Ecologists have long recognized that species are sustained by the flux, storage and turnover of two biological currencies: energy, which fuels biological metabolism and materials (i.e. chemical elements), which are used to construct biomass. Ecological theories often describe the dynamics of populations, communities and ecosystems in terms of either energy (e.g. population-dynamics theory) or materials (e.g. resource-competition theory). These two classes of theory have been formulated using different assumptions, and yield distinct, but often complementary predictions for the same or similar phenomena. For example, the energy-based equation of von Bertalanffy and the nutrient-based equation of Droop both describe growth. Yet, there is rela...
Metabolic theory specifies constraints on the metabolic organisation of individual organisms. These ...
While metabolic theory predicts variance in population density within communities depending on popul...
Understanding the effects of individual organisms on material cycles and energy fluxes within ecosys...
Although aquatic ecologists and biogeochemists are well aware of the crucial importance of ecosystem...
Based on the observation that organism-specific elemental content creates ecologically relevant mism...
The metabolic theory of ecology (MTE) as applied to the plant sciences aims to provide a general syn...
Metabolism provides a basis for using first principles of physics, chemistry, and biology to link th...
The theories developed in ecological stoichiometry (ES) are fundamentally based on traits. Traits di...
Ecological stoichiometry (ES) has become one of the most pervasive theoretical frameworks in environ...
Ecological stoichiometry concerns the way that the elemental composition of organisms shapes their e...
The natural world is inherently complex, and the application of theories that reduce complexity may ...
Ecological stoichiometry concerns the way that the elemental composition of organisms shapes their e...
Abstract. Ecologists are increasingly recognizing the importance of consumers in reg-ulating ecosyst...
Ecological stoichiometry, the study of the balance of energy and materials in living systems, may se...
Humans are drastically changing the availability and distribution of important elements, such as (N)...
Metabolic theory specifies constraints on the metabolic organisation of individual organisms. These ...
While metabolic theory predicts variance in population density within communities depending on popul...
Understanding the effects of individual organisms on material cycles and energy fluxes within ecosys...
Although aquatic ecologists and biogeochemists are well aware of the crucial importance of ecosystem...
Based on the observation that organism-specific elemental content creates ecologically relevant mism...
The metabolic theory of ecology (MTE) as applied to the plant sciences aims to provide a general syn...
Metabolism provides a basis for using first principles of physics, chemistry, and biology to link th...
The theories developed in ecological stoichiometry (ES) are fundamentally based on traits. Traits di...
Ecological stoichiometry (ES) has become one of the most pervasive theoretical frameworks in environ...
Ecological stoichiometry concerns the way that the elemental composition of organisms shapes their e...
The natural world is inherently complex, and the application of theories that reduce complexity may ...
Ecological stoichiometry concerns the way that the elemental composition of organisms shapes their e...
Abstract. Ecologists are increasingly recognizing the importance of consumers in reg-ulating ecosyst...
Ecological stoichiometry, the study of the balance of energy and materials in living systems, may se...
Humans are drastically changing the availability and distribution of important elements, such as (N)...
Metabolic theory specifies constraints on the metabolic organisation of individual organisms. These ...
While metabolic theory predicts variance in population density within communities depending on popul...
Understanding the effects of individual organisms on material cycles and energy fluxes within ecosys...