Report on Kwando (Botswana) Vulture poisoning investigation 16 November 2013

No Abstrac

Optimal hunting conditions drive circalunar behavior of a diurnal canivore

Foraging requirements and predation risk shape activity patterns and temporal behavior patterns widely across taxa. Although this has been extensively studied in small mammals, the influence of predation and prey acquisition on the activity and behavior of large carnivores has received little attention. The diurnal activity described as typical for cheetahs ( Acinonyx jubatus ) has been explained in terms of their avoidance of antagonistic interactions with other larger predators. However, a recent study revealed that cheetahs are frequently active at night, especially during periods of full moon. Being both predator and “prey” in an environment with comparatively high densities of larger and competitively dominant nocturnal predator species, we investigated whether cheetah nocturnal behavior could be explained by favorable conditions for 1) predator avoidance or 2) prey acquisition. We used a data set of continuously recorded behavior created using machine-learning techniques on behavioral data collected in the field to transform recorded 2D activity values from radio-collars into 3 distinct behavioral states (feeding, moving, and resting). We found that 32.5% of cheetah feeding behavior occurred at night and that, in the dry season, nocturnal feeding behavior was positively correlated with moonlight intensity. Our results suggest that nocturnal and circalunar behavior of cheetahs is driven by optimal hunting conditions, outweighing the risks of encountering other predators. Using novel methodology, the results provide new insights into the temporal distribution of behavior, contributing to our understanding of the importance of moonlight and season on the behavior patterns of diurnal species

Rare observation of the existence and masculine behaviour of maned lionesses in the Okavango Delta, Botswana

Conservation Biolog

Illegal bushmeat hunters compete with predators and threaten wild herbivore populations in a global tourism hotspot

Illegal bushmeat hunting is a global threat to wildlife, but its secretive and unregulated nature undermines efforts to mitigate its impacts on wildlife and wildlife-based industries. We investigated the scale of illegal bushmeat hunting in the Okavango Delta, Botswana (~ 20,000 km2) to assess its potential contribution to wildlife population declines. Approximately 1,800 illegal hunters each harvest an average of 320 kg of bushmeat annually, though some reported harvesting ≥ 1000 kg. While impala were the most commonly hunted species, buffalo and greater kudu accounted for most bushmeat. Hunters remove ~ 620,000 kg of medium-large herbivore biomass (equivalent to 15,500 impala) annually from the delta and humans are the fourth most prominent predator in the delta. Cumulative harvest by humans and other predators likely exceeds the intrinsic population growth rate of several species of ungulates in the delta, and helps explain purported declines in ungulate populations. Competition between humans and other apex predators for limited prey reduces the ecosystem's carrying capacity for large carnivores. Illegal bushmeat hunting represents an economically inefficient use of the delta's wildlife and a threat to the region's tourism industry. Strategies are required that provide clearer avenues for communities to benefit legally from wildlife, while concurrently curbing illegal hunting through effective law enforcement.The Food and Agriculture Organization of the United Nations for funding this project under Technical Cooperation Programme project TCP/BOT/3501, in partnership with Panthera and the Botswana Predator Conservation Trust.http://www.elsevier.com/ locate/biocon2018-06-30hj2018Mammal Research InstituteZoology and Entomolog

Highly endangered african wild dogs (<i>Lycaon pictus</i>) lack variation at the major histocompatibility complex

The major histocompatibility complex (MHC) is a set of highly polymorphic genes involved in the immune response. Extensive research on the canid MHC has found moderate-to-high levels of diversity at the DLA-DRB1, DLA-DRA, DLA-DQA1, and DLA-DQB1 class II loci with frequent transspecific polymorphism among &lt;i&gt;Canis&lt;/i&gt; species. In this study, we assessed MHC variation in the more distantly related and highly endangered African wild dog (&lt;i&gt;Lycaon pictus&lt;/i&gt;). We screened 168 African wild dogs from Eastern and Southern Africa as well as 200 samples from the European captive population for variation at MHC class II loci. As for all other canids screened to date, we found a single allele at DLA-DRA, which was the same as that found in &lt;i&gt;Canis&lt;/i&gt; species. In contrast, we found 17 DLA-DRB1 alleles, one DLA-DQA1 allele, and two DLA-DQB1 alleles, all of which were unique to African wild dogs. At DLA-DRB1, African wild dogs were found to have comparable numbers of alleles but less overall amino acid variation than other canids. However, the low numbers of alleles at DLA-DQA1 and DLA-DQB1 are surprising, given that in other canids, these loci are also highly variable. Overall, our data suggest that African wild dogs are genetically depauperate at the MHC relative to other canids. These data are indicative of a loss of genetic variation, possibly as a result of population bottlenecks and declines experienced by this specie

Multi-host pathogens and carnivore management in southern Africa

A retrospective serosurvey of multi-host feline and canine viruses among carnivore species in southern Africa (n = 1018) identified widespread pathogen exposure even in remote protected areas. In contrast to mortality experienced in East African predators, canine distemper virus (CDV) infection among African wild dogs (Lycaon pictus) in Botswana was not associated with identifiable change in pup survivorship or disease related mortality of adults. A disease outbreak of unknown aetiology occurred in the same population over 4 weeks in 1996. Outbreak boundaries coincided with ecotones, not the spatial distribution of contiguous packs, highlighting the potential importance of landscape heterogeneities in these processes. Direct management of pathogens in domestic animal reservoirs is complicated by the apparent complexity of pathogen maintenance and transmission in these large systems. Conservation effort should be focused at securing large metapopulations able to compensate for expected episodic generalist pathogen