TY - JOUR
T1 - Attempted use of an uncommon bay scallop color morph for tracking the contribution of restoration efforts to population recovery
AU - Tettelbach, Stephen T.
AU - Furman, Bradley T.
AU - Hughes, Scott W.T.
AU - Carroll, John M.
AU - Peterson, Bradley J.
AU - Havelin, Jason
AU - Tettelbach, Christian R.H.
AU - Patricio, R. Michael
N1 - Publisher Copyright:
© 2019 Society for Ecological Restoration
PY - 2020/5/1
Y1 - 2020/5/1
N2 - In our ongoing bay scallop restoration efforts in eastern Long Island, NY, United States, we have planted millions of hatchery-reared juveniles to serve as broodstock when they mature. These plantings have driven the resurgence of larval recruitment, benthic population sizes, and commercial fishery landings over a 12-year period. In this article, we detail an attempt to track the contribution of our restoration efforts to population rebuilding using planted “skunks,” an uncommon color morph, by looking for increased skunk frequencies in subsequent wild cohorts. Although we saw higher skunk frequencies among large juveniles in natural populations in the first 3 years after extensive skunk plantings, supporting use of uncommon color morphs as a passive tracer, this conclusion was not supported when examined over a 12-year period, as no strong correlations were seen between skunk frequencies at different life stages (adult broodstock, small and large F1 juveniles, F1 adults) for respective cohorts. Potential reasons for poor correlation between skunk frequencies and restoration efforts include lower than expected production of skunk offspring, dilution of out-planted contribution to growing natural populations, interannual variability in skunk frequencies that may have obscured the expected skunk signal, and/or differentially higher mortality of skunks at postset and larger juvenile stages. In the latter case, skunks experienced higher overwinter mortality, most likely due to predation, in 9 of 11 years. This led us to suspend skunk plantings after 3 years. Nevertheless, commercial fishermen perceived skunks to be “our” scallops, helping raise the profile of and support for our restoration efforts.
AB - In our ongoing bay scallop restoration efforts in eastern Long Island, NY, United States, we have planted millions of hatchery-reared juveniles to serve as broodstock when they mature. These plantings have driven the resurgence of larval recruitment, benthic population sizes, and commercial fishery landings over a 12-year period. In this article, we detail an attempt to track the contribution of our restoration efforts to population rebuilding using planted “skunks,” an uncommon color morph, by looking for increased skunk frequencies in subsequent wild cohorts. Although we saw higher skunk frequencies among large juveniles in natural populations in the first 3 years after extensive skunk plantings, supporting use of uncommon color morphs as a passive tracer, this conclusion was not supported when examined over a 12-year period, as no strong correlations were seen between skunk frequencies at different life stages (adult broodstock, small and large F1 juveniles, F1 adults) for respective cohorts. Potential reasons for poor correlation between skunk frequencies and restoration efforts include lower than expected production of skunk offspring, dilution of out-planted contribution to growing natural populations, interannual variability in skunk frequencies that may have obscured the expected skunk signal, and/or differentially higher mortality of skunks at postset and larger juvenile stages. In the latter case, skunks experienced higher overwinter mortality, most likely due to predation, in 9 of 11 years. This led us to suspend skunk plantings after 3 years. Nevertheless, commercial fishermen perceived skunks to be “our” scallops, helping raise the profile of and support for our restoration efforts.
KW - Argopecten
KW - bivalve
KW - larval recruitment
KW - overwinter mortality
KW - restoration
KW - shell color
UR - http://www.scopus.com/inward/record.url?scp=85078772220&partnerID=8YFLogxK
U2 - 10.1111/rec.13109
DO - 10.1111/rec.13109
M3 - Article
AN - SCOPUS:85078772220
SN - 1061-2971
VL - 28
SP - 532
EP - 542
JO - Restoration Ecology
JF - Restoration Ecology
IS - 3
ER -