In many small aquatic ecosystems, watershed loading of organic C exceeds autochthonous primary production. Although this allochthonous organic C has long been thought of as refractory, multiple lines of evidence indicate that substantial portions are respired in the receiving aquatic ecosystem. To what extent does this terrestrial C support secondary production of invertebrates and fish? Do current models adequately trace the pathways of allo-chthonous and autochthonous C through the food web? We evaluated the roles of allochthonous and autochthonous organic C by manipulating 13C content of dissolved inorganic C in a small, softwater, humic lake, thereby labeling autochthonous primary production for about 20 d. To ensure rapid and sufficien...
Abstract Subsidies are donor-controlled inputs of nutri-ents and energy that can affect ecosystem-le...
1. Numerous studies have quantified the relative contribution of terrestrial- and phytoplankton-deri...
Many studies have concluded terrestrial carbon inputs contribute 20–70 % of the carbon supporting zo...
Allochthonous organic carbon can subsidize consumers in aquatic systems, but this subsidy may only b...
Ecosystems are supported by organic carbon from two distinct sources. Endogenous carbon is produced ...
Whole-lake additions of dissolved inorganic C-13 were used to measure allochthony (the terrestrial c...
Ecosystems are generally linked via fluxes of nutrients and energy across their boundaries. For exam...
Four whole- lake inorganic C-13 addition experiments were conducted in lakes of differing trophic st...
The trophic state of lakes is commonly defined by the concentration of nutrients in the water column...
Terrestrial ecosystems export large quantities of dissolved organic carbon (DOC) to aquatic ecosyste...
Organic substrates for pelagic bacteria are derived from dissolved organic carbon (DOC) in the water...
Many freshwater systems receive substantial inputs of terrestrial organic matter. Terrestrially deri...
Allochthonous substances, i.e. produced in terrestrial ecosystems, are known to fuel bacterial produ...
Organic substrates for pelagic bacteria are derived from dissolved organic carbon (DOC) in the water...
Lake ecosystems are strongly linked to their terrestrial surroundings by material and energy fluxes...
Abstract Subsidies are donor-controlled inputs of nutri-ents and energy that can affect ecosystem-le...
1. Numerous studies have quantified the relative contribution of terrestrial- and phytoplankton-deri...
Many studies have concluded terrestrial carbon inputs contribute 20–70 % of the carbon supporting zo...
Allochthonous organic carbon can subsidize consumers in aquatic systems, but this subsidy may only b...
Ecosystems are supported by organic carbon from two distinct sources. Endogenous carbon is produced ...
Whole-lake additions of dissolved inorganic C-13 were used to measure allochthony (the terrestrial c...
Ecosystems are generally linked via fluxes of nutrients and energy across their boundaries. For exam...
Four whole- lake inorganic C-13 addition experiments were conducted in lakes of differing trophic st...
The trophic state of lakes is commonly defined by the concentration of nutrients in the water column...
Terrestrial ecosystems export large quantities of dissolved organic carbon (DOC) to aquatic ecosyste...
Organic substrates for pelagic bacteria are derived from dissolved organic carbon (DOC) in the water...
Many freshwater systems receive substantial inputs of terrestrial organic matter. Terrestrially deri...
Allochthonous substances, i.e. produced in terrestrial ecosystems, are known to fuel bacterial produ...
Organic substrates for pelagic bacteria are derived from dissolved organic carbon (DOC) in the water...
Lake ecosystems are strongly linked to their terrestrial surroundings by material and energy fluxes...
Abstract Subsidies are donor-controlled inputs of nutri-ents and energy that can affect ecosystem-le...
1. Numerous studies have quantified the relative contribution of terrestrial- and phytoplankton-deri...
Many studies have concluded terrestrial carbon inputs contribute 20–70 % of the carbon supporting zo...