Your search keyword '"ectoparasite"' showing total 15 results

1. Rearing Thyridanthrax fenestratus (Diptera, Bombyliidae) on Pemphredon fabricii (Hymenoptera, Crabronidae) prepupae

Author

Heneberg, Petr, Bogusch, Petr, Astapenková, Alena, and Pensoft Publishers

Subjects

Diptera, eclosión, ectoparasite, idiobiont, koinobiont, parasitoid, pupation

Published

2024

2. The effect of Rickia wasmannii (Ascomycota, Laboulbeniales) on the aggression and boldness of Myrmica scabrinodis (Hymenoptera, Formicidae)

Author

Báthori, Ferenc, Rádai, Zoltán, Tartally, András, and Pensoft Publishers

Subjects

behaviour, ectoparasite, Fungi, infection spreading, Laboulbeniomycetes

Published

2017

3. Interactions with ectoparasitic mites induce host metabolic and immune responses in flies at the expense of reproduction-associated factors.

Author

Benoit, Joshua B., Bose, Joy, Bailey, Samuel T., and Polak, Michal

Abstract

Parasites cause harm to their hosts and represent pervasive causal agents of natural selection. Understanding host proximate responses during interactions with parasites can help predict which genes and molecular pathways are targets of this selection. In the current study, we examined transcriptional changes arising from interactions between Drosophila melanogaster and their naturally occurring ectoparasitic mite, Gamasodes queenslandicus. Shifts in host transcript levels associated with behavioural avoidance revealed the involvement of genes underlying nutrient metabolism. These genetic responses were reflected in altered body lipid and glycogen levels in the flies. Mite infestation triggered a striking immune response, while male accessory gland protein transcript levels were simultaneously reduced, suggesting a trade-off between host immune responses to parasite challenge and reproduction. Comparison of transcriptional analyses during mite infestation to those during nematode and parasitoid attack identified host genes similarly expressed in flies during these interactions. Validation of the involvement of specific genes with RNA interference lines revealed candidates that may directly mediate fly–ectoparasite interactions. Our physiological and molecular characterization of the Drosophila–Gamasodes interface reveals new proximate mechanisms underlying host–parasite interactions, specifically host transcriptional shifts associated with behavioural avoidance and infestation. The results identify potential general mechanisms underlying host resistance and evolutionarily relevant trade-offs. [ABSTRACT FROM AUTHOR]

Published

2020

4. Ecology of fear: environment-dependent parasite avoidance among ovipositing Drosophila.

Author

Mierzejewski, Monika K., Horn, Collin J., and Luong, Lien T.

Subjects

*DROSOPHILA, *ECOLOGY, *FRUIT flies, *PARASITES, *BROOD stock assessment

Abstract

Habitat avoidance is an anti-parasite behaviour exhibited by at-risk hosts that can minimize exposure to parasites. Because environments are often heterogeneous, host decision-making with regards to habitat use may be affected by the presence of parasites and habitat quality simultaneously. In this study we examine how the ovipositing behaviour of a cactiphilic fruit fly, Drosophila nigrospiracula , is affected by the presence of an ectoparasitic mite, Macrocheles subbadius , in conjunction with other environmental factors – specifically the presence or absence of conspecific eggs and host plant tissue. We hypothesized that the trade-off between site quality and parasite avoidance should favour ovipositing at mite-free sites even if it is of inferior quality. We found that although flies avoided mites in homogeneous environments (86% of eggs at mite-free sites), site quality overwhelmed mite avoidance. Both conspecific eggs (65% of eggs at infested sites with other Drosophila eggs) and host plant tissue (78% of eggs at infested sites with cactus) overpowered mite avoidance. Our results elucidate the context-dependent decision-making of hosts in response to the presence of parasites in variable environments, and suggest how the ecology of fear and associated trade-offs may influence the relative investment in anti-parasite behaviour in susceptible hosts. [ABSTRACT FROM AUTHOR]

Published

2019

5. Host species influence on flea (Siphonaptera) infection parameters of terrestrial micromammals in a temperate forest of Mexico.

Author

Aguilar Montiel, Fernando, Estrada-Torres, Arturo, Acosta, Roxana, Rubio-Godoy, Miguel, and Vázquez, Jorge

Subjects

*FLEAS, *TEMPERATE forests, *SPECIES, *MICROTUS, *NATIONAL parks & reserves

Abstract

Studies of abundance and distribution of organisms are fundamental to ecology. The identity of host species is known to be one of the major factors influencing ectoparasitic flea abundance, but explanations are still needed regarding how host taxa influence abundance parameters of different flea species. This study was carried out at La Malinche National Park (LMNP), Tlaxcala, Mexico, where previously 11 flea species had been recorded on 8 host species. Our aims were to list micromammal flea species, to determine flea infection parameters [flea prevalence (FP) and flea mean abundance (FMA)] and to analyse the influence of host species on these parameters. A total of 16 species of fleas were identified from 1178 fleas collected from 14 species of 1274 micromammals captured with Sherman® traps from March 2014 to December 2015 in 18 sites at LMNP. Some host species influence FP and FMA, in particular, Microtus mexicanus and Peromyscus melanotis showed particularly higher infection values than other host species. Plusaetis aztecus and Plusaetis sibynus were identified as the most abundant flea species. [ABSTRACT FROM AUTHOR]

Published

2019

6. Cattle and rainfall affect tick abundance in central Kenya.

Author

KEESING, FELICIA, OSTFELD, RICHARD S., YOUNG, TRUMAN P., and ALLAN, BRIAN F.

Subjects

*CATTLE parasite control, *TICK infestations, *EFFECT of climate on biodiversity, *INVERTEBRATE diversity, *ECTOPARASITIC infestations

Abstract

East Africa is a global hot spot for the diversity of ixodid ticks. As ectoparasites and as vectors of pathogens, ticks negatively affect the well-being of humans, livestock and wildlife. To prevent tick infestations, livestock owners and managers typically treat livestock with acaricides that kill ticks when they attempt to feed on livestock hosts. Because of the costs of preventing and mitigating tick parasitism, predicting where and when ticks will be abundant is an important challenge in this region. We used a 7-year monthly record of tick abundance on large experimental plots to assess the effects of rainfall, wildlife and cattle on larvae, nymphs and adults of two common tick species, Rhipicephalus pulchellus and Rhipicephalus praetextatus. Nymphal and adult ticks were more abundant when there had been high cumulative rainfall in the prior months. They were less abundant when cattle were present than when only large wild mammals were. Larval abundance was not affected by the presence of cattle, and larvae did not appear to be sensitive to rainfall in prior months, though they were less abundant in our surveys when rainfall was high in the sampling month. The challenges of managing ticks in this region are being exacerbated rapidly by changes in rainfall patterns wrought by climate change, and by overall increases in livestock, making efforts to predict the impacts of these drivers all the more pressing. [ABSTRACT FROM AUTHOR]

Published

2018

7. State-dependent parasitism by a facultative parasite of fruit flies.

Author

LUONG, LIEN T., BROPHY, TAYLOR, STOLZ, EMILY, and CHAN, SOLOMON J.

Subjects

*PARASITISM, *FRUIT flies, *MITES, *ECTOPARASITES, *INSECT parasites

Abstract

Parasites can evolve phenotypically plastic strategies for transmission such that a single genotype can give rise to a range of phenotypes depending on the environmental condition. State-dependent plasticity in particular can arise from individual differences in the parasite's internal state or the condition of the host. Facultative parasites serve as ideal model systems for investigating state-dependent plasticity because individuals can exhibit two life history strategies (free-living or parasitic) depending on the environment. Here, we experimentally show that the ectoparasitic mite Macrocheles subbadius is more likely to parasitize a fruit fly host if the female mite is mated; furthermore, the propensity to infect increased with the level of starvation experienced by the mite. Host condition also played an important role; hosts infected with moderate mite loads were more likely to gain additional infections in pairwise choice tests than uninfected flies. We also found that mites preferentially infected flies subjected to mechanical injury over uninjured flies. These results suggest that a facultative parasite's propensity to infect a host (i.e. switch from a free-living strategy) depends on both the parasite's internal state and host condition. Parasites often live in highly variable and changing environments, an infection strategy that is plastic is likely to be adaptive. [ABSTRACT FROM AUTHOR]

Published

2017

8. Genetic population structure of Gyrodactylus thymalli (Monogenea) in a large Norwegian river system.

Author

PETTERSEN, RUBEN ALEXANDER, MO, TOR ATLE, HANSEN, HAAKON, and VØLLESTAD, LEIF ASBJØRN

Subjects

*MONOGENEA, *ECTOPARASITES, *GENE flow, *GENETIC drift, *GENETIC mutation, *WATERSHEDS

Abstract

The extent of geographic genetic variation is the result of several processes such as mutation, gene flow, selection and drift. Processes that structure the populations of parasite species are often directly linked to the processes that influence the host. Here, we investigate the genetic population structure of the ectoparasite Gyrodactylus thymalli Žitňan, 1960 (Monogenea) collected from grayling (Thymallus thymallus L.) throughout the river Glomma, the largest watercourse in Norway. Parts of the mitochondrial dehydrogenase subunit 5 (NADH 5) and cytochrome oxidase I (COI) genes from 309 G. thymalli were analysed to study the genetic variation and investigated the geographical distribution of parasite haplotypes. Three main clusters of haplotypes dominated the three distinct geographic parts of the river system; one cluster dominated in the western main stem of the river, one in the eastern and one in the lower part. There was a positive correlation between pairwise genetic distance and hydrographic distance. The results indicate restricted gene flow between sub-populations of G. thymalli, most likely due to barriers that limit upstream migration of infected grayling. More than 80% of the populations had private haplotypes, also indicating long-time isolation of sub-populations. According to a molecular clock calibration, much of the haplotype diversity of G. thymalli in the river Glomma has developed after the last glaciation. [ABSTRACT FROM AUTHOR]

Published

2015

9. Removal of old nest material decreases reuse of artificial burrows by burrowing owls.

Author

Riding, Corey S. and Belthoff, James R.

Subjects

*ATHENE cunicularia hypugaea, *ECTOPARASITES, *NEST building, *ANIMAL habitations

Abstract

ABSTRACT Artificial burrows are considered an important management and conservation tool for burrowing owls ( Athene cunicularia). This species regularly adorns natural and artificial burrows with mammal dung and other materials, which remain between years so that previous use of a nest site is often obvious. Moreover, ectoparasites (fleas) potentially overwinter in accumulated material and infest subsequent occupants. How evidence of prior use affects burrowing owl nest-site decisions is not completely understood. We examined potential effects of the presence of old nest material on reuse of nests by burrowing owls in southwestern Idaho, USA, during 2004 and 2005. We manipulated artificial burrows that owls used for nesting in the prior year by; 1) removing material from the entrance, tunnel, and nesting chamber and replacing it with fresh soil; 2) microwaving old nest material to kill ectoparasites before returning it; or 3) removing and returning material without treatment to serve as a control. Relative to removal burrows, odds of burrowing owl reuse of 'control' and 'microwave' burrows were 3.5 and 3.8 times greater, respectively. Removing ectoparasites by microwaving did not increase odds of reuse relative to control burrows, and fleas were present on nestlings in all 3 treatment groups. Presence of old material may help owls locate specific burrows when returning from migration or may provide physiological and feeding benefits. Thus, cleaning by removal of nest material from previously used artificial burrows may be counterproductive if maximizing reuse of nest sites by burrowing owls is a management objective. © 2015 The Wildlife Society. [ABSTRACT FROM AUTHOR]

Published

2015

10. Early-life temperature modifies adult encapsulation response in an invasive ectoparasite.

Author

KAUNISTO, SIRPA, HÄRKÖNEN, LAURA, RANTALA, MARKUS J., and KORTET, RAINE

Subjects

*ECTOPARASITES, *PHYSIOLOGICAL effects of temperature, *PARASITIC insects, *CLIMATE change, *INTRODUCED species, *IMMUNITY, *DIAPAUSE

Abstract

Immunity of parasites has been studied amazingly little, in spite of the fact that parasitic organisms, especially the arthropod parasites, need immunity to survive their own infections to successfully complete life cycles. Long-term effects of challenging environmental temperatures on immunity have remained unstudied in insects and parasites. Our study species, the deer ked (Lipoptena cervi; Linnaeus 1758), is an invasive, blood-feeding parasitic fly of cervids. Here, it was studied whether thermal stress during the pupal diapause stage could modify adult immunity (encapsulation capacity) in L. cervi. The effect of either a low temperature or high temperature peak, experienced during winter dormancy, on encapsulation response of active adult was tested. It was found that low temperature exposure during diapause, as long as the temperature is not too harsh, had a favourable effect on adult immunity. An abnormal, high temperature peak during pupal winter diapause significantly deteriorated the encapsulation capacity of emerged adults. The frequency and intensity of extreme weather events such as high temperature fluctuations are likely to increase with climate change. Thus, the climate change might have previously unknown influence on host-ectoparasite interactions, by affecting ectoparasite's immune defence and survival. [ABSTRACT FROM PUBLISHER]

Published

2015

11. Trichodina heterodentata (Ciliophora) infestation on Prochilodus lineatus larvae: a host–parasite relationship study.

Author

VALLADÃO, GUSTAVO MORAES RAMOS, GALLANI, SÍLVIA UMEDA, DE PÁDUA, SANTIAGO BENITES, MARTINS, MAURÍCIO LATERÇA, and PILARSKI, FABIANA

Subjects

*PROCHILODUS lineatus, *HOST-parasite relationships, *CILIATA, *LARVAE, *STAINS & staining (Microscopy), *FISH diseases

Abstract

SUMMARY: Prochilodus lineatus is a freshwater fish species found in South America. It is common in aquaculture, but few studies regarding diseases of this fish have been performed. This study presents data of the occurrence of Trichodina heterodentata Duncan, 1977, as well as the pathological alterations detected by light and scanning electron microscopy (SEM). Twenty 20-day-old larvae were harvested from an earth pond and examined. Larvae showed erratic swimming on the pond edges and some had a whitish tegument. Larval smears were either impregnated with silver nitrate or stained with Giemsa stain to observe the taxonomic features of the ciliates. Five larvae were fixed in formalin solution for histopathological analysis, and another five specimens were fixed in glutaraldehyde for SEM. All larvae were diagnosed with a severe infestation by trichodinid T. heterodentata. Histological sections showed discrete hyperplasia of the gill filaments with subepithelial oedema of the secondary lamellae. In the SEM, suction areas were observed on the skin, gill and eye; corrosion and ulceration of the fins were associated with the bacterial presence of cocci on the lesions. This is the first report of T. heterodentata in P. lineatus that is responsible for an acute disease that culminates in larval mortality. [ABSTRACT FROM AUTHOR]

Published

2014

12. An experimental field test of susceptibility to ectoparasitic gnathiid isopods among Caribbean reef fishes.

Author

COILE, A. M. and SIKKEL, P. C.

Subjects

*ECTOPARASITIC infestations, *REEF fishes, *FIELD research, *ISOPODA, *MICROBIAL sensitivity tests

Abstract

Susceptibility to infestation by a gnathiid isopod (Gnathia marleyi: Crustacea: Isopoda) was examined among 16 species from 9 families and 3 orders of common Caribbean reef fishes off St. John, United States Virgin Islands. Fish were placed in cages during times of peak gnathiid activity. Individuals from most (n=14) species were compared against a single species (French Grunt, Haemulon flavolineatum) that served as a standard and effectively controlled for the effects of habitat and variation in gnathiid abundance on exposure to and the likelihood and intensity of host infestation by gnathiids. All species were susceptible to infestation by gnathiids, with individual hosts harbouring up to 368 gnathiids. However, there was significant variation in levels of infestation among the 14 comparison species. Controlling for body size, nocturnal species from the families Haemulidae and Lutjanidae had the highest gnathiid infestation. Our finding that haemulids and lutjanids are particularly susceptible has important implications for the role of gnathiids in Caribbean reef food webs, given the role members of these families play in trophic connectivity between reefs and associated habitats. To our knowledge this is the first manipulative field study to examine variation among potential hosts in susceptibility to an ectoparasite in any terrestrial or aquatic system and is the greatest number of teleost hosts documented for any gnathiid species. [ABSTRACT FROM AUTHOR]

Published

2013

13. Northward invasion of the parasitic deer ked (Lipoptena cervi), is there geographical variation in pupal size and development duration?

Author

KAUNISTO, SIRPA, HÄRKÖNEN, LAURA, NIEMELÄ, PEKKA, ROININEN, HEIKKI, and YLÖNEN, HANNU

Subjects

*LOUSE flies, *INTRODUCED insects, *INSECT development, *DEVELOPMENTAL biology, *CERVIDAE, *PUPAE, *INSECT populations

Abstract

The deer ked (Lipoptena cervi) is a common ectoparasite of cervids. During the last decades the species has rapidly invaded in northern Europe, especially in Finland, towards the north and increased its prevalence on the moose population. Consequently, during this rapid invasion the deer ked has faced more severe climatic conditions. We studied whether pupal size (measured as pupal weight) and pupal development duration of the deer ked varies along historical invasion zones and temperature zones towards north in Finland. Moreover, we explored possible size- and gender-dependent variation in pupal development duration. We divided wild-collected pupae in respect to their origin in two ways: (1) temperature zones (from south-west to colder north-east) and (2) invasion history (from early to late establishment). We reared pupae in the controlled laboratory conditions in identical temperature and light conditions. Pupal size decreased towards north and the smaller pupae developed faster. However, the results do not show differences in pupal size or developmental characteristics between the invasion zones. This supports the idea of rapid developmental plasticity of the deer ked and that not the invasion history but the current temperature regime determines the life history of the deer ked when invading towards a colder environment. [ABSTRACT FROM PUBLISHER]

Published

2011

14. Synchronization of host-parasite cycles by means of diapause: host influence and parasite response to involuntary host shifting.

Author

CALERO-TORRALBO, M. A. and VALERA, F.

Subjects

*HOST-parasite relationships, *PARASITE life cycles, *DIAPAUSE, *ECTOPARASITIC infestations, *PHENOTYPIC plasticity, *MEROPS apiaster, HOSTS of parasitoids

Abstract

Many parasites require synchronization of their infective phases with the appearance of susceptible host individuals and, for many species, diapause is one of the mechanisms contributing to such coincidence. A variety of ecological factors, like changes in host temperature produced by involuntary host shifting (substitution of the usual host by an infrequent one), can modify host-parasite synchronization of diapausing ectoparasites of endothermic species. To understand the influence of host shifting on the mechanisms of parasite synchronization, we conducted experiments using the system formed by the ectoparasitic fly Carnus hemapterus and its avian hosts. We simulated the occurrence of the usual host and natural cases of host shifting by exposing overwintering carnid pupae from Bee-eater nests (Merops apiaster) to the earlier incubation periods of two Carnus host species that frequently reoccupy Bee-eater nests. Pupae exposed to host shifting treatments advanced the mean date of emergence and produced an earlier and faster rate of emergence in comparison with pupae exposed both to the control (absence of any host) and Bee-eater treatments. The effect was more evident for the treatment resembling the host with the most dissimilar phenology to the one of the usual host. Our results show that host temperature is an environmental cue used by this nest-dwelling haematophagous ectoparasite and reveal that Carnus hemapterus has some potential to react to involuntary host shifting by means of plasticity in the termination of diapause. [ABSTRACT FROM AUTHOR]

Published

2008

15. Phytoparasitic nematodes in below-ground agroecosystems

Author

Van Gundy, S. D. and Freckman, D. W.

Published

1977