Water column respiration in the Yakima River basin is explained  by temperature, nutrients, and suspended solids

Laan, Maggi M.; Fulton, Stephanie G.; Garayburu-Caruso, Vanessa A.; Barnes, Morgan E.; Borton, Mikayla A.; Chen, Xingyuan; Farris, Yuliya; Forbes, Brieanne; Goldman, Amy E.; Grieger, Samantha; Hall Jr., Robert O.; Kaufman, Matthew H.; Lin, Xinming; Zionce, Erin L. M.; McKever, Sophia A.; Myers-Pigg, Allison; Otenburg, Opal; Pelly, Aaron C.; Ren, Huiying; Renteria, Lupita; Scheibe, Timothy D.; Son, Kyongho; Tagestad, Jerry; Torgeson, Joshua M.; Stegen, James C.

doi:10.5194/bg-22-6137-2025

Articles | Volume 22, issue 20

https://doi.org/10.5194/bg-22-6137-2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-22-6137-2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 20

Research article

|

28 Oct 2025

Research article |

| 28 Oct 2025

Water column respiration in the Yakima River basin is explained by temperature, nutrients, and suspended solids

Maggi M. Laan, Stephanie G. Fulton, Vanessa A. Garayburu-Caruso, Morgan E. Barnes, Mikayla A. Borton, Xingyuan Chen, Yuliya Farris, Brieanne Forbes, Amy E. Goldman, Samantha Grieger, Robert O. Hall Jr., Matthew H. Kaufman, Xinming Lin, Erin L. M. Zionce, Sophia A. McKever, Allison Myers-Pigg, Opal Otenburg, Aaron C. Pelly, Huiying Ren, Lupita Renteria, Timothy D. Scheibe, Kyongho Son, Jerry Tagestad, Joshua M. Torgeson, and James C. Stegen

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Mar 2025	55	27	4	86
Apr 2025	61	27	3	91
May 2025	44	31	3	78
Jun 2025	37	20	6	63
Jul 2025	40	26	1	67
Aug 2025	101	11	1	113
Sep 2025	397	1	1	399
Oct 2025	113	29	8	150
Nov 2025	59	26	12	97

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Short summary

Respiration is a process that combines carbon and oxygen to generate energy for living organisms. Within a river, respiration in sediments and water makes variable contributions to the respiration of the whole river system. Contrary to conventional wisdom, we found that water column respiration did not increase strongly when moving from small streams to big rivers. Instead, it was locally influenced by temperature, nutrients, and suspended solids.


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