Feral dogs in Chitral gol national park, Pakistan: a potential threat to the future of threatened Kashmir Markhor (Capra falconeri cashmiriensis)

Feral dogs are well-organized hunters of ungulates in many parts of the world, causing great damage to wildlife populations and ultimately to the ecosystem. In Pakistan, the impacts of feral dogs on the wildlife have not been documented yet. In a period of fifteen years (2006-2020), feral dogs have killed hundreds of threatened markhor in Chitral gol national park (CGNP), Pakistan. Despite direct predation other impacts including disturbance and competition with other natural predators, could compromise conservation and management efforts. The population of feral dogs seems to have been increased with the increase of dumping sites by communities. Our findings suggest that there are pressing needs of controlling the feral dogs population and eradicating them from the core zone of CGNP and surrounding buffer communities. Conventional culling of dogs should be coupled with modern techniques like castration and sterilization. Communities should be educated regarding the clean environment, proper disposal of home wastes and, biodiversity conservation.

New altitudinal records of Panthera onca (Carnivora: Felidae) in the Andean region of Ecuador

We report two records of jaguars (Panthera onca) registered with camera traps at 2300 and 2660 m a.s.l. in the Ecuadorian Andes, which represent the first verifiable records of the species above 2000 m in Ecuador. As the first records of jaguars from Río Negro-Sopladora National Park and Tapichalaca Reserve, these records raise important questions about the species’ ecology and conservation in Andean montane forests. From a regional perspective, these records may indicate connectivity between jaguar populations inhabiting both sides of the Andes. Sustained monitoring of wildlife populations is necessary to discern the significance of these records and help develop strategies to ensure the conservation of this highly mobile species across the increasingly fragmented Andean-Amazonian landscapes of southern Ecuador.

Genetic diversity and mate selection in a reintroduced population of gray wolves

The genetic composition of an individual can markedly affect its survival, reproduction, and ultimately fitness. As some wildlife populations become smaller, conserving genetic diversity will be a conservation challenge. Many imperiled species are already supported through population augmentation efforts and we often do not know if or how genetic diversity is maintained in translocated species. As a case study for understanding the maintenance of genetic diversity in augmented populations, I wanted to know if genetic diversity (i.e., observed heterozygosity) remained high in a population of gray wolves in the Rocky Mountains of the U.S. > 20 years after reintroduction. Additionally, I wanted to know if a potential mechanism for such diversity was individuals with below average genetic diversity choosing mates with above average diversity. I also asked whether there was a preference for mating with unrelated individuals. Finally, I hypothesized that mated pairs with above average heterozygosity would have increased survival of young. Ultimately, I found that females with below average heterozygosity did not choose mates with above average heterozygosity and wolves chose mates randomly with respect to genetic relatedness. Pup survival was not higher for mated pairs with above average heterozygosity in my models. The dominant variables predicting pup survival were harvest rate during their first year of life and years pairs were mated. Ultimately, genetic diversity was relatively unchanged > 20 years after reintroduction. The mechanism for maintaining such diversity does not appear related to individuals preferentially choosing more genetically diverse mates. Inbreeding avoidance, however, appears to be at least one mechanism maintaining genetic diversity in this population.

What Goes Up Must Come Down: The Influence of Climate on Caribou Populations

Wildlife populations naturally go up and down. Oscillation is the term used for this pattern of highs (when there are many animals) and lows (when there are few). When the number of births is greater than the number of deaths, then populations grow. If deaths exceed births, populations decline. Caribou in the Arctic have dramatic population oscillations. The number of caribou can grow very high and also decrease to very few. Large-scale, long-lasting weather oscillations are one reason for this pattern. Knowledge of the connection between wildlife populations and climate oscillations is important to help conserve species like caribou and to better understand how climate change will impact wildlife.

IMPACT OF HUMAN-WILDLIFE CONFLICT IN THE SURROUNDING VILLAGES OF OLD OYO NATIONAL PARK

The study assesses the impacts of Human-Wildlife conflicts in the surrounding villages in Old Oyo National Park (OONP), Nigeria. Two ranges out of the five ranges were used. Four villages were selected based on the distribution of primates and wildlife populations with each range producing two villages around Old Oyo National Park, were randomly selected for wildlife assessment. A total of 80 well-structured questionnaires were administered to the villagers with each getting 20 questionnaires respectively. Data collected were subjected to inferential and descriptive statistics. Result shows that among other socio demographic characteristics tested against the impact of Human –wildlife conflict in the park, educational level and religion show significant difference (p<0.05). the buffer zone around the park has been extensively encroached; this made most of the surrounding villages to the park fall within the average distance of 2.6km. about 79% of the villages make use of fire wood for their household cooking. Major animals that intrude farmlands in the study areas include monkey (24%), Grasscutter (11%), Cattle (19%), Gorilla (12%), Antelope (6%), Cane rat (5%) and Rabbit (3%). Some of the crops attacked by the wildlife animals include; tubers (24%), tubers and vegetable (7%), tubers and fruits (36%), tubers, vegetable and fruits (3%), vegetable (7%), fruits (3%). All the respondents (100%) rated the level of attack and damages to their crops as high.

First Isolation of Leptospira Borgpetersenii Serovar Hardjobovis in Guanacos (Lama Guanicoe) in South America

Background Leptospirosis is the most widespread zoonotic disease in the world. It is caused by pathogenic spirochetes of the genus Leptospira spp. and is maintained in nature through chronic renal infection of carrier animals, being rodents and other small mammals the main reservoirs. This bacterial genus is highly heterogeneous and divided into three clades (pathogenic, saprophyte and intermediate). Presence of pathogenic strains in wildlife populations is essential to monitor the epidemiological status of this disease worldwide. Methods In this study, we characterize an isolated strain of a Guanaco (Lama guanicoe) using Multiple Locus Variable number tandem repeats Analysis (MLVA) (Variable Number Tandem Repeats-VNTRs: 4, 7, 10, Lb4 and Lb5). To confirm the identity of the isolated strain, partial 16S rRNA sequencing was carried out. Phylogeny was constructed using Neighbor- joining. Results The pathogenic leptospiral strain isolated from Llama guanicoe had the genetic profile identical to L. borgpetersenii serovar Hardjobovis reference strain Sponselee. Conclusions To the best of our knowledge, this is the first isolation and genetic characterization of a pathogenic leptospiral strain in Guanacos in South America.

The Long-term Impacts of Hunting on Population Viability of Wild Ungulates in Tarangire, Northern Tanzania

<p>Hunting through illegal and legal means is increasingly recognised as a threat to the sustainability of wildlife populations in reserves throughout Africa. Despite this, in Tanzania, legal hunting has persisted and serves as a source of revenue for conserving these species. Poaching remains a major threat to wildlife populations in many parks and reserves of Tanzania and wildlife habitats are diminishing due to human activities. I examined the impacts of hunting on the long-term persistence of four wild ungulates; impala (Aepyceros melampus Matschie), Thomson's gazelle (Gazella thomsonii Gunther), wildebeest (Connochaetes taurinus Thomas) and zebra (Equus burchellii Matschie) around Tarangire National Park, in northern Tanzania. I investigated the population sizes of these species using Distance sampling method and determined there were 4534 plus or minus 1393 impala 1398 plus or minus 491 Thomson's gazelle, 5199 plus or minus 2670 wildebeest, and 11223 plus or minus 4216 zebra, in the study area. I obtained an estimate of the legal offtake over a five year period from data provided by hunting companies and districts offices in charge of hunting in the area to establish an average size of annual legal offtake of the area. I estimated the poaching levels for each species using random response method by interviewing 298 household respondents within communities living around the area. This established that illegal kill were 2-3 times higher than legal offtake for all four animal species except zebra. The total annual harvests were 6.6% for impala, 18.2% for Thomson's gazelle, 5.2% for wildebeest and 2% for zebra, of population sizes. Using literature review I obtained vital life-history parameters for each species either from within Tarangire, or elsewhere in East Africa. The long-term viability of the four species was then examined under a computer program-VORTEX by constructing a series of models to test the effects of different hunting regimes. The models integrated mortality and fecundity rates, species population sizes and harvest (legal and illegal) rates. Of the four species, impala and Thomson's gazelle fared badly under all simulations, with up to 76% and 68% respectively of the modelled populations going extinct within 100 years under present 3 hunting levels. Wildebeest and zebra were more resilient to hunting. Zebra populations remained robust under current hunting rates. However, its population will slowly decline towards extinction when the hunting exceeds the current rate of 2%. The population of wildebeest will decline towards extinction if the current offtake of 5% persists. The impacts of illegal hunting are severe. This study is the first attempt to characterise the dynamics of the harvested ungulate populations in Tarangire, Tanzania. Poor understanding of this ecosystem especially on the demographic variables of these species, limit firm conclusions. Nevertheless, the findings presented here suggest that VORTEX modelling may be a useful tool for managing hunting at Tarangire and for highlighting research priorities.</p>

The Long-term Impacts of Hunting on Population Viability of Wild Ungulates in Tarangire, Northern Tanzania

<p>Hunting through illegal and legal means is increasingly recognised as a threat to the sustainability of wildlife populations in reserves throughout Africa. Despite this, in Tanzania, legal hunting has persisted and serves as a source of revenue for conserving these species. Poaching remains a major threat to wildlife populations in many parks and reserves of Tanzania and wildlife habitats are diminishing due to human activities. I examined the impacts of hunting on the long-term persistence of four wild ungulates; impala (Aepyceros melampus Matschie), Thomson's gazelle (Gazella thomsonii Gunther), wildebeest (Connochaetes taurinus Thomas) and zebra (Equus burchellii Matschie) around Tarangire National Park, in northern Tanzania. I investigated the population sizes of these species using Distance sampling method and determined there were 4534 plus or minus 1393 impala 1398 plus or minus 491 Thomson's gazelle, 5199 plus or minus 2670 wildebeest, and 11223 plus or minus 4216 zebra, in the study area. I obtained an estimate of the legal offtake over a five year period from data provided by hunting companies and districts offices in charge of hunting in the area to establish an average size of annual legal offtake of the area. I estimated the poaching levels for each species using random response method by interviewing 298 household respondents within communities living around the area. This established that illegal kill were 2-3 times higher than legal offtake for all four animal species except zebra. The total annual harvests were 6.6% for impala, 18.2% for Thomson's gazelle, 5.2% for wildebeest and 2% for zebra, of population sizes. Using literature review I obtained vital life-history parameters for each species either from within Tarangire, or elsewhere in East Africa. The long-term viability of the four species was then examined under a computer program-VORTEX by constructing a series of models to test the effects of different hunting regimes. The models integrated mortality and fecundity rates, species population sizes and harvest (legal and illegal) rates. Of the four species, impala and Thomson's gazelle fared badly under all simulations, with up to 76% and 68% respectively of the modelled populations going extinct within 100 years under present 3 hunting levels. Wildebeest and zebra were more resilient to hunting. Zebra populations remained robust under current hunting rates. However, its population will slowly decline towards extinction when the hunting exceeds the current rate of 2%. The population of wildebeest will decline towards extinction if the current offtake of 5% persists. The impacts of illegal hunting are severe. This study is the first attempt to characterise the dynamics of the harvested ungulate populations in Tarangire, Tanzania. Poor understanding of this ecosystem especially on the demographic variables of these species, limit firm conclusions. Nevertheless, the findings presented here suggest that VORTEX modelling may be a useful tool for managing hunting at Tarangire and for highlighting research priorities.</p>

Human density is associated with the increased prevalence of a generalist zoonotic parasite in mammalian wildlife

Macroecological approaches can provide valuable insight into the epidemiology of globally distributed, multi-host pathogens. Toxoplasma gondii is a zoonotic protozoan that infects any warm-blooded animal, including humans, in almost every ecosystem worldwide. There is substantial geographical variation in T. gondii prevalence in wildlife populations and the mechanisms driving this variation are poorly understood. We implemented Bayesian phylogenetic mixed models to determine the association between species’ ecology, phylogeny and climatic and anthropogenic factors on T. gondii prevalence. Toxoplasma gondii prevalence data were compiled for free-ranging wild mammal species from 202 published studies, encompassing 45 079 individuals from 54 taxonomic families and 238 species. We found that T. gondii prevalence was positively associated with human population density and warmer temperatures at the sampling location. Terrestrial species had a lower overall prevalence, but there were no consistent patterns between trophic level and prevalence. The relationship between human density and T. gondii prevalence is probably mediated by higher domestic cat abundance and landscape degradation leading to increased environmental oocyst contamination. Landscape restoration and limiting free-roaming in domestic cats could synergistically increase the resiliency of wildlife populations and reduce wildlife and human infection risks from one of the world's most common parasitic infections.