Add to ORKGThe surface of bogs commonly shows various spatial vegetation patterning. Typical are ¿string patterns¿ consisting of regular densely vegetated bands oriented perpendicular to the slope. Here, we report on regular ¿maze patterns¿ on flat ground, consisting of bands densely vegetated by vascular plants in a more sparsely vegetated matrix of nonvascular plant communities. We present a model reproducing these maze and string patterns, describing how nutrient-limited vascular plants are controlled by, and in turn control, both hydrology and solute transport. We propose that the patterns are self-organized and originate from a nutrient accumulation mechanism. In the model, this is caused by the convective transport of nutrients in the groundwate...
Spatial ecological patterns are usually ascribed to Turingtype reaction-diffusion or scale-dependent...
Local soil water-vegetation feedbacks play an essential role in vegetation pattern formation in dryl...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but ...
The surface of bogs commonly shows various spatial vegetation patterning. Typical are ¿string patter...
The surface of bogs commonly shows various spatial vegetation patterning. Typical are “string patte...
Peatland surface patterning motivates studies that identify underlying structuring mechanisms. Theor...
Self-organized spatial patterns of vegetation are frequent in water-limited regions and have been su...
Spatial heterogeneity plays a crucial role in the coexistence of species. Despite recogntion of the ...
We numerically investigate a diffusion-reaction model of an ombrotrophic peatland implementing a Tur...
Paleoecological studies indicate that peatland ecosystems may exhibit bistability. This would mean t...
Spatial heterogeneity plays a crucial role in the coexistence of species. Despite recognition of the...
Development of a comprehensive theory of the formation of vegetation patterns is still in progress. ...
Nutrients in freshwater ecosystems are highly variable in space and time. Nevertheless, the variety ...
Predicting how gradual changes in abiotic conditions affect ecosystem functioning is a key challenge...
In temperate climates groundwater can have a profound effect on vegetation, because it strongly infl...
Spatial ecological patterns are usually ascribed to Turingtype reaction-diffusion or scale-dependent...
Local soil water-vegetation feedbacks play an essential role in vegetation pattern formation in dryl...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but ...
The surface of bogs commonly shows various spatial vegetation patterning. Typical are ¿string patter...
The surface of bogs commonly shows various spatial vegetation patterning. Typical are “string patte...
Peatland surface patterning motivates studies that identify underlying structuring mechanisms. Theor...
Self-organized spatial patterns of vegetation are frequent in water-limited regions and have been su...
Spatial heterogeneity plays a crucial role in the coexistence of species. Despite recogntion of the ...
We numerically investigate a diffusion-reaction model of an ombrotrophic peatland implementing a Tur...
Paleoecological studies indicate that peatland ecosystems may exhibit bistability. This would mean t...
Spatial heterogeneity plays a crucial role in the coexistence of species. Despite recognition of the...
Development of a comprehensive theory of the formation of vegetation patterns is still in progress. ...
Nutrients in freshwater ecosystems are highly variable in space and time. Nevertheless, the variety ...
Predicting how gradual changes in abiotic conditions affect ecosystem functioning is a key challenge...
In temperate climates groundwater can have a profound effect on vegetation, because it strongly infl...
Spatial ecological patterns are usually ascribed to Turingtype reaction-diffusion or scale-dependent...
Local soil water-vegetation feedbacks play an essential role in vegetation pattern formation in dryl...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but ...