Saturday, November 17, 2007
Again, yesterday was the last day of the season for our spat bags, and surprisingly, we were still finding scallop spat, at 2-3 mm. On Wednesday we saw similar numbers of scallops... What does this mean? well it would seem that these scallops were spawned sometime in October... Scallop larvae usually spend around 2 weeks in the water column before settlement, and since these bags went out in October, it can be assumed that these scallops were spawned late September/early October, further evidence for fall spawning in bay scallops in NY waters... Is this related to warmer water temperatures later in the season? Perhaps, but I haven't investigated that avenue... It is just very exciting news for the scallop population, a seemingly steady spawn throughout the entire season, and even continued spawning through the fall... Yes, the number of spat on these last few collectors have not been as high as those during the summer, according to my professor, these are the highest numbers he's seen collected this late in the season over the course of the past few years... Further, in visual surveys, we are finding higher numbers of seed than ever before, although still much lower scallop densities than historic numbers.... Either way, its seems to be good news for the scallops, and good news for the countless people that have been working hard to restore bay scallop populations...
Monday, November 5, 2007
While the focus of this blog will be concentrating the various aspects of my current graduate research, I wanted to make a small diversion to some research I did a few years ago with hard clams and eelgrass. I did benthic surveys for eelgrass abundance and hard clam densities in Shinnecock and Quantuck Bays on Long Island. While I only found 14% of the sites to have eelgrass, 67% of eelgrass sites had hard clams present, and only 33% of all other sites had hard clams present. Further, the densities of hard clams in eelgrass sites were double the densities outside of eelgrass. The reasons for this have been greatly explored in the literature, most often that below ground biomass of eelgrass offers a refuge from predation by crabs and whelks. However, little work ha been done to determine the impacts hard clams have on eelgrass. I was able to show that the addition of one hard clam to a quadrat of eelgrass (the equivalent of 16 hard clams per square meter) increased the eelgrass productivity (growth) about as much as a commercial fertilizer via nutrient additions. How? Hard clams filter the water column of phytoplankton and small zooplankton, and then repackage those as nutrients released to the sediments, which the eelgrass then uses for growth. It seems that there is an interactive relationship between the hard clams and eelgrass. I just submitted this work for publication in the Marine Ecology Progress Series, and if it gets accepted, it will be my first publication.
Gardiner Manor Students Participate in University Research Project
Gardiner Manor students assisted Marine Biologist John carroll in his quest to solve the mystery of the vanishing Long Island scallop. Inspired by Mrs. Forman's students, who first became involved, Kids for Saving The Earth Club and the Gardiner Manor Service Club members put in tireless hours last year threading green ribbon onto plastic mats. These artificial eelgrass mats were submerged in Hallock Bay (on the notrth shore of Long Island near Orient Point) in hopes that they would attract various aquatic animals and provide a safe habitat for the scallops.
Threading the mats was a tedious job and it took a lot of patience! Mr. Carroll has since reported that small fish such as silverslides and killifish quickly colonized the "eelgrass", along with pipefish, small flounder, sea bass, grass shrimp and numerous species of crabs. Best of all, the scallop population is thriving! Visit John Carroll's website at http://zostera.blogspotcom/ for more of the scientific details.