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1.
Mol Ecol ; 33(2): e17209, 2024 Jan.
Article in English | MEDLINE | ID: mdl-38018561

ABSTRACT

Health information is essential for the conservation management of whale species. However, assessing the health of free-ranging whales is challenging as samples are primarily limited to skin and blubber tissue. Reverse transcription quantitative polymerase chain reaction (RT-qPCR) offers a method to measure health from blubber RNA, providing insights into energetic status, stress and immune activity. To identify changes in health, natural differences in baseline gene expression linked to an individual's sex, reproductive status and life-history stage must first be quantified. This study aimed to establish baseline gene expression indices of health in migrating humpback whales (Megaptera novaeangliae). To do this, we developed an assay to quantify seven health-related gene transcripts (Leptin, Leptin Receptor, Adiponectin, Aryl Hydrocarbon Receptor, Tumour Necrosis Factor-α, Interleukin-6, Heat Shock Protein-70) and used Bayesian mixed effect models to assess differential baseline expression based on sex, lactation status and migration stage (northbound to and southbound from the annual breeding grounds). Results showed no significant contribution of sex to differential baseline expression. However, lactating individuals exhibited downregulated AhR and HSP-70 compared to non-lactating conspecifics. Additionally, southbound individuals demonstrated significantly upregulated HSP-70 and downregulated TNF-alpha, suggesting a relationship between these inflammation-linked transcripts and migratory fasting. Our results suggest that baseline differences due to migratory stage and lactation status should be considered in health applications of this assay. Future monitoring efforts can use our baseline measurements to better understand how gene expression is tied to population-level impacts, such as reduced prey availability or migratory stressors.


Subject(s)
Humpback Whale , Humans , Animals , Female , Humpback Whale/genetics , Leptin , Seasons , Bayes Theorem , Lactation , Animal Migration
2.
BMC Biol ; 18(1): 101, 2020 08 21.
Article in English | MEDLINE | ID: mdl-32819385

ABSTRACT

BACKGROUND: Effective conservation management of highly mobile species depends upon detailed knowledge of movements of individuals across their range; yet, data are rarely available at appropriate spatiotemporal scales. Flying-foxes (Pteropus spp.) are large bats that forage by night on floral resources and rest by day in arboreal roosts that may contain colonies of many thousands of individuals. They are the largest mammals capable of powered flight, and are highly mobile, which makes them key seed and pollen dispersers in forest ecosystems. However, their mobility also facilitates transmission of zoonotic diseases and brings them in conflict with humans, and so they require a precarious balancing of conservation and management concerns throughout their Old World range. Here, we analyze the Australia-wide movements of 201 satellite-tracked individuals, providing unprecedented detail on the inter-roost movements of three flying-fox species: Pteropus alecto, P. poliocephalus, and P. scapulatus across jurisdictions over up to 5 years. RESULTS: Individuals were estimated to travel long distances annually among a network of 755 roosts (P. alecto, 1427-1887 km; P. poliocephalus, 2268-2564 km; and P. scapulatus, 3782-6073 km), but with little uniformity among their directions of travel. This indicates that flying-fox populations are composed of extremely mobile individuals that move nomadically and at species-specific rates. Individuals of all three species exhibited very low fidelity to roosts locally, resulting in very high estimated daily colony turnover rates (P. alecto, 11.9 ± 1.3%; P. poliocephalus, 17.5 ± 1.3%; and P. scapulatus, 36.4 ± 6.5%). This indicates that flying-fox roosts form nodes in a vast continental network of highly dynamic "staging posts" through which extremely mobile individuals travel far and wide across their species ranges. CONCLUSIONS: The extreme inter-roost mobility reported here demonstrates the extent of the ecological linkages that nomadic flying-foxes provide across Australia's contemporary fragmented landscape, with profound implications for the ecosystem services and zoonotic dynamics of flying-fox populations. In addition, the extreme mobility means that impacts from local management actions can readily reverberate across jurisdictions throughout the species ranges; therefore, local management actions need to be assessed with reference to actions elsewhere and hence require national coordination. These findings underscore the need for sound understanding of animal movement dynamics to support evidence-based, transboundary conservation and management policy, tailored to the unique movement ecologies of species.


Subject(s)
Body Size , Chiroptera/physiology , Conservation of Natural Resources , Flight, Animal , Animals , Australia , Movement , Remote Sensing Technology/veterinary
3.
J Zoo Wildl Med ; 52(1): 268-275, 2021 Apr.
Article in English | MEDLINE | ID: mdl-33827185

ABSTRACT

The impetus of this study was the imperative to establish blood biomarker values for clinically healthy mahogany gliders (Petaurus gracilis) in order to monitor the health status of eight captive individuals during their movement to a new facility. The study established ranges for 18 hematologic and 21 biochemical blood biomarkers for healthy individuals in a captive environment. The reported values are consistent with those published for other Australian glider and possum species. No statistically significant differences were found between the sexes, but significant age effects were observed. Specifically, subadult animals reported significantly higher total white cell counts, lymphocyte counts, alkaline phosphatase, creatine kinase, and glucose and chloride levels, compared to adult animals. Although there were no clinically significant changes in blood biomarkers associated with the relocation, many of the hematologic and biochemical biomarkers demonstrated the expected changes associated with the physiological stress of relocation. Specifically, triglycerides, glucose, globulins, creatinine kinase, aspartate transferase (AST), total protein, urea, phosphorous, potassium, sodium, chloride, neutrophils, and hematocrit showed changes with the large environmental change. The majority of the blood biomarkers returned to baseline levels 5 wk postrelocation, with all but one aged animal showing no signs of chronic health derangements following the relocation. The abnormal blood biomarker profiles of two geriatric individuals, one male diagnosed with pericloacal and adrenal gland tumors at the beginning of the study, and one female diagnosed with chronic urinary tract infections and suspected bone marrow disease following the relocation, are presented. The findings of this study inform the health monitoring of native gliders in captivity, rehabilitation, and clinical research scenarios. These findings also provide useful baseline data to aid in the health assessment of captive-bred individuals during their reintroduction into free-living populations.


Subject(s)
Endangered Species , Marsupialia/blood , Stress, Physiological , Animals , Biomarkers/blood , Female , Male , Queensland , Reference Values
4.
J Zoo Wildl Med ; 49(3): 591-598, 2018 Sep.
Article in English | MEDLINE | ID: mdl-30212311

ABSTRACT

The grey-headed flying fox ( Pteropus poliocephalus) is a species endemic to coastal eastern Australia. This study presents a comprehensive set of biochemistry, hematology, and urinalysis biomarkers from which reference values were derived. Blood samples collected from free-ranging P. poliocephalus were submitted for hematology ( n = 140) and plasma biochemistry ( n = 161) and urine for urinalysis ( n = 95). The values for P. poliocephalus were broadly consistent with those values published for other Australian Pteropus species. Statistically significant within-species age and sex effects were observed: adult P. poliocephalus had higher mean corpuscular volume, mean corpuscular hemoglobin, urea, creatinine, bilirubin, alanine transferase (ALT), protein, globulin, urinary specific gravity, and urinary ketones, whereas subadults had higher mean red blood cell, white blood cell (WBC), lymphocyte, and monocyte counts, and juveniles had higher mean neutrophil count and alkaline phosphatase; male P. poliocephalus had higher mean reticulocyte count, alanine transferase, glucose, and urinary ketones, whereas females had higher mean WBC, lymphocyte, and monocyte counts. The findings inform both clinical and research scenarios for P. poliocephalus in captivity or rehabilitation and for health assessments of free-living populations.


Subject(s)
Blood Chemical Analysis/veterinary , Chiroptera/blood , Chiroptera/urine , Urinalysis/veterinary , Aging , Alanine Transaminase , Alkaline Phosphatase , Animals , Animals, Wild , Aspartate Aminotransferases , Australia , Bilirubin/blood , Blood Glucose , Creatinine/blood , Erythrocyte Count/veterinary , Erythrocyte Indices/veterinary , Female , Hemoglobins , Leukocyte Count/veterinary , Male , Platelet Count/veterinary , Reference Values , Urea/blood
5.
Mar Environ Res ; 199: 106596, 2024 Jul.
Article in English | MEDLINE | ID: mdl-38905865

ABSTRACT

The health of migratory eastern Australian humpback whales (Megaptera novaeangliae) can reflect the condition of their remote polar foraging environments. This study used gene expression (LEP, LEPR, ADIQ, AhR, TNF-α, HSP-70), blubber hormone concentrations (cortisol, testosterone), and photogrammetric body condition to assess this sentinel species during a period of unprecedented changes to anthropogenic activity and natural processes. The results revealed higher cortisol concentrations in 2020 compared to 2021, suggesting a decline in physiological stress between years. Additionally, metabolic transcripts LEPR, and AhR, which is also linked to xenobiotic metabolism, were upregulated during the 2020 southbound migration. These differences suggest that one or more environmental stressors were reduced between 2020 and 2021, with upregulated AhR possibly indicating a Southern Ocean pollutant declined between the years. This research confirms a Southern Ocean-wide decrease in whale stress during the study period and informs efforts to identify key stressors on Antarctic marine ecosystems.


Subject(s)
Environmental Monitoring , Humpback Whale , Hydrocortisone , Stress, Physiological , Animals , Hydrocortisone/metabolism , Antarctic Regions , Humpback Whale/physiology , Humpback Whale/metabolism , Humpback Whale/genetics , Sentinel Species/genetics , Sentinel Species/metabolism , Gene Expression , Adipose Tissue/metabolism , Male , Female
6.
J Wildl Dis ; 59(3): 453-459, 2023 07 01.
Article in English | MEDLINE | ID: mdl-37270294

ABSTRACT

Herpesviruses have been detected in bat species from several countries, with a limited number of studies examining herpesviruses in Pteropus spp. (flying foxes) and no investigation of herpesviruses in Australian flying foxes. We examined the presence and prevalence of herpesviruses in the four mainland Australian flying fox species. A nested PCR targeting highly conserved amino acid motifs in the DNA polymerase (DPOL) gene of herpesviruses was used to analyze 564 samples collected from 514 individual Pteropus scapulatus, Pteropus poliocephalus, Pteropus alecto, and Pteropus conspicillatus. The prevalence of herpesvirus DNA in blood, urine, oral, and fecal swabs from the four species was 17% in P. scapulatus, 11% in P. poliocephalus, 10% in P. alecto, and 9% in P. conspicillatus (31% in P. conspicillatus spleen tissue). Five putative novel herpesviruses were detected. Following PCR amplicon sequence analysis, four of the herpesviruses grouped phylogenetically with the gammaherpesviruses, with nucleotide identities between 79% and 90% to gammaherpesviruses from Asian megabats. A betaherpesvirus was detected in P. scapulatus with 99% nucleotide identity to the partial DPOL gene sequence of an Indonesian fruit bat betaherpesvirus. This study lays the foundation for future epidemiology research of herpesviruses in Australian Pteropus spp. and adds to the discussion of hypotheses surrounding the evolutionary epidemiology of bat-borne viruses on a global scale.


Subject(s)
Chiroptera , Herpesviridae , Animals , Australia/epidemiology , DNA , Polymerase Chain Reaction/veterinary , Herpesviridae/genetics
7.
Vet Sci ; 10(1)2023 Jan 05.
Article in English | MEDLINE | ID: mdl-36669041

ABSTRACT

Cleft palate syndrome, first observed in the spectacled flying fox population in 1998, has produced sporadic neonatal mortality events over the past two decades, with an estimated incidence of up to 1/1000 births per year. This study presents a rudimentary characterisation of the syndrome, presenting gross pathology of syndromic signs upon visual inspection, a histological examination of palate malformations, and syndrome incidence data representing the past two decades. The syndrome presents with a range of signs, primarily congenital palate malformations ranging from a pinhole cleft to a complete hard and soft palate deficit, resulting in the death or abandonment of neonates shortly after birth. The congenital palate malformations are often associated with claw deformities, wiry facial hair, and in some instances, muscle weakness and neurological signs. The natural occurrence of the lethal congenital orofacial birth defects in the spectacled flying fox presents a unique opportunity for the investigation of putative aetiologies, drawing parallels between bat and other mammalian cleft palate risk factors. Further syndrome investigation has the potential to deliver both biodiversity conservation and comparative veterinary and biomedical outcomes.

8.
PLoS One ; 18(6): e0278792, 2023.
Article in English | MEDLINE | ID: mdl-37285349

ABSTRACT

Non-invasively collected faecal samples are an alternative source of DNA to tissue samples, that may be used in genetic studies of wildlife when direct sampling of animals is difficult. Although several faecal DNA extraction methods exist, their efficacy varies between species. Previous attempts to amplify mitochondrial DNA (mtDNA) markers from faeces of wild dugongs (Dugong dugon) have met with limited success and nuclear markers (microsatellites) have been unsuccessful. This study aimed to establish a tool for sampling both mtDNA and nuclear DNA (nDNA) from dugong faeces by modifying approaches used in studies of other large herbivores. First, a streamlined, cost-effective DNA extraction method that enabled the amplification of both mitochondrial and nuclear markers from large quantities of dugong faeces was developed. Faecal DNA extracted using a new 'High Volume- Cetyltrimethyl Ammonium Bromide- Phenol-Chloroform-Isoamyl Alcohol' (HV-CTAB-PCI) method was found to achieve comparable amplification results to extraction of DNA from dugong skin. As most prevailing practices advocate sampling from the outer surface of a stool to maximise capture of sloughed intestinal cells, this study compared amplification success of mtDNA between the outer and inner layers of faeces, but no difference in amplification was found. Assessment of the impacts of faecal age or degradation on extraction, however, demonstrated that fresher faeces with shorter duration of environmental (seawater) exposure amplified both markers better than eroded scats. Using the HV-CTAB-PCI method, nuclear markers were successfully amplified for the first time from dugong faeces. The successful amplification of single nucleotide polymorphism (SNP) markers represents a proof-of-concept showing that DNA from dugong faeces can potentially be utilised in population genetic studies. This novel DNA extraction protocol offers a new tool that will facilitate genetic studies of dugongs and other large and cryptic marine herbivores in remote locations.


Subject(s)
Caniformia , Dugong , Percutaneous Coronary Intervention , Animals , Cetrimonium , Herbivory , Feces , DNA, Mitochondrial/genetics , DNA, Mitochondrial/metabolism , Cetacea , Oceans and Seas
9.
R Soc Open Sci ; 9(8): 220556, 2022 Aug.
Article in English | MEDLINE | ID: mdl-36016912

ABSTRACT

The large size of free-ranging mysticetes, such as humpback whales (Megaptera novaeangliae), make capture and release health assessments unfeasible for conservation research. However, individual energetic condition or reproductive health may be assessed from the gene expression of remotely biopsied tissue. To do this, researchers must reliably extract RNA and interpret gene expression measurements within the context of an individual's sex. Here, we outline an RNA extraction protocol from blubber tissue and describe a novel mammalian RNA sex determination method. Our method consists of a duplex reverse transcription-quantitative (real-time) polymerase chain reaction (RT-qPCR) with primer sets for a control gene (ACTB) and the X-chromosome inactivation gene (XIST). Products of each RT-qPCR had distinct melting temperature profiles based on the presence (female) or absence (male) of the XIST transcript. Using high-resolution melt analysis, reactions were sorted into one of two clusters (male/female) based on their melting profiles. We validated the XIST method by comparing results with a standard DNA-based method. With adequate quantities of RNA (minimum of approx. 9 ng µl-1), the XIST sex determination method shows 100% agreement with traditional DNA sex determination. Using the XIST method, future cetacean health studies can interpret gene expression within the context of an individual's sex, all from a single extraction.

10.
J Wildl Dis ; 57(4): 912-916, 2021 10 01.
Article in English | MEDLINE | ID: mdl-34478549

ABSTRACT

Herpesviruses have been reported in several Australian marsupial species, with an overt, sometimes fatal disease described in macropods. Our study identifies a gammaherpesvirus in northern brown bandicoots (Isoodon macrourus) and provides virus prevalence data for bandicoots in southeast Queensland, Australia. Herpesvirus DNA was detected using pan-Herpesviridae family primers in a nested PCR format. Samples from 35 northern brown bandicoots were screened, including whole blood (n=29), oropharyngeal swabs (n=34), urine (n=22), and feces (n=23). Combining all sample types, herpesvirus DNA was detected at a total prevalence of 51% (18/35). Whole blood and oropharyngeal swabs proved to be the optimal samples for detection of this virus, with prevalences of 34% and 38%, respectively. Herpesvirus DNA was detected in 4.5% (1/22) of urine samples and not at all in fecal samples. Detection of herpesvirus was more likely in males than females. Animals were trapped at eight different locations, and at all but one location at least one herpesvirus positive animal was detected. This study indicates a high prevalence of the virus within northern brown bandicoot populations in southeast Queensland. Further research is required to understand the clinical manifestations, if any, of herpesvirus infection in this species and how this may affect populations in the face of stressors such as land clearing and habitat fragmentation.


Subject(s)
Gammaherpesvirinae , Marsupialia , Animals , Australia/epidemiology , Female , Male , Prevalence , Queensland/epidemiology
11.
J Wildl Dis ; 55(2): 449-454, 2019 04.
Article in English | MEDLINE | ID: mdl-30325258

ABSTRACT

The spectacled flying fox ( Pteropus conspicillatus) is listed as vulnerable to extinction in Australia. The species' restricted population is in decline, putatively attributed to decreasing habitat, climatic extremes, anthropogenic activities, and more recently, mass mortality events associated with tick paralysis and neonatal cleft palate syndrome. Knowledge of fundamental physiologic parameters of the species is limited. To address this knowledge gap, we sampled 50 wild-caught adult spectacled flying foxes in June (winter) in Far North Queensland, Australia. Hematologic and plasma biochemistry reference ranges were established, and a suite of urine biochemistry analytes were measured. Analyte values were compared within spectacled flying fox sex cohorts and between the spectacled flying fox and the paraphyletic black flying fox ( Pteropus alecto). Significant differences in multiple analytes (including erythrocyte, leucocyte, plasma, and urine biochemistry) were found between spectacled flying fox sex cohorts. The majority of spectacled flying fox analyte values did not differ significantly from black flying fox values. Of those analytes that differed between species (erythrocyte, platelet, eosinophil, liver enzyme, and triglyceride levels), the majority were plausibly explained by intraerythrocyte parasite burden and food resource type. Our findings provide baseline data essential to measure and meaningfully interpret flying fox population health in ecologic, conservation, and epidemiologic contexts.


Subject(s)
Chiroptera/blood , Erythrocyte Count/veterinary , Erythrocyte Indices/veterinary , Hematocrit/veterinary , Hemoglobins , Acid-Base Equilibrium , Animals , Australia , Bicarbonates/blood , Bilirubin , Blood Glucose , Blood Proteins , Chiroptera/urine , Chlorides/blood , Creatinine/blood , Female , Leukocyte Count , Male , Platelet Count , Potassium/blood , Reference Values , Sodium/blood , Urea/blood , Urinalysis/veterinary
12.
Int J Parasitol Parasites Wildl ; 7(2): 207-212, 2018 Aug.
Article in English | MEDLINE | ID: mdl-29988481

ABSTRACT

Hepatocystis parasites are close relatives of mammalian Plasmodium species and infect a range of primates and bats. Here, we present the phylogenetic relationships of Hepatocystis parasites of three Australian flying fox species. Multilocus phylogenetic analysis revealed that Hepatocystis parasites of Pteropus species from Australia and Asia form a distinct clade that is sister to all other Hepatocystis parasites of primates and bats from Africa and Asia. No patterns of host specificity were recovered within the Pteropus-specific parasite clade and the Hepatocystis sequences from all three Australian host species sampled fell into two divergent clades.

13.
PLoS One ; 12(8): e0182171, 2017.
Article in English | MEDLINE | ID: mdl-28767708

ABSTRACT

Pteropid bats (flying-foxes) are the natural reservoir of Hendra virus, an emergent paramyxovirus responsible for fatal infection in horses and humans in Australia. Pteropus alecto (the Black flying-fox) and the paraphyletic P. conspicillatus (the Spectacled flying-fox) appear to be the primary reservoir hosts. Previous studies have suggested that physiological and ecological factors may underpin infection dynamics in flying-foxes, and subsequent spillover to horses and in turn humans. We sought to examine temporal trends in urinary cortisol concentration in wild Australian flying-fox populations, to elucidate the putative relationship between Hendra virus infection and physiological stress. Pooled and individual urine samples were non-invasively collected from under roosting flying-foxes at two latitudinally disparate regions in the eastern Australian state of Queensland. Hendra virus detection, and (in individual urine samples) sex and species determination were PCR-based. Urinary cortisol measurement used a validated enzyme immunoassay. We found no direct correlation between increased urinary cortisol and Hendra virus excretion, but our findings do suggest a biologically plausible association between low winter temperatures and elevated cortisol levels in P. alecto in the lower latitude Southeast Queensland roosts. We hypothesize an indirect association between low winter temperatures and increased Hendra virus infection and excretion, mediated by the physiological cost of thermoregulation. Our findings and our approach are directly relevant to elaboration of the disease ecology of Nipah virus and other emerging henipaviruses in bats. More broadly, they inform investigation of emerging disease infection dynamics across the wildlife/livestock/human interface.


Subject(s)
Chiroptera/virology , Hendra Virus/physiology , Henipavirus Infections/diagnosis , Hydrocortisone/urine , Animals , Australia , Chiroptera/urine , Disease Reservoirs , Female , Henipavirus Infections/urine , Male , Species Specificity , Stress, Physiological , Urine/virology
14.
J Wildl Dis ; 53(1): 111-120, 2017 01.
Article in English | MEDLINE | ID: mdl-27723384

ABSTRACT

Bats of the genus Pteropus (Pteropodidae), colloquially known as flying foxes, are recognized as the natural reservoir of Hendra virus, a zoonotic paramyxovirus responsible for mortality in horses and humans. Some previous studies have suggested that physiologic and ecologic factors promote Hendra virus infection in flying foxes, and by extension, spillover to horses and humans. However, the impact of Hendra virus infection on relevant physiologic biomarkers in flying foxes has not been measured. Over 12 mo in eastern Australia, we captured and sampled 446 individual black flying foxes ( Pteropus alecto ), a putative primary reservoir host species, and measured a suite of hematologic, plasma biochemistry, and urinary biomarkers. All mean hematologic and biochemical values in both Hendra virus-positive and virus-negative cohorts were within the published reference ranges for black flying foxes. We found no association between Hendra virus infection (as indicated by PCR detection of Hendra virus RNA) and biomarkers for nutritional stress, reproductive stress, or extreme metabolic demand. However, we identified associations between several other biomarkers and Hendra virus infection, which may partly elucidate the physiologic effects of Hendra virus infection in flying foxes. Our findings highlight the need for critical evaluation of putative risk factors for infection in flying foxes and provide insights for future epidemiologic studies of Hendra virus and related viruses in the Pteropus species.


Subject(s)
Chiroptera/virology , Hendra Virus/isolation & purification , Henipavirus Infections/veterinary , Animals , Australia , Biomarkers
15.
Ecohealth ; 13(1): 49-59, 2016 Mar.
Article in English | MEDLINE | ID: mdl-27026357

ABSTRACT

Bats of the genus Pteropus (Pteropodidae) are recognised as the natural host of multiple emerging pathogenic viruses of animal and human health significance, including henipaviruses, lyssaviruses and ebolaviruses. Some studies have suggested that physiological and ecological factors may be associated with Hendra virus infection in flying-foxes in Australia; however, it is essential to understand the normal range and seasonal variability of physiological biomarkers before seeking physiological associations with infection status. We aimed to measure a suite of physiological biomarkers in P. alecto over time to identify any seasonal fluctuations and to examine possible associations with life-cycle and environmental stressors. We sampled 839 adult P. alecto in the Australian state of Queensland over a 12-month period. The adjusted population means of every assessed hematologic and biochemical parameter were within the reported reference range on every sampling occasion. However, within this range, we identified significant temporal variation in these parameters, in urinary parameters and body condition, which primarily reflected the normal annual life cycle. We found no evident effect of remarkable physiological demands or nutritional stress, and no indication of clinical disease driving any parameter values outside the normal species reference range. Our findings identify underlying temporal physiological changes at the population level that inform epidemiological studies and assessment of putative physiological risk factors driving Hendra virus infection in P. alecto. More broadly, the findings add to the knowledge of Pteropus populations in terms of their relative resistance and resilience to emerging infectious disease.


Subject(s)
Biomarkers/blood , Biomarkers/urine , Chiroptera/physiology , Animals , Australia , Behavior, Animal , Chiroptera/virology , Queensland , Seasons , Time Factors
16.
PLoS One ; 10(5): e0125881, 2015.
Article in English | MEDLINE | ID: mdl-26016629

ABSTRACT

Bats of the genus Pteropus (flying-foxes) are the natural host of Hendra virus (HeV) which periodically causes fatal disease in horses and humans in Australia. The increased urban presence of flying-foxes often provokes negative community sentiments because of reduced social amenity and concerns of HeV exposure risk, and has resulted in calls for the dispersal of urban flying-fox roosts. However, it has been hypothesised that disturbance of urban roosts may result in a stress-mediated increase in HeV infection in flying-foxes, and an increased spillover risk. We sought to examine the impact of roost modification and dispersal on HeV infection dynamics and cortisol concentration dynamics in flying-foxes. The data were analysed in generalised linear mixed models using restricted maximum likelihood (REML). The difference in mean HeV prevalence in samples collected before (4.9%), during (4.7%) and after (3.4%) roost disturbance was small and non-significant (P = 0.440). Similarly, the difference in mean urine specific gravity-corrected urinary cortisol concentrations was small and non-significant (before = 22.71 ng/mL, during = 27.17, after = 18.39) (P= 0.550). We did find an underlying association between cortisol concentration and season, and cortisol concentration and region, suggesting that other (plausibly biological or environmental) variables play a role in cortisol concentration dynamics. The effect of roost disturbance on cortisol concentration approached statistical significance for region, suggesting that the relationship is not fixed, and plausibly reflecting the nature and timing of disturbance. We also found a small positive statistical association between HeV excretion status and urinary cortisol concentration. Finally, we found that the level of flying-fox distress associated with roost disturbance reflected the nature and timing of the activity, highlighting the need for a 'best practice' approach to dispersal or roost modification activities. The findings usefully inform public discussion and policy development in relation to Hendra virus and flying-fox management.


Subject(s)
Chiroptera/urine , Chiroptera/virology , Hendra Virus/isolation & purification , Animals , Australia , Henipavirus Infections/epidemiology , Hydrocortisone/urine , Seasons
17.
PLoS One ; 10(5): e0125741, 2015.
Article in English | MEDLINE | ID: mdl-25938493

ABSTRACT

This paper establishes reference ranges for hematologic and plasma biochemistry values in wild Black flying-foxes (Pteropus alecto) captured in South East Queensland, Australia. Values were found to be consistent with those of other Pteropus species. Four hundred and forty-seven animals were sampled over 12 months and significant differences were found between age, sex, reproductive and body condition cohorts in the sample population. Mean values for each cohort fell within the determined normal adult reference range, with the exception of elevated levels of alkaline phosphatase in juvenile animals. Hematologic and biochemistry parameters of injured animals showed little or no deviation from the normal reference values for minor injuries, while two animals with more severe injury or abscessation showed leucocytosis, anaemia, thrombocytosis, hyperglobulinemia and hypoalbuminemia.


Subject(s)
Chiroptera/blood , Flight, Animal , Hematology , Aging/blood , Animals , Female , Male , Queensland , Reference Values , Reproduction
18.
PLoS One ; 10(12): e0144055, 2015.
Article in English | MEDLINE | ID: mdl-26625128

ABSTRACT

Hendra virus (HeV) causes highly lethal disease in horses and humans in the eastern Australian states of Queensland (QLD) and New South Wales (NSW), with multiple equine cases now reported on an annual basis. Infection and excretion dynamics in pteropid bats (flying-foxes), the recognised natural reservoir, are incompletely understood. We sought to identify key spatial and temporal factors associated with excretion in flying-foxes over a 2300 km latitudinal gradient from northern QLD to southern NSW which encompassed all known equine case locations. The aim was to strengthen knowledge of Hendra virus ecology in flying-foxes to improve spillover risk prediction and exposure risk mitigation strategies, and thus better protect horses and humans. Monthly pooled urine samples were collected from under roosting flying-foxes over a three-year period and screened for HeV RNA by quantitative RT-PCR. A generalised linear model was employed to investigate spatiotemporal associations with HeV detection in 13,968 samples from 27 roosts. There was a non-linear relationship between mean HeV excretion prevalence and five latitudinal regions, with excretion moderate in northern and central QLD, highest in southern QLD/northern NSW, moderate in central NSW, and negligible in southern NSW. Highest HeV positivity occurred where black or spectacled flying-foxes were present; nil or very low positivity rates occurred in exclusive grey-headed flying-fox roosts. Similarly, little red flying-foxes are evidently not a significant source of virus, as their periodic extreme increase in numbers at some roosts was not associated with any concurrent increase in HeV detection. There was a consistent, strong winter seasonality to excretion in the southern QLD/northern NSW and central NSW regions. This new information allows risk management strategies to be refined and targeted, mindful of the potential for spatial risk profiles to shift over time with changes in flying-fox species distribution.


Subject(s)
Chiroptera/virology , Hendra Virus/genetics , Henipavirus Infections/virology , Animals , New South Wales , Queensland , RNA, Viral/genetics , Seasons
19.
PLoS One ; 10(10): e0140670, 2015.
Article in English | MEDLINE | ID: mdl-26469523

ABSTRACT

Pteropid bats or flying-foxes (Chiroptera: Pteropodidae) are the natural host of Hendra virus (HeV) which sporadically causes fatal disease in horses and humans in eastern Australia. While there is strong evidence that urine is an important infectious medium that likely drives bat to bat transmission and bat to horse transmission, there is uncertainty about the relative importance of alternative routes of excretion such as nasal and oral secretions, and faeces. Identifying the potential routes of HeV excretion in flying-foxes is important to effectively mitigate equine exposure risk at the bat-horse interface, and in determining transmission rates in host-pathogen models. The aim of this study was to identify the major routes of HeV excretion in naturally infected flying-foxes, and secondarily, to identify between-species variation in excretion prevalence. A total of 2840 flying-foxes from three of the four Australian mainland species (Pteropus alecto, P. poliocephalus and P. scapulatus) were captured and sampled at multiple roost locations in the eastern states of Queensland and New South Wales between 2012 and 2014. A range of biological samples (urine and serum, and urogenital, nasal, oral and rectal swabs) were collected from anaesthetized bats, and tested for HeV RNA using a qRT-PCR assay targeting the M gene. Forty-two P. alecto (n = 1410) had HeV RNA detected in at least one sample, and yielded a total of 78 positive samples, at an overall detection rate of 1.76% across all samples tested in this species (78/4436). The rate of detection, and the amount of viral RNA, was highest in urine samples (>serum, packed haemocytes >faecal >nasal >oral), identifying urine as the most plausible source of infection for flying-foxes and for horses. Detection in a urine sample was more efficient than detection in urogenital swabs, identifying the former as the preferred diagnostic sample. The detection of HeV RNA in serum is consistent with haematogenous spread, and with hypothesised latency and recrudesence in flying-foxes. There were no detections in P. poliocephalus (n = 1168 animals; n = 2958 samples) or P. scapulatus (n = 262 animals; n = 985 samples), suggesting (consistent with other recent studies) that these species are epidemiologically less important than P. alecto in HeV infection dynamics. The study is unprecedented in terms of the individual animal approach, the large sample size, and the use of a molecular assay to directly determine infection status. These features provide a high level of confidence in the veracity of our findings, and a sound basis from which to more precisely target equine risk mitigation strategies.


Subject(s)
Chiroptera/virology , Hendra Virus/isolation & purification , Henipavirus Infections/veterinary , Henipavirus Infections/virology , Urine/virology , Animals , Australia , Chiroptera/classification , Feces/virology , Female , Hendra Virus/genetics , Henipavirus Infections/transmission , Horse Diseases/virology , Horses , Male , Mouth/virology , Nose/virology , Rectum/virology , Serum/virology , Species Specificity
20.
Ecohealth ; 11(3): 400-8, 2014 Sep.
Article in English | MEDLINE | ID: mdl-24990534

ABSTRACT

Flying-foxes (pteropid bats) are the natural host of Hendra virus, a recently emerged zoonotic virus responsible for mortality or morbidity in horses and humans in Australia since 1994. Previous studies have suggested physiological and ecological risk factors for infection in flying-foxes, including physiological stress. However, little work has been done measuring and interpreting stress hormones in flying-foxes. Over a 12-month period, we collected pooled urine samples from underneath roosting flying-foxes, and urine and blood samples from captured individuals. Urine and plasma samples were assayed for cortisol using a commercially available enzyme immunoassay. We demonstrated a typical post-capture stress response in flying-foxes, established urine specific gravity as an attractive alternative to creatinine to correct urine concentration, and established population-level urinary cortisol ranges (and geometric means) for the four Australian species: Pteropus alecto 0.5-305.1 ng/mL (20.1 ng/mL); Pteropus conspicillatus 0.3-370.9 ng/mL (18.9 ng/mL); Pteropus poliocephalus 0.3-311.3 ng/mL (10.1 ng/mL); Pteropus scapulatus 5.2-205.4 ng/mL (40.7 ng/mL). Geometric means differed significantly except for P. alecto and P. conspicillatus. Our approach is methodologically robust, and has application both as a research or clinical tool for flying-foxes, and for other free-living colonial wildlife species.


Subject(s)
Chiroptera/metabolism , Hydrocortisone/urine , Stress, Physiological/physiology , Animals , Australia , Chiroptera/urine , Risk Factors , Specific Gravity , Urine Specimen Collection
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