Light and flow regimes regulate the metabolism of rivers

Light and flow regimes regulate the metabolism of rivers

Mean annual temperature and mean annual precipitation drive much of the variation in productivity across Earth's terrestrial ecosystems but do not explain variation in gross primary productivity (GPP) or ecosystem respiration (ER) in flowing waters. We document substantial variation in the magn...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2022-02, Vol.119 (8), p.1-5
Hauptverfasser: Bernhardt, Emily S., Savoy, Phil, Vlah, Michael J., Appling, Alison P., Koenig, Lauren E., Hall, Robert O., Arroita, Maite, Blaszczak, Joanna R., Carter, Alice M., Cohen, Matt, Harvey, Judson W., Heffernan, James B., Helton, Ashley M., Hosen, Jacob D., Kirk, Lily, McDowell, William H., Stanley, Emily H., Yackulic, Charles B., Grimm, Nancy B.
Format: Artikel
Sprache:eng
Schlagworte:
Annual precipitation
Aquatic ecosystems
Biological Sciences
Carbon - metabolism
Ecosystem
Light
Metabolic rate
Physical Sciences
Productivity
Rivers
Seasonal variations
Seasons
Solar energy
Temperature
Terrestrial ecosystems
Weather
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Zusammenfassung:Mean annual temperature and mean annual precipitation drive much of the variation in productivity across Earth's terrestrial ecosystems but do not explain variation in gross primary productivity (GPP) or ecosystem respiration (ER) in flowing waters. We document substantial variation in the magnitude and seasonality of GPP and ER across 222 US rivers. In contrast to their terrestrial counterparts, most river ecosystems respire far more carbon than they fix and have less pronounced and consistent seasonality in their metabolic rates. We find that variation in annual solar energy inputs and stability of flows are the primary drivers of GPP and ER across rivers. A classification schema based on these drivers advances river science and informs management.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.2121976119