Colimitation and the coupling of N and P uptake kinetics in oligotrophic mountain streams
Ecosystem element cycles can be tightly linked by both abiotic and biotic processes. Evidence for multi-element limitation (i.e., colimitation) of a variety of ecosystem processes is growing rapidly, yet our ability to quantify patterns of coupled nutrient dynamics at the ecosystem level has been hindered by logistical and methodological constraints. Here we quantify coupled nitrogen and phosphorus uptake kinetics in three oligotrophic mountain streams by using novel experimental techniques that quantify colimitation dynamics across a range of nutrient concentrations and stoichiometries. We show that relative demand for NO3-N and PO4-P varied across streams, but that short term availability of one nutrient consistently resulted in elevated, but variable, uptake of the other nutrient at all sites. We used temporally offset, pulsed nutrient additions to parameterize dual-nutrient Michaelis–Menten uptake surface models that represent NO3-N and PO4-P uptake at any given concentration or dissolved NO3-N:PO4-P stoichiometry. Our results indicated that the uptake of N and P were strongly enhanced in the presence of the other nutrient. Surface models quantitatively reflect patterns of colimitation and multi-element demand in streams, and should allow for parameterization of more realistic stream network models that explicitly account for interactions among element cycles.
Duke Scholars
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- Agronomy & Agriculture
- 4104 Environmental management
- 3703 Geochemistry
- 0502 Environmental Science and Management
- 0402 Geochemistry
- 0399 Other Chemical Sciences
Citation
Published In
DOI
EISSN
ISSN
Publication Date
Volume
Issue
Start / End Page
Related Subject Headings
- Agronomy & Agriculture
- 4104 Environmental management
- 3703 Geochemistry
- 0502 Environmental Science and Management
- 0402 Geochemistry
- 0399 Other Chemical Sciences