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Carcass analogues provide marine subsidies for macroinvertebrates and juvenile A tlantic salmon in temperate oligotrophic streams
Author(s) -
Guyette Margaret Q.,
Loftin Cynthia S.,
Zydlewski Joseph,
Cunjak Richard
Publication year - 2014
Publication title -
freshwater biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.297
H-Index - 156
eISSN - 1365-2427
pISSN - 0046-5070
DOI - 10.1111/fwb.12272
Subject(s) - fish migration , nutrient , streams , fishery , biology , spawn (biology) , ecology , invertebrate , juvenile fish , juvenile , environmental science , fish <actinopterygii> , computer network , computer science
Summary Anadromous fish populations entering freshwater ecosystems provide organic matter and marine‐derived nutrients during spawning and subsequent mortalities of adults. Dams and other impediments to connectivity in rivers and streams have affected anadromous fish populations in many regions and prevented or reduced this influx of organic materials and nutrients. This study used historical data on the timing of delivery of marine‐derived nutrients; we added a carcass analogue (pellets made from the carcasses of C hinook salmon, O ncorhynchus tschawytcha ) to simulate potential effects of restored access of anadromous fish to streams. We used stable isotopes to document the extent of nutrient incorporation of nitrogen and carbon from the carcass analogue by macroinvertebrates and juvenile A tlantic salmon ( S almo salar ) in salmon nursery streams. We stocked four headwater streams that historically hosted spawning A tlantic salmon and sea lamprey ( P etromyzon marinus ) in M aine, U . S . A . with Atlantic salmon fry and simulated timing of nutrient addition by spawning sea lamprey in the early summer and A tlantic salmon in the autumn. Macroinvertebrates and A tlantic salmon assimilated nitrogen (12–57% of total N ) and carbon (21–65% of total C ) from the added pellets, and the magnitude and duration of enrichment varied temporally and with macroinvertebrate functional feeding group. Assimilation of nutrients from carcass analogues was both direct and indirect, and a nutrient legacy was evident in the second year of sampling. Incorporation of nutrients from the pellets at a range of heights in the food web demonstrated the potential for marine‐derived subsidies to contribute to freshwater ecosystem processes in A tlantic salmon nursery streams.

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