Add to ORKGParticulate organic matter (POM) processing is an important driver of aquatic ecosystem productivity that is sensitive to nutrient enrichment and drives ecosystem carbon (C) loss. Although studies of single concentrations of nitrogen (N) or phosphorus (P) have shown effects at relatively low concentrations, responses of litter breakdown rates along gradients of low‐to‐moderate N and P concentrations are needed to establish likely interdependent effects of dual N and P enrichment on baseline activity in stream ecosystems. We established 25 combinations of dissolved inorganic N (DIN; 55–545 μg/L) and soluble reactive P (SRP; 4–86 μg/L) concentrations with corresponding N:P molar ratios of 2–127 in experimental stream channels. We excluded mac...
To determine the effects of nutrient enrichment in a detritus-based stream, we have continuously enr...
Organic matter may sequester nutrients as it decomposes, increasing in total N and P mass via multip...
In temperate headwater streams, riparian forests hinder the development of algae by reducing light a...
Anthropogenic nutrient enrichment of aquatic ecosystems is prevalent and can have detrimental effect...
Anthropogenic enrichment of nitrogen and phosphorus is one of the most pervasive and detrimental thr...
Rates of leaf litter decomposition in streams are strongly influenced both by inorganic nutrients di...
The effects of nutrient (N and P) enrichment on leaf litter decomposition in streams have been inves...
1. We investigated the effect of trophic status on the organic matter budget in freshwater ecosystem...
Abstract Most nutrient enrichment studies in aquatic systems have focused on autotrophic food webs i...
1. The effects of resource quality on ecosystems can shift through time based on preferential use an...
The trophic state of many streams is likely to deteriorate in the future due to the continuing incre...
Decomposing organic matter forms a substantial resource base, fueling the biogeochemical function an...
A widespread stressor, anthropogenic nitrogen (N) and phosphorus (P) pollution can increase resource...
To determine the effects of nutrient enrichment in a detritus-based stream, we have continuously enr...
Organic matter may sequester nutrients as it decomposes, increasing in total N and P mass via multip...
In temperate headwater streams, riparian forests hinder the development of algae by reducing light a...
Anthropogenic nutrient enrichment of aquatic ecosystems is prevalent and can have detrimental effect...
Anthropogenic enrichment of nitrogen and phosphorus is one of the most pervasive and detrimental thr...
Rates of leaf litter decomposition in streams are strongly influenced both by inorganic nutrients di...
The effects of nutrient (N and P) enrichment on leaf litter decomposition in streams have been inves...
1. We investigated the effect of trophic status on the organic matter budget in freshwater ecosystem...
Abstract Most nutrient enrichment studies in aquatic systems have focused on autotrophic food webs i...
1. The effects of resource quality on ecosystems can shift through time based on preferential use an...
The trophic state of many streams is likely to deteriorate in the future due to the continuing incre...
Decomposing organic matter forms a substantial resource base, fueling the biogeochemical function an...
A widespread stressor, anthropogenic nitrogen (N) and phosphorus (P) pollution can increase resource...
To determine the effects of nutrient enrichment in a detritus-based stream, we have continuously enr...
Organic matter may sequester nutrients as it decomposes, increasing in total N and P mass via multip...
In temperate headwater streams, riparian forests hinder the development of algae by reducing light a...