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1.
Parasitology ; 144(2): 248-258, 2017 02.
Article in English | MEDLINE | ID: mdl-27873556

ABSTRACT

Parasite infection in young animals can affect host traits related to demographic processes such as survival and reproduction, and is therefore crucial to population viability. However, variation in infection among juvenile hosts is poorly understood. Experimental studies have indicated that effects of parasitism can vary with host sex, hatching order and hatch date, yet it remains unclear whether this is linked to differences in parasite burdens. We quantified gastrointestinal nematode burdens of wild juvenile European shags (Phalacrocorax aristotelis) using two in situ measures (endoscopy of live birds and necropsy of birds that died naturally) and one non-invasive proxy measure (fecal egg counts (FECs)). In situ methods revealed that almost all chicks were infected (98%), that infections established at an early age and that older chicks hosted more worms, but FECs underestimated prevalence. We found no strong evidence that burdens differed with host sex, rank or hatch date. Heavier chicks had higher burdens, demonstrating that the relationship between burdens and their costs is not straightforward. In situ measures of infection are therefore a valuable tool in building our understanding of the role that parasites play in the dynamics of structured natural populations.


Subject(s)
Aging , Animals, Wild , Bird Diseases/parasitology , Nematoda/isolation & purification , Nematode Infections/veterinary , Animals , Birds , Feces/parasitology , Female , Male , Nematoda/classification , Nematode Infections/parasitology , Parasite Egg Count/veterinary
2.
Ecology ; 95(8): 2077-83, 2014 Aug.
Article in English | MEDLINE | ID: mdl-25230460

ABSTRACT

Carry-over effects have major implications for individual fitness and population and evolutionary dynamics. The strength of these effects is dependent on an individual's intrinsic performance and the environmental conditions it experiences. However, understanding the relative importance of environmental and intrinsic effects underpinning seasonal interactions has proved extremely challenging, since they covary. A powerful approach is longitudinal measurement of individuals across a range of conditions, whereby each animal is effectively acting as its own control. We related time spent foraging during the nonbreeding period to subsequent breeding performance in European Shags Phalacrocorax aristotelis. By following individuals for up to six years, we could test simultaneously for extrinsic and intrinsic effects using random regression modeling. We detected significant annual and among-individual variation in daily foraging time during the late winter, and clear variation among individuals in the quadratic relationship between foraging time and date. Shorter foraging times were associated with earlier and more successful breeding, driven by differences among years and individuals, with no evidence of individual variation in the slope of these relationships. That both environmental and intrinsic variation shape carry-over effects has important implications for population responses to environmental change.


Subject(s)
Birds/physiology , Forestry , Longevity , Animals , Population Dynamics
3.
Parasitology ; 141(8): 997-1017, 2014 Jul.
Article in English | MEDLINE | ID: mdl-24612619

ABSTRACT

Research on the interactions between the field voles (Microtus agrestis) of Kielder Forest and their natural parasites dates back to the 1930s. These early studies were primarily concerned with understanding how parasites shape the characteristic cyclic population dynamics of their hosts. However, since the early 2000s, research on the Kielder field voles has expanded considerably and the system has now been utilized for the study of host-parasite biology across many levels, including genetics, evolutionary ecology, immunology and epidemiology. The Kielder field voles therefore represent one of the most intensely and broadly studied natural host-parasite systems, bridging theoretical and empirical approaches to better understand the biology of infectious disease in the real world. This article synthesizes the body of work published on this system and summarizes some important insights and general messages provided by the integrated and multidisciplinary study of host-parasite interactions in the natural environment.


Subject(s)
Arvicolinae/parasitology , Host-Parasite Interactions , Animals , Arvicolinae/genetics , Arvicolinae/immunology , Arvicolinae/physiology , Disease Susceptibility , Ecology , Forests , Population Dynamics
4.
Vet Pathol ; 51(5): 903-14, 2014 Sep.
Article in English | MEDLINE | ID: mdl-24334995

ABSTRACT

The field vole (Microtus agrestis) is a known maintenance host of Mycobacterium microti. Previous studies have shown that infected animals develop tuberculosis. However, the disease is also known in cats and is sporadically reported from humans and other mammalian species. We examined trapped field voles from an endemic area, using a range of diagnostic approaches. These confirmed that a combination of gross and histological examination with culture is most appropriate to identify the true prevalence of the disease, which was shown to be more than 13% at times when older animals that have previously been shown to be more likely to develop the disease dominate the population. The thorough pathological examination of diseased animals showed that voles generally develop systemic disease with most frequent involvement of spleen and liver, followed by skin, lymph nodes, and lungs. The morphology of the lesions was consistent with active disease, and their distribution suggested skin wounds or oral and/or aerogenic infection as the main portal of entry. The demonstration of mycobacteria in open skin lesions, airways, and salivary glands indicated bacterial shedding from the skin and with sputum and saliva. This suggests not only the environment but also direct contact and devouring as likely sources of infection.


Subject(s)
Arvicolinae/microbiology , Mycobacterium/isolation & purification , Rodent Diseases/pathology , Tuberculosis/veterinary , Animals , Cats , Environment , Humans , Liver/pathology , Lung/pathology , Lymph Nodes/pathology , Mycobacterium/pathogenicity , Polymerase Chain Reaction/veterinary , Prevalence , Rodent Diseases/epidemiology , Rodent Diseases/microbiology , Rodent Diseases/transmission , Saliva/microbiology , Sensitivity and Specificity , Skin/microbiology , Skin/pathology , Spleen/pathology , Sputum/microbiology , Tuberculosis/epidemiology , Tuberculosis/pathology , Tuberculosis/transmission , United Kingdom/epidemiology
5.
Parasitology ; 135(3): 309-17, 2008 Mar.
Article in English | MEDLINE | ID: mdl-18005472

ABSTRACT

Vole tuberculosis (TB; Mycobacterium microti) is an understudied endemic infection. Despite progressing slowly, it causes severe clinical pathology and overt symptoms in its rodent host. TB was monitored for 2 years in wild field voles in Kielder Forest, UK. The prevalence of characteristic cutaneous TB lesions was monitored longitudinally at 4 sites, with individuals live-trapped and repeatedly monitored. A prevalence of 5.2% of individuals with lesions was recorded (n=2791). In a cross-sectional study, 27 sites were monitored bi-annually, with TB assessed by post-mortem examination for macroscopic lesions, and by culture and histopathology. Seventy-nine voles (10.78%; n=733) were positive for mycobacteria, with the highest prevalence in spring (13.15%; n=327). TB prevalence varied, with between 0% and 50% of voles infected per site. Prevalence increased with age (mass), and apparent seasonality was due to a higher proportion of older animals in spring. Survival analysis supported this result, with cutaneous lesions only manifesting in the advanced stages of infection, and therefore only being found on older voles. The body condition of individuals with lesions declined at the time when the lesion was first recorded, when compared to individuals without lesions, suggesting there may be an acute phase of infection during its advanced stage. Although predicted survival following the appearance of a cutaneous lesion was lower than for uninfected individuals, this was not significant.


Subject(s)
Arvicolinae/microbiology , Mycobacterium/isolation & purification , Rodent Diseases/epidemiology , Rodent Diseases/pathology , Tuberculosis/veterinary , Age Factors , Animals , Animals, Wild , Cross-Sectional Studies , Female , Male , Prevalence , Rodent Diseases/mortality , Seasons , Tuberculosis/epidemiology , Tuberculosis/mortality , Tuberculosis/pathology , United Kingdom/epidemiology
6.
Parasitology ; 134(Pt 3): 413-25, 2007 Mar.
Article in English | MEDLINE | ID: mdl-17096870

ABSTRACT

Many zoonotic disease agents are transmitted between hosts by arthropod vectors, including fleas, but few empirical studies of host-vector-microparasite dynamics have investigated the relative importance of hosts and vectors. This study investigates the dynamics of 4 closely related Bartonella species and their flea vectors in cyclic populations of field voles (Microtus agrestis) over 3 years. The probability of flea infestation was positively related to field vole density 12 months previously in autumn, but negatively related to more recent host densities, suggesting a dilution effect. The 4 Bartonella species exhibited contrasting dynamics. Only B. grahamii, showed a distinct seasonal pattern. Infection probability increased with field vole density for B. doshiae, B. taylorii and BGA (a previously unidentified species) and with density of coexisting wood mice for B. doshiae and B. grahamii. However, only the infection probability of BGA in spring was related to flea prevalence. B. doshiae and BGA were most common in older animals, but the other 2 were most common in non-reproductive hosts. Generally, host density rather than vector abundance appears most important for the dynamics of flea-transmitted Bartonella spp., possibly reflecting the importance of flea exchange between hosts. However, even closely related species showed quite different dynamics, emphasising that other factors such as population age structure can impact on zoonotic risk.


Subject(s)
Arvicolinae/microbiology , Arvicolinae/parasitology , Bartonella/classification , Bartonella/physiology , Rodent Diseases/microbiology , Siphonaptera/microbiology , Animals , Bartonella/genetics , Bartonella/isolation & purification , Bartonella Infections/microbiology , Bartonella Infections/veterinary , Ectoparasitic Infestations/parasitology , Ectoparasitic Infestations/veterinary , Host-Parasite Interactions , Insect Vectors/microbiology , Population Dynamics , Rodent Diseases/parasitology , Seasons
7.
Vector Borne Zoonotic Dis ; 6(4): 404-10, 2006.
Article in English | MEDLINE | ID: mdl-17187576

ABSTRACT

The importance of wild rodents as reservoirs of zoonotic tick-borne pathogens is considered low in the United Kingdom because, in studies to date, those parasitized by exophilic Ixodes ricinus ticks carry almost exclusively larvae and thus have a minor role in transmission cycles. In a cross-sectional study, 11 (6.7%) of 163 field voles (Microtus agrestis) captured at field sites in Northern England were PCR-positive for Anaplasma phagocytophilum. The voles were found to act as hosts for both larval and nymphal I. ricinus and all stages of the nidicolous tick I. trianguliceps, and eight individuals were infested with ticks of both species at the same time. Two of 158 larval and one of 13 nymphal I. ricinus, as well as one of 14 larval and one of 15 nymphal I. trianguliceps collected from the rodents were PCR-positive. These findings suggest that habitats where field voles are abundant in the United Kingdom may pose a risk of A. phagocytophilum infection because (i) field voles, the most abundant terrestrial mammal in the United Kingdom, may be a competent reservoir; (ii) the field voles are hosts for both nymphal and larval ixodid ticks so they could support endemic cycles of A. phagocytophilum; and (iii) they are hosts for nidicolous I. trianguliceps, which may alone maintain endemic cycles, and exophilic I. ricinus ticks, which could act as a bridge vector and transmit infections to humans and domesticated animals.


Subject(s)
Anaplasma phagocytophilum/isolation & purification , Arachnid Vectors/microbiology , Arvicolinae , Ehrlichiosis/transmission , Ixodes/microbiology , Rodent Diseases/transmission , Zoonoses , Anaplasma phagocytophilum/growth & development , Animals , Arvicolinae/microbiology , Arvicolinae/parasitology , Cross-Sectional Studies , DNA, Bacterial/analysis , Disease Reservoirs/veterinary , Ehrlichiosis/epidemiology , Ehrlichiosis/veterinary , Humans , Polymerase Chain Reaction/veterinary , Rodent Diseases/epidemiology , Seasons , Tick Infestations/epidemiology , Tick Infestations/veterinary , United Kingdom/epidemiology
8.
Int J Parasitol ; 36(13): 1359-66, 2006 Nov.
Article in English | MEDLINE | ID: mdl-16876803

ABSTRACT

Within host-pathogen systems where vector-borne transmission is the primary route of infection, little or no attention has been paid to the relative importance of secondary or alternative routes of transmission. Here, by contrast, we report the results from a controlled longitudinal field-scale experiment in which the prevalence of fleas (Siphonaptera) was manipulated and the occurrence and distribution of a flea-borne protozoan (Trypanosoma (Herpetosoma) microti) in a natural field vole (Microtus agrestis) population was monitored over a 2-year period. A non-systemic insecticide was applied to individual voles within two treatment grids and the prevalences of fleas and of T. microti were monitored on these and on two control grids. Blood samples were taken from all voles and PCR-based methods used to determine infection status. Insecticidal treatment was highly effective at reducing overall flea prevalence and recaptured animals (treated ca. 4 weeks previously) were very rarely infested (ca. 3%, compared with 50-70+% normally). On the other hand, the probability of trypanosome infection was reduced in treated animals on experimental grids to only around one-third of that normally observed. This suggests that direct, as opposed to flea-borne, transmission may not only occur, it may also be of epidemiological importance. The possibility that the importance of such transmission routes may have been underestimated in 'vector-borne' infections more generally is discussed.


Subject(s)
Arvicolinae/parasitology , Rodent Diseases/parasitology , Trypanosomiasis/transmission , Trypanosomiasis/veterinary , Animals , England/epidemiology , Female , Insect Vectors/parasitology , Male , Population Dynamics , Prevalence , Rodent Diseases/epidemiology , Seasons , Siphonaptera/parasitology , Trypanosomiasis/epidemiology
9.
Parasitology ; 131(Pt 3): 355-65, 2005 Sep.
Article in English | MEDLINE | ID: mdl-16178357

ABSTRACT

To investigate the prevalence of a flea-borne protozoan (Trypanosoma (Herpetosoma) microti) in its field vole (Microtus agrestis) host, we monitored over a 2-year period a range of intrinsic and extrinsic parameters pertaining to host demographics, infection status and vector (flea) prevalence. Generalized Linear Mixed Modelling was used to analyse patterns of both flea and trypanosome occurrence. Overall, males of all sizes and ages were more likely to be infested with fleas than their female counterparts. Flea prevalence also showed direct density dependence during the winter, but patterns of density dependence varied amongst body mass (age) classes during the summer. Trypanosome prevalence did not vary between the sexes but was positively related to past flea prevalence with a lag of 3 months, with the highest levels occurring during the autumn season. A convex age-prevalence distribution was observed, suggesting that individuals develop a degree of immunity to trypanosome infection with age and exposure. An interaction between age and whether the individual was new or recaptured suggested that infected animals are less likely to become territory holders than their uninfected counterparts.


Subject(s)
Arvicolinae/parasitology , Insect Vectors/physiology , Insect Vectors/parasitology , Siphonaptera/physiology , Siphonaptera/parasitology , Trypanosoma/physiology , Animals , Ecosystem , Population Dynamics , Seasons , Trypanosomiasis/blood
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