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Connectivity-Mediated Ecohydrological Feedbacks and Regime Shifts in Drylands
by
Bautista, Susana
, Rodriguez, Francisco
, Mayor, Angeles G.
, Kéfi, Sonia
in
arid lands
/ Arid zones
/ Biodiversity and Ecology
/ Biomedical and Life Sciences
/ Connectivity
/ Ecology
/ Ecosystems
/ Environmental Management
/ Environmental restoration
/ Environmental Sciences
/ Feedback
/ Feedback loops
/ Geoecology/Natural Processes
/ hydrologic cycle
/ Hydrology
/ Hydrology/Water Resources
/ Life Sciences
/ Negative feedback
/ Original Articles
/ Plant Sciences
/ Positive feedback
/ Recovery
/ Restoration
/ risk
/ Risk reduction
/ Runoff
/ Source-sink relationships
/ Vegetation
/ Vegetation cover
/ Vegetation growth
/ Vegetation patterns
/ Zoology
2019
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Connectivity-Mediated Ecohydrological Feedbacks and Regime Shifts in Drylands
by
Bautista, Susana
, Rodriguez, Francisco
, Mayor, Angeles G.
, Kéfi, Sonia
in
arid lands
/ Arid zones
/ Biodiversity and Ecology
/ Biomedical and Life Sciences
/ Connectivity
/ Ecology
/ Ecosystems
/ Environmental Management
/ Environmental restoration
/ Environmental Sciences
/ Feedback
/ Feedback loops
/ Geoecology/Natural Processes
/ hydrologic cycle
/ Hydrology
/ Hydrology/Water Resources
/ Life Sciences
/ Negative feedback
/ Original Articles
/ Plant Sciences
/ Positive feedback
/ Recovery
/ Restoration
/ risk
/ Risk reduction
/ Runoff
/ Source-sink relationships
/ Vegetation
/ Vegetation cover
/ Vegetation growth
/ Vegetation patterns
/ Zoology
2019
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Do you wish to request the book?
Connectivity-Mediated Ecohydrological Feedbacks and Regime Shifts in Drylands
by
Bautista, Susana
, Rodriguez, Francisco
, Mayor, Angeles G.
, Kéfi, Sonia
in
arid lands
/ Arid zones
/ Biodiversity and Ecology
/ Biomedical and Life Sciences
/ Connectivity
/ Ecology
/ Ecosystems
/ Environmental Management
/ Environmental restoration
/ Environmental Sciences
/ Feedback
/ Feedback loops
/ Geoecology/Natural Processes
/ hydrologic cycle
/ Hydrology
/ Hydrology/Water Resources
/ Life Sciences
/ Negative feedback
/ Original Articles
/ Plant Sciences
/ Positive feedback
/ Recovery
/ Restoration
/ risk
/ Risk reduction
/ Runoff
/ Source-sink relationships
/ Vegetation
/ Vegetation cover
/ Vegetation growth
/ Vegetation patterns
/ Zoology
2019
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Connectivity-Mediated Ecohydrological Feedbacks and Regime Shifts in Drylands
Journal Article
Connectivity-Mediated Ecohydrological Feedbacks and Regime Shifts in Drylands
2019
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Overview
Identified as essential mechanisms promoting alternative stable states, positive feedbacks have been the focus of most former studies on the potential for catastrophic shifts in drylands. Conversely, little is known about how negative feedbacks could counterbalance the effects of positive feedbacks. A decrease in vegetation cover increases the connectivity of bare-soil areas and entails a global loss of runoff-driven resources from the ecosystem but also a local increase in runoff transferred from bare-soil areas to vegetation patches. In turn, these global resource losses and local resource gains decrease and increase vegetation cover, respectively, resulting in a global positive and a local negative feedback loop. We propose that the interplay of these two interconnected ecohydrological feedbacks of opposite sign determines the vulnerability of dryland ecosystems to catastrophic shifts. To test this hypothesis, we developed a spatially explicit model and assessed the effects of varying combinations of feedback strengths on the dynamics, resilience, recovery potential, and spatial structure of the system. Increasing strengths of the local negative feedback relative to the global positive feedback decreased the risk of catastrophic shifts, facilitated recovery from a degraded state, and promoted the formation of banded vegetation patterns. Both feedbacks were most relevant at low vegetation cover due to the nonlinear increase in hydrological connectivity with decreasing vegetation. Our modelling results suggest that catastrophic shifts to degraded states are less likely in drylands with strong source–sink dynamics and/or strong response of vegetation growth to resource redistribution and that feedback manipulation can be useful to enhance dryland restoration.
Publisher
Springer US,Springer Science + Business Media,Springer,Springer Nature B.V,Springer Verlag
Subject
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