Continental-scale effects of nutrient pollution on stream ecosystem functioning

Guy Woodward; Mark O. Gessner; Paul S. Giller; Vladislav Gulis; Sally Hladyz; Antoine Lecerf; Björn Malmqvist; Brendan G. McKie; Scott D. Tiegs; Helen Cariss; Mike Dobson; Arturo Elosegi; Verónica Ferreira; Manuel A.S. Graça; Tadeusz Fleituch; Jean O. Lacoursière; Marius Nistorescu; Jesús Pozo; Geta Risnoveanu; Markus Schindler; Angheluta Vadineanu; Lena B.M. Vought; Eric Chauvet

doi:10.1126/science.1219534

Continental-scale effects of nutrient pollution on stream ecosystem functioning

Guy Woodward
, Mark O. Gessner
, Paul S. Giller
, Vladislav Gulis
, Sally Hladyz
, Antoine Lecerf
, Björn Malmqvist
, Brendan G. McKie
, Scott D. Tiegs
, Helen Cariss
, Mike Dobson
, Arturo Elosegi
, Verónica Ferreira
, Manuel A.S. Graça
, Tadeusz Fleituch
, Jean O. Lacoursière
, Marius Nistorescu
, Jesús Pozo
, Geta Risnoveanu
, Markus Schindler

Angheluta Vadineanu, Lena B.M. Vought, Eric Chauvet

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

Abstract

Excessive nutrient loading is a major threat to aquatic ecosystems worldwide that leads to profound changes in aquatic biodiversity and biogeochemical processes. Systematic quantitative assessment of functional ecosystem measures for river networks is, however, lacking, especially at continental scales. Here, we narrow this gap by means of a pan-European field experiment on a fundamental ecosystem process - leaf-litter breakdown - in 100 streams across a greater than 1000-fold nutrient gradient. Dramatically slowed breakdown at both extremes of the gradient indicated strong nutrient limitation in unaffected systems, potential for strong stimulation in moderately altered systems, and inhibition in highly polluted streams. This large-scale response pattern emphasizes the need to complement established structural approaches (such as water chemistry, hydrogeomorphology, and biological diversity metrics) with functional measures (such as litter-breakdown rate, whole-system metabolism, and nutrient spiraling) for assessing ecosystem health.

Original language	English
Pages (from-to)	1438-1440
Number of pages	3
Journal	Science
Volume	336
Issue number	6087
DOIs	https://doi.org/10.1126/science.1219534
Publication status	Published - 15 Jun 2012

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Woodward, G., Gessner, M. O., Giller, P. S., Gulis, V., Hladyz, S., Lecerf, A., Malmqvist, B., McKie, B. G., Tiegs, S. D., Cariss, H., Dobson, M., Elosegi, A., Ferreira, V., Graça, M. A. S., Fleituch, T., Lacoursière, J. O., Nistorescu, M., Pozo, J., Risnoveanu, G., ... Chauvet, E. (2012). Continental-scale effects of nutrient pollution on stream ecosystem functioning. Science, 336(6087), 1438-1440. https://doi.org/10.1126/science.1219534

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title = "Continental-scale effects of nutrient pollution on stream ecosystem functioning",

abstract = "Excessive nutrient loading is a major threat to aquatic ecosystems worldwide that leads to profound changes in aquatic biodiversity and biogeochemical processes. Systematic quantitative assessment of functional ecosystem measures for river networks is, however, lacking, especially at continental scales. Here, we narrow this gap by means of a pan-European field experiment on a fundamental ecosystem process - leaf-litter breakdown - in 100 streams across a greater than 1000-fold nutrient gradient. Dramatically slowed breakdown at both extremes of the gradient indicated strong nutrient limitation in unaffected systems, potential for strong stimulation in moderately altered systems, and inhibition in highly polluted streams. This large-scale response pattern emphasizes the need to complement established structural approaches (such as water chemistry, hydrogeomorphology, and biological diversity metrics) with functional measures (such as litter-breakdown rate, whole-system metabolism, and nutrient spiraling) for assessing ecosystem health.",

author = "Guy Woodward and Gessner, \{Mark O.\} and Giller, \{Paul S.\} and Vladislav Gulis and Sally Hladyz and Antoine Lecerf and Bj{\"o}rn Malmqvist and McKie, \{Brendan G.\} and Tiegs, \{Scott D.\} and Helen Cariss and Mike Dobson and Arturo Elosegi and Ver{\'o}nica Ferreira and Gra{\c c}a, \{Manuel A.S.\} and Tadeusz Fleituch and Lacoursi{\`e}re, \{Jean O.\} and Marius Nistorescu and Jes{\'u}s Pozo and Geta Risnoveanu and Markus Schindler and Angheluta Vadineanu and Vought, \{Lena B.M.\} and Eric Chauvet",

year = "2012",

month = jun,

day = "15",

doi = "10.1126/science.1219534",

language = "English",

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journal = "Science",

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Woodward, G, Gessner, MO, Giller, PS, Gulis, V, Hladyz, S, Lecerf, A, Malmqvist, B, McKie, BG, Tiegs, SD, Cariss, H, Dobson, M, Elosegi, A, Ferreira, V, Graça, MAS, Fleituch, T, Lacoursière, JO, Nistorescu, M, Pozo, J, Risnoveanu, G, Schindler, M, Vadineanu, A, Vought, LBM & Chauvet, E 2012, 'Continental-scale effects of nutrient pollution on stream ecosystem functioning', Science, vol. 336, no. 6087, pp. 1438-1440. https://doi.org/10.1126/science.1219534

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T1 - Continental-scale effects of nutrient pollution on stream ecosystem functioning

AU - Woodward, Guy

AU - Gessner, Mark O.

AU - Giller, Paul S.

AU - Gulis, Vladislav

AU - Hladyz, Sally

AU - Lecerf, Antoine

AU - Malmqvist, Björn

AU - McKie, Brendan G.

AU - Tiegs, Scott D.

AU - Cariss, Helen

AU - Dobson, Mike

AU - Elosegi, Arturo

AU - Ferreira, Verónica

AU - Graça, Manuel A.S.

AU - Fleituch, Tadeusz

AU - Lacoursière, Jean O.

AU - Nistorescu, Marius

AU - Pozo, Jesús

AU - Risnoveanu, Geta

AU - Schindler, Markus

AU - Vadineanu, Angheluta

AU - Vought, Lena B.M.

AU - Chauvet, Eric

PY - 2012/6/15

Y1 - 2012/6/15

N2 - Excessive nutrient loading is a major threat to aquatic ecosystems worldwide that leads to profound changes in aquatic biodiversity and biogeochemical processes. Systematic quantitative assessment of functional ecosystem measures for river networks is, however, lacking, especially at continental scales. Here, we narrow this gap by means of a pan-European field experiment on a fundamental ecosystem process - leaf-litter breakdown - in 100 streams across a greater than 1000-fold nutrient gradient. Dramatically slowed breakdown at both extremes of the gradient indicated strong nutrient limitation in unaffected systems, potential for strong stimulation in moderately altered systems, and inhibition in highly polluted streams. This large-scale response pattern emphasizes the need to complement established structural approaches (such as water chemistry, hydrogeomorphology, and biological diversity metrics) with functional measures (such as litter-breakdown rate, whole-system metabolism, and nutrient spiraling) for assessing ecosystem health.

AB - Excessive nutrient loading is a major threat to aquatic ecosystems worldwide that leads to profound changes in aquatic biodiversity and biogeochemical processes. Systematic quantitative assessment of functional ecosystem measures for river networks is, however, lacking, especially at continental scales. Here, we narrow this gap by means of a pan-European field experiment on a fundamental ecosystem process - leaf-litter breakdown - in 100 streams across a greater than 1000-fold nutrient gradient. Dramatically slowed breakdown at both extremes of the gradient indicated strong nutrient limitation in unaffected systems, potential for strong stimulation in moderately altered systems, and inhibition in highly polluted streams. This large-scale response pattern emphasizes the need to complement established structural approaches (such as water chemistry, hydrogeomorphology, and biological diversity metrics) with functional measures (such as litter-breakdown rate, whole-system metabolism, and nutrient spiraling) for assessing ecosystem health.

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SN - 0036-8075

VL - 336

SP - 1438

EP - 1440

JO - Science

JF - Science

IS - 6087

ER -

Continental-scale effects of nutrient pollution on stream ecosystem functioning

Abstract

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