Eight PCR primers to amplify EST‐linked microsatellites in the Eastern oyster,Crassostrea virginica genome

Twenty‐four microsatellite repeat sequences were identified by screening a total of 4446 eastern oyster, Crassostrea virginica, expressed sequence tags. Polymerase chain reaction primers were designed to amplify 12 of these loci. After optimizing reaction parameters, eight loci showed high variability with consistent amplification that could be scored unambiguously. Ninety two C. virginica from the James River, VA, were genotyped at these loci. Number of alleles per locus ranged from 11 to 53, expected and observed heterozygosities ranged from 0.69 to 0.97, and from 0.30 to 0.99, respectively. Discrepancies between expected and observed heterozygosities were common and likely caused by null alleles.     

The Distribution of Perkinsus marinus in Gulf Coast Oysters: Its Relationship with Temperature,Reproduction, and Pollutant Body Burden

Oysters from 48 Gulf of Mexico sites were examined for presence and infection intensity of the endoparasite, Perkinsus (= Dermocystidium) marinus (Mackin, Owen and Collier, 1950) as part of NOAA's Status and Trends Mussel Watch Program. Prevalence exceeded 75% at 25 sites. Infection intensity did not vary with sex or reproductive stage. Latitude, total polynuclear aromatic hydrocarbon (PAH) content and industrial and agricultural land use significantly affected the parasite's distribution. PAH and pesticide concentrations were latitudinally dependent, suggesting an impact of spawning frequency on uptake and depuration. P. marinus analysis complements the use of pollutant body burden for determining change in environmental quality because it responds differently than pollutant body burden to the biology and ecology of the oyster.     

Co‐localized Crassostrea virginica and Crassostrea ariakensis Oysters differ in bioaccumulation,retention and depuration of microbial indicators and human enteropathogens

Aims: To evaluate the bioaccumulation, retention and depuration rates of nine pathogens and surrogates when two oyster species were co‐localized in tanks of seawater. Methods and Results: Crassostrea ariakensis (n = 52) and Crassostrea virginica (n = 52) were exposed to five virus types, two protozoan and two microsporidian species for 24 h. Oysters were then placed in depuration tanks, and subsets were removed and analysed for micro‐organisms at weekly intervals. The odds of C. ariakensis oysters harbouring mouse norovirus‐1 (MNV‐1), human norovirus (NoV) or haepatitis A virus (HAV) were significantly greater than the odds of C. virginica oysters harbouring the same viruses (MNV‐1 OR = 5·05, P = 0·03; NoV OR = 6·97, P = 0·01; HAV OR = 7·40, P < 0·001). Additionally, compared to C. virginica, C. ariakensis retained significantly higher numbers of transmissive stages of all protozoan and microsporidian species (P < 0·01). Crassostrea ariakensis oysters are also capable of retaining multiple human pathogens for at least 1 month. Conclusions: Crassostrea ariakensis oysters were statistically more likely to harbour enteropathogens and microbial indicators, compared to C. virginica. Individual C. ariakensis were also statistically more likely to retain multiple viruses, protozoa and microsporidia than C. virginica, highlighting the role the species may play in the transmission of multiple diseases. Significance and Impact of the Study: Nonnative Crassostrea ariakensis oysters are under review for their introduction into the Chesapeake Bay. The results of this study suggest that nonnative C. ariakensis oysters may present a serious public health threat to people consuming the oysters raw from contaminated sites.     

A prodiginine pigment toxic to embryos and larvae of Crassostrea virginica

The red pigment produced by a marine Pseudomonas sp. which causes abnormal development and mortality in developing embryos of the American oyster, Crassostrea virginica, was analyzed. A comparative study of a nonpigmented and two pigmented mutants of the red parental strain indicated that virulence was associated and varied with pigmentation. The use of sonicated cells supported lysing of the pseudomonad cells as the most probable means of pigment release. Crude pigment extracted from the red parental strain and its yellow mutant was toxic to developing oyster embryos. Neither the “pigment” extracted from the white mutant nor dimethyl sulfoxide, used for dissolving the extract, was toxic. Three pigment fractions were demonstrated by thin-layer chromatography even after purification. Studies indicate that only the fraction corresponding to R₁ 0.41 was necessary for virulence. The virulent pigment fraction was identified as belonging to the prodiginine group.     

Avian spatial segregation at edges and interiors of urban parks in Madrid, Spain

Few studies have investigated the effects of urban landscape composition on avian habitat selection at urban-park edges. I assessed how the number of species, density of guilds, and density of individual species varied between edge and interior habitats in six large wooded parks in Madrid (Spain), and analysed such patterns in relation to habitat structure, car traffic, and pedestrian traffic. Few differences in habitat structure were found; whereas car and pedestrian traffic were significantly higher at edges. Species foraging in trees and on the ground, and nesting in trees and in tree cavities had lower numbers and breeding densities at edges, probably as a result of the disturbance from traffic noise and pedestrians. Species highly habituated to human activities (House Sparrows Passer domesticus and Rock Doves Columba livia) displayed opposite patterns, with higher breeding densities at urban-park edges, probably due to their higher foraging opportunities (refuse, people leftovers, deliberate feeding) and nest site availability in adjacent buildings. Urbanisation sprawl may increase the prevalence of edge specialists and diminish the representation of species with specific habitat requirements.     

Removal of Toxoplasma gondii Oocysts from Sea Water by Eastern Oysters (Crassostrea virginica)

SUMMARY. Toxoplasma gondii infections have been reported in a number of marine mammals. Presently it is not known how these animals acquire T. gondii from their aquatic environment. The eastern oyster, Crassostrea virginica , has been shown to remove Cryptosporidium oocysts from seawater and a similar phenomenon may be occurring with T. gondii oocysts and marine invertebrates. The present study was done to determine if eastern oysters could remove and retain T. gondii oocysts from seawater. Oocysts of the VEG strain of T. gondii (1 × 10⁶ oocysts) were placed in seawater (32 ppt NaCl) containing live eastern oysters. The infected seawater was removed one day postinoculation (PI) and replaced with fresh seawater. Selected oysters were removed at 1, 3 and 6 days PL Hemolymph, gill washes, and oyster tissue were collected separately at each observation time. The oyster tissue was homogenized and all 3 samples fed separately to mice. Toxoplasma gondii positive mice were observed at each time period. The results indicate that T. gondii oocysts can be removed from seawater by eastern oysters and retain their infectivity. Contaminated raw oysters may serve as a source of T. gondii infection for marine mammals and humans.     

Nestedness as a conservation tool: plants and birds of oak-hazel woodland in Sweden

Nestedness was examined for vascular plants and birds in the centres and edges of 26 sites of ancient oak-hazel woodland in Sweden. Both taxa exhibited significant nestedness in site centres and for whole sites, but not at the edges for birds. Woodland ranks of nestedness differed between plants and birds. Rank of nestedness of birds, but not of plants, depended on area. Horizontal habitat structure affected nestedness of both plants and birds. Mobility appears decisive for creating rank differences between sites for various taxa. High mobility may also explain a greater edge effect in birds from allochtonous, more or less transient individuals. Nestedness in relation to mobility, particularly at edges, should be of theoretical interest. The possible use of nestedness patterns in conservation makes further analyses urgent for less mobile taxa.