Gradients of anthropogenic nutrient enrichment alter N Composition and DOM stoichiometry in freshwater ecosystems

Plain language summary Ammonium and nitrate in freshwaters have received considerable attention due to their clear ecological and health effects. A comprehensive assessment of N in freshwaters that includes DON is lacking. Including DON in studies of surface water chemistry is important because it c...

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Bibliographic Details
Published in:Global Biogeochemical Cycles
Main Authors: Wymore, Adam S., Johnes, Penny J., Bernal, Susana, Brookshire, E. N. Jack, Fazekas, Hannah M., Helton, Ashley M., Argerich, Alba, Barnes, Rebecca T., Coble, Ashley A., Dodds, Walter K., Haq, Shahan, Johnson, Sherri L., Jones, Jeremy B., Kaushal, Sujay S., Kortelainen, Pirkko, López-Lloreda, Carla, Rodríguez-Cardona, Bianca M., Spencer, Robert G. M., Sullivan, Pamela L., Yates, Christopher A., McDowell, William H.
Format: Article in Journal/Newspaper
Language:English
Published: American Geophysical Union 2021
Subjects:
nitrogen cycle
total dissolved nitrogen
dissolved organic matter
dissolved organic carbon
dissolved organic nitrogen
stoichiometry
freshwater ecosystems
nitrogen
carbon
organic chemistry
organic material
inorganic chemistry
chemistry
organic compounds
interaction
biogeochemical cycles
organic substances
freshwater
DOM
DON
TDN
deserts
boreal
boreal biome
arctic
arctic biome
temperate
temperate biome
tropical
tropical biome
desert biome
geosciences
kemia
stoikiometria
hiili
liuennut orgaaninen hiili
typpi
orgaaninen aines
aineiden kierto
makea vesi
virtavedet
vesiekosysteemit
aavikot
boreaalinen vyöhyke
kylmä vyöhyke
lauhkea vyöhyke
trooppinen vyöhyke
geotieteet
Arctic
Online Access:http://hdl.handle.net/10138/337689
https://doi.org/10.1029/2021GB006953
Description
Summary:Plain language summary Ammonium and nitrate in freshwaters have received considerable attention due to their clear ecological and health effects. A comprehensive assessment of N in freshwaters that includes DON is lacking. Including DON in studies of surface water chemistry is important because it can cause eutrophication and certain forms can be rapidly removed by microbial communities. Here, we document how elevated levels of TDN impact the concentrations and relative proportions of all three forms of dissolved N and the stoichiometry of DOM. Our results suggest that human activities fundamentally alter the composition of the dissolved nitrogen pool and the stoichiometry of DOM. Results also highlight feedbacks between the C and N cycles in freshwater ecosystems that are poorly studied. A comprehensive cross-biome assessment of major nitrogen (N) species that includes dissolved organic N (DON) is central to understanding interactions between inorganic nutrients and organic matter in running waters. Here, we synthesize stream water N chemistry across biomes and find that the composition of the dissolved N pool shifts from highly heterogeneous to primarily comprised of inorganic N, in tandem with dissolved organic matter (DOM) becoming more N-rich, in response to nutrient enrichment from human disturbances. We identify two critical thresholds of total dissolved N (TDN) concentrations where the proportions of organic and inorganic N shift. With low TDN concentrations (0–1.3 mg/L N), the dominant form of N is highly variable, and DON ranges from 0% to 100% of TDN. At TDN concentrations above 2.8 mg/L, inorganic N dominates the N pool and DON rarely exceeds 25% of TDN. This transition to inorganic N dominance coincides with a shift in the stoichiometry of the DOM pool, where DOM becomes progressively enriched in N and DON concentrations are less tightly associated with concentrations of dissolved organic carbon (DOC). This shift in DOM stoichiometry (defined as DOC:DON ratios) suggests that fundamental changes in ...

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