Earth Science: lack of oxygen locks up peat's carbon.When peatlands and permafrost permafrost, permanently frozen soil, subsoil, or other deposit, characteristic of arctic and some subarctic regions; similar conditions are also found at very high altitudes in mountain ranges. lose moisture, huge amounts of carbon sequestered se·ques·ter v. se·ques·tered, se·ques·ter·ing, se·ques·ters v.tr. 1. To cause to withdraw into seclusion. 2. To remove or set apart; segregate. See Synonyms at isolate. 3. there can oxidize oxidize /ox·i·dize/ (ok´si-diz) to cause to combine with oxygen or to remove hydrogen. ox·i·dize v. 1. To combine with oxygen; change into an oxide. 2. and return to the atmosphere as carbon dioxide, a greenhouse gas (SN: 12/16/00, p. 396). Now, researchers in Wales Wales, Welsh Cymru, western peninsula and political division (principality) of Great Britain (1991 pop. 2,798,200), 8,016 sq mi (20,761 sq km), west of England; politically united with England since 1536. The capital is Cardiff. , where peat is common, suggest the key that unlocks the carbon is an oxygen-stimulated chemical reaction catalyzed by a single enzyme. Up to 30 percent of the carbon in the world's soil is locked into the Northern Hemisphere's peatlands, and many peatlands have been stockpiling carbon since the last ice age. In these areas, moss and other vegetation grow atop water-saturated, oxygen-poor, and partially decomposed vegetation layers from previous years, says Chris Freeman, a biogeochemist at the University of Wales Affiliated institutions
The release of carbon dioxide from peat turns out to be a complicated process. Hydrolase hydrolase /hy·dro·lase/ (hi´dro-las) one of the six main classes of enzymes, comprising those that catalyze the hydrolytic cleavage of a compound. hy·dro·lase n. enzymes often help break down vegetation and liberate carbon dioxide. Despite their efficiency in many other oxygen-poor environments, these enzymes don't seem to be active in peat. Other types of wetlands also have slow rates of decomposition, says Freeman. One factor common to these environments, he notes, is the presence of phenolic compounds. In high concentrations, these organic chemicals strongly inhibit the hydrolase enzymes. Freeman and his colleagues propose in the Jan. 11 NATURE that adding oxygen to the peat kindles a cascade of chemical reactions that ultimately produces carbon dioxide. Their experiments show that oxygen stimulates another reaction in which an enzyme in peat, phenol oxidase, helps break down the phenolic compounds. This, in turn, frees hydrolase enzymes to speed decomposition of the vegetation. In the field, the team found that a doubling in phenol oxidase activity led to a comparable increase in carbon dioxide production. Droughts spurred by global warming could dry and thus aerate aerate Physiology verb To add air or O2 into a liquid. See Waste treatment. the peat, Freeman says. And that could stimulate phenol oxidase reactions in the peatlands to unleash more of the 455 gigatons of carbon--an amount equal to about 60 percent of that in the atmosphere now. --S.P |
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