Global-Scale Similarities in Nitrogen Release Patterns During Long-Term Decomposition
Top Cited Papers
- 19 January 2007
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 315 (5810) , 361-364
- https://doi.org/10.1126/science.1134853
Abstract
Litter decomposition provides the primary source of mineral nitrogen (N) for biological activity in most terrestrial ecosystems. A 10-year decomposition experiment in 21 sites from seven biomes found that net N release from leaf litter is dominantly driven by the initial tissue N concentration and mass remaining regardless of climate, edaphic conditions, or biota. Arid grasslands exposed to high ultraviolet radiation were an exception, where net N release was insensitive to initial N. Roots released N linearly with decomposition and exhibited little net N immobilization. We suggest that fundamental constraints on decomposer physiologies lead to predictable global-scale patterns in net N release during decomposition.Keywords
This publication has 29 references indexed in Scilit:
- Plant litter decomposition in a semi-arid ecosystem controlled by photodegradationNature, 2006
- Patterns of Carbon, Nitrogen and Phosphorus Dynamics in Decomposing Foliar Litter in Canadian ForestsEcosystems, 2006
- Direct and indirect effects of solar ultraviolet‐B radiation on long‐term decompositionGlobal Change Biology, 2005
- Chronic nitrogen enrichment affects the structure and function of the soil microbial community in temperate hardwood and pine forestsForest Ecology and Management, 2004
- Relationships between carbon turnover and bioavailable energy fluxes in two temperate forest soilsGlobal Change Biology, 2003
- QUANTIFYING FINE-ROOT DECOMPOSITION: AN ALTERNATIVE TO BURIED LITTERBAGSEcology, 2002
- Fine-root decomposition and N dynamics in coniferous forests of the Pacific Northwest, U.S.A.Canadian Journal of Forest Research, 2002
- Litter decomposition and organic matter turnover in northern forest soilsForest Ecology and Management, 2000
- Mass loss and nitrogen dynamics of decaying litter of grasslands: the apparent low nitrogen immobilization potential of root detritusCanadian Journal of Botany, 1992
- Organic matter and chemical element dynamics in an aspen woodland soilCanadian Journal of Forest Research, 1979