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Article
Collaborative Research: Interactive Effects of Chronic N deposition, Acidification, and Phosphorus Limitation on Coupled Element Cycling in Streams
University of Maine Office of Research and Sponsored Programs: Grant Reports
  • Kevin S. Simons, Principal Investigator; University of Maine, Orono
  • Ivan J. Fernandez, Co-Principal Investigator; University of Maine, Orono
  • Stephen A. Norton, Co-Principal Investigator; University of Maine, Orono
Additional Participants

Graduate Student

Regina Rancatti

Partner Organization

U.S. Forest Service, Northern Research Station, West Virginia

Project Period
May 1, 2009-April 30, 2014
Level of Access
Open-Access Report
Grant Number
4900 / 0841571
Submission Date
7-2-2014
Abstract

The overarching goal of this project is to understand how chronic acidification and nitrogen enrichment of watersheds influences coupled biogeochemical cycling in streams. Embedded in the project were two primary research elements: 1) examining nitrogen satuartion and the extent of coupling between nitrogen and phosphorus cycling and 2) resolving the interactions among acidification, phosphorus bioavailability and biotic demand for nitrogen and phosphorus. The research involved a series of stable isotope tracer experiments to document nitrogen uptake under ambient and elevated phosphrous conditions and examination of a suite of key microbial processes (denitrification, decomposition, microbial enzyme activity) at two whole-watershed experiment sites. A microcosm experiment was used to examine the influence of acidity stress on animal and microbial stoichiometry.

Manuscript Number
MS584_2014_SIM_Collaborative
Citation Information
Kevin S. Simons, Ivan J. Fernandez and Stephen A. Norton. "Collaborative Research: Interactive Effects of Chronic N deposition, Acidification, and Phosphorus Limitation on Coupled Element Cycling in Streams" (2014)
Available at: http://works.bepress.com/ivan_fernandez/5/