State panel presses for action on ocean acidity
»Play Video
SEATTLE (AP) - Rising acidity levels in the oceans pose a serious threat to shellfish and other marine life, and tackling that problem in Washington state will require reducing carbon dioxide emissions, keeping polluted runoff out of marine waters, and increasing monitoring at hatcheries, a group of experts said Tuesday.
The panel of scientists and policy experts convened by Gov. Chris Gregoire recommended dozens of actions to combat changes to ocean chemistry detected several years ago when oyster larvae in Pacific Northwest hatcheries began dying in large numbers.
"There are ominous signals coming from the ecosystem on this issue, as ominous as anything coming from climate change," said Jay Manning, former state ecology director who headed the panel with former Environmental Protection Agency administrator Bill Ruckelshaus.
Gregoire, who formed the group as part of a state and federal initiative to help protect the state's $270 million shellfish industry, signed an executive order Tuesday directing the Department of Ecology to work on the problem. She also announced $3.3 million in funding for some actions in her proposed budget.
However, with Gregoire leaving office in January, it's unclear where the state would find money to pay for the ideas. The state faces a projected $900 million deficit for the next two-year budget ending in mid-2015.
However, the problem known as ocean acidification also is a concern for Gov.-elect Jay Inslee, said his spokesman Sterling Clifford. Inslee is a Democrat.
"He's pleased with the executive order today, and he's looking forward to continuing to address carbon pollution and ocean acidification," Clifford said.
Clifford declined to make budget commitments when asked if Inslee would include money for ocean acidification projects in his budget.
Jane Lubchenco, administrator of the National Oceanic and Atmospheric Administration, said the report draws attention to a problem that exists internationally but has hit particularly hard in the state of Washington.
Acidification is caused when oceans absorb human-generated carbon dioxide, mostly from the atmosphere and also from nutrient runoff and other sources.
Studies have shown that corrosive water has a dramatic effect on oysters, clams, and corals, and could potentially affect the broader marine food web.
Washington state is the nation's top producer of farmed shellfish. The problem affects the industry along with consumers and anyone who has ever dug up razor clams or picked oysters on the coast, Manning said.
The panel, the first of its kind for a state, recommended 42 wide-ranging actions. It cited 18 priorities, ranging from finding innovative techniques such as seaweed farming to capture and remove carbon to reducing greenhouse gas emissions.
The state has already taken action to reduce carbon emissions, including adopting a renewable energy standard and negotiating an agreement to shut down the state's only coal-fired power plant. But the panel said more could be done, such as adopting a low-carbon fuel standard.
Gregoire also proposed a new center for ocean acidification at the University of Washington to be paid for by existing taxes collected on hazardous substances and revenue from leases on state-owned aquatic lands.
Ocean acidification likely affects marine organisms to varying degrees, but research has shown those using the mineral calcium carbonate to make shells, skeletons or other body parts are more sensitive to changing sea chemistry. The organisms include oysters, clams, scallops, mussels and coral.
In February, scientists in Oregon found evidence that higher levels of carbon dioxide in the Pacific Ocean were responsible for the failure of oyster larvae to survive in 2005 at Whiskey Creek Shellfish Hatchery on Netarts Bay.
The panel said Washington's waters are particularly vulnerable to ocean acidification because seasonal ocean upwelling brings water rich in carbon dioxide - and more acidic - up from the deep ocean toward the continental shelf.
"We're still struggling with what we know and what we don't know about the biological impacts. We do know a whole lot about what happens to oyster larvae," said Richard Feely, an oceanographer at NOAA's Pacific Marine Environmental Laboratory in Seattle and a panel member.
Scientists are learning that other organisms such as pteropods - tiny free-swimming snails that are a primary food source for salmon - are already being affected by acidification, Feely said.
More recent work has found that acidifying oceans can affect behavioral responses of some organisms, such as whether a fish will go toward or avoid a predator, he said.
"We now need to have a better understanding of how the changes are taking place at the very bases of the food chain and how those changes permeate through the food chain up to fish and birds and mammals," Feely said.
More Information:
Dept. of Ecology Website
The panel of scientists and policy experts convened by Gov. Chris Gregoire recommended dozens of actions to combat changes to ocean chemistry detected several years ago when oyster larvae in Pacific Northwest hatcheries began dying in large numbers.
"There are ominous signals coming from the ecosystem on this issue, as ominous as anything coming from climate change," said Jay Manning, former state ecology director who headed the panel with former Environmental Protection Agency administrator Bill Ruckelshaus.
Gregoire, who formed the group as part of a state and federal initiative to help protect the state's $270 million shellfish industry, signed an executive order Tuesday directing the Department of Ecology to work on the problem. She also announced $3.3 million in funding for some actions in her proposed budget.
However, with Gregoire leaving office in January, it's unclear where the state would find money to pay for the ideas. The state faces a projected $900 million deficit for the next two-year budget ending in mid-2015.
However, the problem known as ocean acidification also is a concern for Gov.-elect Jay Inslee, said his spokesman Sterling Clifford. Inslee is a Democrat.
"He's pleased with the executive order today, and he's looking forward to continuing to address carbon pollution and ocean acidification," Clifford said.
Clifford declined to make budget commitments when asked if Inslee would include money for ocean acidification projects in his budget.
Jane Lubchenco, administrator of the National Oceanic and Atmospheric Administration, said the report draws attention to a problem that exists internationally but has hit particularly hard in the state of Washington.
Acidification is caused when oceans absorb human-generated carbon dioxide, mostly from the atmosphere and also from nutrient runoff and other sources.
Studies have shown that corrosive water has a dramatic effect on oysters, clams, and corals, and could potentially affect the broader marine food web.
Washington state is the nation's top producer of farmed shellfish. The problem affects the industry along with consumers and anyone who has ever dug up razor clams or picked oysters on the coast, Manning said.
The panel, the first of its kind for a state, recommended 42 wide-ranging actions. It cited 18 priorities, ranging from finding innovative techniques such as seaweed farming to capture and remove carbon to reducing greenhouse gas emissions.
The state has already taken action to reduce carbon emissions, including adopting a renewable energy standard and negotiating an agreement to shut down the state's only coal-fired power plant. But the panel said more could be done, such as adopting a low-carbon fuel standard.
Gregoire also proposed a new center for ocean acidification at the University of Washington to be paid for by existing taxes collected on hazardous substances and revenue from leases on state-owned aquatic lands.
Ocean acidification likely affects marine organisms to varying degrees, but research has shown those using the mineral calcium carbonate to make shells, skeletons or other body parts are more sensitive to changing sea chemistry. The organisms include oysters, clams, scallops, mussels and coral.
In February, scientists in Oregon found evidence that higher levels of carbon dioxide in the Pacific Ocean were responsible for the failure of oyster larvae to survive in 2005 at Whiskey Creek Shellfish Hatchery on Netarts Bay.
The panel said Washington's waters are particularly vulnerable to ocean acidification because seasonal ocean upwelling brings water rich in carbon dioxide - and more acidic - up from the deep ocean toward the continental shelf.
"We're still struggling with what we know and what we don't know about the biological impacts. We do know a whole lot about what happens to oyster larvae," said Richard Feely, an oceanographer at NOAA's Pacific Marine Environmental Laboratory in Seattle and a panel member.
Scientists are learning that other organisms such as pteropods - tiny free-swimming snails that are a primary food source for salmon - are already being affected by acidification, Feely said.
More recent work has found that acidifying oceans can affect behavioral responses of some organisms, such as whether a fish will go toward or avoid a predator, he said.
"We now need to have a better understanding of how the changes are taking place at the very bases of the food chain and how those changes permeate through the food chain up to fish and birds and mammals," Feely said.
More Information:
Dept. of Ecology Website
Since the oceans cover the majority of the globe I'm hard pressed to figure out how Wa. State is going to turn everything around by itself. Looks to me like this is just more wasted taxpayer dollars in that it's a global problem. Unless you have 100% compliance by 100% of the worlds countries/people there is no way to control the whole worlds use of the globe.
 @Jatok You'll find the answer to your question in the story. Click on the video to see.
@Jeff Burnside, KOMO 4 News Investigative Reporter No, not really. All I see is more restrictions on the people of this state but the rest of the post is still relevant as far as I'm concerned. Until the rest of the world digs in what we do here is just a drop in the bucket....very expensive bucket at that.
If the Oceans die...
Â
WE ALL DIE.
This is old news, too bad we had 20 years of climate change deniers literally blowing smoke and now it's way too late. http://www.reuters.com/article/2007/05/17/us-climate-ocean-idUSN1623079520070517
Â
Hello to Venusification.Â
 @NorthwestEconomist Yeah that article was from 2007, but I remember reading about this dire problem about ten years ago.Â
Â
I don't know about Earth getting to quite the same 860 degree temperatures as Venus since we're a bit further from the Sun but if the ocean plants now ingesting the CO2 die off because of acidification and thereby stop producing the oxygen we breath... we won't have to worry about the increasing heat because we'll have all suffocated beforehand.
 @TheTruncheon  @NorthwestEconomist Actually, today's story on ocean acidification that I reported is quite new and quite surprising in that this is the first time a state has studied local impacts and the first time a Governor has initiated such an executive order. Many people, including top national officials, did not know Gov Gregoire was going to sign the order today just after the release of the report. So these develops, which comprise the very core of my story today, is brand new and making national news. The "article" you mention (the text of the story above) was written by an AP reporter who does not appear to have attended the event today and was not reporting on the several new developments today.
 @Jeff Burnside, KOMO 4 News Investigative Reporter  @TheTruncheon  @NorthwestEconomist Yeah I understand, I guess I was pointing out how yet again this is far too little and way too late.Â
 @Jeff Burnside, KOMO 4 News Investigative Reporter Thanks for the update.
 @TheTruncheon Venusification actually refers more to a timeline and method more than a final state. Scientists estimate that at some point in Venus's planetary evolution it reached a tipping point where enough green house gasses got into the air, so it got hotter, so more water evaporated, so it got hotter, etc. They estimate that after about a 16-19% atmospheric greenhouse has saturation point, it spiraled out of control in less than 30 days to reach the state it's in now.
Â
When the earth fries, it will happen even more quickly since we have a lot more water than Venus does and our water vapor won't be diluted with large amounts of sulfuric acid.Â
 @OrcasThunder Awesome. Thanks for that, OT!
 @Zod  @TheTruncheon  @NorthwestEconomist "I would really love for someone to explain how CO2 "acidifies" anything."
Â
It's called chemistry...Mix CO2 & water and the result is Carbolic acid.
Â
"Carbon Dioxide and Carbonic Acid
The most common source of acidity in water is dissolved carbon dioxide.
Carbon dioxide enters the water through equilibrium with the atmosphere
CO2 (aq) « CO2 (g)
and biological degradation/photosynthesis involving organic carbon, {CH2O}
{CH2O} + O2(aq) « CO2 (aq) + H2O
Aqueous CO2 (aq) also undergoes a number of important inorganic equilibrium reactions. First, it can dissolve limestone
CaCO3 + CO2 (aq) + H2O « Ca2+(aq) + 2 HCO3- (aq)
Second, it can react with the water to form carbonic acid
CO2 (aq) + H2O « H2CO3 (aq)
Only a small fraction exists as the acid
Â
and the kinetics to form H2CO3 are relatively slow (on the time scale of seconds)."
http://ion.chem.usu.edu/~sbialkow/Classes/3650/Carbonate/Carbonic%20Acid.html
Â
 @TheTruncheon  @NorthwestEconomist I would really love for someone to explain how CO2 "acidifies" anything.
 @NorthwestEconomist What a vivid and awful scenario you describe, I hope it's not too late to avert Doomsday, I really do.... but this Ocean Acidification thing really scares me.
@TheTruncheon @NorthwestEconomist You know, I always wondered about that. About 7 billion humans on this planet now, continuously clearing land for whatever we need. Less oxygen producing plants, more humans consuming the available oxygen, I wonder how long it will take for that to happen?
 @TheTruncheon  @northwestsurfer Also consider that the vast majority of rain water originates in the oceans. If the oceans become acidic, so does the rain...
 @northwestsurfer The majority of oxygen-producing plant life is in the oceans. But obviously every single plant/tree/shrub etc "cleared" and paved over on land is reducing the oxygen supply for us all as well.Â
Â
It's like the Death of Ten-Thousand Cuts... the dying victim barely feels them until he finally bleeds out.