tag:blogger.com,1999:blog-172209972024-03-13T11:44:32.063+00:00SCUBA Travel NewsNews, research and articles on SCUBA diving and the marine environment.SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.comBlogger252125tag:blogger.com,1999:blog-17220997.post-79420739023112571052015-09-24T09:06:00.003+01:002015-09-24T09:06:58.097+01:00We've movedYou can now find our <a href="http://news.scubatravel.co.uk/">SCUBA News</a> posts at <a href="http://news.scubatravel.co.uk/">http://news.scubatravel.co.uk/</a> - looking forward to seeing you there.SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com2tag:blogger.com,1999:blog-17220997.post-1893270618899961262010-03-10T10:26:00.000+00:002010-03-10T12:16:48.581+00:002010 El Nino Reduces Marine Life<img src="http://news.scubatravel.co.uk/wave.jpg" align="right">The ongoing El Niño of 2010 is reducing marine populations according to scientists at NOAA and Scripps Institution of Oceanography. <br /><br />Researchers are reporting a stronger than normal northward movement of warm water up the Southern California coast, a high sea-level event in January and low abundances of plankton and pelagic fish - all conditions consistent El Niño.<br /><br />Sea surface temperatures along the entire West Coast of America are 0.5 to 1 degree Celsius (0.9 to 1.8 degrees Fahrenheit) warmer than normal and at points off Southern California are as much as 1.6 degrees Celsius (2.9 degrees Fahrenheit) higher than normal. The most unusually high temperatures were mapped around <a href="http://www.scubatravel.co.uk/americas/usa.html">Catalina</a> and San Clemente islands. <br /><br />The high coastal sea levels may be caused by strong winter storms, scientists are investigating whether this is the case or whether they are primarily a result of El Niño.<br /><br />A combination of satellite remote sensing and field measurements is offering scientists a broader view of the evolution of this El Niño that was not available during previous El Niños, which were especially strong in 1982-83 and 1997-98.<br /><br />The two research centres use data collected by satellites and buoy-mounted instruments to measure sea surface temperature. Researchers embark on quarterly cruises off the California coast to collect vertical temperature profiles in the upper reaches of the water column. They also count eggs of commercially important fishes such as sardines and anchovies as well as measure plankton volumes to estimate the amount of "production" available to marine organisms. NOAA's Advanced Survey Technologies Group assesses fish populations through acoustic surveys. In contrast with the last major El Niño, Scripps now deploys Spray gliders, diving robots that now gather ocean temperature and other data.<br /><br />The scientists have observed a drop in biological abundance, or productivity, that appears to be related to the northward movement of warm water from the equator. The flow arrives in pulsing Kelvin waves that are detected by sea level and altimeter monitors and coastal tidal gauges. The layer of warm water often stifles the upwelling of nutrients from lower ocean depths that sustain larger populations of fishes and invertebrates.<br /><br />A Kelvin wave is a gentle yet massive swell of warm water travelling across the Pacific from West to East. A typical Kelvin wave is 5 or 10 cm high, hundreds of kilometers wide, and a few degrees warmer than surrounding waters.<br /><br />If El Niño conditions continue, they are likely to be characterized by weaker than normal upwelling and lower biological production. El Niño conditions are forecast to persist into spring. If so, they may result in fewer fish and breeding failure of seabirds.<br /><br />Further Reading<br /><a href="http://science.nasa.gov/headlines/y2002/05mar_kelvinwave.htm">A Curious Pacific Wave</a>, Science@NASA<br /><a href="http://scrippsnews.ucsd.edu/Releases/?releaseID=1052">Scripps Institution of Oceanography</a>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com3tag:blogger.com,1999:blog-17220997.post-11058368492456961142010-03-04T16:19:00.000+00:002010-03-10T12:16:48.588+00:00Barnacle Dinner in the GalapagosThe barnacle, a key thread in the marine food web, was thought to be missing along rocky coasts dominated by upwellings. Now a research team headed by Brown University marine ecologist Jon Witman has found the opposite to be true: Barnacle populations thrive in vertical upwelling zones in moderately deep waters in the <a href="http://www.scubatravel.co.uk/americas/galapagos.html">Galapagos</a> Islands.<br /><br />Working at an expansive range of underwater sites in the Galapagos, marine ecologist Jon Witman and his team found that at two sub-tidal depths, barnacle larvae had latched onto rock walls, despite the vertical currents. In fact, the stronger the vertical current, the more likely the barnacles would colonize a rocky surface.<br /><br />The researchers also documented the presence of whelks and hogfish, which feast on barnacles. This predator-prey relationship shows that vertical upwelling zones are “much more dynamic ecosystems in terms of marine organisms than previously believed,” Witman said.<br /><br />Scientists who study coastal marine communities had assumed that prey species such as barnacles and mussels would be largely absent in vertical upwelling areas, since the larvae, which float freely in the water as they seek a surface to attach to, would more likely be swept away in the coast-to-offshore currents. Studies of the near-surface layer of the water in rocky tidal zones confirmed that thinking. But the field work by Witman and his group, in deeper water than previous studies, told a different tale: Few barnacles were found on the plates in the weak upwelling zones, while plates at the strong upwelling sites were teeming with the crustaceans. Flourishing barnacle communities were found at both the 6-meter and 15-meter stations, the researchers reported.<br /><br />The scientists think the free-floating larvae thrive in the vertical-current zones because they are constantly being bounced against the rocky walls and eventually find a tranquil spot in micro crevices in the rock to latch on to.<br /><br />Further Reading<br /><a href="http://www.esajournals.org/doi/abs/10.1890/08-1922.1"><i>Coupling between subtidal prey and consumers along a mesoscale upwelling gradient in the Galápagos Islands</i>. Jon D. Witman, Margarita Brandt, Franz Smith. Ecological Monographs 2010 80:1, 153-177 </a><br />Brown University News, <a href="http://news.brown.edu/pressreleases/2010/03/upwelling"><i>Barnacles Prefer Upwelling Currents, Enriching Food Chains in the Galapagos</i></a>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com1tag:blogger.com,1999:blog-17220997.post-55975069007512393772010-02-22T16:58:00.000+00:002010-03-10T12:16:48.595+00:00Sea of Cortez Threatened<a href="http://www.scubatravel.co.uk/baja/"><img src="http://www.scubatravel.co.uk/photos/Seabass_12_2%20a4rsmall.jpg" align="right" border="0"></a>Life in the <a href="http://www.scubatravel.co.uk/baja/">Sea of Cortez</a> is endangered by destructive new fishing methods.<br /><br />Ten years ago graduate students Octavio Aburto-Oropeza and Gustavo Paredes surveyed the marine life of the Sea of Cortez (also known as the Gulf of California). In 2009 they went back and were shocked at how things had declined. Sixty percent of the surveyed sites showed signs of degradation, according to Aburto-Oropeza, and many are now missing the top predators normally present in healthy, functioning ecosystems.<br /><br />"Ten years later we can actually measure the effects of not putting conservation measures in place," Paredes told Explorations Magazine. "Some of us had been conducting surveys in certain sites every year, but until this year we didn't know the whole story of what was going on." <br /><br />The changes have occurred because of fishing. Traditional hook-and-line fisherman have been put out of business by vastly more damaging gill net fishing and "hookah" diving. Hookah fishermen use surface-supplied air through piping that allows them to walk along the seafloor for long periods of time. The technique is typically conducted at night when fish are resting, allowing the hookah fishermen to spear or grab large numbers of vulnerable fish and invertebrates.<br /><br />In the most dramatic example of fishing impacts observed on the 2009 expedition a survey of San Esteban Island in the north revealed reefs devoid of fish and instead covered by mats of cyanobacteria.<br /><br />There are areas which have flourished, though. One example is <a href="http://www.scubatravel.co.uk/baja/bajadive.html#CABOPULMO">Cabo Pulmo</a> near the southern tip of the Baja peninsula. Fishing restrictions there since 1995 have ensured that Cabo Pulmo retains a mix of sea life and flourishing fish populations. Other successes include Coronado Island inside the Loreto marine park and Los Islotes inside Espiritu Santo marine park.<br /><br />Using compressed air has been banned in Mexico for sports fishermen for 40 years, but since commercial fishermen weren’t named specifically they had been allowed to use compressed air to clean the reef. In May 2009 this changed: the use of hookahs have now been outlawed for any type of fishing. Illegal fishing still goes on though, and environmental organisation Sea Watch is asking people to report any that they encounter at <a href="http://seawatch.org/en/Resource-Library/359/report-illegal-fishing">http://seawatch.org/en/Resource-Library/359/report-illegal-fishing</a> <br /><br />Further Reading:<br /><a href="http://explorations.ucsd.edu/Research_Highlights/2010/Jan_Feb/ca_gulf/">Scripps Institution of Oceanography</a>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-29714501217923268642010-01-20T12:08:00.000+00:002010-03-10T12:16:48.603+00:00Red Grouper create home for many animals<img src="http://news.scubatravel.co.uk/redgrouper.jpg" alt="Credit: SEFSC Pascagoula Laboratory; Collection of Brandi Noble, NOAA/NMFS/SEFSC" align="right" hspace="5">Researchers from Florida State University have found that Red Grouper (<i>Epinephelus morio</i>) dig out and maintain complex structures at the bottom of the sea. They remove sand, exposing hard rocks that are crucial to corals and sponges and the animals that rely on them. The work demonstrates that Red Groupers modify their environment, much as beavers do, creating habitat for many other animals including lobster and commercially important fish.<br /><br />"Watching these fish dig holes was amazing enough,” says Felicia Coleman, lead researcher, “but then we realised that the sites served to attract mates, beneficial species such as cleaner shrimp that pick parasites and food scraps off the resident fish and a variety of prey species for the Red Grouper. So it's no surprise that the fish are remarkably sedentary. Why move if everything you need comes to you?”<br /><br />“The research is incredibly valuable because it demonstrates how interconnected species are in the sea,” says Dr. Susan Williams, a professor at the University of California, Davis. “Red Groupers are the 'Frank Lloyd Wrights' of the sea floor because they are critical habitat architects. The species that associate with them include commercially valuable species- such as vermilion snapper, black grouper, and lobsters. If the groupers are overfished, the suite of species that depends on them is likely to suffer.”<br /><br />Working along the West Florida Shelf, the authors observed the excavating behaviour of the Red Grouper during both their juvenile stage in inshore waters as their adult stage at depths of 100 m. The study serves to document this behaviour and its apparent impact on the biological diversity of the ocean. Their article on the study, “<i><a href="http://marinefeeder.magnet.fsu.edu/faculty/papers/1TOFISHSJ.pdf">Benthic Habitat Modification through Excavation by Red Grouper, Epinephelus morio, in the Northeastern Gulf of Mexico</a></i>,” is published in the most recent issue of the journal The Open Fish Science Journal.<br /><br />Red Grouper (<i>Epinephelus morio</i>) is an economically important species in the reef fish community of the southeastern <a href="http://www.scubatravel.co.uk/americas/usa.html">United States</a>, and especially the Gulf of Mexico. It is relatively common in karst regions of the Gulf.<br /><br />As juveniles, Red Grouper excavate the limestone bottom of Florida Bay and elsewhere, exposing “solution holes” formed thousands of years ago when sea level was lower, and freshwater dissolved holes in the rock surface. When sea level rose to its present state, these solution holes filled with sediment. By removing the sediment from these holes, Red Grouper restructure the flat bottom into a three dimensional matrix.<br /><br />Spiny lobsters are among the many species that occupy these excavations, especially during the day when they need refuge from roving predators.<br /><br />“What are the consequence of overfishing these habitat engineers?” asks co-author Koenig. “You can't remove an animal that can dig a hole five meters across and several meters deep to reveal the rocky substrate and expect there to be no effect on reef communities. The juveniles of a species closely associated with these pits, vermilion snapper, are extremely abundant around the offshore excavations. It is possible that the engineered habitat is significant as a nursery for this species, which other big fish rely on as food. One could anticipate a domino effect in lost diversity resulting from the loss of Red Grouper-engineered habitat.”<br /><br />Red Grouper clearly remove sufficient sediment to transform an otherwise two-dimensional area into a three-dimensional structure below the seafloor, providing refuge for themselves and for other organisms. In the process, they expose hard substrate, thus creating settlement sites for corals, sponges, and anemones, allowing the creation of three-dimensional structure above the seafloor as well. Addition of these roles to their contribution as resident top predators suggests that they might have a disproportionately large per capita influence on the ecosystem within which they live.<br /><br />Red Grouper have been harvested in the United States since the 1880s and are currently the most common grouper species landed in both commercial and recreational fisheries of the Gulf of Mexico.<br /><br />Excessive fishery removals can and often do have cascading effects in marine communities that ultimately result in the loss of many species. This situation arises when the captured species has a disproportionately large influence on the system within which it lives. The Red Grouper has been shown to be one such species.<br /><br />Further Reading: <br /><a href="http://marinefeeder.magnet.fsu.edu/faculty/papers/1TOFISHSJ.pdf">Benthic Habitat Modification through Excavation by Red Grouper, Epinephelus morio, in the Northeastern Gulf of Mexico</a><br />pp.1-15 (15) Authors: Felicia C. Coleman, Christopher C. Koenig, Kathryn M. Scanlon, Scott Heppell, Selina Heppell, Margaret W. Miller<br />doi: 10.2174/1874401X01003010001<br /><a href="http://marinefeeder.magnet.fsu.edu/faculty/benthichabitat.aspx">Florida State University</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-32833005242326240722010-01-20T10:43:00.000+00:002010-03-10T12:16:48.609+00:00Creature of the Month: Burrowing Anemone<a href="http://www.scubatravel.co.uk/tubeworm.html"><img src="http://www.scubatravel.co.uk/Tubewormsmall.jpg" align="right" alt="burrowing anemone"></a>This common species - <i><a href="http://www.scubatravel.co.uk/ceranthius.html">Cerianthus lloydii</a></i> - is not a true anemone but a <a href="http://www.scubatravel.co.uk/tubeworm.html">tube anemone</a>. Instead of attaching itself to a rock it lives in a soft felt-like tube protruding above sand or mud. The anemone's tentacles are usually all that is visible. The inner set circle the mouth and are short and stiff. The long, flexible and attractive outer ones, over 100 of them, sweep prey inwards. When disturbed the whole anemone shoots back into its tube, like a tubeworm. The tentacle crown measures up to 10 cm across.<br /><br /><a href="http://www.scubatravel.co.uk/ceranthius.html"><img src="http://www.scubatravel.co.uk/isleman/Ceranthiussmall.jpg" align="left" alt="Cerianthus lloydii" hspace="5"></a>The animals live from the shallows down to 100 m. The tentacles may be white, brown, green or banded.<br /><br />You can find the burrowing anemone around the <a href="http://www.scubatravel.co.uk/photouk.html">British Isles</a> and in North West Europe to the Bay of Biscay.<br /><br /><b>Further Reading:</b><br /><i><A HREF="http://www.amazon.co.uk/exec/obidos/ASIN/0952283158/eml-21">Great British Marine Animals</A></i>, by Paul Naylor, Deltor (2003)<br /><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-61721668375546418652010-01-19T17:46:00.000+00:002010-03-10T12:16:48.616+00:00Minke Whales Should Not be CulledA new genetic analysis of Antarctic minke whales concludes that population of these smaller baleen whales have not increased as a result of the intensive hunting of other larger whales – countering arguments by advocates of commercial whaling who want to “cull” minke whales.<br /><br />Antarctic minke whales are among the few species of baleen whales not decimated by commercial whaling during the 20th century, and some scientists have hypothesised that their large numbers are hampering the recovery of deleted species, such as blue, fin and humpback, which may compete for krill.<br /><br />This “Krill Surplus Hypothesis” postulates that the killing of some two million whales in the Southern Ocean during the early- and mid-20th century resulted in an enormous surplus of krill, benefiting the remaining predators, including Antarctic minke whales.<br /><br />But the new analysis, published this week in the journal Molecular Ecology, estimates that contemporary populations of minke whales are not “unusually abundant” in comparison with their historic numbers. <br /><br />The Southern Ocean is one of the world’s largest and most productive ecosystems and in the 20th century went through what Scott Baker, a whale geneticist at Oregon State University, called “one of the most dramatic ‘experiments’ in ecosystem modification ever conducted.” The elimination of nearly all of the largest whales – such as the blue, fin and humpback – removed a huge portion of the biomass of predators in the ecosystem and changed the dynamics of predator-prey relationships.<br /><br />Blue whales were reduced to about 1-2 percent of their previous numbers; fin whales to about 2-3 percent; and humpbacks to less than 5 percent. “The overall loss of large whales was staggering,” Baker said.<br /><br />“It is possible that the removal of the larger whales would have meant more food for minkes,” Baker said, “but we don’t know much about the historic abundance of krill and whether the different whale species competed for it in the same places, or at the same time. It is possible that there might have been enough krill for all species prior to whaling.”<br /><br />The scientists also say that current minke whale populations may be limited by other factors, including changes in sea ice cover.<br /><br />“The bottom line is that the Krill Surplus Hypothesis does not appear to be valid in relation to minke whales and increasing hunting based solely on the assumption that minke whales are out-competing other large whale species would be a dubious strategy,” Baker said.<br /><br />Further Reading: <a href="http://oregonstate.edu/ua/ncs/archives/2010/jan/new-genetic-analysis-disputes-conclusion-about-increase-antarctic-minke-whales">Oregon State University</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-33497229754516054562010-01-04T15:26:00.000+00:002010-03-10T12:16:48.624+00:00Acoustic Tools Help Whales<img src="http://www.news.scubatravel.co.uk/rightwhale.jpg" align="right">New acoustic sensors are being used in research and conservation projects around the world, with some very important practical results. Among them is improved monitoring of endangered North Atlantic right whales in an effort to reduce ship strikes, a leading cause of their deaths.<br /><br />Sofie Van Parijs is one of many researcher whose work is decribed this month in the journal <i>Marine Ecology Progress Series</i>. Her paper is one of about a dozen in a special theme issue focused on acoustics in marine ecology. Van Parijs, who currently heads the NEFSC's Protected Species Branch, is also a co-author of a related paper on acoustic interference or masking, in which marine animals alter their use of sound as a result of changing background noise.<br /><br />Van Parijs and her colleagues focus on two types of acoustic sensors, real-time and archival. Real-time sensors are mounted on surface buoys, usually anchored or cabled to the ocean bottom, or deployed as arrays towed from a surface vessel. Archival sensors are affixed on bottom-moored buoys equipped with hydrophones to continuously record ocean sounds for long periods of time, often up to three months, before the sensors are temporarily recovered and their batteries refreshed. Some archiving sensors can be mounted of individual animals.<br /><br />“Marine animals live their lives and communicate acoustically across different time and space scales and use sound for different reasons,” said Van Parijs. “We need to use the right tool in the right place for the right need. There is no ‘one size fits all’ when it comes to using technology in the ocean.”<br /><br />Large whales move and communicate over great distances, while smaller whales and dolphins tend to communicate over smaller areas. Pinnipeds, the group of marine mammals that includes seals, walrus and sea lions, can breed on land, on ice or in the water, and move and communicate from small to medium distances. Human-produced sounds complicate the sensing problem by adding sounds to what can be a very noisy environment.<br /><br />The use of passive acoustic monitoring is increasing as improved reliability and lower hardware and software costs provide researchers with a set of tools that can answer a broad range of scientific questions. This information can, in turn, be used in conservation management and mitigation efforts. While most of the new technologies have been applied in studies of whales and dolphins, the researchers say the sensors can also be used in studying pinnipeds, sirenians (manatees and dugongs) and fish. <br /><br />Further Reading: <a href="http://www.nefsc.noaa.gov/press_release/2009/SciSpot/SS0919/index.html">Northeast Fisheries Science Center</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-92076346487348085562009-12-10T11:02:00.000+00:002010-03-10T12:16:48.631+00:00IUCN warns of acid oceans<a href="http://www.scubatravel.co.uk/anemonesred.html"><img src="http://www.scubatravel.co.uk/photos/Anemones_13_10bsmall.jpg" align="right" border="0"></a>Increased release of carbon dioxide in the atmosphere is making seawater more acidic and is threatening ecosystems and species. It is also reducing the ocean’s ability to absorb carbon dioxide and regulate climate. According to <a href="http://cms.iucn.org/">IUCN</a> (International Union for Conservation of Nature), deep and immediate cuts in emissions are needed to stall the acidification of oceans and prevent mass extinction of marine species.<br /><br />There can be little doubt that the ocean is undergoing dramatic changes that will impact many human lives now and in coming generations, unless we act quickly and decisively. Previous episodes of ocean acidification were linked to mass extinctions of some species and it is reasonable to assume that this episode could have the same consequences. <br /><br />The ocean provides about half of the Earth’s natural resources and humankind takes direct advantage of this through our fisheries and shellfisheries. The ocean also absorbs 25 percent of all the carbon dioxide we emit each year, and produces half the oxygen we breathe.<br /><br />Ocean acidity has increased by 30 percent since industrialisation began 250 years ago. If CO2 levels in the atmosphere continue to rise, sea water acidity could increase by 120% by 2060 – greater than anything experienced in the past 21 million years. By 2100, 70% of cold water corals may be exposed to corrosive water.<br /><br />Given the lag between CO2 emissions and a stabilisation of acidification, it could take tens of thousands of years before the ocean’s properties are restored and even longer for full biological recovery. This demands immediate and substantial emissions cuts and technology that actively removes CO2.<br /><br />“There is an increasingly real and very urgent need to dramatically cut emissions. The ocean is what makes Earth habitable and different from anywhere else we know in our solar system and beyond – now’s the time to act to minimise the impacts on our life support system while we still have time,” says Carl Gustaf Lundin, Head of IUCN’s Global Marine Programme.<br /><br />Further Reading<br /><a href="http://cmsdata.iucn.org/downloads/ocean_acidification_guide.pdf">Ocean Acidification - The Facts. <br /></a><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-63598492362398198252009-12-07T14:57:00.000+00:002010-03-10T12:16:48.637+00:00King Crab Family GrowsPhD student Sally Hall has formally described four new species of king crab, all from the deep sea.<br />javascript:void(0)<br />The new species are <i>Paralomis nivosa</i> from the <a href="http://www.scubatravel.co.uk/philippines/">Philippines</a>, <i>P. makarovi</i> from the Bering Sea, <i>P. alcockiana</i> from South Carolina, and <i>Lithodes galapagensis</i> from the <a href="http://www.scubatravel.co.uk/americas/galapagos.html">Galapagos archipelago</a> – the first and only king crab species yet recorded from the seas around the Galapagos Islands.<br /><br />King crabs were first formally described in 1819. They include some of the largest crustaceans currently inhabiting the Earth. They are known from subtidal waters in cooler regions, but deep-sea species occur in most of the world’s oceans, typically living at depths between 500 and 1500 metres.<br /><br />Many more species of King Crab remain to be discovered. “The oceans off eastern Africa, the Indian Ocean and the Southern Ocean are all particularly poorly sampled,” said Hall: “We need to know which king crab species live where before we can fully understand their ecology and evolutionary success.”<br /><br />Further Reading<br /><a href="http://www.noc.soton.ac.uk/index.php?full=1">National Oceanography Centre, Southampton</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-17536944540214303872009-12-02T11:50:00.000+00:002010-03-10T12:16:48.644+00:00'Shocking' 95% Decline of Fish Populations<img src="http://www.news.scubatravel.co.uk/salmon.jpg" align="right" alt="Credit: OAR/National Undersea Research Program (NURP)">Populations of numerous migratory fish species - those that move between freshwater and saltwater during the course of their lives - have declined by more than 95 percent in the North Atlantic . This threatens food supplies and economic systems, and is worse than was thought as people have tended to compare numbers over too short time scales, according to a paper published this month in the journal BioScience. <br /><br />"It's shocking," said Dr. Karin Limburg, a fisheries ecologist at the SUNY College of Environmental Science and Forestry in Syracuse, N.Y., who is the paper's lead author.<br /><br />Limburg and her co-author report that a combination of habitat loss (caused largely by the construction of dams that prevent fish access to traditional spawning areas), urban sprawl, overfishing, pollution and climate change have led to the precipitous decline. Compounding the problem, they say, is the evolving knowledge of the humans who make decisions about how natural resources are managed. <br />"We're looking at shifting baselines here," Limburg said. "Every human generation gains knowledge about the world and establishes a baseline for what's normal. But there is no institutional memory about how things used to be."<br /><br />As an example, Limburg pointed to a graph that depicts the status of the American shad between 1887 and 1997. It indicates the species was more than 10 times as plentiful during most of the early years of that period as it was during the middle of the 20th century. But a second chart shows that the levels in the 1880s were just 10 percent of what they had been 50 years earlier.<br /><br />"We can't envision salmon being a thing of the past," she said. "That was once the case with shad. It was the most important fish in U.S. fisheries, after cod." In fact, the shad's Latin name (<i>Alosa sapidissima</i>) reflects the species' high status as a food fish: "sapidissima" means "most delicious."<br /><br />In their findings, the authors wrote: "Loss of historical baselines contributes to marginalization of the species, as social customs relating to bygone (collapsed) fisheries also perish, and ecosystems unravel at rates that go unnoticed."<br /><br />Declines were seen in all but two of the fish populations studied. Striped bass, already the subject of protective measures, increased in North America, and lampreys were found to be more abundant in some rivers in France.<br /><br />The analysis showed that the once-abundant allis shad, a member of the herring family that lives most of its life in coastal waters but migrates into rivers to spawn, plummeted by 99.9 percent in the Rhine River in the Netherlands between 1886 and 1933; the same species dropped by 99.4 percent in the Minho River in Portugal between 1925 and 1988. The European eel's population plunged 95.4 percent in the Ems River, which flows through the Netherlands and Germany, and in the Vidå River in Denmark between 1960 and 1997; it decreased by 99.5 percent in the Yser River in Belgium between 1974 and 2004<br /><br />When viewed as a group, the magnitude of the migratory species' declines appears even more serious than that of marine predatory fishes, which has received far more attention, Limburg said.<br /><br />She said the study highlights the importance of a relatively new school of thought in the scientific community: ecosystem services.<br /><br />"We want to put this in the context of the new way many ecologists are now thinking, to say that ecosystems have a value by themselves," Limburg said.<br /><br />In particular, she said, the study highlights the interwoven relationship between marine and freshwater ecosystems. The two are linked in the North Atlantic by the 24 species of fish whose populations were analyzed; they are migratory fish that move between freshwater and saltwater during the course of their lives. "Sadly, the links are largely broken today because of the enormity of declines in abundances," she said.<br /><br />The findings were reported after Limburg and Waldman analyzed data formerly reported in scholarly literature and collected over the years by government agencies and management organizations in nations whose waters flow into the North Atlantic basin, which includes the Atlantic Ocean north of the equator, plus the Caribbean Sea and the Gulf of Mexico. <br /><br />Further Reading:<br /><a href="http://www.esf.edu/communications/view.asp?newsID=306">SUNY College of Environmental Science and Forestry</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-48775340333550238982009-11-23T16:28:00.000+00:002010-03-10T12:16:48.652+00:00Scientists discover new deep sea speciesCensus of Marine Life scientists have inventoried an astonishing abundance, diversity and distribution of deep sea species that live down to 5,000 meters (around 3 miles) below the ocean waves.<br /><br />Revealed via deep-towed cameras, sonar and other technologies, animals known to thrive in an eternal watery darkness now number 17,650, a diverse collection of species ranging from crabs to shrimp to worms. Most have adapted to diets based on meager droppings from the sunlit layer above, others to diets of bacteria that break down oil, sulphur and methane, the sunken bones of dead whales and other implausible foods.<br /><br />Edward Vanden Berghe, who manages the Census’ inventory of marine life observations, notes that the number of species recorded falls off dramatically at deeper depths – a function of the dearth of sampling in the deep sea.<br /><br />While the collective findings are still being analysed for release as part of the final Census report to be released in London on 4 October 2010, scientists say patterns of the abundance, distribution and diversity of deep-sea life around the world are already apparent.<br /><br />“Abundance is mostly a function of available food and decreases rapidly with depth,”<br />says Robert S. Carney of Louisiana State University, co-leader of the Census project<br /> studying life along the world’s continental margins. “The continental margins are where we find the transition from abundant food made by photosynthesis to darkened poverty. The transitions display the intriguing adaptations and survival strategies of amazing species,” says Dr. Carney.<br /><br />Abundance in the deep sea requires one or more of the following:<br />* Swift current, which increases an animal’s chance of encountering food;<br />* Long-lived animals, populations of which grow numerous even on a meager diet;<br />* Abundant food in higher layers that either settles to the depths or to which deep animals can migrate;<br />* An alternative to photosynthesis of food, such as chemosynthetic production.<br /><br />At 1,000 to 3,000 meters (~.6-1.9 miles): NOAA researchers led by Mike Vecchione of<br />the Smithsonian Institution collected a very large specimen of a rare, primitive animal known as cirrate or finned octopod, commonly called “Dumbos” because they flap a pair of large ear-like fins to swim, akin to the cartoon flying elephant.<br /><br />The jumbo Dumbo netted by Census explorers was estimated to be nearly two meters (~6 feet) long and, at 6 kg (~13 pounds), the largest of only a few specimens of the species ever obtained.<br /><br />Altogether, nine species of gelatinous "Dumbos" were collected on the Mid-Atlantic<br />Ridge, including one that may be new to science. Scientists were surprised to find such a plentiful and diverse assemblage of these animals, which rank among the largest in the deep sea.<br /><br />Further Reading: <br /><a href="http://www.coml.org/">Census of Marine Life</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-32817259480154057152009-11-16T16:40:00.000+00:002010-03-10T12:16:48.662+00:00IUCN to unveil mysteries of the deepThe International Union for Conservation of Nature (IUCN) hopes that its new project will reveal the mysteries of southern Indian Ocean seamounts and help improve conservation and management of resources.<br /><br />Two research expeditions will survey seamounts. These underwater mountains are magnets for marine life. The aim is to determine priority areas for the establishment of future marine Protected Areas, and improve the management and conservation of the ocean's species.<br /><br />“It is critical that we get more information on the impact of climate change on these deep-water species, in order to help set up protective measures. Deep-sea species are particularly vulnerable to climate change” said Dr Alex David Rogers, Principal Scientist and Marine Biologist at the Zoological Society of London.<br /><br />You can read about the expedition's progress on their<a href="http://seamounts2009.blogspot.com/"> blog at http://seamounts2009.blog</a>spot.com/<br /><br />IUCN is the world’s largest global environmental network - a union with more than 1000 government and NGO member organisations, and almost 11000 volunteer scientists in more than 160 countries.<br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-9871189169001769262009-11-11T12:09:00.000+00:002010-03-10T12:16:48.669+00:00Swarms of ocean robots to monitor oil spills<img src="http://www.news.scubatravel.co.uk/robot.jpg" align="right" alt="image credit Scripps Institution of Oceanography at UC San Diego." width="120" hspace="4">Swarms of miniature robotic ocean explorers that could one day help predict where ocean currents will carry oil spills, and which marine areas should be protected.<br /><br />These autonomous underwater drifters will trace the fine details that can determine underwater ocean currents of a few kilometers. These are important for understanding marine protected areas, algal blooms, oil spills and the path sewage takes after it is pumped into the ocean. <br /><br />"Maybe there has been an oil spill in the ocean and we want to establish very quickly how and where the spill might move. We are developing the algorithms that will keep a swarm of autonomous underwater explorers (AUEs) coordinated so they can follow the flow of the ocean currents and give us data on the spill as it is moving around," explained Jorge Cortes, a professor in the Mechanical and Aerospace Engineering Department at the UC San Diego Jacobs School of Engineering.<br /><br />In addition to predicting where oil will travel, scientists can use this information on the flow of ocean currents in order to improve their models—and ultimately their understanding—of how ocean currents operate on the scale of kilometers and what this means for ocean life and for determining where marine protected areas should be established. <br /><br />According to Jules Jaffe and Peter Franks, the two Scripps Institution of Oceanography researchers, the robot swarms could aid in science’s development of marine protected areas by following currents for determining critical nursery habitats and for tracking harmful blooms of algae. <br /><br />The project differs from related work on networks of underwater robots in that the robot swarms the UCSD researchers are developing are significantly smaller and less expensive. At the same time, these robot swarms will be far more capable of making use of the information they collect on the fly in order to improve the accuracy of their task at hand. <br /><br />Small armies of such robots will concurrently map currents and sense the environment. The robots relay their sensed data when they surface.<br /><br />The robots will work through a system under which several football sized devices are deployed in conjunction with many—tens or even hundreds—of pint-sized underwater explorers. As they move about the ocean, the smaller-sized robots will use acoustic transmissions from the "motherships" to ascertain their positions. Collectively, the entire swarms of robots will help track fine ocean currents and flows that organisms at the small scale, tiny abalone larvae, for example, experience in the ocean.<br /><br />"AUEs (Autoonomous Underwater Explorers) will give us information and statistics to figure out how the small organisms survive, how they move in the ocean and the physical dynamics they experience as they get around," said Franks. "AUEs should improve our ocean models and eventually allow us to do a better job of following the weather and climate of the ocean, as well as help us understand things like carbon fluxes."<br /><br />Franks, who conducts research on marine phytoplankton, among other areas, says the new concentration on dense sampling at small scales will help resolve some of the patchiness in understanding the physical and biological properties on those scales.<br /><br />"Plankton are somewhat like the balloons of the ocean floating around out there," he said. "We are trying to figure out how the ocean works at the scales that matter to the plankton. You put 100 of these AUEs in the ocean and let 'er rip. We'll be able to look at how they spread apart and how they move to get a sense of the physics driving the flow."<br /><br />Further Reading:<br /><a href="http://www.jacobsschool.ucsd.edu/">UC San Diego Jacobs School of Engineering </a><br /><a href="http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=0941692">National Science Foundation</a><br /><a href="Ocean Research Robots: A Future Vision for Ocean Observation">Ocean Research Robots: A Future Vision for Ocean Observation</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-16426289175034573012009-11-06T12:52:00.000+00:002010-03-10T12:16:48.676+00:00NSF Launches Ocean Observatories Initiative<img src="http://www.news.scubatravel.co.uk/ooi.jpg" align="right" alt="Credit: Jack Cook, WHOI">The National Science Foundation has announced agreement for vast undersea observing network. Called the Ocean Observatories Initiative (OOI) it will provide a network of undersea sensors for observing complex ocean processes such as climate variability, ocean circulation and ocean acidification at several coastal, open-ocean and seafloor locations.<br /><br />Continuous data flow from hundreds of OOI sensors will be integrated by a sophisticated computing network, and will be openly available to scientists, policy makers, students and the public.<br /><br />Advanced ocean research and sensor tools are a significant improvement over past techniques. Remotely operated and autonomous vehicles go deeper and perform longer than submarines. Underwater samplers do in minutes what once took hours in a lab. Telecommunications cables link experiments directly to office computers on land. At sea, satellite uplinks shuttle buoy data at increasing speeds.<br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-5837926585775981752009-11-05T13:46:00.000+00:002010-03-10T12:16:48.683+00:00Tags reveal Great White Sharks' BeatA tracking study of white sharks in the northeastern Pacific Ocean shows they follow a rigid migration route across the sea, returning to precisely the same spot on California coast each time they come back. Over tens of thousands of years, this behavior has made the population in the northeastern Pacific genetically distinct from other white shark populations. <br /><br />"White sharks are a large, highly mobile species," said researcher Salvador Jorgensen. "They can go just about anywhere they want in the ocean, so it's really surprising that their migratory behaviors lead to the formation of isolated populations."<br /><br />Scientists with the Tagging of Pacific Predators (TOPP) program combined satellite tagging, passive acoustic monitoring and genetic tags to study great white sharks (<i>Carcharodon carcharias</i>) in the North Pacific. Details of their study are published in the <a href="http://rspb.royalsocietypublishing.org/content/early/2009/10/29/rspb.2009.1155.full?sid=2f9cf7f2-4b30-4d04-b7ed-de1a87dc339f"><i>Proceedings of the Royal Society B</i></a>.<br /><br />The fact that the northeastern Pacific white sharks undergo such a consistent, large-scale migration, and that they are all closely related and distinct from other known white shark populations, suggests that it is possible to conduct long-term population assessment and monitoring of these animals.<br /><br />Barbara Block, professor of marine sciences at Stanford and a coauthor of the paper, said, "Catastrophic loss of large oceanic predators is occurring across many ecosystems. The white sharks' predictable movement patterns in the northeastern Pacific provide us with a super opportunity to establish the census numbers and monitor these unique populations. This can help us ensure their protection for future generations."<br /><br />The researchers used a combination of satellite and acoustic tags to follow the migrations of 179 individual white sharks between 2000 and 2008. The tags reveal that the sharks spend the majority of their time in three areas of the Pacific: the North American shelf waters of California; the slope and offshore waters around Hawaii; and an area called the "White Shark Cafe," located in the open ocean approximately halfway between the Baja Peninsula and the Hawaiian Islands.<br /><br />Genetics techniques were used to examine the relationships of the California sharks to all other white sharks examined globally. Studies of maternally inherited mitochondrial DNA sequences show that the populations are distinct, and suggest that the northeastern Pacific population may have been founded by a relatively small number of sharks in the late Pleistocene – within the last 200,000 years or so. The other populations of white sharks are concentrated near Australia and South Africa.<br /><br />Depletion of top oceanic predators is a pressing global concern, particularly among sharks because they are slow reproducers. White sharks have been listed for international protection under the Convention on International Trade in Endangered Species (CITES) and the World Conservation Union (IUCN). Despite these precautionary listings, trade in white shark products, primarily fins, persists. Information on population and distribution of oceanic sharks is critical for implementing effective management efforts and the absence of such data impedes protection at all scales. Combining electronic tagging and genetic technologies can help protect sharks. <br /><br />Further Reading:<br />Salvador J. Jorgensen, Carol A. Reeb, Taylor K. Chapple, Scot Anderson, Christopher Perle, Sean R. Van Sommeran, Callaghan Fritz-Cope, Adam C. Brown, A. Peter Klimley, and Barbara A. Block<br />Philopatry and migration of Pacific white sharks<br /><a href="http://rspb.royalsocietypublishing.org/content/early/2009/10/29/rspb.2009.1155.full?sid=2f9cf7f2-4b30-4d04-b7ed-de1a87dc339f">Proc R Soc B 2009 : rspb.2009.1155v1-rspb20091155</a>. <br /><br /><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-51248050478230950772009-11-04T14:19:00.000+00:002010-03-10T12:16:48.692+00:00SCUBA Travel release last quarter's bestselling books listThe SCUBA Travel best selling diving books in the third quarter of 2009. Yet again the Dive Atlas of the World keeps its top spot. Previous quarter's position is shown in brackets.<br /><ol><li class="space"><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/1847733174/ref=nosim/1286">Dive Atlas of the World: An Illustrated Reference to the Best Sites</a></b></i> by <a href="http://www.scubatravel.co.uk/jackjackson.html">Jack Jackson</a><br />300 pages detailing some of the world's best dive sites. (1)<br /></li><li class="space"><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/158479710X/ref=nosim/1286">Fifty Places to Dive Before You Die</a></b></i> by Chris Santella<br />The fifth in Santella's bestselling "Fifty Places" series. (2) <br /></li><li class="space"><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/0500512922/ref=nosim/1286">Dive in Style<br /></a></b></i> by Tim Simond<br />Luxury diving around the world.(3) <br /></li><li class="space"><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/0007159862/ref=nosim/1286">Coral Reef Guide Red Sea (Coral Reef)</a></b></i> by Ewald Lieske, Robert Myers<br />Covering jellyfish, corals, nudibranchs, starfish, sea urchins, fishes and turtles of the Red Sea. (5)<br /></li><li class="space"><i><b><a href="http://www.blogger.com/fishbook.html">Coral Reef Fishes: Indo-Pacific and Caribbean</a></b></i> by Ewald Lieske, Robert Myers<br />A compact, guide to over 2000 species of fish you might see whilst diving on coral reefs. (6) <br /></li><li class="space"><i><b><a href="http://www.blogger.com/blueplanet.html">The Blue Planet DVD</a></b></i><br />The BBC television series on DVD - action shots of the intriguing behaviour of the underwater world with commentary by David Attenborough. (--)<br /></li><li class="space"><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/0240519884/ref=nosim/1286">The Underwater Photographer: Digital and Traditional Techniques<br /></a></b></i> by Martin Edge<br />Hints, tips and advice on taking underwater photos. (--) <br /></li><li class="space"><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/174179188X/ref=nosim/1286">Thailand (Lonely Planet Diving & Snorkeling Guides)</a></b></i> by Tim Rock<br />Dive sites of <a href="http://www.blogger.com/thailand/thaidive.html">Thailand</a>. Includes city guide to Bangkok. (10) <br /></li><li><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/184537908X/ref=nosim/1286">Top Dive Sites of the World</a></b></i> by Jack Jackson<br />With contributions from authors like Lawson Wood, Guy Buckles, Nick Hanna and <a href="http://www.blogger.com/paulnaylor.html">Paul Naylor</a>, focuses on 75 world-class dive sites in waters as diverse as the icy Northern Atlantic and the tropical seas of the Pacific. (--)<br /></li><li><i><b><a href="http://www.amazon.co.uk/exec/obidos/ASIN/1425932029/ref=nosim/1286">Diving and Snorkeling the Sea of Cortezs</a></b></i> by Susan Speck <br />91 Dive sites of <a href="http://www.blogger.com/baja/bajadive.html">Baja California</a> described in detail. (--)<br /></li></ol><object classid="clsid:D27CDB6E-AE6D-11cf-96B8-444553540000" codebase="http://fpdownload.macromedia.com/get/flashplayer/current/swflash.cab" height="200" id="Player_3d138f61-04cc-4015-b42b-2efe66b7f520" width="600"> <param NAME="movie" VALUE="http://ws.amazon.co.uk/widgets/q?ServiceVersion=20070822&MarketPlace=GB&ID=V20070822%2FGB%2F1286%2F8010%2F3d138f61-04cc-4015-b42b-2efe66b7f520&Operation=GetDisplayTemplate"><param NAME="quality" VALUE="high"><param NAME="bgcolor" VALUE="#FFFFFF"><param NAME="allowscriptaccess" VALUE="always"><embed src="http://ws.amazon.co.uk/widgets/q?ServiceVersion=20070822&MarketPlace=GB&ID=V20070822%2FGB%2F1286%2F8010%2F3d138f61-04cc-4015-b42b-2efe66b7f520&Operation=GetDisplayTemplate" id="Player_3d138f61-04cc-4015-b42b-2efe66b7f520" quality="high" bgcolor="#ffffff" name="Player_3d138f61-04cc-4015-b42b-2efe66b7f520" allowscriptaccess="always" type="application/x-shockwave-flash" align="middle" height="200px" width="600px"></embed></OBJECT> <br /><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-56123566072757062172009-10-12T17:21:00.000+01:002010-03-10T12:16:48.712+00:00Western Australia to Protect Whales with Marine Park<img src="http://news.scubatravel.co.uk/humpback.gif" align="right">The state government of Western Australia is creating a marine park to protect and manage a key nursery of the world's largest humpback whale population. <br /><br />The marine park is to be at Camden Sound, about 400km north of <a href="http://www.scubatravel.co.uk/australia/rowley.html">Broome</a>, protecting its pristine marine environment for generations to come. <br /><br />Allowing for consultation, including a public comment period of three months, a marine park could be established by mid-2010. <br /><br />Environment Minister Donna Faragher said Camden Sound was the biggest calving area for humpback whales in the southern hemisphere. <br /><br />"More than 1,000 humpback whales can be found in the Camden Sound ‘maternity ward' during the calving season," she said.<br /><br />Mrs Faragher added "They are part of the biggest population of humpback whales in the world - numbering about 22,000 - that migrate from Antarctica every year to give birth in the waters off the north of our State.<br /><br />"Camden Sound is also rich in other marine life, from coral reefs and mangrove forests to turtles and dugongs. <br /><br />Humpbacks have been protected from whaling in the southern hemisphere since 1963, when numbers in Western Australia fell to fewer than a thousand. Their numbers are recovering at a remarkable 10 per cent each year. <br /><br />Found in oceans around the world, humpback whales typically migrate up to 25,000 kilometres each year. They feed only in summer, in polar waters, and migrate to warmer waters to breed and give birth in the winter. During the winter, humpbacks fast and live off their fat reserves. <br /><br />Further Reading:<br /><a href="http://www.abc.net.au/news/stories/2008/08/12/2332256.htm">Scientists discover massive humpback whale nursery off WA coast</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-11257888442554983682009-10-09T16:34:00.000+01:002010-03-10T12:16:48.719+00:00Albatrosses feed with Killer WhalesScientists have recorded the first observations of how albatrosses feed alongside marine mammals at sea.<br /><br />A miniature digital camera was attached to the backs of four black-browed albatrosses (<i>Thalassarche melanophrys</i>). Results are published online this week in the open-access journal <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0007322">PLoS ONE</a>.<br /><br />Albatrosses fly many hundreds of kilometers across the open ocean to find and feed upon their prey. Despite the growing number of studies concerning their foraging behaviour, relatively little is known about how albatrosses actually locate their prey. The still images recorded from the cameras showed that some albatrosses actively followed a killer whale (<i>Orcinus orca</i>), possibly to feed on food scraps left by this diving predator. The camera images together with the depth profiles showed that the birds dived only occasionally, but that they actively dived when other birds or the killer whale were present. This association with diving predators or other birds may partially explain how albatrosses find their prey more efficiently in the apparently ‘featureless’ ocean, with a minimal requirement for energetically costly diving or landing activities.<br /><br />The camera, developed by the National Institute for Polar Research in Tokyo, is removed when the albatross returns to its breeding ground after foraging trips. It is small and weighs 82g. Although the camera slightly changes the aerodynamic shape of the albatross, it didn’t affect the breeding success of the study birds.<br /><br />Dr Richard Phillips from British Antarctic Survey (BAS) says, “These images are really interesting. They show us that albatrosses associate with marine mammals in the same way as tropical seabirds often do with tuna. In both cases the prey (usually fish) are directed to the surface and then it’s easy hunting for the birds."<br /><br />The study took place at the breeding colony of black-browed albatrosses at Bird Island, South Georgia in January 2009, as part of a UK-Japan International Polar Year 2007-9 project.<br /><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-30909434609622057812009-10-09T16:33:00.000+01:002010-03-10T12:16:48.728+00:00Creature of the Month: Plumose Anemone<a href="http://www.scubatravel.co.uk/plumoseiom.html" title="Photo of Plumose anemones"><img src="http://www.scubatravel.co.uk/Plumoses_11_9asmall.jpg" align="right" border="0" alt="Plumose anemones" hspace="4"></a>Plumose anemones (<i>Metridium senile</i>) occur in large numbers in good diving areas in temperate waters. They comprise a tall, smooth column topped with a crown of feathery tentacles. When they contact they look like swirly blobs, as can be seen in our photograph.<br /><br />Individuals may be white, orange, green or blue in colour. They grow up to 30 cm tall and 15 cm across at the base. They like areas with currents so tend to live on prominent pieces of wrecks or on rocky pinnacles.<br /><br /><a href="http://www.scubatravel.co.uk/anemone.html"><img src="http://www.scubatravel.co.uk/Anemonesmall.jpg" align="left" border="0" hspace="5" alt="Plumose anemone picture"></a>With fine, delicate tentacles they are unsuited to capturing large animals like fish. Instead they specialise in smaller prey such as small planktonic crustaceans. The anemone's columnar body is narrower just below the tentacles. A current will bend the stalk at this point and expose the tentacles broadside to the flow in the best position for feeding on suspended matter.<br /><br /><a href="http://www.scubatravel.co.uk/anemones.html"><img src="http://www.scubatravel.co.uk/Anemonessmall.jpg" align="right" border="0" alt="Plumose anemone photograph" hspace="5"></a>The Plumose anemone occurs from the Bay of Biscay (North of Spain) to Scandinavia in the northeast Atlantic, and on the west and east coasts of North America. It is unknown from the western basin of the Mediterranean but has been seen in the Adriatic, where it is believed to have been introduced. It has also been seen in Table Bay Harbour in <a href="http://www.scubatravel.co.uk/africa.html#SouthAfrica">South Africa</a> where it was probably introduced from Europe.<br /><br /><a href="http://www.scubatravel.co.uk/Plumose_19_4a.html"><img src="http://www.scubatravel.co.uk/photos/Plumose_19_4asmall.jpg" border="0"></a><a href="http://www.scubatravel.co.uk/plumose148b.html" title="plumose anemone, Metridium senile"><img src="http://www.scubatravel.co.uk/photos/Plumose_14_8bsmall.jpg" border="0"></a><a href="http://www.scubatravel.co.uk/Plumose_jellyfish_19_4b2.html"><img src="http://www.scubatravel.co.uk/photos/Plumose_jellyfish_19_4b2small.jpg" border="0" alt="Great photo of a plumose anemone and jellyfish"></a><br /><br />Further Reading:<br /><a href="http://www.amazon.co.uk/dp/0952283158?tag=scubanews-21&link_code=as3&creativeASIN=0952283158&creative=9298&camp=2506"><i>Great British Marine Animals</i></a>, by <a href="http://www.scubatravel.co.uk/paulnaylor.html">Paul Naylor</a><br /><a href="http://www.asknature.org/strategy/09534f68bba193b528c7e1b44d266d8d">Ask Nature</a><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-62940263516723407442009-09-23T10:11:00.000+01:002010-03-10T12:16:48.700+00:00Killer Whales Die without Chinook Salmon<a href="http://scubatravel.co.uk/orca.html"><img src="http://scubatravel.co.uk/photos/orcasmall.jpg" align="right" border="0"></a>When you mention killer whales, the image of one ambushing a terrified seal often springs to mind. But there are populations of killer whales who live exclusively on fish. And not on just any fish: they are very specialised in which fish they will eat. <br /><br />According to research published in Biology Letters, two populations studied in the northeastern Pacific Ocean prefer to eat Chinook salmon (<i>Oncorhynchus tshawytscha</i>). So much so that if the numbers of Chinook salmon drop this directly affects the numbers of killer whales. The whales seem unable to adopt a new food, become weak and have a higher mortality. <br /><br />The authors conclude that other killer whale populations may be similarly constrained to one or two prey species, because the young whales will have learnt their fishing strategies from the rest of the group. They too will be limited in their ability to switch to new food if necessary. <br /><br />Journal Reference:<br />John K. B. Ford, Graeme M. Ellis, Peter F. Olesiuk, and Kenneth C. Balcomb<br /><i>Linking killer whale survival and prey abundance: food limitation in the oceans' apex predator?</i><br />Biol Lett 2009 : <a href="http://rsbl.royalsocietypublishing.org/content/early/2009/09/14/rsbl.2009.0468.abstract">rsbl.2009.0468v1-rsbl20090468</a>. <br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com1tag:blogger.com,1999:blog-17220997.post-10402545498220582032009-09-21T13:33:00.000+01:002010-03-10T12:16:48.736+00:00Arctic Sea Ice Reaches 2009 LowThe Arctic sea ice cover appears to have reached its minimum extent for the year, the third-lowest recorded since satellites began measuring sea ice extent in 1979, according to the University of Colorado at Boulder's National Snow and Ice Data Center.<br /><br />While this year's September minimum extent was greater than each of the past two record-setting and near-record-setting low years, it is still significantly below the long-term average and well outside the range of natural climate variability, said NSIDC Research Scientist Walt Meier. Most scientists believe the shrinking Arctic sea ice is tied to warming temperatures caused by an increase in human-produced greenhouse gases being pumped into Earth's atmosphere.<br /><br />Atmospheric circulation patterns helped the Arctic sea ice spread out in August to prevent another record-setting minimum, said Meier. But most of the 2009 September Arctic sea ice is thin first- or second-year ice, rather than thicker, multi-year ice that used to dominate the region, said Meier.<br /><br />The minimum 2009 sea-ice extent is still about 620,000 square miles below the average minimum extent measured between 1979 and 2000 -- an area nearly equal to the size of Alaska, said Meier. "We are still seeing a downward trend that appears to be heading toward ice-free Arctic summers," Meier said.<br /><br />Further Reading:<br /><a href="http://nsidc.org/arcticseaicenews/">National Snow and Ice Data Center</a><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-57596269731635375972009-09-16T10:27:00.000+01:002010-03-10T12:16:48.743+00:00New wreck dive off Comino, Malta<a href="http://mta-news.info/0907/pr26/"><img src="http://www.news.scubatravel.co.uk/comino.jpg" align="right"></a>There is a new dive waiting off the coast of Comino: former Armed Forces of Malta (AFM) Patrol Boat P31. The wreck is 52 m long and lies at 18 m.<br /><br />The Malta Tourism Authority co-ordinated the scuttling of the former Patrol Boat to add to the number of underwater attractions for scuba divers visiting <a href="http://www.scubatravel.co.uk/europe.html#Malta">Ċirkewwa</a> and Comino.<br /><br />The Parliamentary Secretary for Tourism, the Hon. Dr Mario de Marco said that <a href="http://www.scubatravel.co.uk/europe.html#Malta">Malta</a> has nine wrecks being purposely scuttled vessels for diving; and that the P31's scuttling is part of a two-phase project to scuttle two patrol boats. The first was the P29 which was scuttled in Ċirkewwa in August 2007.<br /><br />He also referred to the process of the scuttling which included an Environmental Impact Assessment carried out to assess the environmental impact of this project. As a result of the studies, the scuttling location was shifted by approximately 30 metres to avoid important sea grass beds. <br /><br />He added that the Maltese Islands last year attracted almost 55,000 divers with the majority hailing from the UK, Germany and Italy.<br /><br />Malta is renowned as a diving destination, with two of its dive sites making it into the list of the <a href="http://www.scubatravel.co.uk/topdiveseurope.html">top ten European dive sites</a>, as voted for by <a href="http://www.scubatravel.co.uk/">SCUBA Travel</a> readers.<br /><br />Further Information: <br /><a href="http://mta-news.info/0907/pr26/">Malta Tourism Authority</a><br /><a href="http://www.afm.gov.mt/000_RESOURCES_Media/FLICS/ScuttlingSml.wmv">AFM Video of the Scuttling</a><br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com0tag:blogger.com,1999:blog-17220997.post-86884553874224550602009-09-11T13:57:00.000+01:002010-03-10T12:16:48.749+00:00Rare Algae Saves Caribbean Coral<a href="http://www.nsf.gov/news/news_images.jsp?cntn_id=115558&org=NSF"><img src="http://www.news.scubatravel.co.uk/bleachcoral.jpg" align="right" alt="Credit: Todd LaJeunesse, Penn State. The white corals pictured have lost their symbiotic algae and appear bleached." border="0"></a>A rare opportunity has allowed a team of scientists to evaluate corals--and the essential, photosynthetic algae that live inside their cells--before, during, and after a period in 2005 when global warming caused sea-surface temperatures in the Caribbean to rise.<br /><br />The team, led by Penn State biologist Todd LaJeunesse, found that a rare species of algae that is tolerant of stressful environmental conditions proliferated in corals at a time when more sensitive algae that usually dwell within the corals were being expelled.<br /><br />Certain species of algae have evolved over millions of years to live in symbiotic relationships with species of corals. These photosynthetic algae provide the corals with nutrients and energy, while the corals provide the algae with a place to live.<br /><br />"There is a fine balance between giving and taking in these symbiotic relationships," said LaJeunesse.<br /><br /><span style="font-style:italic;">Symbiodinium trenchi</span> is normally a rare species of algae in the Caribbean, according to LaJeunesse. "Because the species is apparently tolerant of high or fluctuating temperatures, it was able to take advantage of a 2005 warming event and become more prolific."<br /><br /><span style="font-style:italic;">Symbiodinium trenchi</span> appears to have saved certain colonies of coral from the damaging effects of unusually warm water. <br /><br />"As ocean temperatures rise as a result of global warming, we can expect this species to become more common and persistent," said LaJeunesse. "However, since it is not normally associated with corals in the Caribbean, we don't know if its increased presence will benefit or harm corals in the long term."<br /><br />If <span style="font-style:italic;">Symbiodinium trenchi</span> takes from the corals more than it gives back, over time the corals' health will decline.<br /><br />In 2005, sea surface temperatures in the Caribbean rose by up to two degrees Celsius above normal for a period of three to four months, high enough and long enough to severely stress corals.<br /><br />The process of damaged or dying algae being expelled from the cells of corals is known as bleaching because it leaves behind bone-white coral skeletons that soon will die without their symbiotic partners.<br /><br />Although <span style="font-style:italic;">Symbiodinium trenchi</span> saved some corals from dying in 2005, LaJeunesse is concerned that the species might not be good for the corals if warming trends continue and <span style="font-style:italic;">Symbiodinium trenchi</span> becomes more common.<br /><br />"Because <span style="font-style:italic;">Symbiodinium trenchi</span> does not appear to have successfully co-evolved with Caribbean coral species, it may not provide the corals with adequate nutrition," he said.<br /><br />The research was published in the online version of the <a href="http://rspb.royalsocietypublishing.org/content/early/2009/09/09/rspb.2009.1405.abstract">journal Proceedings of the Royal Society B on September 9, 2009</a>.<br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com3tag:blogger.com,1999:blog-17220997.post-6130884956561391792009-08-15T13:01:00.000+01:002010-03-10T12:16:48.757+00:00Warming Ocean Contributes to Global WarmingThe warming of an Arctic current over the last 30 years has triggered the release of methane, a potent greenhouse gas, from methane hydrate stored in the sediment beneath the seabed. Although this had been predicted as a possible consequence of climate change, it is very worrying that the process has already started.<br /><br />Scientists at the National Oceanography Centre Southampton working in collaboration with researchers from the University of Birmingham, Royal Holloway London and IFM-Geomar in Germany have found that more than 250 plumes of bubbles of methane gas are rising from the seabed of the West Spitsbergen continental margin in the Arctic, in a depth range of 150 to 400 metres.<br /><br />Methane released from gas hydrate in submarine sediments has been identified in the past as an agent of climate change. <br /><br />The data were collected from the royal research ship RRS James Clark Ross, as part of the Natural Environment Research Council’s International Polar Year Initiative. The bubble plumes were detected using sonar and then sampled with a water-bottle sampling system over a range of depths.<br /><br />The results indicate that the warming of the northward-flowing West Spitsbergen current by 1 degree over the last thirty years has caused the release of methane by breaking down methane hydrate in the sediment beneath the seabed.<br /><br />Professor Tim Minshull, Head of the University of Southampton’s School of Ocean and Earth Science based at the National Oceanography Centre, says: “Our survey was designed to work out how much methane might be released by future ocean warming; we did not expect to discover such strong evidence that this process has already started.”<br /><br />Graham Westbrook Professor of Geophysics at the University of Birmingham, warns: “If this process becomes widespread along Arctic continental margins, tens of megatonnes of methane per year – equivalent to 5-10% of the total amount released globally by natural sources, could be released into the ocean.”<br /><br />Journal Reference:<br /><a href="http://www.agu.org/pubs/crossref/2009/2009GL039191.shtml">Westbrook, G. K., et al. (2009), Escape of methane gas from the seabed along the West Spitsbergen continental margin, Geophys. Res. Lett., 36, L15608, doi:10.1029/2009GL039191.</a> <br /><br /><p><i>What do you think of this news item? <a href="http://www.scubatravel.co.uk/forum/viewforum.php?f=7">Join a discussion</a>.</i></p>SCUBA Newshttp://www.blogger.com/profile/04785218708995070676noreply@blogger.com1