Saturday, September 29, 2012

NASA hypes Arctic algal blooms as “unprecedented” but they are common

http://tucsoncitizen.com/wryheat/2012/09/29/nasa-hypes-arctic-algal-blooms-as-unprecedented-but-they-are-common/


NASA hypes Arctic algal blooms as “unprecedented” but they are common

by  on Sep. 29, 2012, under Climate changeGeneral Science
The NASA headline reads: “NASA Discovers Unprecedented Blooms of Ocean Plant Life.” Within the article we find:
“Scientists have made a biological discovery in Arctic Ocean waters as dramatic and unexpected as finding a rainforest in the middle of a desert. A NASA-sponsored expedition punched through three-foot thick sea ice to find waters richer in microscopic marine plants, essential to all sea life, than any other ocean region on Earth. The finding reveals a new consequence of the Arctic’s warming climate and provides an important clue to understanding the impacts of a changing climate and environment on the Arctic Ocean and its ecology.”
“If someone had asked me before the expedition whether we would see under-ice blooms, I would have told them it was impossible,” said Kevin Arrigo of Stanford University in Stanford, Calif., leader of the ICESCAPE mission and lead author of the new study. “This discovery was a complete surprise.” (See full article here)
Perhaps these NASA scientists should research the scientific literature more carefully. If they did, they might have discovered that Arctic algal blooms are not “unprecedented” or even unusual.
For instance, we have this paper from 1996 reporting on research in 1993:
Occurrence of an algal bloom under Arctic pack ice” by R. Gradinger, Marine Ecology Progress Series, Vol. 131.
Abstract:
“Summer melting of sea ice leads to the formation of under-ice melt ponds in Arctic seas. The biological characteristics of such a pond were studied in summer 1993. The chlorophyte Pyramimonas sp. (Prasinophyceae) formed a unialgal bloom with cell densities of 19.1 thousand cell per ml and a pigment concentration of 29.6 mg per cubic meter. A comparison with ice core data revealed differences in algal biomass and community structure. Physical data indicate that under-ice ponds are a common feature in the Arctic Ocean. Thus, communities within under-ice ponds, which have not been included in production estimates, may significantly contribute to the Arctic marine food web.”
I wonder if the Arizona Daily Star will, in a few days, report NASA’s “unprecedented” discovery just as the Star uncritically reported the last NASA “unprecedented” claim:Greenland “melting” and media hype.

Marine plants can flee to avoid predators, researchers say


Marine plants can flee to avoid predators, researchers say


Scientists at the University of Rhode Island's Graduate School of Oceanography have made the first observation of a predator avoidance behavior by a species of phytoplankton, a microscopic marine plant. Susanne Menden-Deuer, associate professor of oceanography, and doctoral student Elizabeth Harvey made the unexpected observation while studying the interactions between phytoplankton and zooplankton.

Read more at: http://phys.org/news/2012-09-marine-predators.html#jCp

Wednesday, September 26, 2012

Study finds that ocean acidification is accelerated in nutrient-rich areas

http://www.noaanews.noaa.gov/stories2012/20120924_oceanacidification.html


Study finds that ocean acidification is accelerated in nutrient-rich areas


Marine resources, coastal economies put at risk

September 24, 2012
Carbon dioxide released from decaying algal blooms, combined with ongoing increases in atmospheric carbon emissions, leads to increased levels of ocean acidification, and places additional stress on marine resources and the coastal economies that depend on them, according to a new study published today.
Ocean acidification occurs when the ocean absorbs carbon dioxide from the atmosphere or from the breakdown of organic matter, which then causes a chemical reaction to make it more acidic. Species as diverse as scallops and corals are vulnerable to ocean acidification, which can affect the growth of their shells and skeletons.
Research by NOAA's William G. Sunda and Wei-jun Cai of the University of Georgia points to the process of eutrophication - the production of excess algae from increased nutrients, such as, nitrogen and phosphorus -- as a large, often overlooked source of CO2 in coastal waters. When combined with increasing CO2 in the atmosphere, the release of CO2 from decaying organic matter is accelerating the acidification of coastal seawater.