|
||
|
|
|
|
|
|
|
February 25, 2004 Faster Carbon Turnover in Basal Food-chain Levels in Aquatic than Terrestrial EcosystemsGlobal temperatures have increased dramatically over the past century, which is causing major impacts on climate patterns, ocean circulation and wildlife preservation. The increase in temperature is largely due to a rise of anthropogenic emissions of greenhouse gases, of which carbon dioxide, CO2, is one of the most important. To understand the capacity of ecosystems to sequester excesses of atmospheric CO2 and improve our ability to predict future climate change scenarios, we must first improve our knowledge of how carbon moves through the food chain of aquatic and terrestrial ecosystems. In the March issue of Ecology Letters, Cebrian shows that aquatic ecosystems turn over carbon through the basal levels of the food chain at a more than ten times faster rate than do terrestrial ecosystems. This means that carbon stored in basal trophic levels is released back to the atmosphere or transferred to higher trophic levels much more quickly in aquatic than in terrestrial ecosystems. Thus, aquatic ecosystems should have a much lower capacity for retaining carbon in situations of higher CO2 availability. These results help refine current and future estimates of global carbon cycling and implications on climate change. ### Kate Stinchcombe This text derived from http://www.eurekalert.org/bysubject/atmospheric.php Recommend this Article to a Friend Back to: News |
|
Subscribe to the Earth Observatory About the Earth Observatory Contact Us Privacy Policy and Important Notices Responsible NASA Official: Lorraine A. Remer Webmaster: Goran Halusa We're a part of the Science Mission Directorate |