr, Author provided <h2>Crawling coastal critters</h2> Many a critter will run for cover as sooties (and humans) approach, including the swift-footed crab (Leptograpsus variegatus). This crab’s mostly purple body is sprinkled with flecks of olive, and sometimes orange. The species lives among the rocky shores around southern Australia, from WA to QLD, and even Tasmania. <a href="https://images.theconversation.com/files/436594/original/file-20211209-137612-4uld1f.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436594/original/file-20211209-137612-4uld1f.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="" /></a> The swift-footed crab can grow to about 5cm in shell width. John Turnbull/Flickr, Author provided You’re much less likely to see another common crab, the sand bubbler. But you might see the results of its industrious activity on flat, wet and sandy areas. Sand bubblers live in underground burrows, emerging during the low tide to filter sand through their mouthparts looking for food. In this process, they end up making little pea-sized sand balls. When the tide starts to rise again, they return to their burrows and wait in a bubble of air, which they use to breathe, until the tide recedes. <a href="https://images.theconversation.com/files/436596/original/file-20211209-27-ft1len.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436596/original/file-20211209-27-ft1len.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="" /></a> Sand bubblers, from the family Dotillidae, are tiny and will quickly hide if they sense danger. John Turnbull/Flickr, Author provided <h2>Magnificent molluscs</h2> Molluscs are another diverse group of marine animals on our shores, and one of the best known molluscs is the octopus. Along with squid and cuttlefish, this trio of cephalopods is considered to be among the most intelligent invertebrates on Earth. <a href="https://images.theconversation.com/files/436598/original/file-20211209-142574-atsquu.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436598/original/file-20211209-142574-atsquu.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Octopus in a glass jar" /></a> Near urban areas, octopuses have been known to make homes of bottles, jars and even discarded coffee cups. <a href="https://www.flickr.com/photos/johnwturnbull/19733728835/" class="source">John Turnbull</a>, Author provided In the case of the octopus, this may be due to having nine “brains”, including a donut-shaped brain in the head and a mini brain in each tentacle, which allow the tentacles to operate somewhat independently. Australia has several octopus species, from the gloomy octopus (Octopus tetricus) on the east coast, to the Maori octopus (O. maorum) in the south. The potentially deadly blue-ringed octopus (Hapalochlaena sp.) is found right around Australia. <a href="https://images.theconversation.com/files/436599/original/file-20211209-137612-1dryfc0.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436599/original/file-20211209-137612-1dryfc0.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Octopus reaches for camera" /></a> This gloomy octopus made a move for my camera as I took its photo. <a href="https://www.flickr.com/photos/johnwturnbull/27746924942/" class="source">John Turnbull/Flickr</a>, Author provided Octopus forage at night, in shallow waters and to depths exceeding 500 metres. During the day they’ll return to their lair, which may be a hole, a ledge or a crack in a rock. They’ll often decorate their home with the discarded shells of their prey. <h2>(Sometimes) stingers</h2> You’ve probably seen jellyfish at the beach before, too. Species such as the moon jelly (Aurelia aurita) are harmless. But others can deliver a painful sting; bluebottles (Physalia utriculus) might come to mind here, also called the Pacific man-of-war. Bluebottles and their relatives, blue buttons (P. porpita) and by-the-wind sailors (V. velella) don’t swim. They float at the ocean’s surface and go where the winds blow, which is how they sometimes get washed onto the beach. <a href="https://images.theconversation.com/files/436600/original/file-20211209-17-rr2j1.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436600/original/file-20211209-17-rr2j1.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Jellyfish on sand" /></a> By-the-wind sailors have an angled ‘sail’ which takes advantage of the wind, moving them large distances to catch prey. John Turnbull/Flickr, Author provided Rather than being one animal, they are made of many polyps or “zooids” living together in a floating colony. Each polyp has a specialised role such as flotation, stinging, catching prey, digestion or reproduction. Anemones are also related to jellyfish, and come in many shapes and colours – from the bright red waratah anemone (Actinia tenebrosa) found in all states, to the multi-coloured shellgrit anemone (Oulactis muscosa) found from SA to QLD. They use their tentacles to sting and catch prey, but have no impact on humans. Many anemones live among the rocks and rock pools in the intertidal area, although some species, such as the swimming anemone (Phlyctenactis tuberculosa), live as deep as 40m underwater. <a href="https://images.theconversation.com/files/436602/original/file-20211209-23-1h831bi.png?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436602/original/file-20211209-23-1h831bi.png?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Grid of four anemone photos." /></a> Top left: shellgrit anemone, top right: swimming anemone, bottom left: red waratah anemone, bottom right: green snakelock anemone (Aulactinia veratra) John Turnbull/Flickr, Author provided <h2>Fancy fishes</h2> Of course there are many fish to be seen along our shores – more than we could possibly mention here! In the shallows, we particularly like to find big-eyed <a href="https://fishesofaustralia.net.au/home/family/259">gobies</a>. Some of the most colourful fish in this zone are young damselfish. These are most diverse in tropical Australia, but still found in temperate waters. Their juvenile forms can be striped and spotted, with colours ranging from bright yellow to iridescent blue. <a href="https://images.theconversation.com/files/436605/original/file-20211209-140109-vifrk0.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/436605/original/file-20211209-140109-vifrk0.jpeg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Juvenile immaculate damselfish." /></a> Immaculate damsels are endemic to Australian waters. John Turnbull/Flickr, Author provided It’s best to photograph any fish you want to identify. Resources such as <a href="https://reeflifesurvey.com/species/search/">Reef Life Survey</a> and <a href="https://fishesofaustralia.net.au/">Fishes of Australia</a> can help with this. If you upload your photos to the <a href="https://www.inaturalist.org/">iNaturalist</a> website, other users can help you ID them too. Uploading is also a big help to scientists, who then have a record of each sighting. Finally, the diversity of marine life on our coast isn’t something we can afford to take for granted. So if you hit the beach this summer, make sure you:<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; text-shadow: none !important;" src="https://counter.theconversation.com/content/171744/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <ul> <li>do not bring any single-use plastics</li> <li>never leave anything behind (and preferably pick up any litter you see)</li> <li>and keep pets and cars away from sensitive habitats, such as dunes and bird nesting areas.</li> </ul> <a href="https://theconversation.com/profiles/john-turnbull-558403">John Turnbull</a>, Postdoctoral Research Associate, <a href="https://theconversation.com/institutions/unsw-1414">UNSW</a> and <a href="https://theconversation.com/profiles/emma-johnston-94055">Emma Johnston</a>, Professor and Dean of Science, <a href="https://theconversation.com/institutions/unsw-1414">UNSW</a> 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/hitting-the-beach-this-summer-here-are-some-of-our-top-animal-picks-to-look-out-for-171744">original article</a>. Image: John Turnbull

Domestic Travel

The ocean is essential to tackling climate change. So why has it been neglected in global climate talks?

Climate change is commonly discussed as though it’s a uniquely atmospheric phenomena. But the crisis is deeply entwined with the ocean, and this has largely been neglected in international climate talks. The latest international climate negotiations made some progress by, for the first time, <a href="https://www.becausetheocean.org/the-ocean-anchored-in-glasgow-climate-pact/">anchoring oceans</a> permanently into the multilateral climate change regime. But the <a href="https://unfccc.int/process-and-meetings/conferences/glasgow-climate-change-conference-october-november-2021/outcomes-of-the-glasgow-climate-change-conference">Glasgow Climate Pact</a> is still leagues from where it needs to be to adequately reflect the importance of oceans to our climate system. Most countries have targets for land-based emissions – but there are no such targets for oceans. Yet the ocean plays a vital role in helping balance the conditions humans and most other species need to survive, while also offering a substantial part of the solution to stop the planet warming over the crucial limit of 1.5℃ this century. So how can oceans help us tackle the climate crisis? And what progress has been made in international negotiations? <h2>The ocean’s incredible potential</h2> Since industrialisation, the ocean has absorbed <a href="https://www.ipcc.ch/assessment-report/ar5/">93% of human-generated heat</a> and <a href="https://www.science.org/doi/10.1126/science.aau5153">one-third of anthropogenic carbon dioxide</a> (CO₂). The consequences of this are profound, including the thermal expansion of water (the key cause of sea level rise), ocean acidification, <a href="https://www.iucn.org/theme/marine-and-polar/our-work/climate-change-and-oceans/ocean-deoxygenation">deoxygenation</a> (oxygen loss), and forcing marine life to redistribute to other places. Alarmingly, this may one day lead the ocean to reverse its role as a carbon sink and release CO₂ <a href="https://unesdoc.unesco.org/ark:/48223/pf0000376708">back into the atmosphere</a>, as its absorption ability declines. Equally important is ocean-based climate mitigation, which could provide <a href="https://www.wri.org/insights/turning-tide-ocean-based-solutions-could-close-emission-gap-21">more than 20% of the emissions reductions</a> needed for the 1.5℃ goal. <a href="https://images.theconversation.com/files/432511/original/file-20211117-25-34h4c8.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/432511/original/file-20211117-25-34h4c8.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="Cargo ships" /></a> The shipping industry is responsible for about 3% of global emissions. Andy Li/Unsplash, <a href="http://creativecommons.org/licenses/by/4.0/" class="license">CC BY</a> Crucially, we must see changes to maritime industries. The shipping industry alone has a similar carbon footprint to Germany – if shipping were a country it would be the world’s sixth-largest emitter. Although high on the <a href="https://theconversation.com/the-shipping-sector-is-finally-on-board-in-the-fight-against-climate-change-95212">International Maritime Organisation’s agenda</a>, the <a href="https://theconversation.com/to-reach-net-zero-we-must-decarbonise-shipping-but-two-big-problems-are-getting-in-the-way-170464">decarbonisation of shipping</a> still lacks <a href="https://www.maritime-executive.com/article/let-s-be-honest-un-secretary-general-slams-imo-s-progress-on-co2">adequate targets or processes</a>. Oceans can also provide climate-safe, sustainable food choices. Current food systems, such as emissions-intensive agriculture, fishing, and processed foods are responsible for <a href="https://www.nature.com/articles/s43016-021-00225-9">one-third of global emissions</a>. Considerable environmental (and health) benefits can be gained by shifting our diets to sustainable “<a href="https://theconversation.com/how-fish-can-still-be-part-of-a-more-sustainable-food-future-167944">blue foods</a>”. These include seafoods sourced from fisheries with sustainable management practices, such as avoiding overfishing and reducing carbon emissions. Markets and technologies should also be geared towards the large-scale production and consumption of aquatic plants such as seagrasses. There’s also a wealth of opportunity in “blue carbon” – capturing CO₂ in the atmosphere by conserving and restoring marine ecosystems such as mangroves, seagrasses and salt marshes. However, the success of nature-based solutions depends on a healthy ocean ecosystem. For example, there are emerging concerns around the impact of <a href="https://theconversation.com/oil-companies-are-ploughing-money-into-fossil-fuelled-plastics-production-at-a-record-rate-new-research-169690">plastic pollution</a> on plankton’s ability to absorb CO₂. <a href="https://images.theconversation.com/files/432512/original/file-20211117-21-1lqaa5q.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=1000&fit=clip"><img src="https://images.theconversation.com/files/432512/original/file-20211117-21-1lqaa5q.jpg?ixlib=rb-1.1.0&q=45&auto=format&w=754&fit=clip" alt="" /></a> Conserving mangroves is an important way to sequester carbon from the atmosphere. Shutterstock But perhaps the greatest impact would come from adopting offshore renewable energy. This has the potential to offer <a href="https://www.oceanpanel.org/climate">one-tenth of the emissions reductions we need to reach the 1.5℃ goal</a>. The International Energy Agency has estimated offshore wind could <a href="https://www.iea.org/reports/offshore-wind-outlook-2019">power the world 18 times over its current consumption rate</a>. <h2>Climate talks are making slow progress</h2> For more than a decade, the inclusion of oceans in climate talks has been piecemeal and inconsistent. Where they have been part of negotiations, including at COP26, talk has focused on the potential for coastal areas to adapt to climate change impacts such as sea-level rise, as first raised in international fora <a href="http://www.islandvulnerability.org/slr1989/declaration.pdf">in 1989</a> by small island states. The final COP26 agreement, known as the <a href="https://unfccc.int/process-and-meetings/conferences/glasgow-climate-change-conference-october-november-2021/outcomes-of-the-glasgow-climate-change-conference">Glasgow Climate Pact</a>, made slight progress. The pact recognised the importance of ensuring the <a href="https://unfccc.int/sites/default/files/resource/cma3_auv_2_cover%20decision.pdf">ocean ecosystem’s integrity</a>. It established the “the Ocean and Climate Change Dialogue” as an annual process to strengthen ocean-based action. And <a href="https://unfccc.int/sites/default/files/resource/cop26_auv_2f_cover_decision.pdf">it invited</a> UNFCCC bodies to consider how to “integrate and strengthen ocean-based action into existing mandates and workplans” and report back. While these are positive measures, at this stage they don’t require action by parties. Therefore, they’re only a theoretical inclusion, not action-oriented. We still lack national targets and clear, mandatory international requirements for countries to consider sinks, sources and activities beyond the shoreline in their climate planning and reporting. Where COP26 did progress was its focus on whether ocean impacts and mitigation will finally be brought into the mainstream climate agenda. For the first time in five years, a new <a href="https://www.becausetheocean.org/wp-content/uploads/2021/11/Final-Draft-BtO3_31_Oct_2021.pdf">“Because the Ocean” declaration</a> was released, which calls for the systematic inclusion of the oceans in the UNFCCC and Paris Agreement process. <h2>What do we do now?</h2> What’s now needed is a list of mandated requirements that ensure countries report on and take responsibility for climate impacts within their maritime territories. But as COP26 president Alok Sharma said of the summit as a whole, it was a “fragile win”. We still lack any reference to consistency with existing mechanisms, such as the <a href="https://www.un.org/depts/los/index.htm">law of the sea convention</a> or how funding will be allocated specifically to oceans. As such, the actual impact of COP26 on the inclusion of oceans in climate action remains uncertain. It will depend on how the UNFCCC bodies respond to these directives, and their success in extending obligations to state parties. Responding to the climate crisis means we need to stop pretending the ocean and atmosphere are separate. We must start including ocean action as a routine part of climate action. <a href="https://theconversation.com/profiles/dr-sali-bache-1286674">Dr Sali Bache</a>, Strategic Advisor in International Policy and Oceans , <a href="https://theconversation.com/institutions/climateworks-australia-984">ClimateWorks Australia</a> 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/the-ocean-is-essential-to-tackling-climate-change-so-why-has-it-been-neglected-in-global-climate-talks-171309">original article</a>. Image: Silas Baisch/Unsplash

Domestic Travel

The Ocean Decade: how the next ten years can chart a new course for the blue planet

When birdsong was filling the muted days of the first lockdown, marine scientists were noticing something similar in the world’s oceans. Container vessels, cruise ships and drilling platforms had fallen silent, and so the oceans grew quieter than at any other time in recent memory. Researchers are trying to understand how the lull affected ocean life, but there are already stories of whales seizing the chance to sing and dolphins venturing into coastal areas they’d avoided for decades. The year of the quiet ocean is over, and noise pollution is roaring back to pre-pandemic levels, drowning out the sounds that marine species depend on to communicate and make sense of their surroundings. Sadly, that’s just one problem among many. The UN has declared that the next ten years will be <a href="https://www.oceandecade.org/">the Decade of Ocean Science for Sustainable Development</a>, recognising the enormous challenges facing our blue planet. The Conversation has been keeping an eye on some of these as part of our <a href="https://theconversation.com/uk/topics/oceans-21-96784">Oceans 21 series</a>. Already, we’ve heard from experts about how chemical pollution in the ocean <a href="https://theconversation.com/why-ocean-pollution-is-a-clear-danger-to-human-health-152641">threatens human health</a>, how the ocean economy is dominated by <a href="https://theconversation.com/blue-economy-how-a-handful-of-companies-reap-most-of-the-benefits-in-multi-billion-ocean-industries-153165">a handful of mega-rich corporations</a> and why global warming is <a href="https://theconversation.com/the-ocean-is-becoming-more-stable-heres-why-that-might-not-be-a-good-thing-157911">making the ocean more stable</a> – with surprisingly worrying results. But we’ve also heard informed reasons for hope. From the geographer studying <a href="https://theconversation.com/the-hopeful-return-of-polar-whales-151487">the recovery of polar whale populations</a> and the team of physicists learning how to track the journey of <a href="https://theconversation.com/where-does-plastic-pollution-go-when-it-enters-the-ocean-155182">each plastic particle</a> when it reaches the shoreline, to the anthropologist documenting the role that <a href="https://theconversation.com/how-scottish-gaelic-is-helping-protect-scotlands-seas-155660">Scottish Gaelic plays in conservation</a> in Outer Hebridean fisheries.

Cruising

Blue Acceleration: our dash for ocean resources mirrors what we’ve already done to the land

Humans are leaving a heavy footprint on the Earth, but when did we become the main driver of change in the planet’s ecosystems? Many scientists point to the 1950s, when all kinds of socioeconomic trends began accelerating. Since then, <a href="https://www.weforum.org/agenda/2016/09/the-countries-with-the-biggest-populations-from-1950-to-2060/">the world population has tripled</a>. Fertiliser and water use expanded as <a href="https://theconversation.com/can-the-earth-feed-11-billion-people-four-reasons-to-fear-a-malthusian-future-43347">more food was grown than ever before</a>. The construction of motorways sped up to accommodate rising car ownership while international flights took off to satisfy a growing taste for tourism. The scale of human demands on Earth grew beyond historic proportions. This post-war period became known as the “<a href="https://theconversation.com/anthropocene-began-in-1965-according-to-signs-left-in-the-worlds-loneliest-tree-91993">Great Acceleration</a>”, and many believe it gave birth to the Anthropocene – the geological epoch during which human activity surpassed natural forces as the biggest influence on the functioning of Earth’s living systems. But researchers studying the ocean are currently feeling a sense of déjà vu. Over the past three decades, patterns seen on land 70 years ago have been occurring in the ocean. We’re living through a “<a href="https://www.cell.com/one-earth/fulltext/S2590-3322(19)30275-1">Blue Acceleration</a>”, and it will have significant consequences for life on the blue planet. Why is the Blue Acceleration happening now? As land-based resources have declined, hopes and expectations have increasingly turned to the ocean as a new engine of human development. Take deep sea mining. The international seabed and its mineral riches have excited commercial interest in recent years due to soaring commodity prices. According to the <a href="https://data.imf.org/commodityprices">International Monetary Fund</a>, the price of gold is up 454% since 2000, silver is up 317% and lead 493%. Around 1.4 million square kilometres of the seabed has been leased since 2001 by the International Seabed Authority for exploratory mining activities. In some industries, technological advances have driven these trends. Virtually all offshore windfarms were installed <a href="https://www.irena.org/Statistics">in the last 20 years</a>. The marine biotechnology sector scarcely existed at the end of the 20th century, and over <a href="https://advances.sciencemag.org/content/4/6/eaar5237">99% of genetic sequences from marine organisms</a> found in patents were registered since 2000. During the 1990s, as the Blue Acceleration got underway, <a href="https://www.infoplease.com/world/population-statistics/total-population-world-decade-1950-2050">the world population reached 6 billion</a>. Today there are around <a href="https://www.worldometers.info/world-population/">7.8 billion people</a>. Population growth in water-scarce areas like the Middle East, Australia and South Africa has caused a <a href="https://www.desaldata.com/">three-fold growth in volumes of desalinated seawater</a> generated since 2000. It has also meant a nearly <a href="https://data.worldbank.org/indicator/IS.SHP.GOOD.TU">four-fold increase</a> in the volume of goods transported around the world by shipping since 2000. Why does the Blue Acceleration matter? The ocean was once thought – even among prominent scientists – to be too vast to be changed by human activity. That view has been replaced by the uncomfortable recognition that not only can humans change the ocean, but also that the current trajectory of human demands on the ocean simply isn’t sustainable. Consider the coast of Norway. The region is home to a multi-million dollar ocean-based oil and gas industry, aquaculture, popular cruises, busy shipping routes and fisheries. All of these interests are vying for the same ocean space, and their demands are growing. A five-fold increase in the number of salmon grown by aquaculture is expected by 2050, while the region’s tourism industry is predicted to welcome a five-fold increase in visitors by 2030. Meanwhile, <a href="https://www.offshorewind.biz/2019/06/19/norway-ponders-3-5gw-offshore-wind-move/">vast offshore wind farms</a> have been proposed off the southern tip of Norway. The ocean is vast, but it’s not limitless. This saturation of ocean space is not unique to Norway, and a densely populated ocean space runs the risk of conflict across industries. Escapee salmon from aquaculture have <a href="https://www.regjeringen.no/en/topics/food-fisheries-and-agriculture/fishing-and-aquaculture/1/farmed-salmon/fish-healthsalmon-lice/id607091/">spread sea lice in wild populations</a>, creating tensions with Norwegian fisheries. An industrial accident in the oil and gas industry could cause significant damage to local seafood and tourism as well as the seafood export market. More fundamentally, the burden on ocean ecosystems is growing, and we simply don’t know as much about these ecosystems as we would like. An ecologist once quipped that fisheries management is the same as forestry management. Instead of trees you’re counting fish, except you can’t see the fish, and they move. Exploitation of the ocean has tended to precede exploration. One iconic example is <a href="https://theconversation.com/sea-pangolin-the-first-ever-species-endangered-by-potential-deep-sea-mining-120624">the scaly-foot snail</a>. This deep sea mollusc was discovered in 1999 and was on the IUCN Red List of endangered species by 2019. Why? As far as scientists can tell, the species is only found in three hydrothermal vent systems more than 2,400 metres below the Indian Ocean, covering less than 0.02 square kilometres. Today, two of the three vent systems fall within exploratory mining leases. What next? Billionaires dreaming of space colonies can dream a little closer to home. Even as the Blue Acceleration consumes more of the ocean’s resources, this vast area is every bit as mysterious as outer space. The surfaces of Mars and the Moon have been mapped in <a href="https://www.ncei.noaa.gov/news/mapping-our-planet-one-ocean-time">higher resolution than the seafloor</a>. Life in the ocean has existed for two billion years longer than on land and an estimated <a href="https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.1001127">91% of marine species have not been described by science</a>. Their genetic adaptations could help scientists develop the <a href="https://theconversation.com/nature-is-a-rich-source-of-medicine-if-we-can-protect-it-107471">antibiotics and medicines of tomorrow</a>, but they may disappear long before that’s possible. The timing is right for guiding the Blue Acceleration towards more sustainable and equitable trajectories. The <a href="https://en.unesco.org/ocean-decade">UN Decade of Ocean Science for Sustainable Development</a> is about to begin, a new <a href="https://www.un.org/bbnj/">international treaty on ocean biodiversity</a> is in its final stages of negotiation, and in June 2020, governments, businesses, academics and civil society will assemble for the <a href="https://oceanconference.un.org/">UN Ocean Conference</a> in Lisbon. Yet many simple questions remain. Who is driving the Blue Acceleration? Who is benefiting from it? And who is being left out or forgotten? These are all urgent questions, but perhaps the most important and hardest to answer of all is how to create connections and engagement across all these groups. Otherwise, the drivers of the Blue Acceleration will be like the fish in the ecologist’s analogy: constantly moving, invisible and impossible to manage – before it is too late. Written by Robert Blasiak. Republished with permission of <a href="https://theconversation.com/blue-acceleration-our-dash-for-ocean-resources-mirrors-what-weve-already-done-to-the-land-130264">The Conversation.</a>

Cruising

Why your risks of breast cancer increase as the oceans rise

It is encouraging to see greater attention in the media to the issue of climate change and its effects on the life-support systems of the planet. The link between breast cancer and the environment, however, is being overlooked. Premenopausal women exposed to high levels of air pollution have a 30 per cent increased risk for breast cancer, according to <a href="https://journals.lww.com/environepidem/Fulltext/2018/09000/Residential_exposure_to_fine_particulate_matter.2.aspx">a paper in Environmental Epidemiology</a> published by Paul Villeneuve, a professor of occupational and environmental health at Carleton University, and his research team last year. This should trigger a wake-up call given that we tend to think of breast cancer as a disease of aging women. In fact, the science of breast cancer tells us that “<a href="https://www.tandfonline.com/doi/abs/10.1179/107735209799449761">genetic susceptibility makes only a small to moderate contribution</a>” to breast cancer. The known risk factors — such as family history, age, gender, ethnicity and hormones — account for <a href="https://www.ncbi.nlm.nih.gov/pubmed/22129067">only around three in 10 cases</a>. The other 70 per cent are likely related mostly to environment — including the air, water and soil, the places we live and work in and the products we consume — according to current research. In Canada, <a href="http://www.cancer.ca/en/cancer-information/cancer-type/breast/statistics/?region=on">over 26,300 women were diagnosed with breast cancer in 2017</a> so that 70 per cent represents a lot of women. Carcinogens in the workplace <a href="https://doi.org/10.1186/1476-069X-11-87">Our work environments</a> are part of this story. A paper published last November in New Solutions Journal <a href="https://doi.org/10.1177/1048291118810900">points to workplace exposures as the cause for one woman’s breast cancer</a>. Using the evidence presented at a worker’s compensation hearing, Michael Gilbertson, a former federal government biologist who studied the health effects of toxic chemicals, and Jim Brophy, an occupational health researcher, found that they could infer a causal relationship between the woman’s diagnosis of breast cancer and her high exposure to air pollution — as a border guard at the bridge connecting Windsor, Ont. to Detroit, Mich. Despite the scientific evidence highlighting environmental factors and the important role they likely play in contributing to breast cancer, the woman at the bridge was denied compensation. She was denied even though breast cancers were occurring in this region at a rate up to 16 times higher than the rest of the county, and in an environment with <a href="https://doi.org/10.1002/cncr.22653">pollutants containing known breast carcinogens</a> such as benzene and polycyclic aromatic hydrocarbons. It is not surprising, given that environment is regularly ignored when we talk about breast cancer. A disease of our communities When researchers study what women know about breast cancer they find a focus on cures, detection and treatments. What’s often missing from their list is prevention, and <a href="https://doi.org/10.1080/10410236.2010.496836">prevention is often confused with early detection</a>. Primary prevention means stopping cancer before it starts — not finding it and treating it early, although that too is important. Women’s knowledge of breast cancer is importantly <a href="https://doi.org/10.1111/1467-9566.00274">connected to media and medical practitioner’s messages</a>. Forecasts of the future of cancer tell us that <a href="https://www.canada.ca/en/public-health/services/chronic-diseases/cancer/canadian-cancer-statistics.html">one in two Canadians</a> will likely be diagnosed with cancer in their lifetime. Projections show rising rates of many cancers, including breast cancer. Dr. Ted Schettler, who wrote <a href="https://www.healthandenvironment.org/docs/EcologyOfBreastCancer_Schettler.pdf">The Ecology of Breast Cancer</a> argues: <blockquote> “breast cancer is not only a disease of abnormal cells, but also of communities we create and live in.” </blockquote> If we apply his argument, it means we can create conditions for fewer future breast cancers. The question then becomes how? We cannot blame women To start, we need to make prevention at least as much a priority as early detection, better treatments and the search for cures. We also have to take a good look at all suspected causes. Conversations about prevention often stir debate about what is to blame for the breast cancer rates we are seeing. But an aging population of women who make bad lifestyle choices doesn’t explain increases in breast cancers in more and younger women. It doesn’t explain why women who migrate from countries with lower rates of breast cancer develop the same rates within 10 years of living in their new homes. It also doesn’t explain the clusters of breast cancers in regions with high levels of air pollution containing definitive breast carcinogens. We need confidence in what the science is already showing us about the role of <a href="https://ehjournal.biomedcentral.com/articles/10.1186/s12940-017-0287-4#Sec49">environmental and workplace hazards</a> in breast cancer causation. Indeed, the evidence points to <a href="https://www.eurekalert.org/pub_releases/2017-10/ssi-ete101017.php">associations between numerous environmental pollutants</a> and an increased risk for breast cancer — <a href="https://www.ncbi.nlm.nih.gov/pubmed/17503434">including pesticides, herbicides, synthetic chemicals, endocrine disrupting chemicals and vehicle emissions</a>. <a href="https://journals.lww.com/joem/Abstract/2011/05000/Breast_Cancer_Risk_Associated_With_Residential.10.aspx">Living and working in proximity to these exposures</a>, especially during vulnerable windows of development, is <a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1240618/">putting women</a> at <a href="https://www.ncbi.nlm.nih.gov/pubmed/22129067">high risk</a>. <a href="https://doi.org/10.1186/1476-069X-11-87">Some occupations</a>, including radiology, pharmacy, health care, hairdressing, working with plastics, manufacturing, agriculture, working as airline crew and firefighting, also <a href="https://doi.org/10.1177/1048291118758460">carry a higher risk</a>. These <a href="https://d124kohvtzl951.cloudfront.net/wp-content/uploads/2017/03/02025357/Report_Working-Women-and-Breast-Cancer_August_2015.pdf">occupational sectors employ thousands of thousands of women</a> worldwide. We need greater awareness and extended programmes that focus on these environmental and workplace causes. And we need to create and enforce policies and put regulations in place that prevent such exposures. The climate change link The women in Paul Villeneuve’s study are not unlike the female border guard. These cases are all linked to high levels of air pollution. Their stories are those of countless other women who face exposures to breast carcinogens in many Canadian urban environments and workplaces with high levels of traffic and industrial pollution. We also have evidence that these exposures are increasing, as our climate is changing. This link is complex, as is so much about cancer generally. Air pollution is <a href="https://www.who.int/sustainable-development/AirPollution_Climate_Health_Factsheet.pdf">one of the many causes of climate change</a> as well as <a href="https://journals.lww.com/environepidem/Fulltext/2018/09000/Residential_exposure_to_fine_particulate_matter.2.aspx">breast cancer</a>. It is also believed that increased ambient air temperatures may change the effects of chemical contaminants on humans and that increased precipitation and flooding will <a href="https://setac.onlinelibrary.wiley.com/doi/full/10.1002/etc.2046">move contaminants to places where greater exposure by humans is possible</a>. Finally, as the incidence of fires increase with climate change, exposures to chemicals associated with the development of breast cancer often found in fires also increase. Studies are now investigating <a href="http://womenfirefighterstudy.com/about/">possible elevated incidence of breast cancer among women firefighters</a>. They are clearly a highly exposed group and may be just one example of women bearing an elevated breast cancer risk. Prevention a priority At this important moment in history, as we debate the poor state of the environment and the adverse outcomes associated with it, we have the opportunity to make prevention of the many diseases — including breast cancer — a priority. Many stories report on the numerous health problems connected to climate change including other cancers, cardiovascular disease, fertility problems, asthma, adverse birth outcomes, disabilities, diabetes and stroke. And yet, despite increasing evidence of an association between breast cancer and environmental exposures, the media does not cover this piece of the story. We must do the work now to create a future where we won’t have to surrender our good health to unregulated exposure to known and suspected breast carcinogens. Instead we must <a href="https://deainfo.nci.nih.gov/ADVISORY/pcp/annualReports/pcp08-09rpt/PCP_Report_08-09_508.pdf">implement the precautionary principle</a> — in our communities, our workplaces and across our planet.<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; text-shadow: none !important;" src="https://counter.theconversation.com/content/108420/count.gif?distributor=republish-lightbox-basic" alt="The Conversation" width="1" height="1" /> <a href="https://theconversation.com/profiles/jane-e-mcarthur-613732">Jane E. McArthur</a>, Doctoral Candidate in Sociology, <a href="http://theconversation.com/institutions/university-of-windsor-3044">University of Windsor</a> This article is republished from <a href="http://theconversation.com">The Conversation</a> under a Creative Commons license. Read the <a href="https://theconversation.com/as-the-oceans-rise-so-do-your-risks-of-breast-cancer-108420">original article</a>.

Body

Why we love the ocean

Whenever I plunge into the ocean, laughter bursts from me. The waves are so wild and fresh and wonderful that my heart sings with joy and sends the happy notes out between my lips. It’s lovely, but also a little strange, because I didn’t even like the water until two years ago. My antipathy was the stuff of legend. As a twentysomething, a boyfriend sent me a bouquet with a note attached saying: “For a Piscean who hates water … some flowers to put in it …” As a fortysomething, “no” had become my standard response to just about everything. I’d taken a set against potential fun, preferring to stand on the sidelines of life. I refused to participate in anything that would take me out of my comfort zone. I can see now that I was struggling to hold my head above water. Living a controlled life was my coping mechanism. When my marriage fell apart three years ago, I realised it was time to sink or swim. I chose to swim, both literally and figuratively. And, six months later, I fell in love – both with a man and the sea. There’s something about my new relationship that makes me want to say “yes”. I feel released from those old ways that constricted my willingness to try new things. My late-in-life openness – coupled with my partner’s seaside abode – has led to an addiction to the ocean. The sight of the water soothes me. Its cool beauty washes away the stresses of my days. I love the feeling of its dried salt on my skin and in the curls of my hair. It’s so unexpected that a pale, freckled redhead should yearn to leap and float in the surf, but I miss the ocean every day I’m not there. I’ll never be the type to sunbake on the sand. My favourite times for a dip are the early morning and late afternoon, when the heat of the sun and the crowds have gone. My partner and I often meet at our favourite beach for an after-work surf fix. Last week, he arrived with a bottle of prosecco, popped the cork and poured two glasses. We clinked, took a few sips, then ran into the waves as a sun shower started sprinkling down. It was gorgeous and refreshing and a tiny bit magical … and familiar laughter soon burst from me again. While it once took a heatwave to entice me into the waves, I now swim in the ocean year round. Last winter, I posted a kayaking shot on Instagram, prompting a former colleague to comment that it must have been freezing. I noted: “No wind, so not too bad, but I went for a swim in the surf at Palm Beach afterwards … THAT was pretty chilly … Who AM I?” She replied: “I have to agree Alana – who the hell are you???” I’m a woman who, late in life, has realised she loves the ocean. Not all bodies of water float my boat, it must be the sea. I get bored in swimming pools or lakes or harbour inlets. It’s the waves I crave. I love being buffeted about in them. I’m reminded how brilliant it is to be alive as I leap and dive in their tumult. I dream of retiring to the seaside one day, so I can get a daily fix. But for now it’s a blissful escape from the work-sleep-eat Groundhog Day cycle. Written by Alana House. Republished with permission of <a href="https://www.wyza.com.au/articles/lifestyle/in-praise-of/in-praise-of-the-ocean.aspx">Wyza.com.au.</a>

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