Open Access
Disturbance and element interactions.
Bruce A. Hungate,R. J. Naiman,M. Apps,J. J. Cole,B. Moldan,K. Satake,J. W. B. Stewart,R. Victoria,P. M. Vitousek +8 more
- pp 47-62
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The article was published on 2003-01-01 and is currently open access. It has received 13 citations till now. The article focuses on the topics: Disturbance (geology) & Atmosphere.read more
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Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems.
James J. Elser,Matthew E. S. Bracken,Elsa E. Cleland,Daniel S. Gruner,W. Stanley Harpole,Helmut Hillebrand,Jacqueline T. Ngai,Eric W. Seabloom,Jonathan B. Shurin,Jennifer E. Smith +9 more
TL;DR: A large-scale meta-analysis of experimental enrichments shows that P limitation is equally strong across these major habitats and that N and P limitation are equivalent within both terrestrial and freshwater systems.
Journal ArticleDOI
Fire in the Riparian Zone: Characteristics and Ecological Consequences
TL;DR: A review of the current understandings of the frequency, spatial distributions, mechanisms, and ecological consequences of fire in riparian zones can be found in this paper, where the authors conclude that riparian fires are potentially important in shaping ecological characteristics in many regions, but this is poorly quantified.
Journal ArticleDOI
CO 2 effects on plant nutrient concentration depend on plant functional group and available nitrogen: A meta-analysis
TL;DR: Co2 effects on plant nutrient status depended on the nutrient, plant group, tissue, and N status, and differences in nutrient chemistry in soils preclude a universal hypothesis.
Journal ArticleDOI
Retraction Note to: CO2 effects on plant nutrient concentration depend on plant functional group and available nitrogen: a meta-analysis
TL;DR: It is found that elevated CO2 impacts plant nutrient status differently among the nutrient elements, plant functional groups, and among plant tissues, and that differences between plant groups and plant organs, N status, and differences in nutrient chemistry in soils preclude a universal hypothesis.
Journal ArticleDOI
Terrestrial c sequestration at elevated co2 and temperature: the role of dissolved organic n loss
TL;DR: In this article, a simple model of carbon-nitrogen (C-N) interactions in terrestrial ecosystems was used to examine the responses to elevated CO2 and to increased CO2 plus warming in ecosystems that had the same total nitrogen loss but that differed in the ratio of dissolved organic nitrogen (DON) to dissolved inorganic nitrogen (DIN) loss.