Demographic implications of predatory wrasses on low-density Diadema antillarum populations

This study evaluates and projects the effect of experimental removal of two species of wrasses, Thalassoma bifasciatum and Halichoeres bivittatus, on the demographic structure of the Caribbean sea urchin Diadema antillarum. For census periods ‘before’ and ‘after’ fish removal at treatment and un-manipulated control sites, size-based matrix population projections revealed the most important change in the sea urchin demography was increased survival of the medium size-class following removal of wrasses. The asymptotic growth rate (λ) exhibited no differences between periods for the control; however, the treatment displayed a significant increase in λ from 0.94 to 1.0. During the before period, the treatment population displayed lower λ than the control population, indicating site differences in urchin recruitment from the outset of the experiment, however after one year of maintenance of the predator removal treatment, the treatment population exhibited and increased growth rate to become similar to the control population; indicating predatory-release for the treatment population. Physiological status of sea urchins, as determined by righting times, exhibited no difference between treatment and control populations, or through time. Nil correlation was evident between righting activity and urchin size, indicating that urchin physiological status was not influenced by predation. Long-term demographic simulation indicated that the sea urchin population growth at the treatment site was negative and thus unviable predatory wrasse. However, only one year after fish removal, sea urchin population growth rate became positive. Therefore local population recovery for D. antillarum appears enhanced when abundance of wrasses is kept low.     

Effects of impounding coastal salt marsh for mosquito control on microcrustacean populations

Populations of microcrustaceans were studied for 24 months in two New Jersey high salt marsh impoundments, and in three separate 14 month studies of high salt marsh pools in northeastern Massachusetts.In Massachusetts high marsh pools, dominants were all harpacticoids: Amphiascus pallidus, Cletocamptus deitersi, Harpacticus chelifer, Mesochra lilljeborgii, Metis jousseaumei, and Nitokra lacustris. The cyclopoids Apocyclops spartinus, Halicyclops sp. and the calanoid Eurytemora affinis were also numerically important. While there was extensive overlap, dominants varied to some extent from year to year and among the three studies. The New Jersey saline impoundment fauna showed extreme dominance (low equitability) in the first summer, somewhat less in the second and much less in the third. Total microcrustacean densities also declined each year. Variation in Apocyclops spartinus densities was the major factor, as this species comprised in three consecutive summers, 95, 85 and 51% of the total zooplankton at one station. Diversity as species richness was highest in a New Jersey freshwater impoundment which compared well with South Carolina salt marsh values. Impoundment diversity which was very low, and comparable with that found in a New Jersey Spartina patens marsh, increased each year becoming progressively more like that found in the Massachusetts pools.Vegetation changed significantly in the New Jersey impoundments over the three years. Spartina patens died-off in the first summer, while S. alterniflora gradually declined each year. A visit to the site twenty years later showed all emergent vegetation to be gone. These successional zooplankton and vegetation changes, together with the possible consequences of interrupted marsh-bay exchanges should be considered before undertaking any coastal mosquito control involving permanent flooding.