Add to ORKGIn a rapidly changing world, quantifying ecosystem resilience is an important challenge. Historically, resilience has been defined via models that do not take spatial effects into account. These systems can only adapt via uniform adjustments. In reality, however, the response is not necessarily uniform, and can lead to the formation of (self-organised) spatial patterns - typically localised vegetation patches. Classical measures of resilience cannot capture the emerging dynamics in spatially self-organised systems, including transitions between patterned states that have limited impact on ecosystem structure and productivity. We present a framework of interlinked phase portraits that appropriately quantifies the resilience of patterned stat...
Spatially periodic patterns can be observed in a variety of ecosystems. Model studies revealed that ...
Spatial self-organization of ecosystems into large-scale (from micron to meters) patterns is an impo...
Prediction of ecosystem response to global environmental change is a pressing scientific challenge o...
In a rapidly changing world, quantifying ecosystem resilience is an important challenge. Historicall...
1. Anthropogenic stressors affect the ecosystems upon which humanity relies. In some cases when resi...
<div><p>Alternative stable states in ecology have been well studied in isolated, well-mixed systems....
Alternative stable states in ecology have been well studied in isolated, well-mixed systems. However...
In diverse ecosystems, organisms cluster together in such a manner that the frequency distribution o...
A range of indicators have been proposed for identifying the elevated risk of critical transitions i...
Alternative stable states in ecology have been well studied in isolated, well-mixed systems. However...
A range of indicators have been proposed for identifying the elevated risk of critical transitions i...
The concept of tipping points and critical transitions helps inform our understanding of the catastr...
Prediction of ecosystem response to global environmental change is a pressing scientific challenge o...
Spatially periodic patterns can be observed in a variety of ecosystems. Model studies revealed that ...
Spatially periodic patterns can be observed in a variety of ecosystems. Model studies revealed that ...
Spatial self-organization of ecosystems into large-scale (from micron to meters) patterns is an impo...
Prediction of ecosystem response to global environmental change is a pressing scientific challenge o...
In a rapidly changing world, quantifying ecosystem resilience is an important challenge. Historicall...
1. Anthropogenic stressors affect the ecosystems upon which humanity relies. In some cases when resi...
<div><p>Alternative stable states in ecology have been well studied in isolated, well-mixed systems....
Alternative stable states in ecology have been well studied in isolated, well-mixed systems. However...
In diverse ecosystems, organisms cluster together in such a manner that the frequency distribution o...
A range of indicators have been proposed for identifying the elevated risk of critical transitions i...
Alternative stable states in ecology have been well studied in isolated, well-mixed systems. However...
A range of indicators have been proposed for identifying the elevated risk of critical transitions i...
The concept of tipping points and critical transitions helps inform our understanding of the catastr...
Prediction of ecosystem response to global environmental change is a pressing scientific challenge o...
Spatially periodic patterns can be observed in a variety of ecosystems. Model studies revealed that ...
Spatially periodic patterns can be observed in a variety of ecosystems. Model studies revealed that ...
Spatial self-organization of ecosystems into large-scale (from micron to meters) patterns is an impo...
Prediction of ecosystem response to global environmental change is a pressing scientific challenge o...