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A new snow leopard record reflects the value of remote protected areas for connectivity

Published online by Cambridge University Press:  26 January 2023

Ganchimeg Wingard
Affiliation:
Denver Zoological Foundation, Denver, USA
Rentsen Oyunbat
Affiliation:
Mongolian Conservation Initiative, Ulaanbaatar, Mongolia
Joseph Zebrowski
Affiliation:
New Mexico Highlands University, Las Vegas, USA
Richard Reading
Affiliation:
Coalition for International Conservation, Denver, USA
Erica Garroutte
Affiliation:
Institute for Integrative Conservation, Williamsburg, USA
Anandpurev Tumurbaatar
Affiliation:
Ikh Nart Nature Reserve, Dalanjargalan, Mongolia
Bayarsaikhan Otgongotob
Affiliation:
Ikh Nart Nature Reserve, Dalanjargalan, Mongolia
Batsaikhan Nyamsuren*
Affiliation:
Mongolian Conservation Initiative, Ulaanbaatar, Mongolia
James D. Murdoch
Affiliation:
University of Vermont, Burlington, USA
*
(Corresponding author, [email protected])

Abstract

As wildlife becomes more isolated in human-dominated and rapidly changing environments, species conservation requires investment in landscape connectivity. Identifying stepping stones (discrete areas of suitable habitat that facilitate the movement of dispersing individuals) can help meet connectivity goals. We report the occurrence of the snow leopard Panthera uncia in Ikh Nart Nature Reserve, Mongolia, over 250 km from the nearest known population, one of the easternmost records for the species. Ikh Nart Nature Reserve lies within a region considered highly resistant to movement but harbours high densities of argali sheep Ovis ammon and Siberian ibexes Capra sibirica, both important prey items for snow leopards. This occurrence reveals a new distribution record for the species, the capacity of the species to move across low-quality environments, the value of investment in community conservation and collaborative park management, and the role of remote protected areas such as Ikh Nart Nature Reserve as stepping stones for facilitating population expansion and broader connectivity to other potentially suitable but unoccupied areas.

Type
Short Communication
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 (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Fauna & Flora International

Landscape connectivity allows individuals to move between populations, limiting the effects of isolation (Rudnick et al., Reference Rudnick, Ryan, Beier, Cushman, Dieffenback and Epps2012). For large carnivores that often have a fragmented distribution, population connectivity facilitates gene flow, reduces inbreeding and can lead to larger, more stable populations (Crooks et al., Reference Crooks, Burdett, Theobald, Rondinini and Boitani2011). Efforts to maintain or increase connectivity typically focus on areas within the current distribution of a species and often seek to identify stepping stones: discrete stop-over areas for dispersing or migrating individuals (Saura et al., Reference Saura, Bodin and Fortin2014). Stepping stones that provide refuge and suitable habitat are especially important for large carnivores vulnerable to habitat loss and human persecution.

The snow leopard Panthera uncia is categorized as Vulnerable on the IUCN Red List because of habitat degradation, illegal trade and depleted prey populations, often leading to livestock depredation and conflict with people (McCarthy et al., Reference McCarthy, Mallon, Jackson, Zahler and McCarthy2017). The species occupies 12 countries and c. 2.8 million km2, with the largest populations being in China and Mongolia (McCarthy et al., Reference McCarthy, Mallon, Jackson, Zahler and McCarthy2017). The snow leopard distribution is fragmented because of the patchwork of its favoured habitat, including rugged mountainous terrain, and patterns of human activities that impede movement (Jackson et al., Reference Jackson, Mishra, McCarthy and Ale2010). In an increasingly variable and human-dominated landscape, identifying stepping stones of suitable and safe habitat is key to conserving snow leopards (Riordan et al., Reference Riordan, Cushman, Mallon, Shi and Hughes2016).

We report a new snow leopard record in Mongolia that is 266 km from the nearest known population and represents one of the easternmost observations of the species. We believe the record has significant implications for understanding the ecology of the species and improving conservation planning. On 10 December 2021 herders reported seeing a snow leopard in Ikh Nart Nature Reserve (Dornogovi Province). The Reserve covers 666 km2 of arid, semi-desert and steppe environments with unique rocky outcroppings (Fig. 1; Reading et al., Reference Reading, Kenny and Steinhauer-Burkart2011). It is a multi-use area with c. 110 families (c. 500 people) living in the region, where they herd livestock (Davie et al., Reference Davie, Stokowski, Ankhbayar and Murdoch2014b).

Fig. 1 Location of Ikh Nart Nature Reserve, Mongolia, relative to the range of the snow leopard Panthera uncia. Extant and possibly extant ranges are from the IUCN Red List species assessment (McCarthy et al., Reference McCarthy, Mallon, Jackson, Zahler and McCarthy2017).

Shortly after the report, we set 10 camera traps within a 1-km radius of the observation site, a rugged rocky area near a spring. One of the camera traps recorded the snow leopard on 9 January 2022 at approximately 45.72°N/108.64°E (Plate 1). We then set a square grid of 40 camera traps (500 m spacing) centred on the observation. We identified the individual based on its coat pattern, and it was detected by three of the camera traps, all in a dry drainage valley within a 2-km radius of the initial observation. Camera data, tracks and scats indicated the presence of a snow leopard in the area for at least another 7 months. Rangers documented predation of two Siberian ibexes Capra sibirica and one argali sheep Ovis ammon based on tracks and injuries consistent with a single predator. Such kills can be distinguished from those of wolves Canis lupus using tracks, bite marks and feeding patterns (Davie et al., Reference Davie, Murdoch, Ankhbayar and Reading2014a). Lynxes Lynx lynx were not detected by the camera traps. The rangers received no reports of livestock predation.

Plate 1 A snow leopard Panthera uncia captured by a camera trap in Ikh Nart Nature Reserve, Mongolia (Fig. 1), in January 2022.

This record is significant for several reasons. Firstly, the observation represents a new distributional record (Fig. 1; Clark et al., Reference Clark, Munkhbat, Dulamtseren, Baillie, Batsaikhan, Samiya and Stubbe2006). Archives and questioning of local herders and officials have not provided any historical evidence of the snow leopard occurring in this region. The record is far from the nearest edge of the known extant population and is the easternmost location for snow leopards in Mongolia and possibly range-wide, although the species has been identified as possibly extant in some areas further east in Mongolia and China (McCarthy et al., Reference McCarthy, Mallon, Jackson, Zahler and McCarthy2017).

Secondly, the observation reveals the movement capacity of snow leopards. Ikh Nart Nature Reserve is surrounded by low-quality habitat for the species and connectivity assessments indicate that it is situated within a region that is highly resistant to snow leopard movement (Riordan et al., Reference Riordan, Cushman, Mallon, Shi and Hughes2016; Li et al., Reference Li, Weckworth, McCarthy, Liang, Liu and Xing2020). We presume the individual travelled hundreds of kilometres through this highly resistant landscape to reach Ikh Nart Nature Reserve. Snow leopards are known to travel across low-quality regions but usually over shorter distances (Sharma et al., Reference Sharma, Bayrakcismith, Tumursukh, Johansson, Sevger, McCarthy and Mishra2014).

Thirdly, we believe the arrival of this snow leopard reflects in part the benefits of long-term investment in community conservation. When it was founded, Ikh Nart Nature Reserve was in reality a so-called paper park, but a conservation initiative began in the early 2000s and led to its recognition as a model protected area (Reading et al., Reference Reading, Murdoch, Amgalanbaatar, Davie, Jorgensen and Kenny2016). In collaboration with local communities, most initial conservation efforts focused on restoring populations of argali sheep and ibex. This led to the near cessation of poaching of both species, which now occur in Ikh Nart Nature Reserve at some of the highest densities in Mongolia, which in turn resulted in investment in sustainable tourism driven by interest in seeing these species (Wingard et al., Reference Wingard, Harris, Amgalanbaatar and Reading2011; Murdoch et al., Reference Murdoch, Reading, Amgalanbaatar, Wingard and Lkhagvasuren2017). The arrival and persistence of the snow leopard is probably in part because of the restoration and protection of these ungulate prey populations.

Conservation management at Ikh Nart Nature Reserve over the last c. 20 years has focused on building positive relationships and ensuring active local engagement in planning and decision-making. Multi-use areas present conservation challenges, especially for large carnivores, because of potential conflict with livestock farming and other human activities. In particular, killing of wolves has been a conservation challenge historically but has declined substantially since community management efforts began. We are encouraged by local reactions to the snow leopard, which have been positive and may reflect changing attitudes towards large carnivores in the region. Efforts to manage wildlife in close partnership with local communities have been successful for several species, including wolves, and we believe that continued investment in this approach will be key to the long-term persistence of snow leopards. Community engagement in developing a plan for snow leopard conservation will be important for mitigating potential livestock depredation.

Lastly, this snow leopard occurrence indicates the importance of areas such as Ikh Nart Nature Reserve as stepping stones for animal movement and potential population expansion. The Reserve is probably too small to support a significant population of snow leopards despite its high prey densities, but it seems that the species can live there for short periods. Ikh Nart Nature Reserve is an improbable place for snow leopards to appear, given the surrounding low-quality habitat and distance from the species’ current range. However, areas in northern Mongolia (north of Ikh Nart Nature Reserve by c. 290 km in Töv and c. 375 km in Onon Balj) have been identified previously that could support snow leopards (McCarthy et al., Reference McCarthy, Mallon, Jackson, Zahler and McCarthy2017). These areas are most probably too far from the known snow leopard range for individuals to reach them without effective stepping stones that can support dispersing individuals and small itinerant populations. Ikh Nart Nature Reserve is surrounded by several other multi-use reserves that could serve in this capacity, such as Ikh Gazriin Chuluu, Arvan Naimyn Bogd Uul and Choiriin Bogd Uul, which also support ungulate populations but have little formal management or funding. These areas, together with Ikh Nart Nature Reserve, could form a network of sufficient size to support a small population and facilitate connections to areas in the north as well as to priority snow leopard conservation areas in central Mongolia (Li et al., Reference Li, Weckworth, McCarthy, Liang, Liu and Xing2020).

Acknowledgements

We thank the Ikh Nart Nature Reserve management team for responding rapidly to the sighting and deploying cameras with Denver Zoo; and Serchinnamjil, Jargal, Ts. Niyamsharav, A. Batbold, A. Ulaankhuu and N. Ulambayar for monitoring the cameras.

Author contributions

Conceptualization: GW, JDM; data collection: RO, AT, BO, BN; writing: GW, JZ, RR, EG, JDM.

Conflicts of interest

None.

Ethical standards

This research was conducted with permission from the Ikh Nart Nature Reserve Management Office and abided by the Oryx guidelines on ethical standards.

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Figure 0

Fig. 1 Location of Ikh Nart Nature Reserve, Mongolia, relative to the range of the snow leopard Panthera uncia. Extant and possibly extant ranges are from the IUCN Red List species assessment (McCarthy et al., 2017).

Figure 1

Plate 1 A snow leopard Panthera uncia captured by a camera trap in Ikh Nart Nature Reserve, Mongolia (Fig. 1), in January 2022.