Shifts in lake N: P stoichiometry and nutrient limitation driven by atmospheric nitrogen deposition

James J. Elser; Tom Andersen; Jill S. Baron; Ann Kristin Bergström; Mats Jansson; Mareia Kyle; Koren R. Nydick; Laura Steger; Dag O. Hessen

doi:10.1126/science.1176199

Shifts in lake N: P stoichiometry and nutrient limitation driven by atmospheric nitrogen deposition

James J. Elser
, Tom Andersen
, Jill S. Baron
, Ann Kristin Bergström
, Mats Jansson
, Mareia Kyle
, Koren R. Nydick
, Laura Steger
, Dag O. Hessen

Flathead Lake Biological Station

University of Oslo
Colorado State University
Umeå University
Arizona State University
Mountain Studies Institute

Research output: Contribution to journal › Article › peer-review

741 Scopus citations

Abstract

Human activities have more than doubled the amount of nitrogen (N) circulating in the biosphere. One major pathway of this anthropogenic N input into ecosystems has been increased regional deposition from the atmosphere. Here we show that atmospheric N deposition increased the stoichiometric ratio of N and phosphorus (P) in lakes in Norway, Sweden, and Colorado, United States, and, as a result, patterns of ecological nutrient limitation were shifted. Under low N deposition, phytoplankton growth is generally N-limited; however, in high-N deposition lakes, phytoplankton growth is consistently P-limited. Continued anthropogenic amplification of the global N cycle will further alter ecological processes, such as biogeochemical cycling, trophic dynamics, and biological diversity, in the world's lakes, even in lakes far from direct human disturbance.

Original language	English
Pages (from-to)	835-837
Number of pages	3
Journal	Science
Volume	326
Issue number	5954
DOIs	https://doi.org/10.1126/science.1176199
State	Published - Nov 6 2009

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title = "Shifts in lake N: P stoichiometry and nutrient limitation driven by atmospheric nitrogen deposition",

abstract = "Human activities have more than doubled the amount of nitrogen (N) circulating in the biosphere. One major pathway of this anthropogenic N input into ecosystems has been increased regional deposition from the atmosphere. Here we show that atmospheric N deposition increased the stoichiometric ratio of N and phosphorus (P) in lakes in Norway, Sweden, and Colorado, United States, and, as a result, patterns of ecological nutrient limitation were shifted. Under low N deposition, phytoplankton growth is generally N-limited; however, in high-N deposition lakes, phytoplankton growth is consistently P-limited. Continued anthropogenic amplification of the global N cycle will further alter ecological processes, such as biogeochemical cycling, trophic dynamics, and biological diversity, in the world's lakes, even in lakes far from direct human disturbance.",

author = "Elser, \{James J.\} and Tom Andersen and Baron, \{Jill S.\} and Bergstr{\"o}m, \{Ann Kristin\} and Mats Jansson and Mareia Kyle and Nydick, \{Koren R.\} and Laura Steger and Hessen, \{Dag O.\}",

year = "2009",

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doi = "10.1126/science.1176199",

language = "English",

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TY - JOUR

T1 - Shifts in lake N

T2 - P stoichiometry and nutrient limitation driven by atmospheric nitrogen deposition

AU - Elser, James J.

AU - Andersen, Tom

AU - Baron, Jill S.

AU - Bergström, Ann Kristin

AU - Jansson, Mats

AU - Kyle, Mareia

AU - Nydick, Koren R.

AU - Steger, Laura

AU - Hessen, Dag O.

PY - 2009/11/6

Y1 - 2009/11/6

N2 - Human activities have more than doubled the amount of nitrogen (N) circulating in the biosphere. One major pathway of this anthropogenic N input into ecosystems has been increased regional deposition from the atmosphere. Here we show that atmospheric N deposition increased the stoichiometric ratio of N and phosphorus (P) in lakes in Norway, Sweden, and Colorado, United States, and, as a result, patterns of ecological nutrient limitation were shifted. Under low N deposition, phytoplankton growth is generally N-limited; however, in high-N deposition lakes, phytoplankton growth is consistently P-limited. Continued anthropogenic amplification of the global N cycle will further alter ecological processes, such as biogeochemical cycling, trophic dynamics, and biological diversity, in the world's lakes, even in lakes far from direct human disturbance.

AB - Human activities have more than doubled the amount of nitrogen (N) circulating in the biosphere. One major pathway of this anthropogenic N input into ecosystems has been increased regional deposition from the atmosphere. Here we show that atmospheric N deposition increased the stoichiometric ratio of N and phosphorus (P) in lakes in Norway, Sweden, and Colorado, United States, and, as a result, patterns of ecological nutrient limitation were shifted. Under low N deposition, phytoplankton growth is generally N-limited; however, in high-N deposition lakes, phytoplankton growth is consistently P-limited. Continued anthropogenic amplification of the global N cycle will further alter ecological processes, such as biogeochemical cycling, trophic dynamics, and biological diversity, in the world's lakes, even in lakes far from direct human disturbance.

UR - https://www.scopus.com/pages/publications/70449413849

U2 - 10.1126/science.1176199

DO - 10.1126/science.1176199

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VL - 326

SP - 835

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JO - Science

JF - Science

IS - 5954

ER -

Shifts in lake N: P stoichiometry and nutrient limitation driven by atmospheric nitrogen deposition

Abstract

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