Are rivers just big streams? A pulse method to quantify nitrogen demand in a large river.

@article{Tank2008AreRJ,
  title={Are rivers just big streams? A pulse method to quantify nitrogen demand in a large river.},
  author={Jennifer L. Tank and Emma J. Rosi-Marshall and Michelle A Baker and Robert O. Hall},
  journal={Ecology},
  year={2008},
  volume={89 10},
  pages={
          2935-45
        }
}
Given recent focus on large rivers as conduits for excess nutrients to coastal zones, their role in processing and retaining nutrients has been overlooked and understudied. Empirical measurements of nutrient uptake in large rivers are lacking, despite a substantial body of knowledge on nutrient transport and removal in smaller streams. Researchers interested in nutrient transport by rivers (discharge >10000 L/s) are left to extrapolate riverine nutrient demand using a modeling framework or a… 
View on PubMed
uwyo.edu
182 Citations
Highly Influential Citations
16
Background Citations
61
Methods Citations
32
Results Citations
13

Tables from this paper

182 Citations

Citation Type

Citation Type

Nitrogen and phosphorus dynamics in a large river estimated by an in situ Lagrangian tracking approach
Streams and rivers transport and process land-derived nutrients to coastal ecosystems, but few empirical studies quantify in-stream processing of nutrients in large rivers due to methodological
NUTRIENT LIMITATION AND UPTAKE RATES IN STREAMS AND RIVERS OF THE GREATER YELLOWSTONE AREA
Nutrient pollution of aquatic ecosystems is a growing concern as the influence of human activities continues to increase on the landscape. Headwater streams have long been shown to process nutrients
Nitrification increases nitrogen export from a tropical river network
TLDR
It is suggested that streams and rivers can significantly transform the N load from their catchments, thereby decreasing the role of larger streams in NH4+ removal at the river-network scale.
Scaling Dissolved Nutrient Removal in River Networks: A Comparative Modeling Investigation
Along the river network, water, sediment, and nutrients are transported, cycled, and altered by coupled hydrological and biogeochemical processes. Our current understanding of the rates and processes
Chronic N loading reduces N retention across varying base flows in a desert river
Abstract Stream ecosystems receive and transport nutrients from terrestrial ecosystems and are important sites of N retention and removal in catchments. Many streams experience high anthropogenic N
Hydrologic control of nitrogen removal, storage, and export in a mountain stream
Nutrient cycling and export in streams and rivers should vary with flow regime, yet most studies of stream nutrient transformation do not include hydrologic variability. We used a stable isotope
Nutrient Retention and the Problem of Hydrologic Disconnection in Streams and Wetlands
Some aquatic systems have disproportionately high nutrient processing rates, and may be important to nutrient retention within river networks. However, the contribution of such biogeochemical hot
Lagrangian tracking measurements revealed the temporal dynamics of nitrogen and phosphorus spiralling in a large Japanese river
The in-stream processing of nutrients plays an important role in the fluvial nutrient transport from lands to the ocean, but few empirical studies have addressed the temporal dynamics of net nutrient
Nitrogen cycling and metabolism in the thalweg of a prairie river
[1] Nutrient dynamics in rivers are central to global biogeochemistry. We measured ammonium (NH4+) uptake, metabolism, nitrification, and denitrification in the thalweg, the river region of greatest
Incorporating In-Stream Nutrient Uptake into River Management: Gipuzkoa Rivers (Basque Country, North Spain) as a Case Study
Gipuzkoa (Basque Country, North Spain) is an industrial region where investments in sanitation and wastewater treatment have improved water quality and partially recovered river biological
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 51 REFERENCES
Toward a transport-based analysis of nutrient spiraling and uptake in streams
Nutrient addition experiments are designed to study the cycling of nutrients in stream ecosystems where hydrologic and nonhydrologic processes determine nutrient fate. Because of the importance of
Control of Nitrogen Export from Watersheds by Headwater Streams
A comparative 15N-tracer study of nitrogen dynamics in headwater streams from biomes throughout North America demonstrates that streams exert control over nutrient exports to rivers, lakes, and
Nutrient uptake in streams draining agricultural catchments of the midwestern United States
SUMMARY 1. Agriculture is a major contributor of non-point source pollution to surface waters in the midwestern United States, resulting in eutrophication of freshwater aquatic ecosystems and
Relationship between river size and nutrient removal
[1] We present a conceptual approach for evaluating the biological and hydrological controls of nutrient removal in different sized rivers within an entire river network. We emphasize a per unit area
Effect of stream channel size on the delivery of nitrogen to the Gulf of Mexico
TLDR
It is concluded that the proximity of sources to large streams and rivers is an important determinant of nitrogen delivery to the estuary in the Mississippi basin, and possibly also in other large river basins.
Stream denitrification across biomes and its response to anthropogenic nitrate loading
TLDR
It is demonstrated that excess nitrate in streams elicits a disproportionate increase in the fraction of nitrate that is exported to receiving waters and reduces the relative role of small versus large streams as nitrate sinks.
Relating nutrient uptake with transient storage in forested mountain streams
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
N uptake as a function of concentration in streams
Detailed studies of stream N uptake were conducted in a prairie reach and gallery forest reach of Kings Creek on the Konza Prairie Biological Station. Nutrient uptake rates were measured with
Nitrogen saturation in stream ecosystems.
TLDR
A conceptual model of N transport, uptake, and uptake efficiency suggests that, while streams may be active sites of N uptake on the landscape, N saturation contributes to nonlinear changes in stream N dynamics that correspond to decreased uptake efficiency.
Nutrients and the “dead zone”: the link between nutrient ratios and dissolved oxygen in the northern Gulf of Mexico
The “dead zone”, an area with reduced concentrations of dissolved oxygen, forms every year off the mouth of the Mississippi River in the northern Gulf of Mexico. Some marine animals are stressed or
...
1
2
3
4
5
...