Add to ORKG1. In community and population ecology, there is a chronic gap between the classic Eltonian ecology describing patterns in abundance and body mass across species and ecosystems and the more process oriented foraging ecology addressing interactions and quantitative population dynamics. However, this dichotomy is arbitrary, because body mass also determines most species traits affecting foraging interactions and population dynamics. 2. In this review, allometric (body-mass dependent) scaling of handling times and attack rates are documented, whereas body-mass effects on Hill exponents (varying between hyperbolic type II and sigmoid type III functional responses) and predator interference coefficients are lacking. This review describes how the...
Predator–prey interactions in natural ecosystems generate complex food webs that have a simple unive...
<p>The distributions of predator-prey body mass ratios produced by different models and real data fr...
Body size affects the structure and function of all levels of biological organization. In ecological...
1. In community and population ecology, there is a chronic gap between the classic Eltonian ecology ...
Abstract. Scaling relationships between mean body masses and abundances of species in multitrophic c...
Scaling relationships between mean body masses and abundances of species in multitrophic communitie...
In natural ecosystems, species are linked by feeding interactions that determine energy fluxes and c...
1. Species' abundance scales approximately as an inverse power of body mass. This property has been ...
The studies presented here investigate the stability of natural ecosystems, either in response to pe...
1. Functional responses quantify the per capita consumption rates of predators depending on prey den...
Predators and prey often differ in body mass. The ratio of predator to prey body mass influences the...
The networks of predator-prey interactions in ecological systems are remarkably complex, but neverth...
1. Widely observed macro-ecological patterns in log abundance vs. log body mass of organisms can be ...
Predator–prey interactions in natural ecosystems generate complex food webs that have a simple unive...
<p>The distributions of predator-prey body mass ratios produced by different models and real data fr...
Body size affects the structure and function of all levels of biological organization. In ecological...
1. In community and population ecology, there is a chronic gap between the classic Eltonian ecology ...
Abstract. Scaling relationships between mean body masses and abundances of species in multitrophic c...
Scaling relationships between mean body masses and abundances of species in multitrophic communitie...
In natural ecosystems, species are linked by feeding interactions that determine energy fluxes and c...
1. Species' abundance scales approximately as an inverse power of body mass. This property has been ...
The studies presented here investigate the stability of natural ecosystems, either in response to pe...
1. Functional responses quantify the per capita consumption rates of predators depending on prey den...
Predators and prey often differ in body mass. The ratio of predator to prey body mass influences the...
The networks of predator-prey interactions in ecological systems are remarkably complex, but neverth...
1. Widely observed macro-ecological patterns in log abundance vs. log body mass of organisms can be ...
Predator–prey interactions in natural ecosystems generate complex food webs that have a simple unive...
<p>The distributions of predator-prey body mass ratios produced by different models and real data fr...
Body size affects the structure and function of all levels of biological organization. In ecological...