Black Flies (black + fly)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Spatial distribution of rare species in lotic habitats

INSECT CONSERVATION AND DIVERSITY, Issue 3 2008
JOHN W. McCREADIE
Abstract., 1Species rarity is a common phenomenon in the biological world. Although rare species have always interested biologists, the meaning of ,rare' has not always been clear with the definition of rarity often arbitrary. 2In the current study, we investigate rarity in stream ecosystems using black flies (Diptera: Simuliidae). We defined rare species a priori as those species found , 10% of stream sites examined (n = 111 streams for ,summer collections'; n = 88 collection for ,spring' collections). Hence, we are exploring only one axis of rarity, restricted range. 3We first consider the distribution of each rare species separately to determine if the mean (euclidian) distance among streams (habitats) for each rare species differs from a random model. We next took a collective approach by pooling all rare species to determine the influence of stream conditions, niche breadth, and distance among habitats on rarity. 4Even within this biologically uniform group of flies, dispersal, range limits, and stream conditions all might play a role in rarity, and the importance of each of these factors appear to vary among species. Rather than looking for broad causes of rarity, future studies might be more fruitful if they looked at species-specific causes. [source]

Molecular methods for arthropod bloodmeal identification and applications to ecological and vector-borne disease studies

MOLECULAR ECOLOGY RESOURCES, Issue 1 2009
REBEKAH J. KENT
Abstract DNA-based methods have greatly enhanced the sensitivity and specificity of hematophagous arthropod bloodmeal identification. A variety of methods have been applied to study the blood-feeding behaviour of mosquitoes, ticks, black flies and other blood-feeding arthropods as it relates to host,parasite interactions and pathogen transmission. Overviews of the molecular techniques used for bloodmeal identification, their advantages, disadvantages and applications are presented for DNA sequencing, group-specific polymerase chain reaction primers, restriction fragment length polymorphism, real-time polymerase chain reaction, heteroduplex analysis, reverse line-blot hybridization and DNA profiling. Technical challenges to bloodmeal identification including digestion and analysis of mixed bloodmeals are discussed. Analysis of bloodmeal identification results remains a challenge to the field, particularly with regard to incorporation of vertebrate census and ecology data. Future research directions for molecular analysis of arthropod bloodmeals are proposed. [source]

Molecular Phytogeny and Evolution of Mosquito Parasitic Microsporidia (Microsporidia: Amblyosporidae),

THE JOURNAL OF EUKARYOTIC MICROBIOLOGY, Issue 1 2004
CHARLES R. VOSSBRINCK
ABSTRACT. Amblyospora species and other aquatic Microsporidia were isolated from mosquitoes, black flies, and copepods and the small subunit ribosomal RNA gene was sequenced. Comparative phylogenetic analysis showed a correspondence between the mosquito host genera and their Amblyospora parasite species. There is a clade of Amblyospora species that infect the Culex host group and a clade of Amblyospora that infect the Aedes/Ochlerotatus group of mosquitoes. Parathelohania species, which infect Anopheles mosquitoes, may be the sister group to the Amblyospora in the same way that the Anopheles mosquitoes are thought to be the sister group to the Amblyosporo and Aedes mosquitoes. In addition, by sequence analysis of small subunit rDNA from spores, we identified the alternate copepod host for four species of Amblyospora. Amblyospora species are specific for their primary (mosquito) host and each of these mosquito species serves as host for only one Amblyospora species. On the other hand, a single species of copepod can serve as an intermediate host to several Amblyospora species and some Amblyospora species may be found in more than one copepod host. Intrapredatorus barn, a species within a monotypic genus with Amblyospora-like characteristics, falls well within the Amblyospora clade. The genera Edhazardia and Culicospora, which do not have functional meiospores and do not require an intermediate host, but which do have a lanceolate spore type which is ultrastructurally very similar to the Amblyospora spore type found in the copepod, cluster among the Amblyospora species. In the future, the genus Amblyospora may be redefined to include species without obligate intermediate hosts. Hazardia, Berwaldia, Larssonia, Trichotuzetia, and Gurleya are members of a sister group to the Amblyospora clades infecting mosquitoes, and may be representatives of a large group of aquatic parasites. [source]

Isolation and characterization of 11 microsatellite loci from the black fly, Simulium negativum (Diptera: Simuliidae)

MOLECULAR ECOLOGY RESOURCES, Issue 3 2009
MIKE SPIRONELLO
Abstract Eleven polymorphic microsatellite loci were isolated and developed from the black fly, Simulium negativum, a member of the Simulium arcticum sibling species complex. The observed heterozygosity of the 11 loci ranged from 0.03 to 0.83. The number of alleles per locus ranged from 8 to 19. Significant linkage disequilibria were encountered only for the primer pairs BF7-1 with BF7-5 and BF6-32 with BF7-16. Presumably, these microsatellite loci can be used to study genetic structure within the entire S. arcticum complex. [source]