Streams control the timing and delivery of fluvial nutrient export from watersheds, and hydraulic processes such as transient storage may affect nutrient uptake and transformation. Although we expect that hydraulic processes that retain water will increase nutrient uptake, the relationship between transient storage and nutrient uptake is not clear. To examine this relationship, we injected a conservative tracer and nutrients (ammonium and phosphate) into 13 streams for a total of 37 injections at Hubbard Brook Experimental Forest (HBEF), New Hampshire. Transient storage was estimated by fitting conservative solute data to a one-dimensional advection, dispersion, transient storage model. To correct for variation in depth and velocity among s...
Instream processing may substantially alter nutrient export from forested watersheds. This study tes...
In-stream nutrient retention results from the interaction between hydrological and biogeochemical pr...
Many microbes responsible for inorganic nutrient uptake and transformation utilize dissolved organic...
Streams control the timing and delivery of fluvial nutrient export from watersheds, and hydraulic pr...
Streams control the timing and delivery of fluvial nutrient export from watersheds, and hydraulic pr...
Stream hydraulics control flux into and out of slow-moving water transient storage (WTS) zones and, ...
Streams are important landscape features because they provide an avenue for nitrogen loss from a wa...
This is the author's peer-reviewed final manuscript, as accepted by the publisher. The published art...
We examined the effect of in-channel flow obstructions such as vegetation and coarse woody debris (C...
Rates of nutrient uptake were measured in streams with varying amounts of agricultural development i...
[1] Hydrological and biogeochemical processes in stream reaches impact the downstream transport of n...
Nutrient transformation processes such as assimilation, dissimilatory transformation, and sorption t...
Nutrient cycling and export in streams and rivers should vary with flow regime, yet most studies of ...
Most nutrient-spiraling studies have focused on estimates of gross uptake (Ugross), which show that ...
Patterns of in-stream summer transport of total dissolved nitrogen (TDN) and total dissolved phospho...
Instream processing may substantially alter nutrient export from forested watersheds. This study tes...
In-stream nutrient retention results from the interaction between hydrological and biogeochemical pr...
Many microbes responsible for inorganic nutrient uptake and transformation utilize dissolved organic...
Streams control the timing and delivery of fluvial nutrient export from watersheds, and hydraulic pr...
Streams control the timing and delivery of fluvial nutrient export from watersheds, and hydraulic pr...
Stream hydraulics control flux into and out of slow-moving water transient storage (WTS) zones and, ...
Streams are important landscape features because they provide an avenue for nitrogen loss from a wa...
This is the author's peer-reviewed final manuscript, as accepted by the publisher. The published art...
We examined the effect of in-channel flow obstructions such as vegetation and coarse woody debris (C...
Rates of nutrient uptake were measured in streams with varying amounts of agricultural development i...
[1] Hydrological and biogeochemical processes in stream reaches impact the downstream transport of n...
Nutrient transformation processes such as assimilation, dissimilatory transformation, and sorption t...
Nutrient cycling and export in streams and rivers should vary with flow regime, yet most studies of ...
Most nutrient-spiraling studies have focused on estimates of gross uptake (Ugross), which show that ...
Patterns of in-stream summer transport of total dissolved nitrogen (TDN) and total dissolved phospho...
Instream processing may substantially alter nutrient export from forested watersheds. This study tes...
In-stream nutrient retention results from the interaction between hydrological and biogeochemical pr...
Many microbes responsible for inorganic nutrient uptake and transformation utilize dissolved organic...