Factoring Stream Turbulence into Global Assessments of Nitrogen Pollution
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The discharge of excess nitrogen to streams and rivers poses an existential threat to both humans and ecosystems. A seminal study of headwater streams across the United States concluded that in-stream removal of nitrate is controlled primarily by stream chemistry and biology. Reanalysis of these data reveals that stream turbulence (in particular, turbulent mass transfer across the concentration boundary layer) imposes a previously unrecognized upper limit on the rate at which nitrate is removed from streams. The upper limit closely approximates measured nitrate removal rates in streams with low concentrations of this pollutant, a discovery that should inform stream restoration designs and efforts to assess the effects of nitrogen pollution on receiving water quality and the global nitrogen cycle.
A dataset of riverine nitrogen yield across watersheds in the Conterminous United States.
Wang Y, Zhang X, Zhao K Sci Data. 2024; 11(1):712.
PMID: 38951502 PMC: 11217459. DOI: 10.1038/s41597-024-03552-1.
Kaushal S, Maas C, Mayer P, Newcomer-Johnson T, Grant S, Rippy M Front Environ Sci. 2023; 11:1-28.
PMID: 37475839 PMC: 10355011. DOI: 10.3389/fenvs.2023.1122485.
Sun R, Dong J, Li Y, Li P, Liu Y, Liu Y Int J Environ Res Public Health. 2022; 19(19).
PMID: 36231995 PMC: 9564466. DOI: 10.3390/ijerph191912695.
Mayer P, Pennino M, Newcomer-Johnson T, Kaushal S Urban Ecosyst. 2022; 25(3):879-907.
PMID: 35561157 PMC: 8935950. DOI: 10.1007/s11252-021-01199-z.
A whole-ecosystem experiment reveals flow-induced shifts in a stream community.
Rosero-Lopez D, Walter M, Flecker A, De Bievre B, Osorio R, Gonzalez-Zeas D Commun Biol. 2022; 5(1):420.
PMID: 35513491 PMC: 9072309. DOI: 10.1038/s42003-022-03345-5.