Many freshwater systems receive substantial inputs of terrestrial organic matter. Terrestrially derived dissolved organic carbon (t-DOC) inputs can modify light availability, the spatial distribution of primary production, heat, and oxygen in aquatic systems, as well as inorganic nutrient bioavailability. It is also well-established that some terrestrial inputs (such as invertebrates and fruits) provide high-quality food resources for consumers in some systems. In small to moderate-sized streams, leaf litter inputs average approximately three times greater than the autochthonous production. Conversely, in oligo/mesotrophic lakes algal production is typically five times greater than the available flux of allochthonous basal resources. Terr...
Dissolved organic matter (DOM) in freshwaters is recognised as a significant and active component of...
Allochthonous substances, i.e. produced in terrestrial ecosystems, are known to fuel bacterial produ...
© The Author 2014. Published by Oxford University Press. All rights reserved. The zooplankton commun...
Article1. Many freshwater systems receive substantial inputs of terrestrial organic matter. Terrestr...
Ecosystems are generally linked via fluxes of nutrients and energy across their boundaries. For exam...
Many studies have concluded terrestrial carbon inputs contribute 20–70 % of the carbon supporting zo...
1. We investigated the effect of trophic status on the organic matter budget in freshwater ecosystem...
In many small aquatic ecosystems, watershed loading of organic C exceeds autochthonous primary produ...
Terrestrial ecosystems export large amounts of organic carbon (t-OC) but the net effect of thisOC on...
High-quality subsidies may be low magnitude fluxes, but have disproportionate effects in food webs (...
Resource quantity (i.e., organic matter; OM) is a main driver of the prevailing energy pathway in fr...
Soils are currently leaching out dissolved organic matter (DOM) at an increasing pace due to climate...
ents and organic matter in streams, the mecha-nisms by which organic materials are physically and bi...
Allochthonous organic carbon can subsidize consumers in aquatic systems, but this subsidy may only b...
Dissolved organic carbon (DOC) is a broadly important component of stream water chemistry, yet the p...
Dissolved organic matter (DOM) in freshwaters is recognised as a significant and active component of...
Allochthonous substances, i.e. produced in terrestrial ecosystems, are known to fuel bacterial produ...
© The Author 2014. Published by Oxford University Press. All rights reserved. The zooplankton commun...
Article1. Many freshwater systems receive substantial inputs of terrestrial organic matter. Terrestr...
Ecosystems are generally linked via fluxes of nutrients and energy across their boundaries. For exam...
Many studies have concluded terrestrial carbon inputs contribute 20–70 % of the carbon supporting zo...
1. We investigated the effect of trophic status on the organic matter budget in freshwater ecosystem...
In many small aquatic ecosystems, watershed loading of organic C exceeds autochthonous primary produ...
Terrestrial ecosystems export large amounts of organic carbon (t-OC) but the net effect of thisOC on...
High-quality subsidies may be low magnitude fluxes, but have disproportionate effects in food webs (...
Resource quantity (i.e., organic matter; OM) is a main driver of the prevailing energy pathway in fr...
Soils are currently leaching out dissolved organic matter (DOM) at an increasing pace due to climate...
ents and organic matter in streams, the mecha-nisms by which organic materials are physically and bi...
Allochthonous organic carbon can subsidize consumers in aquatic systems, but this subsidy may only b...
Dissolved organic carbon (DOC) is a broadly important component of stream water chemistry, yet the p...
Dissolved organic matter (DOM) in freshwaters is recognised as a significant and active component of...
Allochthonous substances, i.e. produced in terrestrial ecosystems, are known to fuel bacterial produ...
© The Author 2014. Published by Oxford University Press. All rights reserved. The zooplankton commun...