Home About us Contact
|
Home About us Contact | ||
|
|
||
Host Specific (host + specific)
Selected AbstractsStructure and vertical stratification of plant galler,parasitoid food webs in two tropical forestsECOLOGICAL ENTOMOLOGY, Issue 3 2009MIGUEL R. PANIAGUA Abstract 1.,Networks of feeding interactions among insect herbivores and natural enemies such as parasitoids, describe the structure of these assemblages and may be critically linked to their dynamics and stability. The present paper describes the first quantitative study of parasitoids associated with gall-inducing insect assemblages in the tropics, and the first investigation of vertical stratification in quantitative food web structure. 2.,Galls and associated parasitoids were sampled in the understorey and canopy of Parque Natural Metropolitano in the Pacific forest, and in the understorey of San Lorenzo Protected Area in the Caribbean forest of Panama. Quantitative host,parasitoid food webs were constructed for each assemblage, including 34 gall maker species, 28 host plants, and 57 parasitoid species. 3.,Species richness was higher in the understorey for parasitoids, but higher in the canopy for gall makers. There was an almost complete turnover in gall maker and parasitoid assemblage composition between strata, and the few parasitoid species shared between strata were associated with the same host species. 4.,Most parasitoid species were host specific, and the few polyphagous parasitoid species were restricted to the understorey. 5.,These results suggest that, in contrast to better-studied leaf miner,parasitoid assemblages, the influence of apparent competition mediated by shared parasitoids as a structuring factor is likely to be minimal in the understorey and practically absent in the canopy, increasing the potential for coexistence of parasitoid species. 6.,High parasitoid beta diversity and high host specificity, particularly in the poorly studied canopy, indicate that tropical forests may be even more species rich in hymenopteran parasitoids than previously suspected. [source] High host specificity of obligate ectoparasitesECOLOGICAL ENTOMOLOGY, Issue 5 2007CARL W. DICK Abstract 1.,Host specificity is the degree to which a parasite species occurs in association with a host species. 2.,The degree to which obligate ectoparasites are host specific has been debated, but effects of sampling contamination were usually not addressed. Data from a controlled mammal,ectoparasite survey were used to assess host specificity of an obligate group of ectoparasites , streblid bat flies. 3.,Host,parasite associations were categorised as primary or non-primary. Non-primary host associations were evaluated against primary associations via proportional comparison. 4.,Results indicate that host specificity was high, exceeding previous reports. Natural host transfers were rare. 5.,Non-primary host associations were almost completely explained by disturbance transfers during sampling of the host or by contamination upon sampling the parasite. These conclusions likely hold for other taxa of obligate parasites. [source] Prevalence of highly host-specific cyanophages in the estuarine environmentENVIRONMENTAL MICROBIOLOGY, Issue 2 2008Kui Wang Summary Cyanophages that infect coastal and oceanic Synechococcus have been studied extensively. However, no cyanophages infecting estuarine Synechococcus have been reported. In this study, seven cyanophages (three podoviruses, three siphoviruses and one myovirus) isolated from four estuarine Synechococcus strains were characterized in terms of their morphology, host range, growth and genetic features. All the podoviruses and siphoviruses were highly host specific. For the first time, the photosynthesis gene (psbA) was found in two podoviruses infecting estuarine Synechococcus. However, the psbA gene was not detected in the three siphoviruses. The psbA sequences from the two Synechococcus podoviruses clustered with some environmental psbA sequences, forming a unique cluster distantly related to previous known psbA clusters. Our results suggest that the psbA among Synechococcus podoviruses may evolve independently from the psbA of Synechococcus myoviruses. All three estuarine Synechococcus podoviruses contained the DNA polymerase (pol) gene, and clustered with other podoviruses that infect oceanic Synechococcus and Prochlorococcus, suggesting that the DNA pol is conserved among marine picocyanobacterial podoviruses. Prevalence of host-specific cyanophages in the estuary suggests that Synechococcus and their phages in the estuarine ecosystem may develop a host,phage relationship different from what have been found in the open ocean. [source] LINKING COEVOLUTIONARY HISTORY TO ECOLOGICAL PROCESS: DOVES AND LICEEVOLUTION, Issue 10 2003Dale H. Clayton Abstract Many host-specific parasites are restricted to a limited range of host species by ecological barriers that impede dispersal and successful establishment. In some cases, microevolutionary differentiation is apparent on top of host specificity, as evidenced by significant parasite population genetic structure among host populations. Ecological barriers responsible for specificity and genetic structure can, in principle, reinforce macroevolutionary processes that generate congruent host-parasite phylogenies. However, few studies have explored both the micro- and macroevolutionary ramifications of close association in a single host-parasite system. Here we compare the macroevolutionary histories of two genera of feather lice (Phthiraptera: Ischnocera) that both parasitize New World pigeons and doves (Aves: Columbiformes). Earlier work has shown that dove body lice (genus Physconelloides) are more host specific and have greater population genetic structure than dove wing lice (Columbicola). We reconstructed phylogenies for representatives of the two genera of lice and their hosts, using nuclear and mitochondrial DNA sequences. The phylogenies were well resolved and generally well supported. We compared the phylogenies of body lice and wing lice to the host phylogeny using reconciliation analyses. We found that dove body lice show strong evidence of cospeciation whereas dove wing lice do not. Although the ecology of body and wing lice is very similar, differences in their dispersal ability may underlie these joint differences in host specificity, population genetic structure, and coevolutionary history. [source] The capacity of Salmonella to survive inside dendritic cells and prevent antigen presentation to T cells is host specificIMMUNOLOGY, Issue 4 2008Susan M. Bueno Summary Infection with Salmonella enterica serovar Typhimurium (S. Typhimurium) causes a severe and lethal systemic disease in mice, characterized by poor activation of the adaptive immune response against Salmonella -derived antigens. Recently, we and others have reported that this feature relies on the ability of S. Typhimurium to survive within murine dendritic cells (DCs) and avoid the presentation of bacteria-derived antigens to T cells. In contrast, here we show that infection of murine DCs with either S. Typhi or S. Enteritidis, two serovars adapted to different hosts, leads to an efficient T-cell activation both in vitro and in vivo. Accordingly, S. Typhi and S. Enteritidis failed to replicate within murine DCs and were quickly degraded, allowing T-cell activation. In contrast, human DCs were found to be permissive for survival and proliferation of S. Typhi, but not for S. Typhimurium or S. Enteritidis. Our data suggest that Salmonella host restriction is characterized by the ability of these bacteria to survive within DCs and avoid activation of the adaptive immune response in their specific hosts. [source] Host,parasite relations of an angiospermous root parasite (Thonningia sanguinea Vahl) in logged and unlogged sites of Budongo forest reserve, western UgandaAFRICAN JOURNAL OF ECOLOGY, Issue 3 2009Concy Acen Olanya Abstract Host,parasite relationships of an angiospermous root parasite (Thonningia sanguinea) were investigated in logged and unlogged sites of Budongo Forest Reserve. Host trees were identified and their diameters measured in 20 × 20 m plots established randomly in sites where the parasites were presumed to occur. The distance of the point of attachment of the parasite from the base of the host stem was determined and overstorey density measured at the centre of each plot. There were more parasites in the logged than in the unlogged sites (878 and 425 individual parasites ha,1 respectively). The parasite was not host specific but Alchornea laxiflora (Benth) Pax and K.Hoffm, Celtis mildbraedii Engl and Lasiodiscus mildbraedii Engl had relatively more parasites than other species. The parasite could be found within a radius of 2 m from the base of the host stem. The diameter of hosts ranged from 1 to 95 cm. There was a positive correlation between overstorey density and occurrence of T. sanguinea. Conservation of T. sanguinea, therefore, requires maintenance of intact forests with closed canopies rather than logged sites with many gaps and hence low overstorey density. Résumé On a étudié les relations hôte-parasite d'un angiosperme parasite des racines (Thonningia sanguinea) sur des sites exploités ou non de la Réserve forestière de Budongo. On a identifié les arbres hôtes et on a mesuré leur diamètre dans des parcelles de 20 × 20 m établies au hasard dans des sites où le parasite était supposé se trouver. La distance entre le point d'ancrage du parasite et la base du tronc de l'hôte fut déterminée, et la densité de la végétation aérienne fut mesurée au centre de chaque parcelle. Il y avait plus de parasites dans les parcelles exploitées que dans les parcelles nonexploitées (878 et 425 parasites par ha, respectivement). Le parasite n'était pas spécifique de l'hôte, mais Alchornea laxiflora (Benth) Pax et K.Hoffm, Celtis mildbraedii Engl et Lasiodiscus mildbraedii Engl avaient relativement plus de parasites que d'autres espèces. Le parasite peut se trouver dans un rayon de deux mètres de la base du tronc de l'hôte. Le diamètre du tronc de l'hôte variait de 1 à 95 cm. Il y avait une corrélation positive entre la densité de la végétation aérienne et l'occurrence de T. sanguinea. Donc, la conservation de T. sanguinea requiert la préservation de forêts intactes avec des canopées fermées plutôt que des sites exploités avec des nombreuses clairières et donc, une faible densité de couverture végétale. [source] Ribosomal DNA sequences indicate isolated populations of Ichthyophonus hoferi in geographic sympatry in the north-eastern Pacific OceanJOURNAL OF FISH DISEASES, Issue 10 2002C D Criscione Abstract Infections of Ichthyophonus hoferi, a cosmopolitan parasite of marine fish, have recently been reported in rockfish, Sebastes spp., from the north-eastern Pacific. Because I. hoferi also infects Pacific herring, Clupea pallasi Valenciennes, and salmonids in this region, we wanted to determine if Ichthyophonus parasites from rockfishes, Pacific herring and chinook salmon, Oncorhynchus tshawytscha (Walbaum), were the same. Small subunit ribosomal deoxyribonucleic acid sequence data revealed two haplotypes that were fixed among host species in geographic sympatry, one from rockfish and the other from both Pacific herring and salmon. These isolated populations of Ichthyophonus could be part of the same species that are ecologically separated because of host behaviours, or they could be distinct species that are host specific. Dietary patterns of the hosts indicate that ecological separation among hosts is possible, but the presence of distinct species may better explain the observed Ichthyophonus haplotype association with host species. [source] 2 Influence of mixed host populations on success of the parasitic dinoflagellate AmoebophryaJOURNAL OF PHYCOLOGY, Issue 2003T.-N. Armstrong Parasitic dinoflagellates of the genus Amoebophrya commonly infect bloom-forming dinoflagellates of Chesapeake Bay, including Akashiwo sanguinea and Karlodinium micrum. While different strains of Amoebophrya appear host specific, infective dinospores liberated from A. sanguinea do enter the cytoplasm of K. micrum, but fail to complete the infection cycle. Thus, in mixed-species dinoflagellate blooms, interference from inappropriate hosts may influence the success of Amoebophrya spp. To explore that possibility, we conducted laboratory studies to examine the effect of the toxic dinoflagellate K. micrum on success of Amoebophrya from A. sanguinea. Treatments consisted of A. sanguinea (1000/mL) plus corresponding dinospores (10,000/mL) in the presence of different K. micrum densities (0 to 100,000/mL). We also examined whether changes in parasite success were due to interaction with K. micrum cells, or from indirect effects of bacteria or dissolved substances present in K. micrum cultures. Success of Amoebophrya was unaffected by low densities of K. micrum, but decreased at high concentrations of K. micrum. Reduced parasite success appeared to result from combined effects of non-host cells and dissolved substances in K. micrum media. Results suggest that parasitism of A. sanguinea in Chesapeake Bay would be reduced when K. micrum is a major component of mixed-species blooms. [source] Calotte morphology in the phylum Dicyemida: niche separation and convergenceJOURNAL OF ZOOLOGY, Issue 4 2003Hidetaka Furuya Abstract The renal sacs of a diversity of cephalopod molluscs were examined to study the morphology of dicyemid mesozoans. Most of the dicyemid species studied were found to be host specific. Typically, two or more species of dicyemids were present in each host species or each host individual. When dicyemid species co-occurred, their calotte shapes were distinctly different. The following variations in calotte shapes were usually detected within a given host individual: (1) when two species of dicyemids were present, two distinct calotte shapes, conical and discoidal, were observed; (2) when three species of dicyemids were present, three types of calotte configurations were observed, conical (two grades) and discoidal; (3) when more than four species of dicyemids were present, at least one species was characterized by its rare irregularly shaped calotte. As a rule, when more than two dicyemid species were present in a single host individual, calotte shapes were dissimilar. Calotte shapes in dicyemid species from different host species more closely resemble each other than those of dicyemids observed within the same host species. Dicyemids with conical or dome-shaped calottes are found within the convolutions or folds of the renal appendages, whereas those with flat, discoidal calottes attach to the surface of the renal appendages. In the dicyemids, calotte morphology seems to result from adaptation to the structure of host renal tissues and helps to facilitate niche separation of coexisting species. [source] The use of ribotyping and antibiotic resistance patterns for identification of host sources of Escherichia coli strainsLETTERS IN APPLIED MICROBIOLOGY, Issue 1 2005M. Samadpour Abstract Aims:, To compare antibiotic resistance and ribotyping patterns ability to identify triplicate isolates sent from a group of 40 Escherichia coli taken from seven host sources. Methods and Results:, Of the 120 isolates, 22 isolates were resistant to ampicillin, streptomycin, tetracycline and trimethoprim and 98 isolates were susceptible. Antibiotic patterns identified 33 of the triplicates and three of the six groups had isolates from multiple hosts. Ribotyping divided the isolates into 27 ribotype groups with all triplicates grouped into the same ribotype group with one host per group. Conclusions:, Antibiotic susceptibility pattern placed 98 of the isolates in a single group with 50% of the antibiotic susceptibility pattern groups containing multiple host species. Ribotyping groups were host specific with each host having one to seven ribotype groups. Significance and Impact of the Study:, Antibiotic susceptibility pattern groups have been used for environmental source identification and faecal pollution tracking, however these groups do not always distinguish between host species. Stability of the markers is a potential concern and this system can only be used if antibiotic resistance levels are high in the isolates studied. All isolates have a ribotype group which was stable and like other molecular methods has advantages over antibiotic susceptibility pattern groups which uses a phenotypic method. [source] DNA barcodes show cryptic diversity and a potential physiological basis for host specificity among Diplostomoidea (Platyhelminthes: Digenea) parasitizing freshwater fishes in the St. Lawrence River, CanadaMOLECULAR ECOLOGY, Issue 13 2010SEAN A. LOCKE Abstract Diplostomoid metacercariae parasitize freshwater fishes worldwide and cannot be identified to species based on morphology. In this study, sequences of the barcode region of cytochrome c oxidase subunit 1 (CO1) were used to discriminate species in 1088 diplostomoids, most of which were metacercariae from fish collected in the St. Lawrence River, Canada. Forty-seven diplostomoid species were detected, representing a large increase in known diversity. Most species suggested by CO1 sequences were supported by sequences of internal transcribed spacer (ITS) of rDNA and host and tissue specificity. Three lines of evidence indicate that physiological incompatibility between host and parasite is a more important determinant of host specificity than ecological separation of hosts and parasites in this important group of freshwater fish pathogens. First, nearly all diplostomoid species residing outside the lens of the eyes of fish are highly host specific, while all species that occur inside the lens are generalists. This can be plausibly explained by a physiological mechanism, namely the lack of an effective immune response in the lens. Second, the distribution of diplostomoid species among fish taxa reflected the phylogenetic relationships of host species rather than their ecological similarities. Third, the same patterns of host specificity were observed in separate, ecologically distinctive fish communities. [source] Positioning and the specific sequence of each 13-mer motif are critical for activity of the plasmid RK2 replication originMOLECULAR MICROBIOLOGY, Issue 5 2005Lukasz Kowalczyk Summary The minimal replication origin of the broad-host-range plasmid RK2, oriV, contains five iterons which are binding sites for the plasmid-encoded replication initiation protein TrfA, four DnaA boxes, which bind the host DnaA protein, and an AT-rich region containing four 13-mer sequences. In this study, 26 mutants with altered sequence and/or spacing of 13-mer motifs have been constructed and analysed for replication activity in vivo and in vitro. The data show that the replacement of oriV 13-mers by similar but not identical 13-mer sequences from Escherichia coli oriC inactivates the origin. In addition, interchanging the positions of the oriV 13-mers results in greatly reduced activity. Mutants with T/A substitutions are also inactive. Furthermore, introduction of single-nucleotide substitutions demonstrates very restricted sequence requirements depending on the 13-mer position. Only two of the mutants are host specific, functional in Pseudomonas aeruginosa but not in E. coli. Our experiments demonstrate considerable complexity in the plasmid AT-rich region architecture required for functionality. It is evident that low internal stability of this region is not the only feature contributing to origin activity. Our studies suggest a requirement for sequence-specific protein interactions within the 13-mers during assembly of replication complexes at the plasmid origin. [source] Diversity of host plant relationships and leaf galling behaviours within a small genus of thrips ,Gynaikothrips and Ficus in south east Queensland, AustraliaAUSTRALIAN JOURNAL OF ENTOMOLOGY, Issue 4 2009Desley J Tree Abstract Thrips are well known as gall inducers, yet no field studies have been published on phlaeothripids in the genus Gynaikothrips, which gall Ficus leaves in Australia. A detailed field study was conducted in suburban Brisbane, Australia, on thrips species that induce leaf galls on fig trees. Gynaikothrips ficorum is evidently host specific as it induced leaf galls only on Ficus microcarpa, and did so almost continuously throughout the spring and summer growing season. By contrast, G. australis induced leaf galls on F. macrophylla, F. rubingosa and F. obliqua but only when flushes of new leaves appeared, and this occurred at intervals during spring and summer. Gynaikothrips ficorum feeds on the upper surface of new leaves and this causes the leaf to fold and/or twist into a gall. The life of the gall is about 4 weeks, with the thrips pupating within it. Sometimes, the galls are invaded by a kleptoparasite thrips, Mesothrips jordani. Gynaikothrips australis feeds on the underside of the new leaves and this causes the margins to curl under. The life of the gall is about 6 weeks, with the thrips pupating under the bark of the fig tree branches, and sometimes the galls are shared with an inquiline, G. additamentus. [source] Seed-feeding species of Bruchophagus Ashmead (Hymenoptera: Eurytomidae) associated with native Australian acacias that are invasive in South Africa, with the description of two new speciesAUSTRALIAN JOURNAL OF ENTOMOLOGY, Issue 1 2004Ottilie C Neser Abstract A search for phytophagous eurytomid wasps of the genus Bruchophagus Ashmead that develop in the seeds of certain native Australian acacias in Australia and New Zealand has yielded three species. Although these three species are probably restricted to members of the subgenus Phyllodineae, to which the vast majority of Australian Acacia species belong, they are not host specific at the species level. Interest in these phytophagous wasps stems from an ongoing search for suitable natural enemies to limit the invasiveness of certain Australian acacias in South Africa. The three species are B. acaciae (Cameron), B. orarius sp. n and B. interior sp. n. A key for their separation, and comments on their relationship with other eurytomids that are associated with the genus Acacia, are also provided. [source] | ||||||||||