Category Archives: climate change

CBC News: Algae on coral in UAE ‘gives hope’ against bleaching

http://www.cbc.ca/news/technology/algae-on-coral-in-uae-gives-hope-against-bleaching-1.2974647

Technology & Science

Persian Gulf algae prevents coral bleaching in seawater that can reach 36 Celsius in summer

CBC News Posted: Feb 27, 2015 5:00 AM ET Last Updated: Feb 27, 2015 5:00 AM ET

corals-of-world-s-hottest-sea-h

Algae living on coral in the Persian Gulf appear to protect the host coral from dying off. Seawater in the area gets so warm the same temperatures would kill off reefs elsewhere. (Jorg Wiedenmann, John Burt)

Scientists have discovered a new species of algae in the United Arab Emirates that helps corals survive in the warmest seawater temperatures on the planet.

Researchers from the University of Southampton and the New York University Abu Dhabi described the “heat-tolerant species” in a paper published this week in the journal Scientific Reports.

‘It gives hope to find that corals have more ways to adjust to stressful environmental conditions than we had previously thought.’- Jorg Wiedenmann, Coral Reef Laboratory at University of Southampton. Ocean waters in the Persian Gulf can reach temperatures of up to 36 degrees Celsius at the peak of summer — warm enough to kill off corals found anywhere else in the world.

How Gulf corals manage to thrive in such habitats likely has something to do with the nutrient-rich algae living in their tissue, the researchers believe.

It seems the algae living off Gulf corals in a symbiotic relationship give their coral hosts a heat-resistant edge not found in reefs elsewhere.

Climate change threat

“When analyzed by alternative molecular biological approaches, we found pronounced differences that set this heat-tolerant species clearly aside,” the researchers said in a statement.

In reference to its ability to survive unusually high temperatures, the researchers named the algae Symbiodinium thermophilum.

sm-220-bleached-coral-reef-2711528
Higher water temperatures often cause corals to lose their colour and die, a phenomenon known as coral bleaching. (Ove Hoegh-Guldberg/Centre for Marine Studies/The University of Queensland)

Algae are known to deliver nutrition to the coral they inhabit. However, algae are also sensitive to environmental changes, with even slight increases in seawater temperatures putting them at risk.

Loss of algae on corals in the symbiotic relationship often results in “coral bleaching,” in which the white skeletons of corals are left exposed once their algae tissue thins or dies.

“In Gulf corals, both the coral host and the associated algal partners need to withstand the high seawater temperatures,” Jörg Wiedenmann, head of the Coral Reef Laboratory at the University of Southampton Ocean, said in a statement.

John Burt, with NYU Abu Dhabi, said the team confirmed the new type of algae is prevalent year-round across several dominant species found near the coast of Abu Dhabi, the capital of the UAE.

Wiedenmann said more research must be done to better understand how the Gulf’s coral reefs can withstand extreme temperatures, in order to get a better grasp of how reefs elsewhere are dying as a result of climate change.

“It gives hope to find that corals have more ways to adjust to stressful environmental conditions than we had previously thought,” Wiedenmann said. “However, it is not only heat that troubles coral reefs. Pollution and nutrient enrichment, overfishing and coastal development also represent severe threats to their survival.”

The Guardian: Worst ‘coral bleaching’ in nearly 20 years may be underway, scientists warn

http://mashable.com/2014/12/22/coral-bleaching/
By Andrew Freedman Dec 22, 2014

Clouds of reef fish and corals, French frigate shoals, NWHI

Colorful reef fish – Pennantfish, Pyramid and Milletseed butterflyfish – school in great numbers at Rapture Reef, French Frigate Shoals, Hawaii. Image: James Watt/Papahanaumokuakea Marine National Monument

In 1998, one of the most powerful El Niño events on record sent Pacific Ocean temperatures soaring to such heights that almost 20% of the world’s coral reefs experienced significant bleaching. Some of the reefs have never fully recovered from that episode.

Now, more than 16 years later, global warming appears to be doing what it used to require a super El Niño to do — push ocean temperatures so high across the Pacific Ocean that it sets off a major coral bleaching event, scientists warned Monday.

Coral reefs, vital marine ecosystems which are home to 25% of the world’s marine life and help provide food and livelihoods for millions of people, may be heading into one of the largest coral bleaching events on record, due to record warm ocean temperatures. This year is virtually guaranteed to set the record for the warmest year since instrumental records began in 1880, largely due to record high global ocean temperatures.

Corals are invertebrates that often grow in colonies in symbiosis with algae, known as zooxanthellae, which live in their tissues. It is these algae that give the corals their vibrant colors, and healthy coral reef ecosystems in turn provide food and shelter for a plethora of marine species. When ocean temperatures get too warm for too long a period of time, corals will expel the algae — giving them a sudden eviction notice. Once they do this, the corals turn a ghostly white color, which is where the term “bleaching” comes from.

Coral Bleaching Hawaii
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Image: AP Photo/NOAA and the Hawaii Institute of Marine Biology, Courtney Couch

This 2014 photo provided by the National Oceanic and Atmospheric Administration and the Hawaii Institute of Marine Biology shows bleached coral at Lisianski Island in the Papahanaumokuakea Marine National Monument. The pale coral is bleached due to thermal stress, while the lavender-colored coral is healthy.

Studies show that coral reefs can survive individual bleaching events, but they are subject to higher mortality rates during such events, depending on the coral species and other factors. Climate studies show that warming ocean temperatures and acidifying oceans, due to the absorption of carbon dioxide from the atmosphere, pose major challenges for the viability of tropical coral reefs around the world.

Researchers monitoring the health of coral reefs around the world are sounding the alarm.

“As the ocean becomes more acidified the bleaching threshold for corals drops, more carbon dioxide makes corals more sensitive to thermal stress,” says Mark Eakin, coordinator of the National Oceanic and Atmospheric Administration’s (NOAA) Coral Reef Watch program, in an interview. “Not only are we seeing more thermal stress … but we’re making them more sensitive at the same time.”

Ocean Temperature Trends

Global average ocean surface temperatures for the January through November period from 1880 to 2014, showing 2014 as the warmest such period on record. The solid line is the long-term linear trend.
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Image: NOAA

This year has been anything but average for ocean temperatures, particularly across the Pacific, where the worst coral bleaching events have been seen so far. Global average ocean temperatures were the warmest of any month on record in September.

Temperatures were so warm during that month that it broke the all-time record for the highest departure from average for any month since 1880, at 1.19 degrees Fahrenheit above average. August and June also set records for the warmest ocean temperatures on record, and the year is expected to set a similar milestone.

The fact that this warmth is occurring without a declared El Niño — though a weak event is predicted for this winter — strikes climate scientists as a clear sign that we’re now living in a new era with added heat in the climate system, making temperatures such as we’ve seen in 2014 easier to reach.

“We’re seeing a rising background temperatures, we’re seeing this increase in the thermal content of the oceans and as that happens it doesn’t take as nearly as big of an event to set off this chain of bleaching,” Eakin told Mashable.

Already in 2014, scientists say, widespread coral bleaching has occurred in Kiribati, Tuvalu, the Northern Mariana Islands, Guam, Hawaii and Florida. And computer models show widespread coral bleaching is likely throughout the tropics in the next several months, imperiling ecosystems from Madagascar to Australia.

“The bleaching event this year was fairly substantial,” said Steven Johnson and Lyza Johnston, who are biologists with the Commonwealth of the Northern Mariana Islands, which is a U.S. territory, in an email conversation. They said coral bleaching was widespread in the Northern Mariana Islands during the past year, and “mass mortality” was observed from a bleaching event in late summer and early fall between the islands of Pagan and Saipan.

Based on NOAA’s Coral Reef Watch products, Johnson and Johnston said in a joint response to inquiries from Mashable, “we expected we might see some bleaching in the northern islands this summer, but the extent and severity of the bleaching seen on Maug was unexpected.” (Maug is an island in the far north of the Commonwealth.)

With even warmer ocean temperatures predicted for the first part of 2015, the picture looks grim for corals that are especially sensitive to heat stress.

“We’re going to continue to see a pattern of high thermal stress that really follows the same sort of time sequence and movement of 1998 major event,”

“We’re going to continue to see a pattern of high thermal stress that really follows the same sort of time sequence and movement of 1998 major event,” says NOAA’s Eakin. “Everything we’re seeing says that same pattern is going to happen again this year.”

In the Mariana Islands, officials are looking warily at the latest climate outlooks. “We are very concerned about the possible impacts that an El Niño event in 2015 might have on the coral reefs of the Commonwealth of the Northern Mariana Islands, especially given the losses that have already occurred due to thermal stress over the last two years across the archipelago,” Johnson and Johnston said.

As of December, parts of every major ocean basin showed record high temperatures, according to NOAA’s National Climatic Data Center.

The latest NOAA Coral Reef Watch outlook shows bleaching alerts from Nauru through the Marshall Islands, Solomon Islands, Tuvalu, Fiji and Vanuatu, westward to near Papua New Guinea. Other alerts are in place along the eastern Australia coastline between Brisbane and Sydney, and in the southern Indian Ocean near the east coast of Madagascar. Other areas of concern include the southeastern South American coast, and parts of the South Atlantic Ocean between South America and Africa.

The Coral Reef Watch product is based on satellite-derived sea surface temperatures as well as scientific research about the susceptibility of different corals to thermal stress.

So far in 2014, rare and significant coral bleaching has taken place in Hawaii’s Papahanaumokuakea Marine National Monument, which is an area of about 140,000 square miles of protected oceans.

Coral Reef Watch

Coral Reef Watch bleaching outlook for the winter, showing areas with a 90% likelihood of seeing some degree of bleaching.
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Image: NOAA

“We did have some very significant bleaching in some parts of the monument,” says NOAA fisheries ecologist Randy Kosaki, chief scientist for the National Monument. He said in some parts of Papahanaumokuakea, where waters are shallower, up to 90% of the corals have been damaged. Even coral species thought to be bleaching-resistant proved susceptible.

This was particularly the case in the vicinity of Lisianski Island, about 1,000 miles northwest of Honolulu.

Species such as the colorful Butterfly fish, which relies on corals for their food, have temporarily disappeared from bleached areas, Kosaki told Mashable. “They’re kind of the glamor fish of the coral reef world.”

This island, he says, demonstrates that the impacts from manmade climate change can reach even the most remote places on Earth. Scientists have not had a chance to survey the region via ship since September. But when they next reach the area, they are expecting to find “significant mortality” among the corals, Kosaki says.

Some bleaching was also noted near Kauai and Oahu, where waters tend to be cooler and bleaching is rarely seen, Kosaki said.

Because of the El Niño that was originally forecast to develop by early Fall, Eakin says scientists were expecting widespread coral bleaching events to take place in 2015. So the 2014 damage took coral watchers by surprise.

“We were concerned about bleaching that was going to be happening in 2015,” Eakin told Mashable. “We didn’t see 2014 coming.”

Now that he has seen it, plus the temperature outlooks, Eakin says, “I’m even more worried about 2015.”

h/t The Guardian
Special thanks to: Doug Fenner and the NOAA Coral-list

Coral-list–Center for Biologic Diversity: 20 Newly Listed Species via ESA

I’m a scientist at the Center for Biological Diversity and one of the
authors of the petition to list the 83 corals. I wanted to respond to some
of the issues that have been raised about the 20 corals that were recently
listed, including the Center’s role, what the listing means, and steps
forward.

The Center petitioned to list 83 corals in 2009 to provide added
conservation tools to help these corals survive and recover in the face of
the growing threats from ocean warming, ocean acidification, disease, and
the myriad of other stressors they face. The ESA will give these corals (1)
protection of essential habitat in US waters, (2) a comprehensive recovery
plan with actions to recover these species, such as reducing ocean warming
and acidification impacts, mitigating local stressors, and implementing
coral restoration and ecosystem conservation activities; (3) reduction of
harms from federal government activities including energy projects,
discharge of pollution from point sources, non-point source pollution,
dredging, pile-driving, setting of water quality standards, vessel traffic,
aquaculture facilities, military activities, and fisheries management
practices; and (4) increased public attention and research momentum at a
time when more conservation action, research, and awareness about the coral
crisis is urgently needed.

A number of people on this list have already suggested helpful ideas for
research priorities and recovery actions for these newly listed corals. We
look forward to working with coral scientists, NMFS, NGOs, and others
interested in coral conservation to discuss ideas for research and
conservation priorities to make ESA protection as meaningful as possible for
these corals.

Here are some responses to questions that have been raised on the listserve
about the Center’s role in the coral listing process and what the ESA
listings mean:

What is the Center for Biological Diversity?

For those of you who don’t know us, the Center is a non-profit conservation
organization dedicated to protecting endangered species and wild places
through science, policy, education and environmental law. Our organization
is made up of scientists, organizers, campaigners, policy analysts,
conservation advocates, communications staff, support staff, and
environmental lawyers who work to make sure our keystone environmental laws
are implemented and enforced. Everyone here is very dedicated to making
positive conservation change, and is very knowledgeable about the species
and ecosystems they work to protect.

Our Climate and Oceans programs worked together on this petition. Our
Climate program focuses on protecting species threatened with extinction
from climate change and limiting the carbon pollution that threatens them.
Our Oceans program works to protect marine species in US waters from a suite
a threats, and has long worked to reduce the threat of ocean acidification.

The Center has worked on coral conservation efforts in US waters for more
than a decade. We petitioned to list the elkhorn and staghorn corals in
2004, and went to court to make sure these corals got critical habitat
protection and a recovery plan when NMFS was overdue on issuing these
protections.

How did the Center select the 83 corals?

We selected the 83 corals based on (1) their designation as vulnerable,
endangered, or critically endangered by the IUCN based on the analysis by
Kent Carpenter and co-authors, summarized in their 2008 Science paper, (2)
their occurrence in US waters where ESA protections can provide the most
benefit, and (3) studies indicating that they are declining and/or
particularly vulnerable to threats. We wrote and submitted a 198-page
scientific petition in 2009 that cited more than 200 scientific studies.

We recognize that may be disagreement about the species that we petitioned
for and the species that NMFS ultimately listed. People may have wanted more
species, fewer species, or different species listed. We petitioned for the
83 corals based on the scientific evidence available in 2009. Coral
scientists and other citizens always have the option to petition NMFS to
designate additional corals for protection

How does the petition process work?

The ESA allows any citizen to submit a scientific petition to our wildlife
protection agencies, FWS or NMFS, requesting that the agency evaluate the
scientific evidence for protecting that species under the ESA as
“endangered” (in danger of extinction throughout all or a significant
portion of its range) or “threatened” (likely to become endangered in the
foreseeable future). NMFS and FWS can and should initiate the listing
process on their own, but this is uncommon. After receiving a petition, the
agency must determine whether the information in the petition and in the
agency’s possession is sufficient to show that the species may be threatened
or endangered. If so, the agency initiates a scientific status review of
that species to determine whether it merits listing, and then takes an
additional year to finalize a proposed listing.

In the case of the corals, NMFS determined that 82 of the 83 petitioned
species merited a scientific status review. Based on an extended status
review and public comment period, NMFS proposed 66 corals for listing as
threatened or endangered, and additionally proposed uplisting for elkhorn
and staghorn corals from threatened to endangered. After an additional
public comment period and review, NMFS finalized a threatened listing for 20
coral species.

What does the ESA listing mean for the 20 corals?

The ESA provides mandatory conservation tools to increase protections for
listed corals. These include:

(1) Protection of critical habitat in US waters.

(2) A science-based recovery plan with specific management and research
actions to help each listed species survive and recover.

(3) Protection from federal government activities that could harm the corals
and their habitat. US government agencies must consult with federal
biologists to ensure that their actions do not harm listed corals. Through
this consultation process, federal agencies whose activities could harm
corals and their habitat, for example through water pollution, dredging,
commercial fishing, and coastal construction, must analyze their impacts on
corals and take steps to reduce or eliminate them, thereby minimizing
stressors on coral reefs.

(4) Raising greater public awareness about threats to corals to mobilize
support for conservation action. The fact that 22 corals in US waters have
been identified as at risk of extinction primarily due to ocean warming,
ocean acidification, and disease sends a strong message on the need for
meaningful action to reduce carbon pollution at the national and
international level.

Studies have shown the ESA to be effective at preventing extinction and
recovering listed species. The ESA has prevented the extinction of 99% of
species that have been listed to date. One study estimated that 227 listed
plants and animals would have disappeared by 2006 if not for the ESA’s
protections. A recent analysis concluded that the ESA has been successful in
recovering listed species: 90 percent of sampled species are recovering at
the rate specified by their recovery plans

What has the ESA done to help the elkhorn and staghorn coral that were
listed in 2006?

The elkhorn and staghorn corals, which were listed as threatened in 2006,
have received a number of important ESA protections:

(1) The designation of almost 3,000 square miles of protected critical
habitat in US waters in 2008.

(2) The issuance of a draft recovery plan in 2014, which is now open for
public comment through October 20:

https://www.federalregister.gov/articles/2014/09/05/2014-21154/endangered-an
d-threatened-species-draft-recovery-plan-for-staghorn-and-elkhorn-corals

(3) US federal agencies have been required to modify a wide range of
projects to reduce harms to these corals, including mitigation to harbor
construction projects, the laying of undersea cable, fisheries management
plans, and park management plans.

(4) ESA protection has allowed citizens to challenge government actions that
are harming corals. For example, the Center and allies challenged NMFS’s
authorization of targeted fishing for parrotfish and other algae-eating reef
fish that threatens the health of elkhorn and staghorn corals. In 2013, the
court determined that NMFS must do a better job monitoring the effects of
commercial fishing on elkhorn and staghorn coral in the U.S. Virgin Islands
and Puerto Rico.

How does ESA protection affect research activities?

ESA listing typically directs more research attention and funding to listed
species. The number of published studies on a species often increases
significantly following a listing. In addition, the scientific status review
during the ESA listing process and the recovery plan developed after listing
identify key research gaps and research priorities that can mobilize
research attention and funding.

Researchers do not need a permit from NMFS for research or enhancement
activities for the 20 newly listed corals:
http://www.nmfs.noaa.gov/pr/permits/corals.htm.

What are next steps forward for listed corals?

Several important next steps forward include:

(1) identifying research gaps and research priorities to better characterize
the natural history, population status and trends, threats, and conservation
priorities for these corals;

(2) identifying and designating critical habitat areas essential to help
these corals survive and recover, including occupied and unoccupied areas
and climate refugia;

(3) identifying and implementing the suite of recovery actions needed to
help each species survive and recover. For example, the 2014 draft recovery
plan for the elkhorn and staghorn corals includes (a) actions to address
ocean warming and acidification impacts on these species, (b) local threat
reductions and mitigation strategies, (c) in and ex situ conservation and
restoration such as population enhancement through restoration, restocking,
and active management, and (d) ecosystem-level actions to improve habitat
quality and restore keystone reef species and functional processes.

(4) raising public awareness about the coral crisis and what we can do to
help as scientists, policy makers, conservation practitioners, and concerned
citizens.

Thanks,

Shaye Wolf, Ph.D.

Climate Science Director

Center for Biological Diversity

swolf@biologicaldiversity.org

Huffington Post: 20 New Species Of Coral Listed As Threatened

http://www.huffingtonpost.com/2014/08/27/coral-threatened_n_5724936.html?utm_hp_ref=email_share

The Center for Biologic Diversity deserves the credit for starting the process with NOAA to designate these corals. DeeVon

WASHINGTON (AP) — The federal government is protecting 20 types of colorful coral by putting them on the list of threatened species, partly because of climate change.

As with the polar bear, much of the threat to the coral species is because of future expected problems due to global warming, said David Bernhart, an endangered-species official at the National Oceanic and Atmospheric Administration. These coral species are already being hurt by climate change “but not to the point that they are endangered yet,” he said.

Climate change is making the oceans warmer, more acidic and helping with coral diseases like bleaching — and those “are the major threats” explaining why the species were put on the threatened list, Bernhart said in a Wednesday conference call.

Other threats include overfishing, runoff from the land, and some coastal construction, but those are lesser, Bernhart said.

Five species can be found off the Atlantic and Gulf of Mexico coasts of Florida, Puerto Rico and the Virgin Islands. They include pillar coral, rough cactus coral and three species of star coral. The other 15 are in the Pacific Ocean area near Guam and American Samoa, but not Hawaii.

The agency looked at listing 66 species, but Wednesday listed only 20 for various reasons. All are called threatened, not endangered. Two coral species were already listed.

Coral reefs, which are in trouble worldwide, are important fish habitats.

The agency did not create any new rules yet that would prevent coral from being harvested or damaged.

“There is a growing body of expert scientists talking about a risk of mass extinction in the sea and on land,” said Elliott Norse, founder and chief scientist of the Marine Conservation Institute of Seattle. Coral “are organisms on the front line of anything that humans do.”

“I hope this wakes people up and we don’t have to lose more coral,” Norse said.

__

Online:

NOAA: http://www.fisheries.noaa.gov/stories/2014/08/corals_listing.html

Marine Pollution Bulletin: Zone Tropical Coastal Oceans; Manage them More Like Land

Hi coral-listers,
Zone Tropical Coastal Oceans; Manage Them More Like Land
I want to draw attention to a new article just published on line at Marine
Pollution Bulletin. It results from a project funded by the United
Nations University’s institute for Water, Environment & Health (UNU-INWEH)
with some assistance from the Univ of Queensland Global Change Institute.
It is open access and found at
http://www.sciencedirect.com/science/article/pii/S0025326X1400366X
In this article a geographically widely dispersed group with diverse
expertise and with many decades of accumulated experience in tropical
coastal and fisheries management makes five key points:
1. One fifth of humanity live within 100km of a tropical shore; the
current 1.36 billion will swell to 1.95 billion by 2050. Many are
directly dependent on adjacent coastal waters for food and livelihoods
2. Globally, the tropical coastal ocean continues to be degraded by a
suite of human impacts, mostly local but now also global through climate
change and ocean acidification
3. Current policies and procedures for improving management of these
important ecosystems, including their fisheries, almost always fail,
although there are the inevitable small bright spots that flicker briefly
and then usually fade; we spend too much time congratulating ourselves
over the brief flickers of good news, while failing to notice that the
stresses on these ecosystems grow worse year by year
4. Current policies are not failing because we lack the technological
expertise, but because of a complex of issues wrapped up in social
structures, traditions, cultural and religious belief systems,
conventional ways of doing things, governmental and legal structures,
corruption, misplaced priorities, and lack of political will. Together
these lead to short-term thinking, planning and implementation,
small-scale projects, and failure of communities, stakeholders and
governments to really commit to success.
5. Needed is a more holistic, appropriately scaled (in both time and
space) approach, appropriate to the particular socio-political structure
present, to address management failure. This absolutely requires
committed leadership within the community, but it also requires
significant changes in how plans to improve management are designed and
implemented
As a way forward we suggest it is time to recognize we need to begin to
zone the coastal ocean for competing uses, much as we do the land. We
advocate considerably expanded use of marine spatial planning (MSP) as an
effective, objective tool for doing this. We also suggest that MSP can
serve as a Trojan horse to build the more integrated, holistic and
appropriately scaled approach to management which is essential for real,
lasting success. There is a need for serious reflection and changes to
policy by virtually all sectors engaged in helping countries improve their
environmental management. Otherwise we condemn a large portion of
humanity to ever less quality of life.
As I said, its open access so anyone can get a copy. It’s at
http://www.sciencedirect.com/science/article/pii/S0025326X1400366X
We hope it will provoke vigorous discussion and real change because more
of the same is simply not good enough.

Peter Sale
UNU-INWEH
www.inweh.unu.edu

+1-705-764-3359
+1-705-764-3360 FAX
sale@uwindsor.ca @PeterSale3
www.uwindsor.ca/sale www.petersalebooks.com

Special thanks to Coral-list at noaa.gov