Subsidies from anadromous sea lamprey (Petromyzon marinus) carcasses function as a reciprocal nutrient exchange between marine and freshwaters

Nutrient and energy flows across ecosystem boundaries subsidize recipient communities and influence bottom‐up processes in food webs. Migratory fish such as anadromous sea lamprey provide a pulse of marine‐derived nutrients and energy to Atlantic coastal streams in spring when organisms would otherw...

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Bibliographic Details
Published in:River research and applications 2018-09, Vol.34 (7), p.824-833
Main Authors: Weaver, D.M., Coghlan, S.M., Greig, H.S., Klemmer, A.J., Perkins, L.B., Zydlewski, J.
Format: Article
Language:English
Subjects:
ammocoete
Biomass
Carbon 13
Carcasses
Coastal streams
Conspecifics
cross‐ecosystem
Decomposers
Decomposition
Fish
Fish migration
Food chains
Food processing
Food webs
Freshwater fishes
Isotopes
Larvae
Marine ecosystems
Mineral nutrients
Nitrogen isotopes
Nutrients
Petromyzon marinus
Primary production
Productivity
reciprocal exchange
sea lamprey
Shading
Spring
Stable isotopes
streams
Subsidies
subsidy
Tissue
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Summary:Nutrient and energy flows across ecosystem boundaries subsidize recipient communities and influence bottom‐up processes in food webs. Migratory fish such as anadromous sea lamprey provide a pulse of marine‐derived nutrients and energy to Atlantic coastal streams in spring when organisms would otherwise be subject to limiting resources. We conducted sea lamprey carcass addition experiments to characterize the role of subsidies on producer and consumer trophic pathways by manipulating subsidy quantity and light exposure. We demonstrated that producer and decomposer productivity is constrained by nutrients during spring; however, these limitations were reduced in producers as light limitations intensified through riparian shading. We observed no significant effects of increasing carcass subsidies on producer and decomposer biomass. Our results suggest that high densities of carcass subsidies may stimulate primary productivity; however, these effects are mediated by the degree of riparian shading, which demonstrated a onefold to fourfold difference in biomass accrual. In addition, sea lamprey carcass nutrients were captured by larval conspecifics. Stable isotopes analysis demonstrated that adult sea lamprey carcass tissue was relatively enriched in 15N and 13C isotopes compared with larvae. We observed significant enrichment in the 13C isotope among larvae sampled after 2 and 4 weeks of exposure to adult carcass nutrients. Our work suggests that a portion of sea lamprey subsidies serve as a reciprocal exchange between freshwaters and the ocean. We highlight that this cross‐ecosystem linkage is likely influenced by subsidy quantity from donor systems and is mediated by environmental characteristics affecting the recipient system.
ISSN:1535-1459
1535-1467
DOI:10.1002/rra.3291