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Seasonal variation exceeds effects of salmon carcass additions on benthic food webs in the Elwha River
Dam removal and other fish barrier removal projects in western North America are assumed to boost freshwater productivity via the transport of marine‐derived nutrients from recolonizing Pacific salmon (Oncorhynchus spp.). In anticipation of the removal of two hydroelectric dams on the Elwha River in...
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| Published in: | Ecosphere (Washington, D.C) D.C), 2016-08, Vol.7 (8), p.n/a |
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| creator | Morley, S. A. Coe, H. J. Duda, J. J. Dunphy, L. S. McHenry, M. L. Beckman, B. R. Elofson, M. Sampson, E. M. Ward, L. |
| description | Dam removal and other fish barrier removal projects in western North America are assumed to boost freshwater productivity via the transport of marine‐derived nutrients from recolonizing Pacific salmon (Oncorhynchus spp.). In anticipation of the removal of two hydroelectric dams on the Elwha River in Washington State, we tested this hypothesis with a salmon carcass addition experiment. Our study was designed to examine how background nutrient dynamics and benthic food webs vary seasonally, and how these features respond to salmon subsidies. We conducted our experiment in six side channels of the Elwha River, each with a spatially paired reference and treatment reach. Each reach was sampled on multiple occasions from October 2007 to August 2008, before and after carcass placement. We evaluated nutrient limitation status; measured water chemistry, periphyton, benthic invertebrates, and juvenile rainbow trout (O. mykiss) response; and traced salmon‐derived nutrient uptake using stable isotopes. Outside of winter, algal accrual was limited by both nitrogen and phosphorous and remained so even in the presence of salmon carcasses. One month after salmon addition, dissolved inorganic nitrogen levels doubled in treatment reaches. Two months after addition, benthic algal accrual was significantly elevated. We detected no changes in invertebrate or fish metrics, with the exception of 15N enrichment. Natural seasonal variability was greater than salmon effects for the majority of our response metrics. Yet seasonality and synchronicity of nutrient supply and demand are often overlooked in nutrient enhancement studies. Timing and magnitude of salmon‐derived nitrogen utilization suggest that uptake of dissolved nutrients was favored over direct consumption of carcasses. The highest proportion of salmon‐derived nitrogen was incorporated by herbivores (18–30%) and peaked 1–2 months after carcass addition. Peak nitrogen enrichment in predators (11–16%) occurred 2–3 months after addition. All taxa returned to background δ15N levels by 7 months. Since this study was conducted, both dams on the Elwha River were removed over 2011–2014 to open over 90% of the basin to anadromous fishes. We anticipate that as the full portfolio of salmon species expands through the basin, nutrient supply and demand will come into better balance. |
| doi_str_mv | 10.1002/ecs2.1422 |
| format | article |
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A. ; Coe, H. J. ; Duda, J. J. ; Dunphy, L. S. ; McHenry, M. L. ; Beckman, B. R. ; Elofson, M. ; Sampson, E. M. ; Ward, L.</creator><creatorcontrib>Morley, S. A. ; Coe, H. J. ; Duda, J. J. ; Dunphy, L. S. ; McHenry, M. L. ; Beckman, B. R. ; Elofson, M. ; Sampson, E. M. ; Ward, L.</creatorcontrib><description>Dam removal and other fish barrier removal projects in western North America are assumed to boost freshwater productivity via the transport of marine‐derived nutrients from recolonizing Pacific salmon (Oncorhynchus spp.). In anticipation of the removal of two hydroelectric dams on the Elwha River in Washington State, we tested this hypothesis with a salmon carcass addition experiment. Our study was designed to examine how background nutrient dynamics and benthic food webs vary seasonally, and how these features respond to salmon subsidies. We conducted our experiment in six side channels of the Elwha River, each with a spatially paired reference and treatment reach. Each reach was sampled on multiple occasions from October 2007 to August 2008, before and after carcass placement. We evaluated nutrient limitation status; measured water chemistry, periphyton, benthic invertebrates, and juvenile rainbow trout (O. mykiss) response; and traced salmon‐derived nutrient uptake using stable isotopes. Outside of winter, algal accrual was limited by both nitrogen and phosphorous and remained so even in the presence of salmon carcasses. One month after salmon addition, dissolved inorganic nitrogen levels doubled in treatment reaches. Two months after addition, benthic algal accrual was significantly elevated. We detected no changes in invertebrate or fish metrics, with the exception of 15N enrichment. Natural seasonal variability was greater than salmon effects for the majority of our response metrics. Yet seasonality and synchronicity of nutrient supply and demand are often overlooked in nutrient enhancement studies. Timing and magnitude of salmon‐derived nitrogen utilization suggest that uptake of dissolved nutrients was favored over direct consumption of carcasses. The highest proportion of salmon‐derived nitrogen was incorporated by herbivores (18–30%) and peaked 1–2 months after carcass addition. Peak nitrogen enrichment in predators (11–16%) occurred 2–3 months after addition. All taxa returned to background δ15N levels by 7 months. Since this study was conducted, both dams on the Elwha River were removed over 2011–2014 to open over 90% of the basin to anadromous fishes. We anticipate that as the full portfolio of salmon species expands through the basin, nutrient supply and demand will come into better balance.</description><identifier>ISSN: 2150-8925</identifier><identifier>EISSN: 2150-8925</identifier><identifier>DOI: 10.1002/ecs2.1422</identifier><language>eng</language><publisher>Washington: John Wiley & Sons, Inc</publisher><subject>benthic invertebrates ; Dam effects ; dam removal ; Ecosystems ; Elwha River ; Endangered & extinct species ; Enrichment ; Fish barriers ; Fish hatcheries ; Food chains ; Food webs ; Herbivores ; Invertebrates ; Isotopes ; marine‐derived nutrients ; National parks ; Nitrogen ; Nutrient balance ; Nutrient dynamics ; Nutrient status ; Nutrient uptake ; Nutrient utilization ; Nutrients ; Oncorhynchus mykiss ; Pacific salmon (Oncorhynchus spp.) recolonization ; periphyton ; Predators ; River ecology ; Rivers ; Salmon ; salmon subsidies ; Seasonal variations ; Stable isotopes ; Studies ; Subsidies ; Washington State ; Water chemistry ; Watersheds</subject><ispartof>Ecosphere (Washington, D.C), 2016-08, Vol.7 (8), p.n/a</ispartof><rights>2016 Morley et al.</rights><rights>2016. 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A.</creatorcontrib><creatorcontrib>Coe, H. J.</creatorcontrib><creatorcontrib>Duda, J. J.</creatorcontrib><creatorcontrib>Dunphy, L. S.</creatorcontrib><creatorcontrib>McHenry, M. L.</creatorcontrib><creatorcontrib>Beckman, B. R.</creatorcontrib><creatorcontrib>Elofson, M.</creatorcontrib><creatorcontrib>Sampson, E. M.</creatorcontrib><creatorcontrib>Ward, L.</creatorcontrib><title>Seasonal variation exceeds effects of salmon carcass additions on benthic food webs in the Elwha River</title><title>Ecosphere (Washington, D.C)</title><description>Dam removal and other fish barrier removal projects in western North America are assumed to boost freshwater productivity via the transport of marine‐derived nutrients from recolonizing Pacific salmon (Oncorhynchus spp.). In anticipation of the removal of two hydroelectric dams on the Elwha River in Washington State, we tested this hypothesis with a salmon carcass addition experiment. Our study was designed to examine how background nutrient dynamics and benthic food webs vary seasonally, and how these features respond to salmon subsidies. We conducted our experiment in six side channels of the Elwha River, each with a spatially paired reference and treatment reach. Each reach was sampled on multiple occasions from October 2007 to August 2008, before and after carcass placement. We evaluated nutrient limitation status; measured water chemistry, periphyton, benthic invertebrates, and juvenile rainbow trout (O. mykiss) response; and traced salmon‐derived nutrient uptake using stable isotopes. Outside of winter, algal accrual was limited by both nitrogen and phosphorous and remained so even in the presence of salmon carcasses. One month after salmon addition, dissolved inorganic nitrogen levels doubled in treatment reaches. Two months after addition, benthic algal accrual was significantly elevated. We detected no changes in invertebrate or fish metrics, with the exception of 15N enrichment. Natural seasonal variability was greater than salmon effects for the majority of our response metrics. Yet seasonality and synchronicity of nutrient supply and demand are often overlooked in nutrient enhancement studies. Timing and magnitude of salmon‐derived nitrogen utilization suggest that uptake of dissolved nutrients was favored over direct consumption of carcasses. The highest proportion of salmon‐derived nitrogen was incorporated by herbivores (18–30%) and peaked 1–2 months after carcass addition. Peak nitrogen enrichment in predators (11–16%) occurred 2–3 months after addition. All taxa returned to background δ15N levels by 7 months. Since this study was conducted, both dams on the Elwha River were removed over 2011–2014 to open over 90% of the basin to anadromous fishes. 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A.</au><au>Coe, H. J.</au><au>Duda, J. J.</au><au>Dunphy, L. S.</au><au>McHenry, M. L.</au><au>Beckman, B. R.</au><au>Elofson, M.</au><au>Sampson, E. M.</au><au>Ward, L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Seasonal variation exceeds effects of salmon carcass additions on benthic food webs in the Elwha River</atitle><jtitle>Ecosphere (Washington, D.C)</jtitle><date>2016-08</date><risdate>2016</risdate><volume>7</volume><issue>8</issue><epage>n/a</epage><issn>2150-8925</issn><eissn>2150-8925</eissn><abstract>Dam removal and other fish barrier removal projects in western North America are assumed to boost freshwater productivity via the transport of marine‐derived nutrients from recolonizing Pacific salmon (Oncorhynchus spp.). In anticipation of the removal of two hydroelectric dams on the Elwha River in Washington State, we tested this hypothesis with a salmon carcass addition experiment. Our study was designed to examine how background nutrient dynamics and benthic food webs vary seasonally, and how these features respond to salmon subsidies. We conducted our experiment in six side channels of the Elwha River, each with a spatially paired reference and treatment reach. Each reach was sampled on multiple occasions from October 2007 to August 2008, before and after carcass placement. We evaluated nutrient limitation status; measured water chemistry, periphyton, benthic invertebrates, and juvenile rainbow trout (O. mykiss) response; and traced salmon‐derived nutrient uptake using stable isotopes. Outside of winter, algal accrual was limited by both nitrogen and phosphorous and remained so even in the presence of salmon carcasses. One month after salmon addition, dissolved inorganic nitrogen levels doubled in treatment reaches. Two months after addition, benthic algal accrual was significantly elevated. We detected no changes in invertebrate or fish metrics, with the exception of 15N enrichment. Natural seasonal variability was greater than salmon effects for the majority of our response metrics. Yet seasonality and synchronicity of nutrient supply and demand are often overlooked in nutrient enhancement studies. Timing and magnitude of salmon‐derived nitrogen utilization suggest that uptake of dissolved nutrients was favored over direct consumption of carcasses. The highest proportion of salmon‐derived nitrogen was incorporated by herbivores (18–30%) and peaked 1–2 months after carcass addition. Peak nitrogen enrichment in predators (11–16%) occurred 2–3 months after addition. All taxa returned to background δ15N levels by 7 months. Since this study was conducted, both dams on the Elwha River were removed over 2011–2014 to open over 90% of the basin to anadromous fishes. We anticipate that as the full portfolio of salmon species expands through the basin, nutrient supply and demand will come into better balance.</abstract><cop>Washington</cop><pub>John Wiley & Sons, Inc</pub><doi>10.1002/ecs2.1422</doi><tpages>19</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | benthic invertebrates Dam effects dam removal Ecosystems Elwha River Endangered & extinct species Enrichment Fish barriers Fish hatcheries Food chains Food webs Herbivores Invertebrates Isotopes marine‐derived nutrients National parks Nitrogen Nutrient balance Nutrient dynamics Nutrient status Nutrient uptake Nutrient utilization Nutrients Oncorhynchus mykiss Pacific salmon (Oncorhynchus spp.) recolonization periphyton Predators River ecology Rivers Salmon salmon subsidies Seasonal variations Stable isotopes Studies Subsidies Washington State Water chemistry Watersheds |
| title | Seasonal variation exceeds effects of salmon carcass additions on benthic food webs in the Elwha River |
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