loading page

Land use intensification results in abrupt transitions between contrasting grassland states
  • +38
  • Hugo Saiz,
  • Lena Neuenkamp,
  • Caterina Penone,
  • Klaus Birkhofer,
  • Nico Bluthgen,
  • Steffen Boch,
  • Michael Bonkowski,
  • Francois Buscot,
  • María Felipe-Lucía,
  • Anna-Maria Fiore-Donno,
  • Markus Fischer,
  • Martin Freitag,
  • Oscar Godoy,
  • Kezia Goldmann,
  • Martin Gossner,
  • Ute Hamer,
  • Norbert Hölzel,
  • Kirsten Jung,
  • Ellen Kandeler,
  • Valentin Klaus,
  • Till Kleinebecker,
  • Sophia Leimer,
  • Sven Marhan,
  • Yvonne Oelmann,
  • Jörg Overmann,
  • Daniel Prati,
  • Swen Renner,
  • Matthias Rillig,
  • Sebastian Seibold,
  • Michael Schloter,
  • Ingo Schöning,
  • Johannes Sikorski,
  • Stephanie Socher,
  • Emily Solly,
  • Ingolf Steffan-Dewenter,
  • Barbara Stempfhuber,
  • Catrin Westphal,
  • Wolfgang Wilcke,
  • Tesfaye Wubet,
  • Susanne Wurst,
  • Eric Allan
Hugo Saiz
University of Zaragoza

Corresponding Author:[email protected]

Author Profile
Lena Neuenkamp
Author Profile
Caterina Penone
Author Profile
Klaus Birkhofer
Brandenburgische Technische Universitat Cottbus-Senftenberg
Author Profile
Nico Bluthgen
TU Darmstadt
Author Profile
Steffen Boch
Swiss Federal Research Institute WSL
Author Profile
Michael Bonkowski
University of Cologne
Author Profile
Francois Buscot
UFZ Helmholtz Centre for Environmental Research
Author Profile
María Felipe-Lucía
Author Profile
Anna-Maria Fiore-Donno
University of Cologne
Author Profile
Markus Fischer
University of Potsdam
Author Profile
Martin Freitag
University of Münster
Author Profile
Oscar Godoy
Universidad de Cadiz Campus de Puerto Real
Author Profile
Kezia Goldmann
Helmholtz-Zentrum fur Umweltforschung UFZ
Author Profile
Martin Gossner
Swiss Federal Research Institute WSL
Author Profile
Norbert Hölzel
Author Profile
Kirsten Jung
University Ulm, BIO III
Author Profile
Ellen Kandeler
Author Profile
Valentin Klaus
Institute of Agricultural Sciences, ETH Zurich
Author Profile
Till Kleinebecker
Institute of Landscape Ecology and Resource Management, University of Gießen
Author Profile
Sophia Leimer
Karlsruhe Institute of Technology (KIT)
Author Profile
Sven Marhan
Author Profile
Yvonne Oelmann
Eberhard Karls-University Tuebingen
Author Profile
Jörg Overmann
Leibniz Institut - Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH
Author Profile
Daniel Prati
University of Bern
Author Profile
Swen Renner
Author Profile
Matthias Rillig
Freie Universitaet Berlin
Author Profile
Sebastian Seibold
Technische Universität München
Author Profile
Michael Schloter
Helmholtz Zentrum München
Author Profile
Ingo Schöning
Max Planck Institute for Biogeochemistry
Author Profile
Johannes Sikorski
Author Profile
Stephanie Socher
Paris Lodron University of Salzburg
Author Profile
Emily Solly
ETH Zurich
Author Profile
Ingolf Steffan-Dewenter
University of Würzburg
Author Profile
Barbara Stempfhuber
Helmholtz Zentrum München
Author Profile
Catrin Westphal
Author Profile
Wolfgang Wilcke
Author Profile
Tesfaye Wubet
UFZ-Helmholtz Centre for Environmental Research,
Author Profile
Susanne Wurst
Freie Universität Berlin
Author Profile
Eric Allan
University of Bern
Author Profile

Abstract

Understanding whether land use intensification causes regime shifts is of key importance for management, particularly if these shifts are associated with thresholds separating different ecosystem states and with hysteretic dynamics. Here we use a unique, long-term grassland database to identify thresholds in the response of 16 ecosystem functions and the diversities of 21 taxa to land use intensity. We show that aboveground diversity (5 of 10 taxa), shoot biomass and soil N retention showed threshold responses to land use intensity, i.e., abrupt changes between extensively and intensively managed grasslands. Time-series analysis revealed that ecosystem functions showed hysteresis around the threshold, while diversity did not. Shifting back to the functioning seen in extensively managed grasslands may therefore require larger reductions in land use intensity than shifting to the high intensity state. Identifying such thresholds along land use gradients is critical to prevent ecosystem degradation and conserve biodiversity and ecosystem functions.