Soil Respiration in European Grasslands in Relation to Climate and Assimilate Supply

Overview

Journal Ecosystems

Publisher Springer

Date 2010 Oct 12

PMID 20936099

Citations 34

Authors

Michael Bahn

Mirco Rodeghiero

Margaret Anderson-Dunn

Sabina Dore

Cristina Gimeno

Matthias Drosler

Michael Williams

Christof Ammann

Frank Berninger

Chris Flechard

Stephanie Jones

Manuela Balzarolo

Suresh Kumar

Christian Newesely

Tibor Priwitzer

Antonio Raschi

Rolf Siegwolf

Sanna Susiluoto

John Tenhunen

Georg Wohlfahrt

Alexander Cernusca

Affiliations

Soon will be listed here.

Abstract

Soil respiration constitutes the second largest flux of carbon (C) between terrestrial ecosystems and the atmosphere. This study provides a synthesis of soil respiration (R(s)) in 20 European grasslands across a climatic transect, including ten meadows, eight pastures and two unmanaged grasslands. Maximum rates of R(s) (R(s(max) )), R(s) at a reference soil temperature (10°C; R(s(10) )) and annual R(s) (estimated for 13 sites) ranged from 1.9 to 15.9 μmol CO(2) m(-2) s(-1), 0.3 to 5.5 μmol CO(2) m(-2) s(-1) and 58 to 1988 g C m(-2) y(-1), respectively. Values obtained for Central European mountain meadows are amongst the highest so far reported for any type of ecosystem. Across all sites R(s(max) ) was closely related to R(s(10) ).Assimilate supply affected R(s) at timescales from daily (but not necessarily diurnal) to annual. Reductions of assimilate supply by removal of aboveground biomass through grazing and cutting resulted in a rapid and a significant decrease of R(s). Temperature-independent seasonal fluctuations of R(s) of an intensively managed pasture were closely related to changes in leaf area index (LAI). Across sites R(s(10) ) increased with mean annual soil temperature (MAT), LAI and gross primary productivity (GPP), indicating that assimilate supply overrides potential acclimation to prevailing temperatures. Also annual R(s) was closely related to LAI and GPP. Because the latter two parameters were coupled to MAT, temperature was a suitable surrogate for deriving estimates of annual R(s) across the grasslands studied. These findings contribute to our understanding of regional patterns of soil C fluxes and highlight the importance of assimilate supply for soil CO(2) emissions at various timescales.

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