ScienceDaily 13 Aug 09;
The same things that make Alaska's marine waters among the most productive in the world may also make them the most vulnerable to ocean acidification. According to new findings by a University of Alaska Fairbanks scientist, Alaska's oceans are becoming increasingly acidic, which could damage Alaska's king crab and salmon fisheries.
This spring, chemical oceanographer Jeremy Mathis returned from a cruise armed with seawater samples collected from the depths of the Gulf of Alaska. When he tested the samples' acidity in his lab, the results were higher than expected. They show that ocean acidification is likely more severe and is happening more rapidly in Alaska than in tropical waters. The results also matched his recent findings in the Chukchi and Bering Seas.
"It seems like everywhere we look in Alaska's coastal oceans, we see signs of increased ocean acidification," said Mathis.
Often referred to as the "sister problem to climate change," ocean acidification is a term to describe increasing acidity in the world's oceans. The ocean absorbs carbon dioxide from the air. As the ocean absorbs more carbon dioxide, seawater becomes more acidic. Scientists estimate that the ocean is 25 percent more acidic today than it was 300 years ago.
"The increasing acidification of Alaska waters could have a destructive effect on all of our commercial fisheries. This is a problem that we have to think about in terms of the next decade instead of the next century," said Mathis.
The ocean contains minerals that organisms like oysters and crabs use to build their shells. Ocean acidification makes it more difficult to build shells, and in some cases the water can become acidic enough to break down existing shells. Mathis' recent research in the Gulf of Alaska uncovered multiple sites where the concentrations of shell-building minerals were so low that shellfish and other organisms in the region would be unable to build strong shells.
"We're not saying that crab shells are going to start dissolving, but these organisms have adapted their physiology to a certain range of acidity. Early results have shown that when some species of crabs and fish are exposed to more acidic water, certain stress hormones increase and their metabolism slows down. If they are spending energy responding to acidity changes, then that energy is diverted away from growth, foraging and reproduction," said Mathis.
Another organism that could be affected by ocean acidification is the tiny pteropod, also known as a sea butterfly or swimming sea snail. The pteropod is at the base of the food chain and makes up nearly half of the pink salmon's diet. A 10 percent decrease in the population of pteropods could mean a 20 percent decrease in an adult salmon's body weight.
"This is a case where we see ocean acidification having an indirect effect on a commercially viable species by reducing its food supply," said Mathis.
The cold waters and broad, shallow continental shelves around Alaska's coast could be accelerating the process of ocean acidification in the North, Mathis said. Cold water can hold more gas than warmer water, which means that the frigid waters off Alaska's coasts can absorb more carbon dioxide. The shallow waters of Alaska's continental shelves also retain more carbon dioxide because there is less mixing of seawater from deeper ocean waters.
Ask any coastal Alaskan and they will tell you that Alaska's waters are teeming with biological life, from tiny plankton to humpback whales. All of these animals use oxygen and emit carbon dioxide. Mathis and other scientists call this the "biological pump."
"We are blessed with highly productive coastal areas that support vast commercial fisheries, but this productivity acts like a pump, absorbing more and more carbon dioxide from the atmosphere," said Mathis. "Because of this, the acidity of Alaska's coastal seas will continue to increase, and likely accelerate, over the next decade."
Mathis said that it is still unclear what the full range of effects of ocean acidification will be, but that it is a clear threat to Alaska's commercial fisheries and subsistence communities.
"We need to give our policy makers and industry managers information and forecasts on ocean acidification in Alaska so they can make decisions that will keep our fisheries viable," said Mathis. "Ecosystems in Alaska are going to take a hit from ocean acidification. Right now, we don't know how they are going to respond."
Adapted from materials provided by University of Alaska Fairbanks.
Rising Ocean Acidity Erodes Alaska's Fisheries
New research from the University of Alaska Fairbanks suggests Arctic oceans are already seeing the effects of acidification, with potentially dire consequences to Alaska's rich crab and salmon fisheries
Douglas Fischer, Scientific American 20 Aug 09;
The Arctic's increased vulnerability to climate change is not limited to higher temperatures and melting permafrost.
New research from the University of Alaska Fairbanks suggests Arctic oceans are particularly susceptible to acidification, with potentially dire consequences to Alaska's rich crab and salmon fisheries.
"Everything is acting in unison on the environment - it's not just the ice loss or the warming or the acidification," said UAF chemical oceanographer Jeremy Mathis. "The Arctic is taking a multilateral hit."
Mathis' newest data from the Gulf of Alaska shows acidity levels far higher than expected are already having an impact. In several sites the increasing acidity has changed ocean chemistry so significantly that organisms are unable to pull crucial minerals out of the water to build shells, he said.
Ocean acidification, often called the sister problem to climate change, refers to the rising acidity of the world's seas as seawater absorbs carbon dioxide from the atmosphere.
By some accounts the oceans have absorbed 30 percent of the carbon dioxide humans have pumped into the atmosphere since the dawn of the industrial age, buffering the atmosphere from the harm posed by that greenhouse gas.
But that storage comes with a price. The ocean's pH has dropped nearly 30 percent over the past 250 years to levels not seen in the last 800,000 years; if emissions continue unchecked, the oceans could be more acidic than anything experienced in the past 12 million years. Scientists increasingly consider this change in ocean chemistry to be as consequential and potentially catastrophic for the globe as any temperature rise associated with climate disruption.
"When people talk about ocean acidification, it's a whole suite of changes in the chemical system," said Joanie Kleypas, an oceanographer with the National Center for Atmospheric Research in Boulder, Colo. "There's all sorts of stuff going on, and it's hard to piece it all together."
But one of the most noticeable impacts is hampered shell formation: As ocean pH drops (and acidity rises), organisms such as corals, oysters, clams and crabs have trouble pulling minerals necessary for their shells out of the seawater.
It's too soon to say whether an acidifying Arctic means curtains for Alaska's lucrative king crab fishery, Mathis said.
The impact is already being felt by a tiny creature at the base of the food web supporting the state's legendary salmon runs - the pteropod, or swimming sea snail. Accounting for up to half the diet of pink salmon, pteropods have trouble building shells - and hence surviving - at the Gulf of Alaska's current acidity, Mathis has found.
Mathis, talking with commercial salmon fishermen in Alaska's Kenai Peninsula, said many have reported that fish this year weighed 20 percent less than those from past runs. The change could be significant for all Americans: Alaska in 2007 accounted 62 percent of the United States' commercial seafood catch, according to the Marine Conservation Alliance.
"The increasing acidification of Alaska waters could have a destructive effect on all of our commercial fisheries," Mathis said. "This is a problem that we have to think about in terms of the next decade instead of the next century."
But others are more cautious about stating that Arctic ecosystems are any more at risk by acidification than tropical ones.
Cold water holds more gas than warmer water - the reason why a refrigerated can of cola fizzes less aggressively when opened than a warm one. While this means frigid waters off Alaska's coasts can absorb more carbon dioxide from burning fossil fuels, it also means the waters were naturally more acidic and that species in those waters are adapted to lower pH levels.
"It won't necessarily have a more severe impact," said Oceana marine scientist Ellycia Harrould-Kolieb. "It's having an earlier impact."
Increased Ocean Acidification In Alaska Waters, New Findings Show
posted by Ria Tan at 8/14/2009 07:32:00 AM
labels acid-oceans, global, marine, overfishing