Your search keyword '"Amur leopard"' showing total 101 results

1. Novel empress SARANI optimization algorithm for active power loss reduction and voltage stability enhancement

Author

Kanagasabai, Lenin

Published

2024

2. Transboundary Cooperation in the Tumen River Basin Is the Key to Amur Leopard (Panthera pardus) Population Recovery in the Korean Peninsula.

Author

Li, Hailong, Pandey, Puneet, Li, Ying, Wang, Tianming, Singh, Randeep, Peng, Yuxi, Lee, Hang, Lee, Woo-Shin, Zhu, Weihong, and Choi, Chang-Yong

Subjects

*WATERSHEDS, *TIGERS, *INTERGOVERNMENTAL cooperation, *PENINSULAS, *INTERNATIONAL cooperation

Abstract

Simple Summary: The Lower Tumen River basin habitat at the Sino-North Korean border is crucial for reestablishing Amur leopards in the Korean Peninsula, where they once thrived. However, except for the Jingxin–Dapanling (JD) and Mijiang (MJ) corridors, most areas have become impassable due to human activities and urbanization. In this study, we evaluated the effectiveness of the MJ corridor by analyzing the species abundance, forest structure, landscape features, and disturbance factors. Our findings indicate that leopard activity is predominantly concentrated in the northern part of the corridor, with little to no presence in the middle and southern regions near the North Korean border. Human disturbances, forest structure, and infrastructural obstacles seem to impede the movement of leopards. To ensure the resurgence of the leopard population in the Korean Peninsula, it is imperative to mitigate or eliminate the impacts of these hindrances. This entails reducing human disturbances, enhancing forest structure, and removing infrastructural barriers. Such efforts are vital to facilitate the revival of the Amur leopards in their former range in the Korean Peninsula. The interconnected forest regions along the lower Tumen River, at the Sino-North Korean border, provide critical habitats and corridors for the critically endangered Amur Leopard (Panthera pardus orientalis). In this region, there are two promising corridors for leopard movement between China and North Korea: the Jingxin–Dapanling (JD) and Mijiang (MJ) corridors. Past studies have confirmed the functionality of the JD corridor, but leopards' utilization of the MJ corridor has not yet been established or confirmed. In this study, we assessed the functionality of the MJ corridor. The study area was monitored using camera traps between May 2019 and July 2021. We also analyzed 33 environmental and vegetation factors affecting leopard survival and analyzed leopard movement. In the Mijiang area, the Amur leopard was mainly active in the region adjacent to the Northeast China Tiger and Leopard National Park and did not venture into area near the North Korean border. The complex forest structure allowed leopards to move into the Mijiang area. However, the high intensity of human disturbance and manufactured physical barriers restricted further southward movement. Therefore, human-induced disturbances such as grazing, mining, farming, logging, and infrastructure development must be halted and reversed to make the Mijiang region a functional corridor for the Amur leopard to reach the North Korean forest. This necessitates inter-governmental and international cooperation and is essential for the long-term survival of the Amur leopard. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transboundary Cooperation in the Tumen River Basin Is the Key to Amur Leopard (Panthera pardus) Population Recovery in the Korean Peninsula

Author

Hailong Li, Puneet Pandey, Ying Li, Tianming Wang, Randeep Singh, Yuxi Peng, Hang Lee, Woo-Shin Lee, Weihong Zhu, and Chang-Yong Choi

Subjects

Amur leopard, Tumen River basin, corridor movement, human disturbance, habitat degradation, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The interconnected forest regions along the lower Tumen River, at the Sino-North Korean border, provide critical habitats and corridors for the critically endangered Amur Leopard (Panthera pardus orientalis). In this region, there are two promising corridors for leopard movement between China and North Korea: the Jingxin–Dapanling (JD) and Mijiang (MJ) corridors. Past studies have confirmed the functionality of the JD corridor, but leopards’ utilization of the MJ corridor has not yet been established or confirmed. In this study, we assessed the functionality of the MJ corridor. The study area was monitored using camera traps between May 2019 and July 2021. We also analyzed 33 environmental and vegetation factors affecting leopard survival and analyzed leopard movement. In the Mijiang area, the Amur leopard was mainly active in the region adjacent to the Northeast China Tiger and Leopard National Park and did not venture into area near the North Korean border. The complex forest structure allowed leopards to move into the Mijiang area. However, the high intensity of human disturbance and manufactured physical barriers restricted further southward movement. Therefore, human-induced disturbances such as grazing, mining, farming, logging, and infrastructure development must be halted and reversed to make the Mijiang region a functional corridor for the Amur leopard to reach the North Korean forest. This necessitates inter-governmental and international cooperation and is essential for the long-term survival of the Amur leopard.

Published

2023

4. Study on the zoning of Northeast China Tiger and Leopard National Park

Author

Yang Liu

Subjects

Amur tiger, Amur leopard, National park, Range, Zoning, Environmental sciences, GE1-350, Geography (General), G1-922

Abstract

The Amur tiger and Amur leopard are the flagship species for biodiversity protection, since the eighteenth congress, the Central Committee of the Communist Party and State Council of China attaches great importance to the tiger and leopard conservation. The 12th Meeting of the Central Finance and Economics Leading Group proposed to integrate the main habitat of giant pandas, establish the Northeast China Tiger and Leopard National Park and solve cross-regional and cross-sectoral institutional problems. The Northeast China Tiger and Leopard National Park is an important environment where big cats and humans live together. The management and zoning of the park should fully consider not only the habitat environment for tigers and leopards, but also the habitat environment and safety for human beings. Based on the overall consideration of sensitivity, endangerment and distribution characteristics of protected objects, migration and reproduction characteristics of tigers and leopards and other big cats, production and living utilization status of residents and social development needs, Northeast China Tiger and Leopard National Park proposed to adopt the Zoning-based Management and Control Mode for the first time. Through the factor extraction and analysis of the resources, environment, economic and social background in the region, the park uses GIS technology to extract and analyze the factors. It has been found that, according to the three principles of ecosystem, integrity, authenticity and coordination of protection and development, the park mainly aims to implement differential control over human activities, and the protection mechanism divides the control zones. The Zoning-based Management and Control Mode. The Zoning control enables the park to properly handle the relationship between the protection of the habitat of Amur tigers and Amur leopards and the maintenance of border security and stability, the production and life of indigenous residents. It also can make the park realize the harmonious coexistence and common development between man and nature.

Published

2022

5. What factors relate with the activity synchronization intensity among big cats and their ungulate prey in Northeast China?

Author

Shuyan Liu, Jinzhe Qi, Jiayin Gu, Zexu Long, Jianzhang Ma, and Guangshun Jiang

Subjects

Activity rhythm, Amur tiger, Amur leopard, Camera traps, Coexistence, Synchronization intensity, Ecology, QH540-549.5

Abstract

The activity synchronization rhythm is an important aspect of measuring interspecific interactions between predators and prey, and crucial for large carnivores conservation. However, little is known about what factors relate their activity synchronization dynamics. With the climate change and human society development, the spatial-temporal distribution and activity synchronized rhythm of large carnivores and their prey would inevitably be affected, which would further affect the adaptability of large carnivores and bring new challenges to their conservation. In this study, we hypothesized the ambient temperature and human activity would influence the activity synchronization intensity among Amur tiger, Amur leopard and ungulates (roe deer, sika deer and wild boar) through cross-correlation function and temporal niche overlap model based on the camera traps data. The result show that the activity rhythms of the five target species showed species and seasonal differences, the temporal niche overlaps between ungulates were normally higher than that between the cats and prey, the weakest overlap was observed between the two big cat species, and time-lags of similar rhythmic activity can reduce the temporal overlap pressures of species. Furthermore, we found that ambient temperature relate interspecific synchrony of roe deer-sika deer and roe deer-wild boar pairs at the daily scale. And at hourly scale, temperature and human activities exerted significantly positive or negative stresses on the interspecific activity synchronization of all target species, observed in all three seasons. Our study provides new insights on our understanding of the mechanisms by which sympatric predators and ungulate prey coexist and interact in view of temporal niche overlap, as well as how wildlife managers can manage the mammal assembly effectively. As the Amur tiger and leopard populations in China are being recovered quickly, the rapidly increasing predation pressure and limited environmental resources could have profound implications for the interaction and coexistence among these two large carnivores and their ungulate prey. Managers should strengthen the monitoring, and understand its causes and consequences, so as to develop effective protective measures.

Published

2021

6. Evaluation of threats faced by the Amur leopards in their native habitat and identification of suitable sites for re-introduction into the wild using GIS.

Author

Rajan, Nambi Manavalan

Abstract

Conservation of the Amur leopards in the wild is essential to maintain the genetic diversity among them and is also essential because they are the rarest of all the wild cats surviving in Earth. It has been found that the co-existence of tigers could have turned into the most dominant threat, thus also making the anthropogenic threat and the resultant inbreeding rank next to it. A more effective conservation could be ensured by re-introducing the Amur leopards from both ex situ and in situ sources into a new locality that meets all the required and favourable conditions. Such a place has to be chosen in such a manner that it fulfils all the following conditions such as by (a) belonging to a forest area, (b) being within the limits of average annual temperature and elevation similar to those that had existed in their original habitats, (c) having water bodies within the reach, (d) having the least possible degree of anthropogenic threats, (e) not having a co-existing tiger population, and (f) having their respective area measurements to be greater than the average home range of a leopard's family during its lifetime. After filtering the entire forest land of both Russia, China, and North Korea, it was combinedly found that there are seven boundaries in Russia and North Korea that met all the conditions mentioned above. Hence, these boundaries could preferably be chosen for the future re-introduction of the Amur leopards to protect it from the danger of extinction. [ABSTRACT FROM AUTHOR]

Published

2021

7. Arsen'ev's Lament: A Century of Change to Wildlife and Wild Places in Primorye, Russia.

Author

SLAGHT, JONATHAN C.

Subjects

ANIMALS, RUSSIAN Empire, 1613-1917, NATURAL resources

Abstract

In 1900, Vladimir Arsen'ev arrived in a remote corner of the Russian Empire on the cusp of significant change. Forests in the Ussuri Kray (now Primorskiy Kray, or Primorye) were wild, wildlife was abundant, and the human population was low. Twenty-one years later, after witnessing a sustained influx of settlers and a reduction of wildlife, in his introduction to Across the Ussuri Kray [Po Ussuriiskomy kraiu], a travelogue about his experiences in the region, Arsen'ev mourned the passing of this unique time and place. This article outlines Arsen'ev's contributions to our understanding of Primorye's wildlife in the early twentieth century, describes what led to the reductions in wildlife he witnessed and offers a summary of how wildlife and wilderness look in the region today. [ABSTRACT FROM AUTHOR]

Published

2020

8. An initial coprological survey of parasitic fauna in the wild Amur leopard (Panthera pardus orientalis).

Author

HOU, Zhijun, PENG, Zhiwei, NING, Yao, LIU, Dan, CHAI, Hongliang, and JIANG, Guangshun

Subjects

*LEOPARD, *ZOOLOGICAL surveys, *PARASITIC diseases, *TAPEWORMS, *TOXOCARA, *CYSTICERCOSIS, *PARASITES

Abstract

The Amur leopard, one of nine recently recognized subspecies of leopard, is still the most threatened by a stochastic procession of extinction. Evaluation of the potential danger to the conservation of the Amur leopard originating from disease urgently needs to be studied. Unfortunately, research on the potential risk to Amur leopards caused by disease is rare. In terms of parasitic diseases that affect this species, even basic data for parasitic fauna are absent. The aim of this study is to acquire this knowledge to improve the general understanding of Amur leopard parasites. Seven parasite species, including 3 nematodes (Toxocara cati, a capillarid‐type parasite, and a Metastrongyloidea‐type parasite), 2 cestodes (Spirometra sp. and Taenia sp.), 1 trematode (Paragonimus sp.), and 1 protozoan (Cystoisospora felis), were found in this research. Toxocara cati occurred most frequently, followed by Spirometra sp. [ABSTRACT FROM AUTHOR]

Published

2020

9. Assessing the health risks of reintroduction: The example of the Amur leopard, Panthera pardus orientalis.

Author

Lewis, John, Tomlinson, Alex, Gilbert, Martin, Alshinetski, Mikhail, Arzhanova, Tanya, Goncharuk, Mikhail, Goodrich, John, Kerley, Linda, Korotkova, Irina, Miquelle, Dale, Naidenko, Sergey, Sulikhan, Nadezhda, and Uphyrkina, Olga

Subjects

*LEOPARD, *INTRODUCED animals, *CANINE distemper virus, *FELINE immunodeficiency virus, *RISK assessment, *DOMESTIC animals, *CARNIVOROUS animals

Abstract

Translocation of wildlife as a means of reintroducing or reinforcing threatened populations is an important conservation tool but carries health risks for the translocated animals and their progeny, as well as wildlife, domestic animals and humans in the release area. Disease risk analyses (DRA) are used to identify, prioritize and design mitigation strategies to address these threats. Here, we use a DRA undertaken for Amur leopards (Panthera pardus orientalis) to illustrate how specific methodology can optimize mitigation strategy design. A literature review identified a total of 98 infectious hazards and 28 non‐infectious hazards. Separate analyses were undertaken for disease risks in leopards from hazards of source origin (captive zoo collections and the transit pathway to the Russian Far East), or of destination origin (in breeding enclosures and wider release areas); and for disease risks in other wildlife, domesticated species or humans, similarly from hazards of source or destination origin. Hazards were assessed and ranked as priority 1, priority 2, priority 3 or low priority in each of the defined scenarios. In addition, we undertook a generic assessment of stress on individual leopards. We use three examples to illustrate the process: Chlamydophila felis, canine distemper virus (CDV) and feline immunodeficiency virus (FIV). We found that many potentially expensive screening procedures could be performed prior to export of leopards, putting the onus of responsibility onto the zoo sector, for which access to diagnostic testing facilities is likely to be optimal. We discuss how our methods highlighted significant data gaps relating to pathogen prevalence in the Russian Far East and likely future unpredictability, in particular with respect to CDV. There was emphasis at all stages on record keeping, meticulous planning, design, staff training and enclosure management, which are relatively financially inexpensive. Actions to minimize stress featured at all time points in the strategy and also focussed on planning, design and management. [ABSTRACT FROM AUTHOR]

Published

2020

10. Comparison of the fecal microbiota of two free-ranging Chinese subspecies of the leopard (Panthera pardus) using high-throughput sequencing

Author

Siyu Han, Yu Guan, Hailong Dou, Haitao Yang, Meng Yao, Jianping Ge, and Limin Feng

Subjects

Amur leopard, Gut microbiota, Non-invasive, 16s rRNA gene, High-throughput sequencing, North Chinese leopard, Medicine, Biology (General), QH301-705.5

Abstract

The analysis of gut microbiota using fecal samples provides a non-invasive approach to understand the complex interactions between host species and their intestinal bacterial community. However, information on gut microbiota for wild endangered carnivores is scarce. The goal of this study was to describe the gut microbiota of two leopard subspecies, the Amur leopard (Panthera pardus orientalis) and North Chinese leopard (Panthera pardus japonensis). Fecal samples from the Amur leopard (n = 8) and North Chinese leopard (n = 13) were collected in Northeast Tiger and Leopard National Park and Shanxi Tieqiaoshan Provincial Nature Reserve in China, respectively. The gut microbiota of leopards was analyzed via high-throughput sequencing of the V3–V4 region of bacterial 16S rRNA gene using the Life Ion S5™ XL platform. A total of 1,413,825 clean reads representing 4,203 operational taxonomic units (OTUs) were detected. For Amur leopard samples, Firmicutes (78.4%) was the dominant phylum, followed by Proteobacteria (9.6%) and Actinobacteria (7.6%). And for the North Chinese leopard, Firmicutes (68.6%), Actinobacteria (11.6%) and Fusobacteria (6.4%) were the most predominant phyla. Clostridiales was the most diverse bacterial order with 37.9% for Amur leopard and 45.7% for North Chinese leopard. Based on the beta-diversity analysis, no significant difference was found in the bacterial community composition between the Amur leopard and North Chinese leopard samples. The current study provides the initial data about the composition and structure of the gut microbiota for wild Amur leopards and North Chinese leopards, and has laid the foundation for further investigations of the health, dietary preferences and physiological regulation of leopards.

Published

2019

11. A complex approach to study the Amur leopard using camera traps in Protected Areas in the southwest of Primorsky krai (Russian Far East)

Author

Anna V. Vitkalova and Elena I. Shevtsova

Subjects

Amur leopard, camera trap, capture-recapture, Panthera pardus orientalis, Primorsky Krai, Geography. Anthropology. Recreation

Abstract

The paper describes the methodology and preliminary results of a complex camera trap study of the Amur leopard. The main studies were concentrated on protected areas: the Land of the Leopard National Park with its buffer zone and the Kedrovaya Pad' Biosphere Reserve, a total area of 3600 sq.km. The first results of the 2014–2015 survey period are presented. According to spatial capture-recapture analysis at least 57 adult Amur leopards occupied the Russian protected areas with the density of about 0.98 individuals/100 sq.km. The sex ratio (male : female) was 1:1.2. Five breeding females with 11 cubs were registered in 2014 and 9 females with 16 cubs in 2015. The basis was founded for long-term monitoring of and fundamental research on the Amur leopard in the protected areas in Primorsky Krai.

Published

2016

12. Transboundary Cooperation in the Tumen River Basin Is the Key to Amur Leopard ( Panthera pardus ) Population Recovery in the Korean Peninsula.

Author

Li H, Pandey P, Li Y, Wang T, Singh R, Peng Y, Lee H, Lee WS, Zhu W, and Choi CY

Abstract

The interconnected forest regions along the lower Tumen River, at the Sino-North Korean border, provide critical habitats and corridors for the critically endangered Amur Leopard ( Panthera pardus orientalis ). In this region, there are two promising corridors for leopard movement between China and North Korea: the Jingxin-Dapanling (JD) and Mijiang (MJ) corridors. Past studies have confirmed the functionality of the JD corridor, but leopards' utilization of the MJ corridor has not yet been established or confirmed. In this study, we assessed the functionality of the MJ corridor. The study area was monitored using camera traps between May 2019 and July 2021. We also analyzed 33 environmental and vegetation factors affecting leopard survival and analyzed leopard movement. In the Mijiang area, the Amur leopard was mainly active in the region adjacent to the Northeast China Tiger and Leopard National Park and did not venture into area near the North Korean border. The complex forest structure allowed leopards to move into the Mijiang area. However, the high intensity of human disturbance and manufactured physical barriers restricted further southward movement. Therefore, human-induced disturbances such as grazing, mining, farming, logging, and infrastructure development must be halted and reversed to make the Mijiang region a functional corridor for the Amur leopard to reach the North Korean forest. This necessitates inter-governmental and international cooperation and is essential for the long-term survival of the Amur leopard.

Published

2023

13. A New Analytical Approach to the Study of the Spatial Structure of the Amur Leopard (Panthera pardus orientalis) Population.

Author

Chistopolova, M. D., Rozhnov, V. V., Hernandez-Blanco, J. A., Naidenko, S. V., and Sorokin, P. A.

Subjects

*PANTHERA pardus orientalis, *ANIMAL populations, *ANIMAL traps, *ANIMAL behavior, *ANIMAL sexual behavior

Abstract

Based on data from camera traps installed throughout the model territory in southwest Primorye, information was received during an annual cycle on the presence of individually identified Amur leopards in the area of study. Analysis of the data using a combination of different techniques has determined the mutual spatial arrangement and sizes of approximated home ranges for both male and female leopards. The dataset of individually identified animals proves sufficient in describing the social organization of the studied group of Amur leopard using the spatial overlapping of individual home ranges as a characteristic of social relationships. Each individual home range overlaps with several home ranges belonging to both individuals of the opposite and same sex, with the overlapped portion larger in males than in females. [ABSTRACT FROM AUTHOR]

Published

2018

14. Spatiotemporal patterns of Amur leopards in northeast China: Influence of tigers, prey, and humans.

Author

Yang, Haitao, Zhao, Xiaodan, Han, Boyu, Wang, Tianming, Mou, Pu, Ge, Jianping, and Feng, Limin

Subjects

*PANTHERA pardus orientalis, *SPATIAL behavior in animals, *ACTIVITY patterns (Biology), *PREDATION, *SPATIOTEMPORAL processes

Abstract

The Amur leopard Panthera pardus orientalis is one of the most endangered cat subspecies in the world. The rare leopard is sympatric with Amur tiger Panthera tigris altaica and their prey in human dominated landscape. To conserve the felid species, it is important to understand the activity patterns of Amur leopards, including its interactions with Amur tigers, prey, and human activities. We used a data set from 163 camera traps to quantify the spatial-temporal overlap between Amur leopards, Amur tigers, prey species, and human disturbances (e.g., humans presence on foot, vehicles, domestic dogs, and cattle grazing) from January to December 2013 in the Hunchun Nature Reserve, NE China. Our results indicated that leopards were more active in daytime and twilight; the seasonal spatial-temporal overlaps between leopards and tigers were lower than that between leopards and their prey species. Human activities and cattle grazing could influence the spatial distribution and activity patterns of the leopards, and therefore, the conservation actions should focus on reduction of human disturbances to minimize the impacts to Amur leopard activity patterns. [ABSTRACT FROM AUTHOR]

Published

2018

15. A RETROSPECTIVE STUDY OF MORBIDITY AND MORTALITY IN THE NORTH AMERICAN AMUR LEOPARD ( PANTHERA PARDUS ORIENTALIS) POPULATION IN ZOOLOGIC INSTITUTIONS FROM 1992 TO 2014.

Author

Napier, Julia E., Lund, Michael S., Armstrong, Douglas L., and McAloose, Denise

Abstract

The Amur leopard ( Panthera pardus orientalis) is one of the most critically endangered leopards on the International Union for the Conservation of Nature red list. The primary objective of this retrospective study was to identify common and significant causes of morbidity and mortality in the North American Amur leopard zoo population. This information provides insights that contribute to their improved care, health, and medical management and, ultimately, affects the sustainability of this leopard subspecies in the wild. Medical records and complete postmortem reports were requested from all North American zoologic institutions that held Amur leopards in their collections from 1992 to 2014. Information from 175 individuals, representing 93% of the population (188 animals), was received. Data were reviewed generally and by subdivision into the following age groups: neonate: 0 day-3 mo ( n = 45); juvenile-young adult: 3 mo-5 yr ( n = 21); adult: 5-10 yr ( n = 17); senior: 10-15 yr ( n = 31); or geriatric: >15 yr ( n = 61). The major causes of morbidity, listed by body system for the study population, excluding neonates, were musculoskeletal (40%), reproductive (24%), dental (19%), cardiopulmonary (13%), gastrointestinal (13%), and urogenital (12%). The two most common causes of death or euthanasia, primarily in senior and geriatric animals, were chronic renal disease and neoplasia; maternal neglect and maternal trauma were most common in neonates. The largest populations in this study were neonates and geriatrics, indicating that if animals survive the neonatal period, they often live into their late teens to early 20s. This is the first comprehensive study of the causes of morbidity and mortality in the Amur leopard zoo population in North America. [ABSTRACT FROM AUTHOR]

Published

2018

16. Complete mitochondrial genome of the Amur leopard (Panthera pardus orientalis Schlegel, 1857)

Author

Jung A Kim, Hye Sook Jeon, Je Hoon Jeon, Soonok Kim, and Junghwa An

Subjects

panthera pardus, amur leopard, mitochondrial genome, reference genome sequencing, Genetics, QH426-470

Abstract

This study sequenced the complete mitochondrial genome of the female Amur leopard (Panthera pardus orientalis) using highest-quality (310× average coverage depth) big cat reference genomes. The total genome length was 16,964 base pairs, consisting of 13 protein-coding genes, 2 rRNAs, 22 tRNAs, and 1 control region. Phylogenetic analysis using protein-coding regions revealed that a P.p.orientalis was closely related to the P. pardus clade.

Published

2019

17. Cluster analysis in ethological research

Author

T. V. Antonenko, Alex Matsyura, S. V. Pysarev, and E. V. Antonenko

Subjects

Pantherinae, Geography, Ethogram, biology, Tiger, biology.animal, Zoology, Leopard, Captivity, Panthera, Disease cluster, biology.organism_classification, Amur leopard

Abstract

Big cats are often on display in zoos around the world. The study of their time budget is the basis of ethological research in captivity. The paper considers the features of the behavior of the subfamily Pantherinae, the daily activity of animals in the summer, methods of keeping, the exposition of enclosures, and relationships with keepers. The studies were conducted in the summer of 2012 and 2013 at the Barnaul Zoo. The total observation time for the animals was 120 hours. The behavior of the African lion (Panthera leo leo – male), the Ussuri tiger (Panthera tigris altaica – female), and the Amur leopard (Panthera pardus orientalis – male) has been studied. In the course of the work, the compilation of ethograms, continuous recording, and free observations were used. The clustering method was applied to analyze the patterns of behavior of animals in captivity. Cluster analysis breaks down the behavior of captivities animals into two large blocks. Locomotion in animals should be considered as a separate block. The animal’s growth and development period require a high proportion of physical activity, which is noticeable when observing the Amur tiger. Locomotion occupied 32.8% of the total time budget of this animal. Large cats have never been in a shelter (in wooden structures of the appropriate size). They used the roof of the houses only as a place for rest and observation. The proportion of marking, hunting, eating, exploratory behavior, grooming, and such forms of behavior as freezing, static position, orienting reaction did not differ significantly. Play behavior with elements of hunting and manipulative activity took 5.5% of the Amur tiger’s time budget for the period under review. We associate this primarily with the age of the given animal. Play behavior was observed two times less often in the Far Eastern leopard (2.9%) and African lion (2.6%)..

Published

2021

18. Wavelet methods reveal big cat activity patterns and synchrony of activity with preys

Author

Michael T Dobbins, Marcel Holyoak, Wen She, Guangshun Jiang, Xiaochun Wang, Yao Ning, Jinzhe Qi, Quan Sun, Chong Huang, and Qi Li

Subjects

0106 biological sciences, China, Animals, Wild, 010603 evolutionary biology, 01 natural sciences, Predation, biology.animal, Animals, Panthera, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Temporal scales, Ecosystem, biology, Ecology, 05 social sciences, Leopard, Interspecific competition, biology.organism_classification, Big cat, Amur leopard, Predatory Behavior, Spatial ecology, Camera trap, Animal Science and Zoology, Seasons

Abstract

Appropriate temporal and spatial scales are important prerequisites for obtaining reliable results in studies of wildlife activity patterns and interspecific interactions. The spread of camera-trap technology has increased interest in and feasibility of studying the activity patterns and interspecific interactions of wildlife. However, such studies are often conducted at arbitrary spatial and temporal scales, and the methods used impose scale on the study rather than determining how activity and species interactions change with spatial scale. In this study, we used a wavelet-based approach to determine the temporal and spatial scales for activity patterns and interspecific interactions on Amur leopard and their ungulate prey species that were recorded using camera traps in the main Amur leopard occurrence region in northeast China. Wavelets identified that Amur leopards were more active in spring and fall than summer, and fluctuated with periodicities of 9 and 17 days, respectively. Synchronous relationships between leopards and their prey commonly occurred in spring and fall, with a periodicity of about 20 days, indicating the appropriate seasons and temporal scales for interspecific interaction research. The influence of human activities on the activity patterns of Amur leopard or prey species often occurred over longer time periods (60-64 days). Two-dimensional wavelet analyses showed that interactions between leopard and prey were more significant at spatial scales of 1 km2 . Overall, our study provides a feasible approach to studying the temporal and spatial scales for wildlife activity patterns and interspecific interaction research using camera trap data.

Published

2021

19. CANINE DISTEMPER VIRUS IN A WILD FAR EASTERN LEOPARD ( PANTHERA PARDUS ORIENTALIS).

Author

Sulikhan, Nadezhda S., Gilbert, Martin, Blidchenko, Ekaterina Yu., Naidenko, Sergei V., Ivanchuk, Galina V., Gorpenchenko, Tatiana Yu., Alshinetskiy, Mikhail V., Shevtsova, Elena I., Goodrich, John M., Lewis, John C. M., Goncharuk, Mikhail S., Uphyrkina, Olga V., Rozhnov, Vyatcheslav V., Shedko, Sergey V., McAloose, Denise, and Miquelle, Dale G.

Abstract

The critically endangered population of Far Eastern leopards ( Panthera pardus orientalis) may number as few as 60 individuals and is at risk from stochastic processes such as infectious disease. During May 2015, a case of canine distemper virus (CDV) was diagnosed in a wild leopard exhibiting severe neurologic disease in the Russian territory of Primorskii Krai. Amplified sequences of the CDV hemagglutinin gene and phosphoprotein gene aligned within the Arctic-like clade of CDV, which includes viruses from elsewhere in Russia, China, Europe, and North America. Histologic examination of cerebral tissue revealed perivascular lymphoid cuffing and demyelination of the white matter consistent with CDV infection. Neutralizing antibodies against CDV were detected in archived serum from two wild Far Eastern leopards sampled during 1993-94, confirming previous exposure in the population. This leopard population is likely too small to maintain circulation of CDV, suggesting that infections arise from spillover from more-abundant domestic or wild carnivore reservoirs. Increasing the population size and establishment of additional populations of leopards would be important steps toward securing the future of this subspecies and reducing the risk posed by future outbreaks of CDV or other infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2018

20. A science-based approach to guide Amur leopard recovery in China.

Author

Wang, Tianming, Feng, Limin, Yang, Haitao, Han, Boyu, Zhao, Yiheng, Juan, Lin, Lü, Xinyue, Zou, Liang, Li, Tong, Xiao, Wenhong, Mou, Pu, Smith, James L.D., and Ge, Jianping

Subjects

*PANTHERA pardus orientalis, *SPECIES diversity, *PREDATION, *GRAZING, *ZERO-inflated probability distribution

Abstract

The future of the critically endangered Amur leopard ( Panthera pardus orientalis ) is at a crucial point, and effective conservation strategies implemented within its primary historical range in Northeast China may determine the fate of this species. However, when a conservation plan was first developed for the species, scarce information on the leopards' status existed. To illustrate regional conservation challenges, we focused on the Hunchun Nature Reserve and the surrounding area along the China-Russia border, a potential stronghold for Amur leopard conservation. We conducted large-scale data analysis with a field camera-trapping network to present the first population estimates for this species using a spatially explicit capture–recapture approach. We then used a zero-inflated regression model to analyze the relationship of leopards with major prey species and anthropogenic disturbances. Our results indicate that leopards are returning to China, but most of them are part of a “border population” or are transient; their numbers are far too few to establish a healthy population. The spatial counts of leopards were noticeably high in areas with high prey richness and areas far from settlements and roads. Areas with few prey species and high human and cattle use exhibited a greater probability of “excess absences” of leopards. Mitigating human disturbances by progressively minimizing cattle and human impacts on the forest should be pursued along with habitat expansion for large ungulates, whose presence is essential for leopard occupancy. This study provides crucial information to support Chinese government recovery efforts and for refining conservation practices in human-dominated landscapes to ensure the long-term survival of this species. [ABSTRACT FROM AUTHOR]

Published

2017

21. Analysis of the «zoo visitor» effect on the example of the snow leopard Uncia uncia and the Amur leopard Panthera pardus orientalis

Author

N. A. Veselova and E. V. Denisova

Subjects

Geography, biology, Snow leopard, Visitor pattern, biology.animal, Zoology, Panthera, biology.organism_classification, Amur leopard

Abstract

The article presents the study results of the Moscow Zoo' visitor effect on the behavior of the snow leopard Uncia uncia and the Amur leopard Panthera pardus orientalis. It was shown that most of the time the animals were inactive or were in a shelter (on the average 86,3%). Stereotypy was typical only for the Amur leopard (19,1%). Animals were more likely to be active in the presence of 0 to 20 people. Most often, animals were in other parts of the aviary; however, stereotypy was manifested mainly in the front zone of the aviary. The Amur leopard shows aggression towards visitors who tried to get its attention and it's reaction to mens was more intense. Snow leopard did not react to visitors.

Published

2021

22. An initial coprological survey of parasitic fauna in the wild Amur leopard ( Panthera pardus orientalis )

Author

Zhijun Hou, Yao Ning, Dan Liu, Zhiwei Peng, Hongliang Chai, and Guangshun Jiang

Subjects

0106 biological sciences, China, Fauna, Zoology, 010603 evolutionary biology, 01 natural sciences, Feces, Toxocara cati, Paragonimus, Helminths, biology.animal, Animals, Panthera, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, biology, Coccidiosis, 05 social sciences, Leopard, biology.organism_classification, Amur leopard, Sarcocystidae, Threatened species, Spirometra, Animal Science and Zoology, Helminthiasis, Animal

Abstract

The Amur leopard, one of nine recently recognized subspecies of leopard, is still the most threatened by a stochastic procession of extinction. Evaluation of the potential danger to the conservation of the Amur leopard originating from disease urgently needs to be studied. Unfortunately, research on the potential risk to Amur leopards caused by disease is rare. In terms of parasitic diseases that affect this species, even basic data for parasitic fauna are absent. The aim of this study is to acquire this knowledge to improve the general understanding of Amur leopard parasites. Seven parasite species, including 3 nematodes (Toxocara cati, a capillarid-type parasite, and a Metastrongyloidea-type parasite), 2 cestodes (Spirometra sp. and Taenia sp.), 1 trematode (Paragonimus sp.), and 1 protozoan (Cystoisospora felis), were found in this research. Toxocara cati occurred most frequently, followed by Spirometra sp.

Published

2020

23. The current distribution and status of leopards Panthera pardus in China.

Author

Laguardia, Alice, Kamler, Jan F., Li, Sheng, Zhang, Chengcheng, Zhou, Zhefeng, and Shi, Kun

Subjects

*LEOPARD, *PANTHERA pardus orientalis, *DISTRIBUTION (Economic theory)

Abstract

The leopard Panthera pardus, categorized globally as Near Threatened on the IUCN Red List, has the widest distribution of any wild felid species, although in Asia it has declined dramatically and five subspecies are Endangered or Critically Endangered. In China at least three subspecies have been reported to occur throughout much of the country, and in 1998 the population was estimated to be 1,000. However, recent studies have indicated that leopards have disappeared from large areas, probably as a result of habitat loss, a low prey base and poaching, indicating this species may not be as common in China as previously believed. To examine this we reviewed recent literature and interviewed specialists to determine the current status and distribution of the leopard in China. Our findings indicate that the species has declined dramatically, with confirmation of presence at only 44 sites in 11 provinces, despite extensive surveys. Current populations are small and fragmented, and occur mainly in isolated nature reserves. We estimate a total population of only 174–348 P. pardus japonensis (the north Chinese leopard), which is endemic to China, and < 30 individuals for each of the other subspecies whose distributions extend beyond China. We recommend that a separate IUCN assessment be made for P. pardus japonensis, and that this subspecies be categorized as Critically Endangered. Our findings are the first reliable estimates of the current distribution and status of the leopard in China, and provide valuable information that will help guide conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2017

24. Reconstructing the historical distribution of the Amur Leopard (Panthera pardus orientalis) in Northeast China based on historical records.

Author

Li Yang, Mujiao Huang, Rui Zhang, Jiang Lv, Yueheng Ren, Zhe Jiang, Wei Zhang, and Xiaofeng Luan

Subjects

*PANTHERA pardus orientalis, *ANIMAL classification, *ZOOGEOGRAPHY, *MAMMAL extinction, *DATA analysis

Abstract

The range of the Amur leopard (Panthera pardus orientalis) has decreased dramatically over the last 100 years. This species is still under extreme risk of extinction and conservation efforts are rigorous. Understanding the long-term dynamics of the population decline would be helpful to offer insight into the mechanism behind the decline and endangerment and improve conservation perspectives and strategies. Historical data collection has been the challenge for reconstructing the historical distribution. In China, new gazetteers having systematic compilation and considerable local ecological data can be considered as an important complementary for reconstruction. Therefore, we have set up a data set (mainly based on the new gazetteers) in order to identify the historical range of the Amur Leopard from the 1950s to 2014. The result shows that the Amur leopard was historically widely distributed with large populations in Northeastern China, but it presented a sharp decline after the 1970s. The decline appeared from the plains to the mountains and northeast to southwest since the 1950s. Long-term historical data, mainly from new gazetteers, demonstrates that such resources are capable of tracking species change through time and offers an opportunity to reduce data shortage and enhance understanding in conservation. [ABSTRACT FROM AUTHOR]

Published

2016

25. Documented evidence of habitation for the sika deer, the Amur leopard cat and the striped field mouse in the Bikin National Park (Russia)

Author

Vladimir V. Popov, Aleksey Yu. Oleynikov, and Sergey A. Kolchin

Subjects

Anesthesiology and Pain Medicine, Geography, biology, National park, biology.organism_classification, Archaeology, Amur leopard

Published

2020

26. An introduction to Long-term Tiger-Leopard Observation Network based on camera traps in Northeast China

Author

Tianming Wang, Haitao Yang, Limin Feng, Hong-Fang Wang, Jianping Ge, and Lei Bao

Subjects

Fishery, Geography, Ecology, biology, Tiger, biology.animal, Leopard, China, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Amur leopard, Nature and Landscape Conservation, Term (time)

Published

2020

27. Food Habit Analysis of the Amur Leopard Cat Prionailurus bengalensis euptilurus in the Russian Far East

Author

Ivan V. Seryodkin and O. A. Burkovskiy

Subjects

0106 biological sciences, 0301 basic medicine, biology, Frequency of occurrence, Zoology, Prionailurus bengalensis euptilurus, Food habits, Leopard, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Amur leopard, 03 medical and health sciences, 030104 developmental biology, biology.animal, General Agricultural and Biological Sciences, Far East

Abstract

The ecology of the Amur leopard cat (Prionailurus bengalensis euptilurus) has not been studied enough, especially in the Russian Far East. This study presents the food habits of the Amur leopard cat, based on the analysis of scat samples collected in the Primorsky Region of Russia. Mammals and birds had the highest contribution in the diet (89.3 and 30.6% frequency of occurrence, respectively). Rodents had an important role in the diet of the leopard cat throughout the year. The proportion of birds and poikilothermic animals increased during the snow-free season. The total list of animals recorded to be consumed by the leopard cat is presented, consisting of 63 species (seven fishes, eight amphibians, one reptile, 21 birds, and 26 mammals).

Published

2019

28. Spatial distribution drivers of Amur leopard density in northeast China.

Author

Qi, Jinzhe, Shi, Quanhua, Wang, Guiming, Li, Zhilin, Sun, Quan, Hua, Yan, and Jiang, Guangshun

Subjects

*PANTHERA pardus orientalis, *LEOPARD, *POPULATION density, *WILDLIFE conservation, *BIOMASS, *ANIMAL behavior

Abstract

The Amur leopard ( Panthera pardus orientalis ) is highly elusive, rare species, critically threatened with extinction worldwide. In this study, we conducted camera-trap surveys of an Amur leopard population in Jilin Province, northeast China. We estimated population abundance and density distribution, and explored the effects of prey population densities and biomass of prey, habitat and anthropogenic factors on the spatial distribution of Amur leopard density. Our results suggested that Amur leopard density was 0.62 individuals/100 km 2 and 16.58 individuals might live within the study area. The spatial distribution of Amur leopard density exhibited different responses to the population densities of different prey species. We found that two ecological thresholds existed in maximum responses of Amur leopard distribution to elevation and prey biomass. Vegetation and anthropogenic factors also showed significant effects on leopard population distribution. In general, there was a combination of habitat factors including, not only prey assembly and biomass, but also vegetation, anthropogenic and geographical factors driving the spatial distribution of Amur leopard population. These insights informed us that comprehensive adaptive landscape and prey conservation strategies should be conducted for saving this critically endangered predator. [ABSTRACT FROM AUTHOR]

Published

2015

29. Presence of Broad-Spectrum Beta-Lactamase-Producing

Author

Nick Vereecke, Filip Boyen, Tim Bouts, Hans Nauwynck, Chloë De Witte, Claudia De Ruyck, Francis Vercammen, Sebastiaan Theuns, and Freddy Haesebrouck

Subjects

Microbiology (medical), zoo animals, medicine.medical_treatment, animal diseases, Zoology, medicine.disease_cause, Microbiology, Article, 03 medical and health sciences, Antibiotic resistance, Virology, biology.animal, medicine, Escherichia coli, Veterinary Sciences, antimicrobial resistance, zoonotic, lcsh:QH301-705.5, 030304 developmental biology, 0303 health sciences, biology, Phylogenetic tree, 030306 microbiology, biology.organism_classification, Enterobacteriaceae, Amur leopard, Multiple drug resistance, Hyena, lcsh:Biology (General), Beta-lactamase, BSBLs

Abstract

Broad-spectrum beta-lactamase (BSBL)-producing Enterobacteriaceae impose public health threats. With increased popularity of zoos, exotic animals are brought in close proximity of humans, making them important BSBL reservoirs. However, not much is known on the presence of BSBLs in zoos in Western Europe. Fecal carriage of BSBL-producing Enterobacteriaceae was investigated in 38 zoo mammals from two Belgian zoos. Presence of bla-genes was investigated using PCR, followed by whole-genome sequencing and Fourier-transform infrared spectroscopy to cluster acquired resistance encoding genes and clonality of BSBL-producing isolates. Thirty-five putatively ceftiofur-resistant isolates were obtained from 52.6% of the zoo mammals. Most isolates were identified as E. coli (25/35), of which 64.0% showed multidrug resistance (MDR). Most frequently detected bla-genes were CTX-M-1 (17/25) and TEM-1 (4/25). Phylogenetic trees confirmed clustering of almost all E. coli isolates obtained from the same animal species. Clustering of five isolates from an Amur tiger, an Amur leopard, and a spectacled bear was observed in Zoo 1, as well as for five isolates from a spotted hyena and an African lion in Zoo 2. This might indicate clonal expansion of an E. coli strain in both zoos. In conclusion, MDR BSBL-producing bacteria were shown to be present in the fecal microbiota of zoo mammals in two zoos in Belgium. Further research is necessary to investigate if these bacteria pose zoonotic and health risks.

Published

2021

30. Impacts of COVID-19 on animals in zoos: a longitudinal multi-species analysis

Author

Ellen Williams, Jessica Rendle, Samantha J. Ward, and Anne Carter

Subjects

2019-20 coronavirus outbreak, Behaviour change, Coronavirus disease 2019 (COVID-19), QH301-705.5, zoo, multi-species, Multi species, Rothschild, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Biology (General), biology, 05 social sciences, 0402 animal and dairy science, COVID-19, 04 agricultural and veterinary sciences, biology.organism_classification, 040201 dairy & animal science, Amur leopard, behaviour, Geography, QL1-991, Snow leopard, Goral, visitor-animal interactions, Zoology, Demography

Abstract

Prolonged and repetitive COVID-19 facility closures have led to an abrupt cessation of visitors within UK and Irish zoos for variable periods since March 2020. This study sought to increase understanding of the impact of closures and reopenings on animal behaviour, thereby broadening understanding of whether zoo animals habituate to visitors. Data were collected from June to August 2020 at two UK facilities on eight species (n = 1 Chinese goral, n = 2 Grevy’s zebra, n = 11 swamp wallaby, n = 2 Rothschild’s giraffe, n = 2 nyala, n = 4 Chapman’s zebra, n = 2 snow leopard and n = 3 Amur leopard). Behaviour change and enclosure use was variable across species but most changes were non-significant. Grevy’s zebra engaged in more comfort behaviour during closure periods than post-closure (p &lt, 0.05). Chinese goral engaged in more environmental interactions during closure periods (p &lt, 0.05). Grevy’s zebra spent longer than would be expected by chance closest to public viewing areas during closure periods (p &lt, 0.008). These results suggest variable impacts of covid-19 closures and reopenings, mirroring human-animal interaction literature. We highlight the potential for some species to take longer to re-habituate to the presence of zoo visitors. As facility closures/reopenings are ongoing, we advocate a longitudinal monitoring approach. Furthermore, we recommend incorporation of physical and physiological measures of welfare where possible, alongside behavioural responses, to enable a holistic approach to answering fundamental questions on whether zoo animals habituate to visitors.

Published

2021

31. IMPACT OF ZOO VISITORS ON THE BEHAVIOR OF PERSIAN LIONS PANTHERA LEO PERSICA AND AMUR LEOPARD PANTHERA PARDUS ORIENTALIS

Subjects

biology, 040301 veterinary sciences, 0402 animal and dairy science, Zoology, 04 agricultural and veterinary sciences, biology.organism_classification, 040201 dairy & animal science, language.human_language, Amur leopard, 0403 veterinary science, Geography, biology.animal, language, Panthera, Persian

Abstract

В исследовании проанализированы поведенческие реакции азиатских львов Panthera leo persica и дальневосточного леопарда Panthera pardus orientalis на присутствие разного количества посетителей, их воздействие на животных, а также характер использования пространства вольера в Московском зоопарке. The study analyzed data on the behavioral responses of Persian lions Panthera leo persica and Amur leopard Panthera pardus orientalis to the number of visitors, the impact of visitors on the animals themselves, and the use of aviary space in the Moscow Zoo.

Published

2020

32. High genetic diversity and low differentiation reflect the ecological versatility of the African leopard

Author

Rasmus Heller, Ryan K. Waples, Xiaodong Liu, Hans R. Siegismund, Liam Quinn, Ida Moltke, Rute R. da Fonseca, Casia Nursyifa, Christian Hviid Friis Jørgensen, Frederik Filip Stæger, Genís Garcia-Erill, Cindy G. Santander, Jonas Meisner, Patrícia Pečnerová, Anders Albrechtsen, Malthe Sebro Rasmussen, Peter Frandsen, Anna Brüniche-Olsen, and Kristian Hanghøj

Subjects

0301 basic medicine, Gene Flow, Male, African leopard, Population, Population genetics, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Effective population size, biology.animal, Animals, Panthera, education, Ecosystem, Trophic level, Population Density, education.field_of_study, biology, Ecology, Leopard, Genetic Variation, biology.organism_classification, Big cat, Amur leopard, 030104 developmental biology, Africa, Female, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery

Abstract

Large carnivores are generally sensitive to ecosystem changes because their specialized diet and position at the top of the trophic pyramid is associated with small population sizes. Accordingly, low genetic diversity at the whole-genome level has been reported for all big cat species, including the widely distributed leopard. However, all previous whole-genome analyses of leopards are based on the Far Eastern Amur leopards that live at the extremity of the species' distribution and therefore are not necessarily representative of the whole species. We sequenced 53 whole genomes of African leopards. Strikingly, we found that the genomic diversity in the African leopard is 2- to 5-fold higher than in other big cats, including the Amur leopard, likely because of an exceptionally high effective population size maintained by the African leopard throughout the Pleistocene. Furthermore, we detected ongoing gene flow and very low population differentiation within African leopards compared with those of other big cats. We corroborated this by showing a complete absence of an otherwise ubiquitous equatorial forest barrier to gene flow. This sets the leopard apart from most other widely distributed large African mammals, including lions. These results revise our understanding of trophic sensitivity and highlight the remarkable resilience of the African leopard, likely because of its extraordinary habitat versatility and broad dietary niche.

Published

2020

33. Comparison of anesthetic effects of tiletamine-zolazepam-medetomidine or ketamine-medetomidine in captive Amur leopard cats (Prionailurus bengalensis euptailurus)

Author

Dong-Hyuk Jeong, Jeongho Kim, and Ki-Jeong Na

Subjects

Male, Mean arterial pressure, Respiratory rate, 040301 veterinary sciences, 0403 veterinary science, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, Heart Rate, Prionailurus bengalensis, Heart rate, medicine, Animals, Ketamine, Prospective Studies, Anesthetics, Tiletamine, General Veterinary, biology, business.industry, 04 agricultural and veterinary sciences, Medetomidine, biology.organism_classification, Zolazepam, Amur leopard, Anesthetics, Combined, Drug Combinations, Anesthesia, Anesthetic, Female, business, medicine.drug

Abstract

Objective To evaluate the effects and utility of tiletamine–zolazepam–medetomidine (TZM) and ketamine–medetomidine (KM) for anesthesia of Amur leopard cats (Prionailurus bengalensis euptailurus). Study design Prospective, randomized experimental trial. Animals A total of six female (3.70 ± 0.49 kg) and six male (5.03 ± 0.44 kg; mean ± standard deviation) Amur leopard cats aged 2–6 years. Methods Each animal was administered four protocols separated by ≥3 weeks. Each protocol included medetomidine (0.05 mg kg–1) combined with tiletamine–zolazepam (1 mg kg–1; protocol MTZLO); tiletamine–zolazepam (2 mg kg–1; protocol MTZHI); ketamine (2 mg kg–1; protocol MKLO); or ketamine (4 mg kg–1; MKHI) administered intramuscularly. At time 0 (onset of lateral recumbency) and 30 minutes, heart rate (HR), respiratory rate (fR), rectal temperature, noninvasive mean arterial pressure (MAP) and hemoglobin oxygen saturation (SpO2) were recorded. Times to onset of lateral recumbency, duration of anesthesia and time to standing were recorded. Results Overall, animals were anesthetized with all protocols within 10 minutes, anesthesia was maintained ≥57 minutes, and recovery (time from the first head lift to standing) was completed within 5 minutes. During anesthesia with all protocols, HR, fR, rectal temperature, SpO2 and MAP were 99–125 beats minute–1, 33–44 breaths minute–1, 37.6–39.4 °C, 90–95% and 152–177 mmHg, respectively. No adverse event was observed. Conclusions and clinical relevance TZM and KM at various dosages resulted in rapid onset of anesthesia, duration of >57 minutes and rapid recovery without administration of an antagonist. Accordingly, all these combinations are useful for anesthetizing Amur leopard cats and for performing simple procedures. However, the low doses of the anesthetic agents are recommended because there was no difference in duration of anesthesia between the dose rates studied.

Published

2020

34. Spatiotemporal patterns of Amur leopards in northeast China: Influence of tigers, prey, and humans

Author

Boyu Han, Jianping Ge, Xiaodan Zhao, Haitao Yang, Limin Feng, Pu Mou, and Tianming Wang

Subjects

0106 biological sciences, Nature reserve, biology, Tiger, 010604 marine biology & hydrobiology, Endangered species, Zoology, Leopard, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Amur leopard, Predation, Animal ecology, biology.animal, Animal Science and Zoology, Panthera, Ecology, Evolution, Behavior and Systematics

Abstract

The Amur leopard Panthera pardus orientalis is one of the most endangered cat subspecies in the world. The rare leopard is sympatric with Amur tiger Panthera tigris altaica and their prey in human dominated landscape. To conserve the felid species, it is important to understand the activity patterns of Amur leopards, including its interactions with Amur tigers, prey, and human activities. We used a data set from 163 camera traps to quantify the spatial-temporal overlap between Amur leopards, Amur tigers, prey species, and human disturbances (e.g., humans presence on foot, vehicles, domestic dogs, and cattle grazing) from January to December 2013 in the Hunchun Nature Reserve, NE China. Our results indicated that leopards were more active in daytime and twilight; the seasonal spatial-temporal overlaps between leopards and tigers were lower than that between leopards and their prey species. Human activities and cattle grazing could influence the spatial distribution and activity patterns of the leopards, and therefore, the conservation actions should focus on reduction of human disturbances to minimize the impacts to Amur leopard activity patterns.

Published

2018

35. EFFECTIVE APPLICATION OF SCANNING ELECTRON MICROSCOPY IN FORENSIC BIOLOGY FOR THE ANALYSIS OF HAIRS FROM EXTINCT AND EXTANT MAMMALIAN SPECIES

Author

Ol'ga F. Chernova and Tat'yana V. Perfilova

Subjects

inorganic chemicals, geography, geography.geographical_feature_category, Woolly mammoth, biology, integumentary system, Tiger, fungi, Zoology, biology.organism_classification, Amur leopard, humanities, Cave, Social pathology. Social and public welfare. Criminology, Woolly rhinoceros, Threatened species, Ice age, bacteria, extinct and rare mammals, forensic biology, hairs, HV1-9960, Holocene, scanning electron microscopy

Abstract

The possibilities of scanning electron microscopy (SEM) for effective species diagnosis and identification of mammals are demonstrated using specific examples of microscopic analysis of mammalian fur, including the fur of extinct species of the Ice Age (woolly mammoth, woolly rhinoceros, cave lion, ancient bison and horses), fur remains from Holocene burials and graves, and fur samples from extant threatened species (chimpanzee, orangutan, Amur leopard, and tiger).

Published

2018

36. What factors relate with the activity synchronization intensity among big cats and their ungulate prey in Northeast China?

Author

Jinzhe Qi, Guangshun Jiang, Shuyan Liu, Jianzhang Ma, Jiayin Gu, and Zexu Long

Subjects

Ungulate, Amur leopard, Ecology, biology, Camera traps, Niche, Leopard, Synchronization intensity, Interspecific competition, biology.organism_classification, Big cat, Predation, Roe deer, Amur tiger, biology.animal, Activity rhythm, Coexistence, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

The activity synchronization rhythm is an important aspect of measuring interspecific interactions between predators and prey, and crucial for large carnivores conservation. However, little is known about what factors relate their activity synchronization dynamics. With the climate change and human society development, the spatial-temporal distribution and activity synchronized rhythm of large carnivores and their prey would inevitably be affected, which would further affect the adaptability of large carnivores and bring new challenges to their conservation. In this study, we hypothesized the ambient temperature and human activity would influence the activity synchronization intensity among Amur tiger, Amur leopard and ungulates (roe deer, sika deer and wild boar) through cross-correlation function and temporal niche overlap model based on the camera traps data. The result show that the activity rhythms of the five target species showed species and seasonal differences, the temporal niche overlaps between ungulates were normally higher than that between the cats and prey, the weakest overlap was observed between the two big cat species, and time-lags of similar rhythmic activity can reduce the temporal overlap pressures of species. Furthermore, we found that ambient temperature relate interspecific synchrony of roe deer-sika deer and roe deer-wild boar pairs at the daily scale. And at hourly scale, temperature and human activities exerted significantly positive or negative stresses on the interspecific activity synchronization of all target species, observed in all three seasons. Our study provides new insights on our understanding of the mechanisms by which sympatric predators and ungulate prey coexist and interact in view of temporal niche overlap, as well as how wildlife managers can manage the mammal assembly effectively. As the Amur tiger and leopard populations in China are being recovered quickly, the rapidly increasing predation pressure and limited environmental resources could have profound implications for the interaction and coexistence among these two large carnivores and their ungulate prey. Managers should strengthen the monitoring, and understand its causes and consequences, so as to develop effective protective measures.

Published

2021

37. A Review of the Proposed Reintroduction Program for the Far Eastern Leopard (Panthera pardus orientalis) and the Role of Conservation Organizations, Veterinarians, and Zoos.

Author

Kelly, Paul, Stack, David, and Harleyc, Jessica

Subjects

PANTHERA pardus orientalis, LEOPARD, VETERINARIANS, ENDANGERED species, NATURE conservation, WILDLIFE conservation

Abstract

The Amur leopard is at the point of extinction. At present there are fewer than 35 in the wild. Their natural habitat ranges from China to the North Korean peninsula to Primorsky Krai in Russia. A reintroduction plan has been proposed to increase the population in the wild; however, this proposed plan still has many questions to be answered as to how effective it will be. The main objective is to reintroduce animals from a select group within the Far Eastern leopard programme or the Species Survival programme, which consist of leopards from select populations in the Northern Hemisphere. Zoos are central to the success of this plan, providing suitable breeding pairs to breed animals for reintroduction and also raising much needed funds to finance the project. Zoos are also central in educating the public about the critical status of the Amur leopard and other endangered animals of the world. Veterinary surgeons, by the very nature of their professional skills, are at the forefront of this seemingly endless battle against extinction of thousands of species that are critical to maintaining the balance of our fragile ecosystem. Veterinarians can analyze the health risks and health implications of reintroduction on the animals to be reintroduced and also on the native population. A world without large cats is a world hard to imagine. If we look closer at the implications of extinction, we see the domino effect of their loss and an ecosystem out of control. [ABSTRACT FROM AUTHOR]

Published

2013

38. A science-based approach to guide Amur leopard recovery in China

Author

Liang Zou, Pu Mou, Tong Li, James L. Smith, Lin Juan, Tianming Wang, Jianping Ge, Haitao Yang, Limin Feng, Yiheng Zhao, Xinyue Lü, Boyu Han, and Wenhong Xiao

Subjects

0106 biological sciences, education.field_of_study, biology, Ecology, 010604 marine biology & hydrobiology, Population, Conservation Plan, Leopard, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Amur leopard, Critically endangered, Geography, Habitat, biology.animal, Species richness, Panthera, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

The future of the critically endangered Amur leopard (Panthera pardus orientalis) is at a crucial point, and effective conservation strategies implemented within its primary historical range in Northeast China may determine the fate of this species. However, when a conservation plan was first developed for the species, scarce information on the leopards' status existed. To illustrate regional conservation challenges, we focused on the Hunchun Nature Reserve and the surrounding area along the China-Russia border, a potential stronghold for Amur leopard conservation. We conducted large-scale data analysis with a field camera-trapping network to present the first population estimates for this species using a spatially explicit capture–recapture approach. We then used a zero-inflated regression model to analyze the relationship of leopards with major prey species and anthropogenic disturbances. Our results indicate that leopards are returning to China, but most of them are part of a “border population” or are transient; their numbers are far too few to establish a healthy population. The spatial counts of leopards were noticeably high in areas with high prey richness and areas far from settlements and roads. Areas with few prey species and high human and cattle use exhibited a greater probability of “excess absences” of leopards. Mitigating human disturbances by progressively minimizing cattle and human impacts on the forest should be pursued along with habitat expansion for large ungulates, whose presence is essential for leopard occupancy. This study provides crucial information to support Chinese government recovery efforts and for refining conservation practices in human-dominated landscapes to ensure the long-term survival of this species.

Published

2017

39. Where to spot: individual identification of leopard cats (Prionailurus bengalensis euptilurus) in South Korea

Author

Euigeun Song, Yung Chul Park, Anya Lim, Hee-Bok Park, Taeyoung Choi, and Seung-Yoon Baek

Subjects

0106 biological sciences, education.field_of_study, biology, Population size, Population, Endangered species, Leopard, General Medicine, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Amur leopard, 010601 ecology, Prionailurus bengalensis, biology.animal, Photo identification, education, Cartography, Wildlife conservation

Abstract

Knowledge of abundance, or population size, is fundamental in wildlife conservation and management. Camera-trapping, in combination with capture-recapture methods, has been extensively applied to estimate abundance and density of individually identifiable animals due to the advantages of being non-invasive, effective to survey wide-ranging, elusive, or nocturnal species, operating in inhospitable environment, and taking low labor. We assessed the possibility of using coat patterns from images to identify an individual leopard cat (Prionailurus bengalensis), a Class II endangered species in South Korea. We analyzed leopard cat images taken from Digital Single-Lense Relfex camera (high resolution, 18Mpxl) and camera traps (low resolution, 3.1Mpxl) using HotSpotter, an image matching algorithm. HotSpotter accurately top-ranked an image of the same individual leopard cat with the reference leopard cat image 100% by matching facial and ventral parts. This confirms that facial and ventral fur patterns of the Amur leopard cat are good matching points to be used reliably to identify an individual. We anticipate that the study results will be useful to researchers interested in studying behavior or population parameter estimates of Amur leopard cats based on capture-recapture models.

Published

2019

40. The Tsushima leopard cat exhibits extremely low genetic diversity compared with the Korean Amur leopard cat: Implications for conservation

Author

Miho Inoue-Murayama and Hideyuki Ito

Subjects

0106 biological sciences, Mitochondrial DNA, Conservation Biology, Population, lcsh:Medicine, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Genetic diversity, 03 medical and health sciences, biology.animal, Genetics, education, 030304 developmental biology, 0303 health sciences, education.field_of_study, biology, General Neuroscience, lcsh:R, Leopard, General Medicine, Biodiversity, Tsushima leopard cat, biology.organism_classification, Ex situ conservation, Amur leopard, Genetic marker, Evolutionary biology, Microsatellite, General Agricultural and Biological Sciences, Zoology, human activities, Molecular genetic analysis

Abstract

We examined genetic diversity of the wild Tsushima leopard cat—a regional population of the Amur leopard cat—using microsatellite markers. In addition, we compared genetic diversity of the Tsushima leopard cat with that of the Korean population of Amur leopard cat. Although bias should be considered when applying cross-species amplification, the Tsushima leopard cat showed a lower index of molecular genetic diversity than did the Korean population. These results were consistent with those obtained using other genetic markers, such as mitochondrial DNA and Y chromosome sequences. This low genetic diversity of the wild Tsushima leopard cat may be derived from the founding population. Furthermore, our results suggest that the captive populations held in Japanese zoos may show extremely low genetic diversity, leading to difficulties in genetic management of the Tsushima leopard cat. Moreover, the two regional populations were clearly separated using these marker sets. In the present study, we demonstrated that the genetic diversity of the Tsushima leopard cat is extremely low compared with that of the continental regional population. Importantly, the Japanese captive population forex situconservation was derived from a founding population with extremely low genetic diversity; hence, we assume that both the captive and wild populations showed extremely low genetic diversities. Our findings emphasize the need to develop carefully considered management strategies for genetic conservation.

Published

2019

41. Assessing the health risks of reintroduction: The example of the Amur leopard, Panthera pardus orientalis

Author

Mikhail Alshinetski, Irina Korotkova, John G. Lewis, Tanya Arzhanova, Nadezhda Sulikhan, Martin Gilbert, John M. Goodrich, Linda L. Kerley, Olga Uphyrkina, Sergey V. Naidenko, Alex Tomlinson, Mikhail Goncharuk, and Dale G. Miquelle

Subjects

Conservation of Natural Resources, 040301 veterinary sciences, Wildlife, Disease, Immunodeficiency Virus, Feline, 0403 veterinary science, 03 medical and health sciences, biology.animal, Animals, Panthera, Chlamydia, Distemper, Domestication, Environmental planning, Distemper Virus, Canine, Screening procedures, 030304 developmental biology, 0303 health sciences, General Veterinary, General Immunology and Microbiology, biology, 04 agricultural and veterinary sciences, General Medicine, Chlamydia Infections, biology.organism_classification, Amur leopard, Siberia, Geography, Threatened species, Lentivirus Infections, Staff training

Abstract

Translocation of wildlife as a means of reintroducing or reinforcing threatened populations is an important conservation tool but carries health risks for the translocated animals and their progeny, as well as wildlife, domestic animals and humans in the release area. Disease risk analyses (DRA) are used to identify, prioritize and design mitigation strategies to address these threats. Here, we use a DRA undertaken for Amur leopards (Panthera pardus orientalis) to illustrate how specific methodology can optimize mitigation strategy design. A literature review identified a total of 98 infectious hazards and 28 non-infectious hazards. Separate analyses were undertaken for disease risks in leopards from hazards of source origin (captive zoo collections and the transit pathway to the Russian Far East), or of destination origin (in breeding enclosures and wider release areas); and for disease risks in other wildlife, domesticated species or humans, similarly from hazards of source or destination origin. Hazards were assessed and ranked as priority 1, priority 2, priority 3 or low priority in each of the defined scenarios. In addition, we undertook a generic assessment of stress on individual leopards. We use three examples to illustrate the process: Chlamydophila felis, canine distemper virus (CDV) and feline immunodeficiency virus (FIV). We found that many potentially expensive screening procedures could be performed prior to export of leopards, putting the onus of responsibility onto the zoo sector, for which access to diagnostic testing facilities is likely to be optimal. We discuss how our methods highlighted significant data gaps relating to pathogen prevalence in the Russian Far East and likely future unpredictability, in particular with respect to CDV. There was emphasis at all stages on record keeping, meticulous planning, design, staff training and enclosure management, which are relatively financially inexpensive. Actions to minimize stress featured at all time points in the strategy and also focussed on planning, design and management.

Published

2019

42. Intrauterine insemination with fresh semen in Amur leopard cat (Pionailurus bengalensis eutilura) during non-breeding season

Author

Yuriko Tateyama, Etsuo Narushima, Shinichi Sasaki, Toshihiko Tsutsui, Masanori Kobayashi, Hideo Tajima, Eiichi Kawakami, Tatsuya Hori, Osamu Doi, Satoshi Kusuda, Madoka Yoshizawa, Fujio Yamamoto, and Takashi Funahashi

Subjects

medicine.medical_specialty, media_common.quotation_subject, Insemination, Kitten, Andrology, 03 medical and health sciences, 0302 clinical medicine, biology.animal, medicine, Seasonal breeder, Ovulation, media_common, Estrous cycle, Gynecology, Pregnancy, Fetus, 030219 obstetrics & reproductive medicine, General Veterinary, biology, 0402 animal and dairy science, 04 agricultural and veterinary sciences, medicine.disease, biology.organism_classification, 040201 dairy & animal science, Amur leopard, embryonic structures

Abstract

Equine and human chorionic gonadotropins were administered to two female Amur leopard cats to induce estrus and ovulation during non-breeding season. Fresh semen collected from male cats was surgically inseminated into the uterine horn of the females. In one animal, two fetal sacs without heartbeats were observed on abdominal ultrasonography 31 days after insemination, which indicated that embryo death had occurred. In the other animal, fetal heartbeats were detected in two fetal sacs 29 days after insemination, which confirmed as pregnancy. This animal delivered two newborns 68 days after insemination; the one of the kittens was assumed to be stillbirth, and the other grew normally. In this study, we successfully obtained a kitten from an Amur leopard cat by artificial breeding for the first time in Japan.

Published

2017

43. Дальневосточный банк биологических материалов от крупных кошачьих (Pantherinae) как инструмент совершенствования практики применения статей 226.1 и 258.1 Уголовного кодекса Российской Федерации

Subjects

Sociology and Political Science, biology, Ethnology, biology.organism_classification, Law, Amur leopard, Siberian tiger

Published

2017

44. Are Large Cats Compatible with Modern Society on the Korean Peninsula?

Author

John T. Baccus and Yeong-Seok Jo

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, biology, Eurasian lynx, Ecology, 010604 marine biology & hydrobiology, Endangered species, Leopard, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Amur leopard, Fishery, Peninsula, biology.animal, Prionailurus bengalensis, Panthera, Siberian tiger, Nature and Landscape Conservation

Abstract

Large cat species were historically abundant in Korea; however, most vanished during the 20th century. We examined the causes of this demise and diagnosed the feasibiity of felid restoration in modern Korea. “Pest” control during the Japanese Invasion (1910–1945) eradicated Panthera tigris (Siberian tiger), and Panthera pardus (Amur leopard). Lynx lynx (Eurasian lynx) never inhabited South Korea and were rare in North Korea. Prionailurus bengalensis (leopard cat) was profuse, but habitat loss, road kills, rodenticides, and competition with feral house cats relegated the species to rarity. Despite the extirpation of P. tigris and P. pardus on the Korean Peninsula, the South Korean Government listed all felids as “Endangered” and initiated the development of recovery plans. The North Korean Government followed but did not list P. bengalensis. We suggest that misdirected methods and plans for the restoration of felids were applied to an inappropriate species, L. lynx. For big felid restoration, we suggest three options. The first option for pre-restoration in North Korea includes two reserves adjacent to habitats of tigers and leopards in Russia and China. The second option includes two reserves in South Korea. The second option, primarily for P. pardus restoration, has more potential for success than the restoration of P. tigris. The third option delays restoration of the big cats and allocates revenues and governmental policy toward the survival of P. bengalensis. This option is a pragmatic choice with a greater probability of success, instead of focusing efforts on extirpated tigers and leopards.

Published

2016

45. Genetic Diversity and Genetic Structure of the Wild Tsushima Leopard Cat from Genome-Wide Analysis

Author

Manabu Onuma, Hideyuki Ito, Miho Murayama, and Nobuyoshi Nakajima

Subjects

0106 biological sciences, 0301 basic medicine, Population, 010603 evolutionary biology, 01 natural sciences, Article, 03 medical and health sciences, biology.animal, lcsh:Zoology, lcsh:QL1-991, education, Genotyping, Genome size, education.field_of_study, Genetic diversity, lcsh:Veterinary medicine, General Veterinary, biology, Leopard, Tsushima leopard cat, genetic diversity, biology.organism_classification, Ex situ conservation, Amur leopard, 030104 developmental biology, Evolutionary biology, Genetic structure, lcsh:SF600-1100, GRAS-Di, Animal Science and Zoology, genome-wide analysis

Abstract

The Tsushima leopard cat (Prionailurus bengalensis euptilurus) lives on Tsushima Island in Japan and is a regional population of the Amur leopard cat, it is threatened with extinction. Its genetic management is important because of the small population. We used genotyping by random amplicon sequencing-direct (GRAS-Di) to develop a draft genome and explore single-nucleotide polymorphism (SNP) markers. The SNPs were analyzed using three genotyping methods (mapping de novo, to the Tsushima leopard cat draft genome, and to the domestic cat genome). We examined the genetic diversity and genetic structure of the Tsushima leopard cat. The genome size was approximately 2.435 Gb. The number of SNPs identified was 133&ndash, 158. The power of these markers was sufficient for individual and parentage identifications. These SNPs can provide useful information about the life of the Tsushima leopard cat and the pairings and for the introduction of founders to conserve genetic diversity with ex situ conservation. We identified that there are no subpopulations of the Tsushima leopard cat. The identifying units will allow for a concentration of efforts for conservation. SNPs can be applied to the analysis of the leopard cat in other regions, making them useful for comparisons among populations and conservation in other small populations.

Published

2020

46. Phylogenetic study of extirpated Korean leopard using mitochondrial DNA from an old skin specimen in South Korea

Author

Jang Hyuk Cho, Jee Yun Hyun, Mi-Sook Min, Kyung Seok Kim, Puneet Pandey, and Hang Lee

Subjects

0106 biological sciences, Conservation Biology, Range (biology), Population, Endangered species, lcsh:Medicine, Zoology, Subspecies, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Old skin, South Korea, biology.animal, Genetics, Korean leopard, education, Taxonomy, 030304 developmental biology, Panthera pardus orientalis, 0303 health sciences, education.field_of_study, biology, General Neuroscience, lcsh:R, Leopard, Biodiversity, General Medicine, biology.organism_classification, Mitochondrial DNA, Amur leopard, Geography, Threatened species, Panthera, General Agricultural and Biological Sciences

Abstract

The leopard, Panthera pardus, is a threatened species in its range throughout the world. Although, historically, the Korean Peninsula had a high population density of leopards, they were extirpated from South Korea by 1970, leaving almost no genetic specimens. Traditionally, Korean leopards are classified as Panthera pardus orientalis; however, their classification is based only on locality and morphology. Therefore, there is a need for genetic studies to identify the phylogenetic status of Korean leopards at the subspecies level. Presently, no extant wild specimen is available from South Korea; therefore, we extracted genetic material from the old skin of a leopard captured in Jirisan, South Korea in the 1930s and conducted the first phylogenetic study of the South Korean leopard. A total of 726 bp of mitochondrial DNA, including segments of the NADH5 and control region, were amplified by PCR. A phylogenetic analysis of the fragment, along with sequences of nine leopard subspecies from GenBank revealed that the extinct South Korean leopard belonged to the Asian leopard group and in the same clade as the Amur leopard (Panthera pardus orientalis). Thus, the leopard that inhabited South Korea in the past was of the same subspecies as the Amur leopard population currently inhabiting the transboundary region of Russia, China, and North Korea. These results emphasize the importance of conserving the endangered wild Amur leopard population (estimated to be about 60–80 individuals) in Russia and China, for future restoration of leopards in the Korean Peninsula.

Published

2020

47. A RETROSPECTIVE STUDY OF MORBIDITY AND MORTALITY IN THE NORTH AMERICAN AMUR LEOPARD ( PANTHERA PARDUS ORIENTALIS) POPULATION IN ZOOLOGIC INSTITUTIONS FROM 1992 TO 2014

Author

Michael S. Lund, Douglas L. Armstrong, Julia E. Napier, and Denise McAloose

Subjects

Male, Aging, Conservation of Natural Resources, 040301 veterinary sciences, Population, Subspecies, Animal Diseases, 0403 veterinary science, Critically endangered, biology.animal, IUCN Red List, Animals, Panthera, education, Retrospective Studies, education.field_of_study, General Veterinary, biology, Medical record, 0402 animal and dairy science, Leopard, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, 040201 dairy & animal science, Amur leopard, Geography, North America, Animal Science and Zoology, Animals, Zoo, Female, Morbidity, Demography

Abstract

The Amur leopard ( Panthera pardus orientalis) is one of the most critically endangered leopards on the International Union for the Conservation of Nature red list. The primary objective of this retrospective study was to identify common and significant causes of morbidity and mortality in the North American Amur leopard zoo population. This information provides insights that contribute to their improved care, health, and medical management and, ultimately, affects the sustainability of this leopard subspecies in the wild. Medical records and complete postmortem reports were requested from all North American zoologic institutions that held Amur leopards in their collections from 1992 to 2014. Information from 175 individuals, representing 93% of the population (188 animals), was received. Data were reviewed generally and by subdivision into the following age groups: neonate: 0 day-3 mo ( n = 45); juvenile-young adult: 3 mo-5 yr ( n = 21); adult: 5-10 yr ( n = 17); senior: 10-15 yr ( n = 31); or geriatric:15 yr ( n = 61). The major causes of morbidity, listed by body system for the study population, excluding neonates, were musculoskeletal (40%), reproductive (24%), dental (19%), cardiopulmonary (13%), gastrointestinal (13%), and urogenital (12%). The two most common causes of death or euthanasia, primarily in senior and geriatric animals, were chronic renal disease and neoplasia; maternal neglect and maternal trauma were most common in neonates. The largest populations in this study were neonates and geriatrics, indicating that if animals survive the neonatal period, they often live into their late teens to early 20s. This is the first comprehensive study of the causes of morbidity and mortality in the Amur leopard zoo population in North America.

Published

2018

48. Complete mitochondrial genome of the Amur leopard (Panthera pardus orientalis Schlegel, 1857).

Author

Kim, Jung A, Jeon, Hye Sook, Jeon, Je Hoon, Kim, Soonok, and An, Junghwa

Subjects

TRANSFER RNA, LEOPARD, MITOCHONDRIAL DNA abnormalities, RIBOSOMAL RNA, GENOMES, BASE pairs

Abstract

This study sequenced the complete mitochondrial genome of the female Amur leopard (Panthera pardus orientalis) using highest-quality (310× average coverage depth) big cat reference genomes. The total genome length was 16,964 base pairs, consisting of 13 protein-coding genes, 2 rRNAs, 22 tRNAs, and 1 control region. Phylogenetic analysis using protein-coding regions revealed that a P.p.orientalis was closely related to the P. pardus clade. [ABSTRACT FROM AUTHOR]

Published

2019

49. Home range structure and space use of a female Amur leopard, Panthera pardus orientalis (Carnivora, Felidae)

Author

P. A. Sorokin, Viatcheslav V. Rozhnov, V. S. Lukarevskii, J. A. Hernandez-Blanco, S. V. Naidenko, and M. D. Chistopolova

Subjects

biology, Ecology, Range (biology), Gps telemetry, Home range, Space use, Zoology, biology.organism_classification, General Biochemistry, Genetics and Molecular Biology, Amur leopard, Predation, biology.animal, Panthera, General Agricultural and Biological Sciences

Abstract

Based on the locations reported over 15 months from the satellite GPS-collar of Amur leopard female, we estimated the size of its home range, the time of parturition, the location of dens, and hunting sites for large prey. The successive changes in the size and location of the home range and the core area during 30-day periods were traced. The home range remains stable, when the female moves without cubs outside the estrus period. During estrus and pregnancy, the size of the home range and the core area increases, and the core area is displaced. After the birth, the sizes of the home range and core area are sharply reduced. After the weaning of the Amur leopard female leaves the den and begins to move across the home range, the sizes of the range and the core area start to increase.

Published

2015

50. Spatial distribution drivers of Amur leopard density in northeast China

Author

Yan Hua, Guangshun Jiang, Zhilin Li, Quanhua Shi, Guiming Wang, Jinzhe Qi, and Quan Sun

Subjects

education.field_of_study, biology, Ecology, Population size, Population, Rare species, Leopard, biology.organism_classification, Population density, Amur leopard, Geography, biology.animal, Threatened species, Panthera, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

The Amur leopard (Panthera pardus orientalis) is highly elusive, rare species, critically threatened with extinction worldwide. In this study, we conducted camera-trap surveys of an Amur leopard population in Jilin Province, northeast China. We estimated population abundance and density distribution, and explored the effects of prey population densities and biomass of prey, habitat and anthropogenic factors on the spatial distribution of Amur leopard density. Our results suggested that Amur leopard density was 0.62 individuals/100 km2 and 16.58 individuals might live within the study area. The spatial distribution of Amur leopard density exhibited different responses to the population densities of different prey species. We found that two ecological thresholds existed in maximum responses of Amur leopard distribution to elevation and prey biomass. Vegetation and anthropogenic factors also showed significant effects on leopard population distribution. In general, there was a combination of habitat factors including, not only prey assembly and biomass, but also vegetation, anthropogenic and geographical factors driving the spatial distribution of Amur leopard population. These insights informed us that comprehensive adaptive landscape and prey conservation strategies should be conducted for saving this critically endangered predator.

Published

2015