Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-30T16:00:02.722Z Has data issue: false hasContentIssue false

Challenges and possible conservation implications of recolonizing dholes Cuon alpinus in Nepal

Published online by Cambridge University Press:  31 January 2024

Yadav Ghimirey*
Affiliation:
Friends of Nature (FON Nepal), Kathmandu, Nepal Department of Wildlife Ecology and Conservation, University of Florida, Gainesville, Florida, USA
Raju Acharya
Affiliation:
Friends of Nature (FON Nepal), Kathmandu, Nepal
Kaushal Yadav
Affiliation:
Nature Conservation and Study Centre, Kathmandu, Nepal
Jeevan Rai
Affiliation:
Nature Conservation and Study Centre, Kathmandu, Nepal
Rishi Baral
Affiliation:
Department of Environmental Veterinary Science, Laboratory of Wildlife Biology and Medicine, Hokkaido University, Japan
Utsav Neupane
Affiliation:
Birat Environmental Consultancy, Biratnagar, Nepal
Binod Basnet
Affiliation:
National Trust for Nature Conservation, Khumaltar, Nepal
Martin Gilbert
Affiliation:
Cornell Wildlife Health Center, College of Veterinary Medicine, Cornell University, Ithaca, New York, USA
Shashank Poudel
Affiliation:
Department of Natural Resources and Environment, Cornell University, Ithaca, New York, USA
Berndt J. van Rensburg
Affiliation:
School of Environment, University of Queensland, St Lucia, Queensland, Australia Department of Zoology, University of Johannesburg, Johannesburg, South Africa Department of Zoology and Entomology, University of Pretoria, Pretoria, South Africa
*
*Corresponding author, yadavghimirey@ufl.edu

Abstract

The Endangered dhole Cuon alpinus is a medium-sized canid that was historically distributed widely across East, Central, South and Southeast Asia. In Nepal, following heavy persecution during the 1970s and 1980s, the species was locally extirpated across large parts of the country. After decades of near absence, the dhole is reportedly showing signs of recovery in various areas of Nepal. We carried out three surveys using camera traps (resulting in a total of 6,550 camera-trap days), reviewed literature and interviewed herders and conservation practitioners (40 interviews) to determine the historical and current distribution of dholes in the country, and the species’ current status. Our camera traps recorded five images of dholes, and the literature review and interview survey provided further insights into the historical and current presence of dholes in Nepal. The combined findings suggest dholes have recolonized many areas where they had been locally extirpated, such as the Annapurna Conservation Area in central Nepal and the Tinjure–Milke–Jaljale forests in the eastern part of the country. Although these returns are encouraging, challenges remain for dhole recolonization, including conflict with livestock herders, human hunting of wild ungulates affecting the species’ prey base, increasing infrastructure development in forested areas, and diseases.

Type
Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Fauna & Flora International

Introduction

The Asiatic wild dog or dhole Cuon alpinus is an apex predator found in the forests of South and Southeast Asia and is categorized as Endangered on the IUCN Red List, with a global population estimated to be 949–2,215 mature individuals in the wild (Kamler et al., Reference Kamler, Songsasen, Jenks, Srivathsa, Sheng and Kunkel2015). Dholes have been persecuted by people across large parts of their range because of the perceived threat they pose to livestock (Durbin et al., Reference Durbin, Venkataraman, Hedges, Duckworth, Sillero-Zubiri, Hoffmann and Macdonald2004). The species was hunted almost to extinction in many parts of India during the colonial era, when they were labelled as vermin, before receiving legal protection in 1972 (Cohen, Reference Cohen1978; Kamler et al., Reference Kamler, Songsasen, Jenks, Srivathsa, Sheng and Kunkel2015). This persecution, together with large-scale habitat loss, has caused the overall dhole distribution to contract to less than 25% of the species’ former global range in the 20th century (Wolf & Ripple, Reference Wolf and Ripple2017). Formerly distributed widely across East, Central, South and Southeast Asia, dhole populations have contracted considerably and are now mostly limited to the protected areas of 11 countries in South and Southeast Asia (Kamler et al., Reference Kamler, Songsasen, Jenks, Srivathsa, Sheng and Kunkel2015; Srivathsa et al., Reference Srivathsa, Karanth, Kumar and Oli2019; Kao et al., Reference Kao, Songsasen, Ferraz and Taylor-Helzar2020).

In Nepal, dholes have been categorized as Endangered on the national Red List, with an assumed population of fewer than 500 individuals. Dholes have been reported to occur in Bardia, Chitwan, Rara, Parsa and Shuklaphanta National Parks (Jnawali et al., Reference Jnawali, Baral, Lee, Subedi, Acharya and Upadhya2011). Recent records suggest the species also occurs in locations where it had not been previously recorded, and that it has reappeared in areas where it had been extirpated. These sites include Kanchenjunga Conservation Area (Khatiwada et al., Reference Khatiwada, Awasthi, Gautam, Jnawali, Subedi and Aryal2011), Dhorpatan Hunting Reserve (Aryal et al., Reference Aryal, Panthi, Barraclough, Bencini, Adhikari, Ji and Raubenheimer2015) and Barandabhar Corridor Forests (Lamichhane et al., Reference Lamichhane, Gurung, Pokheral, Rayamajhi, Gotame, Regmi and Lamichhane2018).

We reviewed the available literature, interviewed relevant stakeholders and conducted a camera-trap survey to assess the historical presence and distribution of dholes in Nepal and the reasons for their decline. We also gathered recent records to augment our understanding of the current status of dholes in the country, and we discuss potential challenges to their recolonization.

Methods

Camera trapping

We conducted camera-trap surveys at two study sites: Annapurna Conservation Area during January–March 2017 and April–November 2018, and the Tinjure–Milke–Jaljale forests during December 2017 (Fig. 1). Annapurna Conservation Area is a gazetted protected area, whereas the Tinjure–Milke–Jaljale forests are not. The survey in the Annapurna Conservation Area was primarily conducted to estimate the occupancy of the clouded leopard Neofelis nebulosa, and that in the Tinjure–Milke–Jaljale forests to detect the presence of the binturong Arctictis binturong (Ghimirey et al., Reference Ghimirey, Yadav, Rai and Baral2018; Rai, Reference Rai2018a). However, camera traps placed along well-established trails are also suitable for detecting other wildlife, livestock and people (Linkie et al., Reference Linkie, Guillera-Arroita, Smith, Ario, Bertagnolio and Cheong2013; Williams et al., Reference Williams, Pitman, Mann, Whittington-Jones, Comley and Williams2021). Camera-trap stations consisted of single camera traps (Reconyx Hyperfire, Reconyx, Holmen, USA; HCO Scoutguard, HCO Outdoor Products, Dulluth, USA; Bushnell cameras, Bushnell Outdoor Products, Overland Park, USA) set up 45–60 cm above ground level. We set cameras to operate continuously, with a delay of 10 s between successive captures. Camera traps were active for a minimum of 9 days (in the Tinjure–Milke–Jaljale forests) to a maximum of 107 days (in Annapurna Conservation Area), depending on the survey site and the individual camera-trap location.

Fig. 1 Areas in Nepal where we carried out camera-trap surveys. White dots indicate locations where dholes Cuon alpinus were recorded.

Literature review

We reviewed both peer-reviewed and grey literature published during 1950–2022 using the platforms Google Scholar (Google, 2022), Scopus (Elsevier, Amsterdam, The Netherlands) and Web of Science (Clarivate, Philadelphia, USA). The search terms included [‘Asiatic wild dog’ OR ‘dhole’ OR ‘Cuon alpinus’] AND [‘occurrence’ OR ‘decline’] AND ‘Nepal’. We also searched for studies focused on other wildlife species in which dholes may also have been recorded. Keywords used included [‘wildlife survey’ OR ‘wildlife research’ OR ‘mammal survey’] AND ‘Nepal’. We screened titles and abstracts of the resulting literature to identify potentially relevant reports that could provide information on dhole presence and distribution in present and historical contexts. We reviewed relevant articles and information on dhole occurrences, declines and other parameters recorded.

Stakeholder interviews

We further explored dhole recolonization through interviews with 40 respondents, comprising conservation professionals and local people (herders, current/past hunters), to collect additional anecdotal evidence of dhole presence and apparent absence in various areas in Nepal. We interviewed herders and hunters in person, and conservation professionals using digital platforms such as email and social media (primarily Facebook; Meta Platforms, Reference . and .2022). The aim of these interviews was solely to assess whether the interviewees were aware of any historical or current records of dholes in their local area (i.e. not for testing any specific hypothesis); we thus asked a range of questions on the historical presence and current status of dholes across Nepal. We asked for evidence of any reported presence of the species (e.g. photographs or pelts) to verify such reports if possible. If declines of dhole populations were reported, we asked interviewees for the possible causes of such declines. To ensure that interviewees were clear about the species under discussion, we asked questions on morphological features and behavioural attributes of dholes. As far as possible, we avoided leading questions, to ensure that interviewees responded based on what they knew and not on what we wanted to hear (Fox, Reference Fox2006; Cairns-Lee et al., Reference Cairns-Lee, Lawley and Tosey2022).

Results

A total of 6,550 camera-trap days resulted in 10,114 independent images, with 3,723 images (37%) showing wildlife, including 26 species of mammals. Dholes were photographed five times in total, with only a single individual evident in each image. Potential dhole prey species detected by camera traps were the northern red muntjac Muntiacus vaginalis, mainland serow Capricornis thar, Himalayan goral Naemorhedus goral, Assamese macaque Macaca assamensis and Nepal gray langur Semnopithecus schistaceus. Detections of people and livestock (buffalos, goats, sheep, domesticated yaks) varied greatly across the two areas. Potential dhole competitors detected were the leopard Panthera pardus, the apex predator of the area in both Annapurna Conservation Area and the Tinjure–Milke–Jaljale forests, and the clouded leopard, which was recorded only in Annapurna Conservation Area in 2017. Details regarding the camera-trapping surveys are provided in Table 1.

Table 1 Summary of the results from three camera-trapping surveys in Nepal (Fig. 1) indicating the reappearance of the dhole Cuon alpinus in Annapurna Conservation Area and the Tinjure–Milke–Jaljale forests. The abundance index for the dhole is the number of independent detections per 100 camera-trap days. Numbers given for potential prey and competitor species, livestock and people represent independent detections.

Our literature review identified a total of 27 publications (Supplementary Material 1) containing relevant information on the historical or current distribution of dholes in Nepal.

Based on all the data that we obtained (from camera-trap surveys, literature review and stakeholder interviews), we documented historical records of dholes (although few) and their current distribution in 10 districts and 18 protected areas (Table 2).

Table 2 Summary of dhole historical records and current distribution (Fig. 2) in Nepal based on data obtained from camera traps, literature review and stakeholder interviews.

Historical presence and decline

Dholes were historically documented in Lamtang National Park, Sagarmatha National Park, Bardia-Karnali Wildlife Reserve (present-day Bardia National Park and possibly Banke National Park), Chitwan National Park (Jnawali et al., Reference Jnawali, Baral, Lee, Subedi, Acharya and Upadhya2011), Dhorpatan Hunting Reserve, Kanchenjunga Conservation Area and the Salpa Pokhari area in eastern Nepal (Dinerstein, Reference Dinerstein1980; Green, Reference Green1981; Lovari et al., Reference Lovari, Boesi, Minder, Mucci, Randi, Dematteis and Ale2009; Sherchan & Bhandari, Reference Sherchan and Bhandari2017; Rai, Reference Rai2018b). Interviews indicated the historical presence of dholes in Makalu-Barun National Park, Humla district, Mustang district, Manang district (S. Ale, in litt., July 2022), Ilam district (M.B. Gurung, pers. comm., 2007) and Jajarkot district (G. Singh, in litt., July 2022). Dholes reportedly predated heavily on livestock, leading to retaliatory persecution through poisoning of bait carcasses, which killed large numbers of dholes (Lovari et al., Reference Lovari, Boesi, Minder, Mucci, Randi, Dematteis and Ale2009; Khatiwada et al., Reference Khatiwada, Awasthi, Gautam, Jnawali, Subedi and Aryal2011; G. Singh, in litt., July 2022). There was also evidence of the disappearance of dholes from Chitwan National Park and Bardia National Park during the early 1990s (Jnawali et al., Reference Jnawali, Baral, Lee, Subedi, Acharya and Upadhya2011; Yadav et al., Reference Yadav, Lamichhane, Subedi, Thapa, Poudyal and Dahal2019).

Current dhole presence

Camera traps confirmed the presence of dholes in Annapurna Conservation Area and the Tinjure–Milke–Jaljale forests (Ghimirey, Reference Ghimirey2017; NTNC/ACAP, 2018; Rai, Reference Rai2018a). A total of five images of dholes were captured, all of which showed single individuals (Plate 1). We assumed these captures to be of five different individuals, based on conversations with herders. The literature review provided evidence of dholes from Makalu-Barun National Park (Byers et al., Reference Byers, Byers and Thapa2014) and the Topke Gola area outside Kanchenjunga Conservation Area (Shrestha et al., Reference Shrestha, Basnet, Bhandari and Gurung2016). Interviews indicated dhole presence in Lamtang National Park, Shey-Phoksundo National Park and Jajarkot district. A total of five potential packs were recorded in Chitwan National Park (Thapa et al., Reference Thapa, Kelly, Karki and Subedi2013), four or five packs are believed to live in the Yamphudin region in Kanchenjunga Conservation Area and two packs in the lower area of Shey-Phoksundo National Park (Sherchan & Bhandari, Reference Sherchan and Bhandari2017; G. Khanal, in litt., July 2022). From the information we obtained through literature review, interviews and camera-trap surveys, the presence of dholes was confirmed in 12 different sites in Nepal (Fig. 2). The literature review and interviews indicated the potential absence of dholes from Gaurishankar Conservation Area (B. Pandey & S. Thami, in litt., July 2022), Ilam-Panchthar district (Lama, Reference Lama2018), Dadeldhura district (Thapa et al., Reference Thapa, Subba, Thapa, Dewan, Acharya and Bohara2022), Manaslu Conservation Area (M.B. Gurung, in litt., July 2022), Rara National Park (S. Khadka, in litt., 2020) and Udayapur district (Shah et al., Reference Shah, Thapa, Poudel, Basnet and Gautam2018).

Fig. 2 Current knowledge on the distribution of dholes in the districts and protected areas of Nepal (Table 2). Districts: A, Bhojpur; B, Dadeldhura; C, Dang; D, Humla; E, Ilam; F, Jajarkot; G, Manang; H, Mustang; I, Panchthar; J, Udayapur. Protected areas (CA, Conservation Area; NP, National Park): 1, Annapurna CA; 2, Api-Nampa CA; 3, Banke NP; 4, Bardia NP; 5, Chitwan NP; 6, Dhorpatan Hunting Reserve; 7, Gaurishankar CA; 8, Kanchenjunga CA; 9, Khaptad NP; 10, Lamtang NP; 11, Makalu-Barun NP; 12, Manaslu CA; 13, Parsa NP; 14, Rara NP; 15, Sagarmatha NP; 16, Shey-Phoksundo NP; 17, Shivapuri-Nagarjun NP; 18, Tinjure-Milke-Jaljale forests. Note: Annapurna CA extends across several districts, with dholes present in the southern area but possibly absent from the northern part (in Manang and Mustang districts), hence the overlap of confirmed presence and possible absence.

Plate 1 Camera-trap photo of a dhole Cuon alpinus in Annapurna Conservation Area, Nepal. Photo: Friends of Nature.

Discussion

The historical presence of dholes in Nepal has been documented by various explorers (Blower, Reference Blower1973; Dinerstein, Reference Dinerstein1980; Green, Reference Green1981; Johnsingh, Reference Johnsingh1985; Yonzon, Reference Yonzon1989; Heinen, Reference Heinen1995; Mehta & Kellert, Reference Mehta and Kellert1998; Lovari et al., Reference Lovari, Boesi, Minder, Mucci, Randi, Dematteis and Ale2009). As most of these explorations were carried out at a local scale, little information is available regarding the historical presence of dholes for large parts of the country (but see Blower (Reference Blower1973), who refers to their wide distribution in the country up to altitudes of c. 3,700 m). Our interviews with herders and conservation practitioners corroborated the previous observation that dholes were historically present in various areas in Nepal, from lowlands to areas above 3,500 m (Blower, Reference Blower1973).

The exact reason for the decline of dholes in Nepal is unknown, although reduction in its forest habitat during 1947–1980, when forest cover in the country was reduced from 57% to 23%, is believed to be an important factor (Chaudhary et al., Reference Chaudhary, Uprety, Rimal and Sivanpillai2016). Poaching was also a problem during this period, which supposedly led to faunal collapse in the lowlands of Nepal (Heinen, Reference Heinen1995). However, forest loss in the mid-hills and high mountains was less severe during this period, which suggests that retaliatory killing and/or prey loss could have played a role, as these are commonly implicated in the extirpation of dholes from many areas of their historical range (Kamler et al., Reference Kamler, Songsasen, Jenks, Srivathsa, Sheng and Kunkel2015). Research has shown the negative impacts of carcass poisoning in Kanchenjunga Conservation Area and Annapurna Conservation Area in Nepal (Khatiwada et al., Reference Khatiwada, Awasthi, Gautam, Jnawali, Subedi and Aryal2011; Acharya et al., Reference Acharya, Ghimirey and Adhikary2013), as well as in Bhutan (Kamler et al., Reference Kamler, Songsasen, Jenks, Srivathsa, Sheng and Kunkel2015) and India (Burton, Reference Burton1940). Dholes prey on medium to large wild ungulates such as sambar Rusa unicolor (Cohen, Reference Cohen1978; Durbin et al., Reference Durbin, Venkataraman, Hedges, Duckworth, Sillero-Zubiri, Hoffmann and Macdonald2004), which have possibly been hunted to extinction from large areas in the mountains of Nepal (Shah et al., Reference Shah, Thapa, Poudel, Basnet and Gautam2018). Thus, reduced prey availability could have contributed to the dhole population decline either directly through reduction in food availability or indirectly through retaliatory persecution, as dholes are forced to rely on livestock to fulfil their nutritional needs. This decline and/or local extirpation of dhole populations has also been inferred from the results of wildlife surveys in various areas of the mid-hills in Nepal conducted in the early 2000s and 2010s, where dholes remained undetected (Ghimirey, Reference Ghimirey2010; Ghimirey & Acharya, Reference Ghimirey and Acharya2012; Pandey, Reference Pandey2012; Acharya et al., Reference Acharya, Ghimirey and Adhikary2013; Khanal, Reference Khanal2016; Can et al., Reference Can, Yadav, Johnson, Ross, D'Cruze and Macdonald2020; GPFD, 2021).

Currently, dholes are known to occur in 12 sites across Nepal. The evidence of dhole presence in some areas requires critical analysis and cross-validation. For example, the presence of dholes in Api-Nampa Conservation Area has been determined previously based on scat (Neupane, Reference Neupane2017); however, interviews with one respondent indicated that this could be a case of misidentification. Park personnel in Khaptad National Park confirmed the presence of dholes based on a camera-trap image of a red fox (KNP, 2019). The presence of dholes in the Badhimalika region in western Nepal has been reported previously, but without evidence to support this claim (Karki et al., Reference Karki, Shrestha and Khanal2002). Similarly, there have also been areas where an intensive survey in 2015 failed to detect the species (Can et al., Reference Can, Yadav, Johnson, Ross, D'Cruze and Macdonald2020), but interviews with herders in 2019 indicated recent sightings. In a recent camera-trap survey in Dhorpatan Hunting Reserve, where dholes are believed to be present, no dholes were detected (Regmi et al., Reference Regmi, Belang, Pant and Sharma2023).

Challenges to dhole recolonization

Recent evidence of the reappearance of dholes in many of its formerly occupied areas (e.g. Annapurna Conservation Area and the Tinjure–Milke–Jaljale forests, as shown by our camera-trap data) suggests that the species could be recovering in some parts of Nepal, but this brings its own set of challenges. Recolonization efforts, like reintroductions, will only be successful if the threats that drove a species to extinction are either completely absent or their magnitude/intensity is significantly reduced (IUCN SSC, 2013). Therefore, it is important to assess these threats before conducting such efforts. Annapurna Conservation Area is frequently used by people for the collection of non-timber forest products and for livestock herding, which are important sources of revenue for local communities; this may lead to human–dhole conflict in future.

If dhole numbers were to increase in these areas, we expect they would form social packs to facilitate efficient hunting of their prey (Durbin et al., Reference Durbin, Venkataraman, Hedges, Duckworth, Sillero-Zubiri, Hoffmann and Macdonald2004). Our camera-trap records indicate that the relative abundance of prey species on which dholes typically rely, such as the northern red muntjac and mainland serow, varies significantly, with encounter rates of 20.3–24.2 and 1.7–2.6 photos per 100 trap-days, respectively (Ghimirey, Reference Ghimirey2017). In addition, the encounter rate for human disturbance (defined as any photographs showing people; 16 photos per 100 trap-days) provides evidence of high human activity, including hunting, as indicated by multiple camera-trap pictures of hunters carrying guns (Ghimirey, Reference Ghimirey2017). Such presence will probably increase livestock depredation, and there is already evidence of livestock depredation by dholes in the area (Supplementary Plate 1). Repeated livestock depredation may lead to retaliatory actions, threatening the recovery of dhole populations. There are also reports of an increasing number of human–dhole conflict incidents in Kanchenjunga Conservation Area (Sherchan & Bhandari, Reference Sherchan and Bhandari2017) and Shey-Phoksundo National Park (G. Khanal, in litt., July 2022). Although depredation incidents were also reported in Dhorpatan Hunting Reserve (P. Thapa, in litt., July 2022), these need further validation, as recent camera-trapping efforts did not record the species in the area (Regmi et al., Reference Regmi, Belang, Pant and Sharma2023). Nevertheless, this potential for negative human–wildlife interactions represents a significant challenge for dhole recolonization in many mid-hill regions in Nepal, including Makalu-Barun National Park, Lamtang National Park and the Tinjure–Milke–Jaljale forests, where dhole populations appear to be recovering.

Furthermore, the mid-hills in Nepal, despite increasing forest cover because of community forestry (Oldekop et al., Reference Oldekop, Sims, Whittingham and Agrawal2018), are subject to habitat destruction and fragmentation because of hydropower projects and road construction (Plate 2). At least 220 hydropower projects (> 1 megawatt) are in the construction phase across Nepal (Investopaper, 2022), and evidence suggests that hydropower projects in Nepal do not always comply with environmental regulations (Ghimirey, Reference Ghimirey2020; Ghimire et al., Reference Ghimire, Phuyal and Singh2021). Forests in the lowland region have a high density of prey, making them ideal for recolonizing dholes, but there has been a rapid decline in forest cover over the last 50 years in these areas, with the highest deforestation rate in Nepal (DFRS, 2015; Chaudhary et al., Reference Chaudhary, Uprety, Rimal and Sivanpillai2016). The lowland region supports nearly 50% of the total human population of the country, putting pressure on lowland forests and thus on dholes and their habitats.

Plate 2 Dhole habitat destruction caused by hydropower infrastructure construction near Tangting village, Madi Rural Municipality, Nepal (March 2019). Photo: Yadav Ghimirey.

Our camera traps recorded multiple images of domestic dogs, highlighting a risk of disease transmission between dogs and dholes, a threat that has not yet been evaluated. Dholes are known to be susceptible to infectious diseases, particularly rabies and canine distemper viruses (Durbin et al., Reference Durbin, Venkataraman, Hedges, Duckworth, Sillero-Zubiri, Hoffmann and Macdonald2004), which have proven to be serious concerns to the conservation of other threatened canid populations, including Ethiopian wolves Canis simensis (Haydon et al., Reference Haydon, Laurenson and Sillero-Zubiri2002; Gordon et al., Reference Gordon, Banyard, Hussein, Laurenson, Malcolm and Marino2015) and African wild dogs Lycaon pictus (Gascoyne et al., Reference Gascoyne, Laurenson, Lelo and Borner1993). As yet, the impact of these viruses on the recovery of dholes in Nepal remains unknown, but both viruses are widespread and common in the country (Devleesschauwer et al., Reference Devleesschauwer, Aryal, Sharma, Ale, Declercq and Depraz2016; Ng et al., Reference Ng, Carver, Gotame, Karmasharya, Karmacharya and Pradhan2019) and have a disproportionate impact on the viability of small populations (Gilbert et al., Reference Gilbert, Miquelle, Goodrich, Reeve, Cleaveland, Matthews and Joly2014; Marino et al., Reference Marino, Sillero-Zubiri, Deressa, Bedin, Bitewa and Lema2017).

We expect positive impacts in areas where dholes are recolonizing, most importantly the regulation of large ungulate populations (Kamler et al., Reference Kamler, Thatdokkham, Rostro-García, Bousa, Caragiulo and Crouthers2020), which can have a detrimental impact on vegetation (Ripple et al., Reference Ripple, Newsome, Wolf, Dirzo, Everatt and Galetti2015). However, because the landscape that dholes are recolonizing is also being used by people, dhole population growth could affect livestock herding negatively. As livestock herding is one of the most important livelihood activities in the mid-hills of Nepal (Ghimire & Parajuli, Reference Ghimire and Parajuli2001; Bhattarai & Kindlmann, Reference Bhattarai, Kindlmann and Kindlmann2012), a rise in dhole populations could lead to livestock depredation and consequently retaliatory killings of dholes. It is therefore necessary to prepare for such potential negative dhole–human interactions by working with relevant stakeholders to introduce predator avoidance measures, support depredation compensation from the government (DNPWC, 2013) and possibly explore insurance schemes to try to prevent retaliation if livestock depredation occurs. Furthermore, the impacts of infrastructure development in potential dhole habitats need to be carefully assessed as such information has been lacking previously (Ghimirey, Reference Ghimirey2020) and the mitigation of prospective threats is urgent. Dholes recolonizing the forests in Nepal is an inspiring conservation story; however, effective in situ conservation efforts are necessary for the long-term conservation of this species in Nepal.

Acknowledgements

We thank The Rufford Foundation, Bernd Thies Stiftung and Rural Reconstruction Nepal for financial support of our fieldwork; the Department of National Parks and Wildlife Conservation, Department of Forests and Soil Conservation and Annapurna Conservation Area Project for granting permission to conduct our surveys; and all individuals who provided us with information for use in this study.

Author contributions

Fieldwork and data collection: YG, RA, KY, JR, UN; writing, revision: all authors. YG, JR and MG contributed equally.

Conflicts of interest

None.

Ethical standards

This research involved a non-invasive survey and otherwise abided by the Oryx guidelines on ethical standards. The survey was conducted in a socially responsible manner and images showing people were used and stored in a way that protects privacy and does not cause harm to people.

Footnotes

The supplementary material for this article is available at doi.org/10.1017/S003060532300073X

References

Acharya, R., Ghimirey, Y. & Adhikary, B. (2013) Wolf in Hugu-Kori: truth or myth? Wolf Print, 48, 2022.Google Scholar
Aryal, A., Panthi, S., Barraclough, R.K., Bencini, R., Adhikari, B., Ji, W. & Raubenheimer, D. (2015) Habitat selection and feeding ecology of dhole (Cuon alpinus) in the Himalayas. Journal of Mammalogy, 96, 4753.CrossRefGoogle Scholar
Bhattarai, B.P. & Kindlmann, P. (2012) Impact of livestock grazing on the vegetation and wild ungulates in the Barandabhar Corridor Forest, Nepal. In Himalayan Biodiversity in the Changing World (ed. Kindlmann, P.), pp. 157175. Springer, London, UK.CrossRefGoogle Scholar
Blower, J. (1973) Rhinos – and other problems – in Nepal. Oryx, 12, 270280.CrossRefGoogle Scholar
Burton, R.W. (1940) The Indian wild dog. Journal of Bombay Natural History Society, 41, 691715.Google Scholar
Byers, A.C., Byers, E.A. & Thapa, D. (2014) Conservation and Restoration of Alpine Ecosystems in the Upper Barun Valley, Makalu-Barun National Park, Nepal. Final Report Submitted to National Geographic Society. The Mountain Institute, Washington, DC, USA.Google Scholar
Cairns-Lee, H., Lawley, J. & Tosey, P. (2022) Enhancing researcher reflexivity about the influence of leading questions in interviews. Journal of Applied Behavioral Science, 58, 164188.CrossRefGoogle Scholar
Can, Ö.E., Yadav, B.P., Johnson, P.J., Ross, J., D'Cruze, N. & Macdonald, D.W. (2020) Factors affecting the occurrence and activity of clouded leopards, common leopards and leopard cats in the Himalayas. Biodiversity and Conservation, 29, 839851.CrossRefGoogle Scholar
Chaudhary, R.P., Uprety, Y. & Rimal, S.K. (2016) Deforestation in Nepal: causes, consequences, and responses. In Biological and Environmental Hazards, Risks, and Disasters (ed. Sivanpillai, R.), pp. 335372. Elsevier, Amsterdam, The Netherlands.CrossRefGoogle Scholar
Cohen, J.A. (1978) Food habits of the dhole in South India. Journal of Wildlife Management, 42, 933936.CrossRefGoogle Scholar
Devleesschauwer, B., Aryal, A., Sharma, B.K., Ale, A., Declercq, A., Depraz, S. et al. (2016) Epidemiology, impact and control of rabies in Nepal: a systematic review. PLOS Neglected Tropical Diseases, 10, 118.CrossRefGoogle ScholarPubMed
DFRS (Department of Forest Research and Survey) (2015) State of Nepal's Forests. Forest Resource Assessment and Department of Forest Research and Survey, Kathmandu, Nepal.Google Scholar
Dinerstein, E. (1980) An ecological survey of the Royal Karnali-Bardia Wildlife Reserve, Nepal. Part III: ungulate populations. Biological Conservation, 18, 538.CrossRefGoogle Scholar
DNPWC (Department of National Parks and Wildlife Conservation) (2013) Wildlife Damage Relief Guideline (in Nepali Language). Third Amendment 2018. Department of National Parks and Wildlife Conservation, Kathmandu, Nepal.Google Scholar
Durbin, L.S., Venkataraman, A.B., Hedges, S. & Duckworth, J.W. (2004) Dhole: Cuon alpinus. In Canids: Foxes, Wolves, Jackals and Dogs: Status Survey and Conservation Action Plan (eds Sillero-Zubiri, C., Hoffmann, M. & Macdonald, D.W.), pp. 210219. IUCN SSC Canid Specialist Group, Gland, Switzerland, and Cambridge, UK.Google Scholar
Fox, N. (2006) Using Interviews in a Research Project. TRENT RDSU, Sheffield, UK.Google Scholar
Gascoyne, S.C., Laurenson, M.K., Lelo, S. & Borner, M. (1993) Rabies in African wild dogs (Lycaon pictus) in the Serengeti region, Tanzania. Journal of Wildlife Diseases, 29, 396402.CrossRefGoogle ScholarPubMed
Ghimire, S.K. & Parajuli, D.B. (2001) Indigenous knowledge and practice of pasture management among the Pugmo people of Shey-Phoksundo National Park, Dolpo. The Wildlife Magazine, 3, 714.Google Scholar
Ghimire, H.R., Phuyal, S. & Singh, N.R. (2021) Environmental compliance of hydropower projects in Nepal. Environmental Challenges, 5, 100307.CrossRefGoogle Scholar
Ghimirey, Y. (2010) An Assessment of Status of Small Carnivores, with a Special Focus on Clouded Leopard, in Makalu-Barun National Park, Nepal. Friends of Nature, Kathmandu, Nepal.Google Scholar
Ghimirey, Y. (2017) Clouded Leopard in Hugu-Kori Forests, Annapurna Conservation Area, Nepal. Friends of Nature, Kathmandu, Nepal.Google Scholar
Ghimirey, Y. (2020) Nepal's environment impact non-assessments. Nepali Times, May 2020. nepalitimes.com/latest/nepals-environment-impact-non-assessments [accessed March 2021].Google Scholar
Ghimirey, Y. & Acharya, R. (2012) Status Assessment of Wild Felids with a Special Focus on Clouded Leopard in Hugu-Kori Biodiversity Hotspot, Annapurna Conservation Area, Nepal. Friends of Nature, Kathmandu, Nepal.Google Scholar
Ghimirey, Y., Yadav, K., Rai, J. & Baral, R. (2018) Clouded leopard in Sikles-Bhujung landscape, Annapurna Conservation Area, Nepal. Cat News, 68, 1315.Google Scholar
Gilbert, M., Miquelle, D.G., Goodrich, J.M., Reeve, R., Cleaveland, S., Matthews, L. & Joly, D.O. (2014) Estimating the potential impact of canine distemper virus on the Amur tiger population (Panthera tigris altaica) in Russia. PLOS One, 9, e110811.Google Scholar
Google (2022) Google Scholar. Google, Mountain View, USA. scholar.google.com [accessed September 2023].Google Scholar
Gordon, C.H., Banyard, A.C., Hussein, A., Laurenson, M.K., Malcolm, J.R., Marino, J. et al. (2015) Canine distemper in endangered Ethiopian wolves. Emerging Infectious Diseases, 21, 824832.CrossRefGoogle ScholarPubMed
GPFD (Gandaki Province Forest Directorate) (2021) Checklists of Fauna of the Seti River Corridor. Gandaki Province Forest Directorate, Gandaki Province, Nepal.Google Scholar
Green, M.J.B. (1981) A checklist and some notes concerning the mammals of the Langtang National park, Nepal. Journal of Bombay Natural History, 2, 7787.Google Scholar
Haydon, D.T., Laurenson, M.K. & Sillero-Zubiri, C. (2002) Integrating epidemiology into population viability analysis: managing the risk posed by rabies and canine distemper to the Ethiopian wolf. Conservation Biology, 16, 13721385.CrossRefGoogle Scholar
Heinen, J.T. (1995) The faunal collapse of large mammals in the reserves of the Nepalese terai. TigerPaper, 22, 1824.Google Scholar
Investopaper (2022) 220 Hydropower Projects Under Construction in Nepal to Generate 7110 MW Electricity. investopaper.com/news/hydropower-projects-with-construction-license [accessed 3 October 2022].Google Scholar
IUCN SSC (2013) Guidelines for Reintroductions and Other Conservation Translocations. Version 1.0. IUCN Species Survival Commission, Gland, Switzerland. portals.iucn.org/library/efiles/documents/2013-009.pdf [accessed June 2023].Google Scholar
Jnawali, S.R., Baral, H.S., Lee, S., Subedi, N., Acharya, K.P., Upadhya, G. et al. (2011) The Status of Nepal Mammals: The National Red List Series. Department of National Parks and Wildlife Conservation, Kathmandu, Nepal.Google Scholar
Johnsingh, A.J.T. (1985) Distribution and status of dhole Cuon alpinus Pallas, 1811 in South Asia. Mammalia, 49, 203208.CrossRefGoogle Scholar
Kamler, J.F., Songsasen, N., Jenks, K., Srivathsa, A., Sheng, L. & Kunkel, K. (2015) Cuon alpinus. In The IUCN Red List of Threatened Species 2015. dx.doi.org/10.2305/IUCN.UK.2015-4.RLTS.T5953A72477893.en.Google Scholar
Kamler, J.F., Thatdokkham, K., Rostro-García, S., Bousa, A., Caragiulo, A., Crouthers, R. et al. (2020) Diet and prey selection of dholes in evergreen and deciduous forests of southeast Asia. Journal of Wildlife Management, 84, 13961405.CrossRefGoogle Scholar
Kao, J., Songsasen, N., Ferraz, K. & Taylor-Helzar, K. (2020) Range-Wide Population and Habitat Viability Assessment for the Dhole, Cuon alpinus. IUCN SSC Conservation Planning Specialist Group, Apple Valley, USA. canids.org/resources/Dhole_PHVA_Report_2020.pdf [accessed June 2023].Google Scholar
Karki, J.B., Shrestha, K. & Khanal, B. (2002) Faunal diversity and related conservation issues at Badimalika region (Achham, Bajura and Kalikot districts), Nepal. The Wildlife, 8, 1422.Google Scholar
Khanal, C. (2016) Status, Distribution and Conservation Initiatives of Striped Hyaena (Hyaena hyaena) in Deukhuri Valley, Dang Nepal. The Rufford Foundation, London, UK. rufford.org/projects/chiranjeevi-khanal/status-distribution-and-conservation-initiatives-of-striped-hyaena-hyaena-hyaena-in-deukhuri-valley-dang-nepal [accessed June 2023].Google Scholar
Khaptad National Park (2019) Khaptad National Park: Annual Progress Report. Khaptad National Park and Department of National Parks and Wildlife Conservation, Kathmandu, Nepal.Google Scholar
Kharel, F.R. (1997) Agricultural crop and livestock depredation by wildlife in Langtang National Park, Nepal. Mountain Research and Development, 17, 127134.CrossRefGoogle Scholar
Khatiwada, A.P., Awasthi, K., Gautam, N.P., Jnawali, S.R., Subedi, N. & Aryal, A. (2011) The pack hunter (dhole): received little scientific attention. The Initiation, 4, 813.CrossRefGoogle Scholar
Lama, S.T. (2018) Assessing mammal diversity, distribution, and abundance: piloting arboreal camera trapping as a tool for monitoring endangered red panda in temperate forest of eastern Nepal. MSc dissertation. Lincoln University, Canterbury, New Zealand.Google Scholar
Lamichhane, S., Gurung, A., Pokheral, C.P., Rayamajhi, T., Gotame, P., Regmi, P.R. & Lamichhane, B.R. (2018) First record of the dhole Cuon alpinus (Mammalia: Carnivora: Canidae) in Barandabhar Corridor Forest, Chitwan, Nepal. Journal of Threatened Taxa, 10, 1124311244.CrossRefGoogle Scholar
Linkie, M., Guillera-Arroita, G., Smith, J., Ario, A., Bertagnolio, G., Cheong, F. et al. (2013) Cryptic mammals caught on camera: assessing the utility of range wide camera trap data for conserving the endangered Asian tapir. Biological Conservation, 162, 107115.CrossRefGoogle Scholar
Lovari, S., Boesi, R., Minder, I., Mucci, N., Randi, E., Dematteis, A. & Ale, S.B. (2009) Restoring a keystone predator may endanger a prey species in a human-altered ecosystem: the return of the snow leopard to Sagarmatha National Park. Animal Conservation, 12, 559570.CrossRefGoogle Scholar
Marino, J., Sillero-Zubiri, C., Deressa, A., Bedin, E., Bitewa, A., Lema, F. et al. (2017) Rabies and distemper outbreaks in smallest Ethiopian wolf population. Emerging Infectious Diseases, 23, 21022104.CrossRefGoogle ScholarPubMed
Mehta, J.N. & Kellert, S.R. (1998) Local attitudes toward community-based conservation policy and programmes in Nepal: a case study in the Makalu-Barun Conservation Area. Environmental Conservation, 25, 320333.CrossRefGoogle Scholar
Meta Platforms (2022) Facebook ., Meta Platforms, Menlo Park, USA., facebook.com [accessed September 2023].Google ScholarPubMed
Neupane, B. (2017) Status and distribution of Cuon alpinus in Api Nampa Conservation Area, Darchula, Nepal. BSc dissertation. Institute of Forestry, Hetauda Campus, Hetauda, Nepal.Google Scholar
Ng, D., Carver, S., Gotame, M., Karmasharya, D., Karmacharya, D., Pradhan, S.M. et al. (2019) Canine distemper in Nepal's Annapurna Conservation Area – implications of dog husbandry and human behaviour for wildlife disease. PLOS One, 14, e0220874.CrossRefGoogle ScholarPubMed
NTNC/ACAP (2018) Report on Camera Trapping Studies for Wildlife in UCO Sikles Region of Annapurna Conservation Area in FY 2074/75. National Trust for Nature Conservation, Kathmandu, Nepal.Google Scholar
Oldekop, J.A., Sims, K.R.E., Whittingham, M.J. & Agrawal, A. (2018) An upside to globalization: international outmigration drives reforestation in Nepal. Global Environmental Change, 52, 6674.CrossRefGoogle Scholar
Pandey, B.P. (2012) Clouded leopard in Shivapuri Nagarjun National Park, Nepal. Cat News, 57, 2425.Google Scholar
Rai, J. (2018a) Status Assessment and Conservation of Small Carnivore Community of Eastern Nepal with Special Focus on Binturong. The Rufford Foundation, London, UK. rufford.org/projects/jeevan-rai/status-assessment-and-conservation-of-small-carnivore-community-of-eastern-nepal-with-special-focus-on-binturong [accessed June 2023].Google Scholar
Rai, J. (2018b) Status of canids in the periphery of Salpa Pokhari, eastern Nepal. MSc thesis. Tribhuvan University, Kathmandu, Nepal.Google Scholar
Regmi, S., Belang, J.L., Pant, B. & Sharma, H.P. (2023) Factors influencing mammalian community occupancy in Dhorpatan Hunting Reserve, Nepal. Ecology and Evolution, 13, e9980.Google Scholar
Ripple, W.J., Newsome, T.M., Wolf, C., Dirzo, R., Everatt, K.T., Galetti, M.et al. (2015) Collapse of the world’s largest herbivores. Science Advances, 1, e1400103.CrossRefGoogle ScholarPubMed
Sagarmatha National Park, (2019) Annual Report of Sagarmatha National Park for Year 2019. Sagarmatha National Park, Solukhumbu, Nepal. [In Nepali]Google Scholar
Shah, K.B., Thapa, K.B., Poudel, H.R., Basnet, H. & Gautam, B. (2018) Habitat Suitability Assessment for Tiger in Trijuga Forest, East Nepal. Wild Cats Conservation Alliance, London, UK. conservewildcats.org/portfolio/habitat-suitability-assessment-tiger-trijuga-forest-east-nepal [accessed June 2023].Google Scholar
Sherchan, R. & Bhandari, A. (2017) Status and trends of human–wildlife conflict: a case study of Lelep and Yamphudin region, Kanchenjunga Conservation Area, Taplejung, Nepal. Conservation Science, 5, 1925.CrossRefGoogle Scholar
Shrestha, K.K., Basnet, K., Bhandari, P. & Gurung, M.B. (2016) Biodiversity Assessment of the Mewa River Valley (Papung Corridor), Kangchenjunga Landscape, Taplejung, East Nepal. Kangchenjunga Landscape Conservation and Development Initiative and International Centre for Integrated Mountain Development, Kathmandu, Nepal.Google Scholar
Srivathsa, A., Karanth, K.U., Kumar, N.S. & Oli, M.K. (2019) Insights from distribution dynamics inform strategies to conserve a dhole Cuon alpinus metapopulation in India. Scientific Reports, 9, 112.CrossRefGoogle ScholarPubMed
Thapa, K., Kelly, M.J., Karki, J.B. & Subedi, N. (2013) First camera trap record of pack hunting dholes in Chitwan National Park. Canid Biology and Conservation, 16, 47.Google Scholar
Thapa, K., Subba, S.A., Thapa, G.J., Dewan, K., Acharya, B.P. & Bohara, D. et al. (2022) Wildlife in climate refugia: mammalian diversity, occupancy, and tiger distribution in the Western Himalayas, Nepal. Ecology and Evolution, 12, e9600.CrossRefGoogle ScholarPubMed
Thing, S.B., Karki, J.B., Lamichhane, B.R., Shrestha, S. & Regmi, U.R. (2022) Distribution and habitat-use of dhole Cuon alpinus (Mammalia: Carnivora: Canidae) in Parsa National Park, Nepal. Journal of Threatened Taxa, 14, 2070320712.CrossRefGoogle Scholar
Williams, K.S., Pitman, R.T., Mann, G.K.H., Whittington-Jones, G., Comley, J., Williams, S.T. et al. (2021) Utilizing bycatch camera-trap data for broad-scale occupancy and conservation: a case study of the brown hyaena Parahyaena burnnea. Oryx, 55, 216226.CrossRefGoogle Scholar
Wilson, P. (1981) Ecology and habitat utilization of blue sheep Pseudois nayaur in Nepal. Biological Conservation, 21, 5574.CrossRefGoogle Scholar
Wolf, C. & Ripple, W.J. (2017) Range contractions of the world's large carnivores. Royal Society Open Science, 4, 170052.CrossRefGoogle ScholarPubMed
Yadav, S.K., Lamichhane, B.R., Subedi, N., Thapa, R.K., Poudyal, L.P. & Dahal, B.R. (2019) Dhole Cuon alpinus (Mammalia: Carnivora: Canidae) rediscovered in Bardia National Park, Nepal. Journal of Threatened Taxa, 11, 1458214586.CrossRefGoogle Scholar
Yonzon, P.B. (1989) Ecology and conservation of the red panda in the Nepal Himalayas. PhD thesis. University of Maine, Orono, USA.Google Scholar
Figure 0

Fig. 1 Areas in Nepal where we carried out camera-trap surveys. White dots indicate locations where dholes Cuon alpinus were recorded.

Figure 1

Table 1 Summary of the results from three camera-trapping surveys in Nepal (Fig. 1) indicating the reappearance of the dhole Cuon alpinus in Annapurna Conservation Area and the Tinjure–Milke–Jaljale forests. The abundance index for the dhole is the number of independent detections per 100 camera-trap days. Numbers given for potential prey and competitor species, livestock and people represent independent detections.

Figure 2

Table 2 Summary of dhole historical records and current distribution (Fig. 2) in Nepal based on data obtained from camera traps, literature review and stakeholder interviews.

Figure 3

Fig. 2 Current knowledge on the distribution of dholes in the districts and protected areas of Nepal (Table 2). Districts: A, Bhojpur; B, Dadeldhura; C, Dang; D, Humla; E, Ilam; F, Jajarkot; G, Manang; H, Mustang; I, Panchthar; J, Udayapur. Protected areas (CA, Conservation Area; NP, National Park): 1, Annapurna CA; 2, Api-Nampa CA; 3, Banke NP; 4, Bardia NP; 5, Chitwan NP; 6, Dhorpatan Hunting Reserve; 7, Gaurishankar CA; 8, Kanchenjunga CA; 9, Khaptad NP; 10, Lamtang NP; 11, Makalu-Barun NP; 12, Manaslu CA; 13, Parsa NP; 14, Rara NP; 15, Sagarmatha NP; 16, Shey-Phoksundo NP; 17, Shivapuri-Nagarjun NP; 18, Tinjure-Milke-Jaljale forests. Note: Annapurna CA extends across several districts, with dholes present in the southern area but possibly absent from the northern part (in Manang and Mustang districts), hence the overlap of confirmed presence and possible absence.

Figure 4

Plate 1 Camera-trap photo of a dhole Cuon alpinus in Annapurna Conservation Area, Nepal. Photo: Friends of Nature.

Figure 5

Plate 2 Dhole habitat destruction caused by hydropower infrastructure construction near Tangting village, Madi Rural Municipality, Nepal (March 2019). Photo: Yadav Ghimirey.

Supplementary material: File

Ghimirey et al. supplementary material

Ghimirey et al. supplementary material
Download Ghimirey et al. supplementary material(File)
File 456.3 KB