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Acid Test: NRDC’s new film on Ocean Acidification

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http://www.nrdc.org/oceans/acidification/

Click link to see the film Acid Test by Natural Resources Defense Council

Earth’s atmosphere isn’t the only victim of burning fossil fuels. About a quarter of all carbon dioxide emissions are absorbed by the earth’s oceans, where they’re having an impact that’s just starting to be understood.

Over the last decade, scientists have discovered that this excess CO2 is actually changing the chemistry of the sea and proving harmful for many forms of marine life. This process is known as ocean acidification.

A more acidic ocean could wipe out species, disrupt the food web and impact fishing, tourism and any other human endeavor that relies on the sea.

The change is happening fast — and it will take fast action to slow or stop it. Over the last 250 years, oceans have absorbed 530 billion tons of CO2, triggering a 30 percent increase in ocean acidity.

Before people started burning coal and oil, ocean pH had been relatively stable for the previous 20 million years. But researchers predict that if carbon emissions continue at their current rate, ocean acidity will more than double by 2100.

The polar regions will be the first to experience changes. Projections show that the Southern Ocean around Antarctica will actually become corrosive by 2050.

Corrosive Impacts on Sealife

The new chemical composition of our oceans is expected to harm a wide range of ocean life — particularly creatures with shells. The resulting disruption to the ocean ecosystem could have a widespread ripple effect and further deplete already struggling fisheries worldwide.

Increased acidity reduces carbonate — the mineral used to form the shells and skeletons of many shellfish and corals. The effect is similar to osteoporosis, slowing growth and making shells weaker. If pH levels drop enough, the shells will literally dissolve.

This process will not only harm some of our favorite seafood, such as lobster and mussels, but will also injure some species of smaller marine organisms — things such as pteropods and coccolithophores.

You’ve probably never heard of them, but they form a vital part of the food web. If those smaller organisms are wiped out, the larger animals that feed on them could suffer, as well.

Disappearing Coral Reefs

Delicate corals may face an even greater risk than shellfish because they require very high levels of carbonate to build their skeletons.

Acidity slows reef-building, which could lower the resiliency of corals and lead to their erosion and eventual extinction. The “tipping point” for coral reefs could happen as soon as 2050.

Coral reefs serve as the home for many other forms of ocean life. Their disappearance would be akin to rainforests being wiped out worldwide. Such losses would reverberate throughout the marine environment and have profound social impacts, as well — especially on the fishing and tourism industries.

The loss of coral reefs would also reduce the protection that they offer coastal communities against storms surges and hurricanes — which might become more severe with warmer air and sea surface temperatures due to global warming.

What Can We Do About It?

Combating acidification requires reducing CO2 emissions and improving the health of the oceans. Creating marine protected areas (essentially national parks for the sea) and stopping destructive fishing practices would increase the resiliency of marine ecosystems and help them withstand acidification.

Evidence suggests that coral reefs in protected ocean reserves are less affected by global threats such as global warming and ocean acidification, demonstrating the power of ecosystem protection.

Ultimately, though, reducing the amount of carbon dioxide absorbed into the oceans may be the only way to halt acidification. The same strategies needed to fight global warming on land can also help in the seas.

The acidification of our oceans is the hidden side of the world’s carbon crisis, says Lisa Suatoni, an NRDC ocean scientist, and only reinforces that we need to make changes in how we fuel our world — and we need to do it quickly.

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Wear Blue for the Oceans January 13th– Support a National Ocean Policy

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http://wearblueforoceans.org/

Don’t just wear blue – Share blue!

Come and join us at one of the planned events in San Francisco, CA; New Orleans, LA, or Washington DC! Read below for more info on each event.  Just click on the city closest to you and let us know you plan on attending, and we’ll see you there.  Make sure to wear blue on January 13th and spread the word!

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Environmental Defense Fund: Religion and Climate Change by Dominique Browning

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http://blogs.edf.org/personalnature/2010/01/08/religion-and-climate-change/

January 8, 2010 

The president of a religious institution isn’t the first person you think of as a likely EDF spokesperson. But in a recent television ad sponsored by EDF, Dr. Dan Boone, the president of Trevecca Nazarene University in Tennessee, made an impassioned plea for Congress to pass climate change legislation. “Please somehow find a way to let this global concern rise above partisan politics,” Dr. Boone said.  He’s descended from frontiersman Daniel Boone—clearly the pioneering spirit lives on. 

 

Dr. Dan Boone pleas for Congress to address climate change. 

The conflict between politics, religion and science has been with us for centuries; think of Copernicus, Galileo, Darwin. Today there is rampant confusion between faith, something you believe in, and science, something that requires only connective leaps between hypotheses and demonstrable evidence. We seem to have lost our trust in the authority of scientists, no matter how impressive their level of training and achievement. A fascinating new Pew poll showed that Republicans are overwhelmingly less likely to “believe” the science of climate change than Democrats, who aren’t entirely persuaded either. 

With every passing week, the scientific data gets more precise, and more frightening. Yet this has proven insufficient to move people to action. All the more fascinating, then, to watch the growing movement among religious leaders who use their pulpits to venture into environmental action. More than 10,000 congregations of Christian, Jewish, Islamic, Buddhist and other faiths are working in 30 states as members of Interfaith Power & Light (IPL). These religious leaders are clearly having an impact on people across the country who would never call themselves environmentalists. 

IPL sees climate change as a profound moral issue, a matter of values—something many environmentalists have been wary of addressing, preferring to focus on technological or economic solutions as being less politically charged and ultimately more effective. But no matter what our approach, we all have something to learn from faith communities about how to bridge divisions and instruct, inspire and mobilize people. 

Portrait of a Preacher

Meet the godmother of the environmental movement in the religious community. 

Read more… 

The powerful message of Interfaith Power and Light—one that unites all faiths—is that people have a duty to be stewards of the earth. In loving God, we must love his creation. This is not, as some critics claim, about turning environmentalism into a religion; that is a perversion of what is actually happening. The fact is, in order to succeed in significantly altering the global course of climate change, we are going to have to harness all the power we have, whether it is the power of the market, the power of technology, or the power of heart and soul. 

IPL is the brainchild of the Reverend Sally Bingham, a priest in the Episcopal Diocese of California. Bingham is also a trustee of EDF. She founded The Regeneration Project whose mission is to deepen the connection between ecology and religion. IPL is the primary campaign and is a religious response to global warming. State chapters respond to a call to action: they agree to give sermons that explain the danger of climate change, reduce their own emissions, support public policy that cuts greenhouse gases, and promote the adoption of renewable energy technologies. 

“Most people want to do the right and moral thing,” Bingham wrote to me recently in an email. “They just don’t sometimes know what that is. It is for that reason that religious leaders have such an important role. We need to take this issue out of the hands of the politicians and get it into the hands of the people at the grass roots level. Clergy can do this.” 

Communities of faith, in other words, can provide moral leadership, something we desperately need amplified from many quarters. Think of the two major moral issues in America’s past – civil rights and slavery; the fight over these issues was led by communities of faith, united on moral grounds. “There are millions of people who don’t listen to politicians and who are skeptical of science, but who will listen to their clergy,” notes Bingham. 

“The powerful message that unites all faiths is that people have a duty to be stewards of the earth.” 

I spent my holidays reading some fascinating books on the subject of the climate crisis and our values, as I’ve long wondered what is keeping us, as a society, from wholeheartedly accepting the danger we face, and doing whatever it takes to ward it off. Many thinkers claim the human brain isn’t wired to handle long-term catastrophe; we need to see a real and present danger. Somehow, this isn’t a very good excuse. 

I found a provocative and wide-ranging discussion of these issues in Down to the Wire, by David W. Orr; I cannot recommend this book highly enough. Orr argues that we must learn to cultivate “the arts and sciences of gratitude, which is to say, applied love.” We must be grateful for the gift of this world; that is the first step towards taking responsibility for the damage we have done to the planet. In a moving passage in his new book, Our Choice, Al Gore envisions the necessary social transformation: “Our way of thinking changed. The earth itself began to occupy our thoughts.” As Stephen Jay Gould writes, “We will not fight to save what we do not love.” 

Martin Luther King Jr.Religious communities have often mobilized themselves to act in the name of love. (And, sadly, it must not be forgotten, the opposite.) They are well equipped to talk about values—those “habits of the heart”, as DeToqueville called them. The clerical message of members of Interfaith Power & Light is bracingly straightforward: help the poor, who suffer disproportionately from drought, flooding, famine and pollution, because it is the just thing to do; and heal the planet, because it is God’s gift to humankind, and we have no right to destroy it for future generations. 

Love may be the common theme among these scientists, thinkers and clerics, but it’s not exactly the basis for a political platform. Nor is it scientifically measurable. But that’s why it is the most potent message of all, embracing the kind of idealism that can unite and inspire. We are daily bombarded with messages making us desire what we haven’t got. But going forward, the power will be with anyone who can persuade us to love what we do have, and what we are in danger of losing: the hospitable beauty of our planet. May the earth itself occupy our hearts—if not our prayers—in the coming year. Personal Nature

Take action! Tell the Senate  that you believe in our moral obligation to stop climate change and protect our planet.
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Ocean Foundation: Restoration of Degraded Keys Seagrasses

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http://www.reuters.com/article/idUS30271+04-Jan-2010+PRN20100104

Ecosystems Project Demonstrates Success.

Sun Jan 3, 2010 11:10pm EST

The Ocean Foundation Releases Successful Monitoring Report on Its First
Seagrass Restoration Project.

WASHINGTON, Jan. 3 /PRNewswire-USNewswire/ -- The monitoring report for the
first SeaGrass Grow project shows a successful program that is restoring
damaged seagrass meadows.  This project is designed to restore areas damaged
from propeller scars and vessel groundings.  Unfortunately these actions by
boaters will continue to impact our sensitive seagrass habitat.  It is
important to act to restore these areas while implementing a broad public
communications strategy to ensure that boaters are less likely to impact the
area in the future. 

(Logo: http://www.newscom.com/cgi-bin/prnh/20100103/DC31542LOGO ) 

"We are excited to see this very positive momentum and look forward to its
successful completion," said The Ocean Foundation President, Mark J. Spalding.
 "This report clearly demonstrates that the project is working.  This is a
critical action toward protecting and restoring our important seagrass beds." 
While the first priority needs to be conservation of existing seagrass, sadly
there are many impacted areas that must be restored.  Unfortunately, impacts
to seagrass beds are often unknown or go unreported.   Therefore trying to
hold the perpetrators responsible is difficult or impossible.  SeaGrass Grow
uses charitable donations to restore impacted areas.

The first restoration project occurred at Knights Key Bank in the Florida Keys
National Marine Sanctuary.  The project is to restore 4,000 square feet and
was funded with a gift from Absolut Vodka.  With Absolut's generous support,
the needed restoration was mapped, the permit secured, and the sediment tubes
laid.  Monitoring now confirms that the area is mostly restored.  Total
restoration typically takes 18 to 24 months.  The project is demonstrating
success and will likely continue to thrive.  Ongoing monitoring will confirm
this.  It has been estimated that over 30,000 acres of prop scarring exist in
Monroe County alone, according to a Florida Fish and Wildlife Research
Institute study completed over a decade ago (F.J. Sergant).

In summary, the monitoring report indicates erosion has been halted and
seagrass is re-establishing itself in the restored spaces.  The data collected
establishes that 91% of the sediment tubes installed have biodegraded across
the entire set of scars restored, thus bringing the scarred places back to
grade and halting erosion that would have in many instances increased the size
of the propeller scars.  Many of the restoration areas have reached 50%
recovery or greater within 14 months; meaning that half of the entire 4,000 sq
ft matches or exceeds the surrounding percent coverage of the meadow.  Natural
re-colonization is occurring where the expansive species (mostly S. filiforme
or commonly called Manatee Grass) is growing into the topographically restored
prop scars - a key element of the restoration process. 

For the full report, visit
http://www.seagrassrecovery.com/article_Knights_Key_Restoration_Project.htm

For information about seagrass and the jobs being created, visit
http://www.seagrassgrow.org/ht/a/GetDocumentAction/i/3484

For information about The Ocean Foundation, visit
http://www.oceanfdn.org/index.php?ht=d/sp/i/355/pid/355//pid/351

SOURCE The Ocean Foundation


Mark Spalding of The Ocean Foundation, +1-202-887-8992,
mspalding@oceanfdn.org
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Sea Life Along the Edge by Dr. Reese Halter

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http://drreese.wordpress.com/2009/10/19/sea-life-along-the-edge

The next time you are walking along the seashore, take a closer look at the wave-battered coast. The beauty of this extremely brutal ecosystem is enhanced many fold by a growing understanding of how it works. 

There is an intriguing collection of animal and plant life that loves along this edge. They are exposed to harsh physical elements: wind, sun and rain when the water recedes at low tide and waves breaking over them at high tide. 

The area between the high and low tides is the inter-tidal zone. Suzie and I and our children cherish the times when we get to explore this ecosystem.

Have you ever seen a starfish eat a mussel?

A starfish will drape itself over the mussel, lock its bone-like structures, called ossicles, onto its prey and form a rigid scaffolding. Using its tube feet, the starfish perches between a rock and each shell of the mussel. The starfish contracts its tube feet, prying the shell open. The starfish everts its stomach out of its mouth and squeezes into the narrow gap between the mussel’s shell. The starfish begins to digest the mussel while it sucks it out of the shell. 

At low tide amongst the exposed rocks you are likely to see clusters of seaweeds, algae, mussels and goose barnacles. Huddled between the rock crevices are starfish. Hermit crabs scurry between the rocks. The crab carries its house, the shell of a dead snail. 

Sea anemones live in tidal pools below mussel beds. As the tide rises, they wait for the waves to wash their prey into their grasp. The tentacles surrounding the anemone’s face are called an oral disk. The mouth is found at the center of its oral disk. A sea anemone has no anus; after digesting a meal, it spits the waste back out of its mouth – including entire shells!

The animal and plant life along the coastline are miraculously adapted to the constant crashing waves. They depend upon the water moving around them to bring oxygen and nutrients, to carry away their wastes, and to transport their offspring to new sites.

Floppy 10-foot-long algae and sea grasses flap and flail in the moving water. They hang onto wet rocks with amazing natural glues. 

Sea spiders crawl along the shoreline rocks and rely upon hooks on the end of their feet to prevent them from being swept out to sea. Snails stick to surfaces using their mucus.

The next time a rock is exposed at low tide, notice a distinct pattern in distribution of animals and plants. 

The top of the exposed rocks is usually colonized by acorn barnacles and periwinkle snails. Mussels and goose barnacles occupy the next horizontal band. Beneath them are turf algae, and lower still is a zone of larger seaweeds and surf grasses with starfish and sea anemones in tidal pools. 

Life at the top of the rock can contend with periodically drying out. Starfish and sea anemones at the bottom, on the other hand, cannot tolerate being sun-baked.

Scientists and engineers have examined a number of animals and plants from the inter-tidal zone; their natural properties are awesome and highly beneficial for humankind. An entire field of biomimetics has blossomed in engineering. The design of human-made materials, devices and structures is inspired by the design of living things.

Non-drip paint mimics the mucus of a snail, which is both a lubricant and a glue. Epoxy glues mimic phenomenal glues from the bottom of barnacles and holdfasts of seaweeds. 

The shell of a snail is made of calcium carbonate – an otherwise brittle compound, yet it’s tough because of its exquisite architecture. Present-day composite materials mimic this fine detail. 

One biomimetic design used hundreds of millions of times each day comes from starfish ossicles. The strength of the ossicle is derived from the molecular criss-cross formation of calcium carbonate compounds. This excellent design has been applied to stiffen the fillers in the rubber tires used on cars and trucks.