TY - JOUR
T1 - Utility of High-Density Plantings in Bay Scallop, Argopecten irradians irradians, Restoration
AU - Tettelbach, Stephen T.
AU - Barnes, Debra
AU - Aldred, John
AU - Rivara, Gregg
AU - Bonal, Dennis
AU - Weinstock, Andrew
AU - Fitzsimons-Diaz, Chelsea
AU - Thiel, Josh
AU - Cammarota, M. Chase
AU - Stark, Adam
AU - Wejnert, Katherine
AU - Ames, Richard
AU - Carroll, John
N1 - Two different methods of establishing high-density spawner sanctuaries for bay scallop ( Argopecten irradians irradians) restoration were evaluated over 2 years at a site in Northwest Harbor, East Hampton, New York, USA. Hatchery-reared scallops, which had been overwintered at nearby sites, were free-planted directly to the bottom in late March/early April at an initial target density of 94-128 scallops/m 2.
PY - 2011/8
Y1 - 2011/8
N2 - Two different methods of establishing high-density spawner sanctuaries for bay scallop ( Argopecten irradians irradians ) restoration were evaluated over 2 years at a site in Northwest Harbor, East Hampton, New York, USA. Hatchery-reared scallops, which had been overwintered at nearby sites, were free-planted directly to the bottom in late March/early April at an initial target density of 94–128 scallops/m2. In addition, scallops were stocked in off-bottom culture units consisting of three vertically stacked 15-mm mesh ADPI® bags at densities of 50, 100, or 200 scallops/bag (=117, 234, or 468 scallops/m2), respectively. Survival of scallops differed significantly by year, planting method, and scallop source. Survival of free-planted scallops was generally lower than caged scallops. Better survival of free-planted scallops in 2005 versus 2006 likely reflected the presence of luxuriant eelgrass beds in 2005, which were absent in 2006. Survival of scallops in ADPI bags was not appreciably related to stocking density. Shell growth was highest for free-planted scallops; in cages, growth was somewhat better at 50 versus 200 scallops/bag. Wet weights of epibionts were significantly higher in caged versus free-planted scallops. Reproductive condition of scallops stocked at 50/bag was usually higher than at 200/bag. Both free-planting and off-bottom systems yielded high densities of adult bay scallops at the time of spawning, which ensures a higher probability of successful fertilization of spawned eggs and thus a greater potential for success of restoration efforts.
AB - Two different methods of establishing high-density spawner sanctuaries for bay scallop ( Argopecten irradians irradians ) restoration were evaluated over 2 years at a site in Northwest Harbor, East Hampton, New York, USA. Hatchery-reared scallops, which had been overwintered at nearby sites, were free-planted directly to the bottom in late March/early April at an initial target density of 94–128 scallops/m2. In addition, scallops were stocked in off-bottom culture units consisting of three vertically stacked 15-mm mesh ADPI® bags at densities of 50, 100, or 200 scallops/bag (=117, 234, or 468 scallops/m2), respectively. Survival of scallops differed significantly by year, planting method, and scallop source. Survival of free-planted scallops was generally lower than caged scallops. Better survival of free-planted scallops in 2005 versus 2006 likely reflected the presence of luxuriant eelgrass beds in 2005, which were absent in 2006. Survival of scallops in ADPI bags was not appreciably related to stocking density. Shell growth was highest for free-planted scallops; in cages, growth was somewhat better at 50 versus 200 scallops/bag. Wet weights of epibionts were significantly higher in caged versus free-planted scallops. Reproductive condition of scallops stocked at 50/bag was usually higher than at 200/bag. Both free-planting and off-bottom systems yielded high densities of adult bay scallops at the time of spawning, which ensures a higher probability of successful fertilization of spawned eggs and thus a greater potential for success of restoration efforts.
KW - Argopecten irradians irradians
KW - Bay Scallop
KW - High-density plantings
KW - Restoration
UR - https://doi.org/10.1007/s10499-010-9388-6
U2 - 10.1007/s10499-010-9388-6
DO - 10.1007/s10499-010-9388-6
M3 - Article
SN - 0967-6120
VL - 19
JO - Aquaculture International
JF - Aquaculture International
ER -