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Article

Panthera tigris jacksoni Population Crash and Impending Extinction due to Environmental Perturbation and Human-Wildlife Conflict

by
Dennis Choon Yung Ten
1,2,*,
Rohana Jani
3,4,*,
Noor Hashida Hashim
5,
Salman Saaban
6,
Abdul Kadir Abu Hashim
7 and
Mohd Tajuddin Abdullah
8,9,*
1
Department of Wildlife and National Parks Pahang, Jalan Kompleks Tun Razak, Bandar Indera Mahkota, Kuantan 25582, Malaysia
2
Institute for Advanced Studies, University of Malaya, Jalan Profesor Diraja Ungku Aziz, Kuala Lumpur 50603, Malaysia
3
Faculty of Economics and Administration, University of Malaya, Jalan Profesor Diraja Ungku Aziz, Kuala Lumpur 50603, Malaysia
4
Ungku Aziz Centre for Development Studies, University of Malaya, Jalan Profesor Diraja Ungku Aziz, Kuala Lumpur 50603, Malaysia
5
Center for Foundation Studies in Science, University of Malaya, Jalan Profesor Diraja Ungku Aziz, Kuala Lumpur 50603, Malaysia
6
Department of Wildlife and National Parks Johor, Blok B, Wisma Persekutuan, 9th Floor, Jalan Air Molek, Johor Bahru 80000, Malaysia
7
Department of Wildlife and National Parks, KM10, Jalan Cheras, Kuala Lumpur 56100, Malaysia
8
Institute of Tropical Biodiversity and Sustainable Development, Universiti Malaysia Terengganu, Kuala Nerus 21030, Malaysia
9
Academy of Sciences Malaysia, West Wing, MATRADE Tower, Level 20, Jalan Sultan Haji Ahmad Shah, Kuala Lumpur 50480, Malaysia
*
Authors to whom correspondence should be addressed.
Animals 2021, 11(4), 1032; https://doi.org/10.3390/ani11041032
Submission received: 1 March 2021 / Revised: 30 March 2021 / Accepted: 1 April 2021 / Published: 6 April 2021
(This article belongs to the Collection Human-Wildlife Conflict and Interaction)

Abstract

:

Simple Summary

The Malayan tiger, with less than 200 individuals in Malaysia, is in an intermediate population crash. Anthropogenic disturbances (poaching, roadkill, and human–tiger conflict), environmental perturbation (decreasing habitat quality), and infectious diseases have been identified as factors leading to impending extinction. Preliminary findings from stakeholders indicate Peninsular Malaysia has an existing Malayan Tiger conservation management programme. However, to enhance the protection and conservation of the Malayan Tiger, the authority should re-assess the existing legislation, regulation, and management plan, and realign them to prevent population decline.

Abstract

The critically endangered Malayan tiger (Panthera tigris jacksoni), with an estimated population of less than 200 individuals left in isolated rainforest habitats in Malaysia, is in an intermediate population crash leading to extinction in the next decade. The population has decreased significantly by illegal poaching, environmental perturbation, roadkill, and being captured during human–wildlife conflicts. Forty-five or more individuals were extracted from the wild (four animals captured due to conflict, one death due to canine distemper, one roadkilled, and 39 poached) in the 12 years between 2008–2019. The Malayan tigers are the first wildlife species to test positive for COVID-19 and are subject to the Canine Distemper Virus. These anthropogenic disturbances (poaching and human–tiger conflict) and environmental perturbation (decreasing habitat coverage and quality) have long been identified as impending extinction factors. Roadkill and infectious diseases have emerged recently as new confounding factors threatening Malayan tiger extinction in the near future. Peninsular Malaysia has an existing Malayan tiger conservation management plan; however, to enhance the protection and conservation of Malayan tigers from potential extinction, the authority should reassess the existing legislation, regulation, and management plan and realign them to prevent further population decline, and to better enable preparedness and readiness for the ongoing pandemic and future threats.

1. Introduction

The critically endangered Malayan tiger (Panthera tigris jacksoni) is in an intermediate population crash leading to extinction in the wild by the next decade. It is estimated that less than 200 individuals are left in fragmented and isolated rainforest habitats in Malaysia.
The Malayan tiger is a large carnivore that plays an important ecological role by maintaining the balance between the interactions of predators, herbivores, and plant diversity for the stability of the rainforest ecosystems. The species is proudly displayed on the coat of arms of Malaysia as the symbol of strength and royal power in Malaysia [1]. Culturally, the folk-tales of the mighty Malayan tiger can be traced back centuries in the Malay culture. The myths have been written in articles such as some Malay Studies in the Journal of the Malayan Branch of the Royal Asiatic Society [2], the Malay Annals rewrite by Tun Sri Lanang in 1612 [3,4], and the Alfred Russel Wallace travelogue book entitled—The Malay Archipelago in 1869 in Melaka [5].
The Malayan tiger population is now facing severe and apparent threats of extinction. The Malayan tigers are threatened by anthropogenic disturbances (poaching, industrial agriculture expansion, commercial logging, and human settlement), environmental perturbation (disturbances, decreasing habitat quality, and pollution), trade in traditional Chinese medicine using illegal tiger products [6,7,8], and by diseases [8,9,10,11,12].
Through the Department of Wildlife and National Parks (DWNP), Malaysia’s Government has always placed top priority on Malayan tiger conservation. The DWNP recognised the Malayan tiger as a totally protected species and a critically endangered species, as published in the Malaysian mammals red list in 2017 [13].
Regarding species conservation, Malaysia has started systematically implementing the national conservation initiative–the Malaysia National Tiger Conservation Action Plan (NTCAP) in 2009 with the intended goal to double the country’s tiger population from then 500 to 1000 by the year 2020 [1]. The NTCAP has drafted a series of specific actions to aid the wild tiger population in Malaysia, focussing on habitat protection, species protection, human–tiger conflict, and research. However, the NTCAP focusses on species in situ conservation but with minimal attention to the species’ ex situ conservation. Considering the latest population count of wild Malayan tigers in 2018, the conservation actions of the NTCAP have diverted from the original goals. During 2018, the Malaysian Government launched the major “Save the Malayan Tiger” campaign. The campaign has employed an integrated approach. There are five programmes: conservation, research, funding and corporate social responsibility, enforcement, awareness publicity and promotion campaigns. The new Malayan tiger conservation planning has included ex situ conservation. It aims to establish the National Tiger Conservation Center and venture into Malayan tiger captive breeding under conservation and research programme.
Following the launch of the NTCAP in 2009, the Government of Malaysia, through the Department of Town and Country Planning (DTCP), followed up by establishing the Central Forest Spine (CFS): Master Plan for Ecological Linkages in 2010, the main objective of which is to create ecological linkages for environmentally sensitive areas. NTCAP has been used as the main reference to stimulate the establishment of the linkages. Meanwhile, the government also began the “Save the Malayan Tiger” campaign in 2018 for integrated conservation management planning, including the ex situ dimension. However, as Sanderson, et al. [14] mentioned, sometimes good science is necessary but not sufficient for conservation. Successful tiger conservation needs support from the tiger community stakeholder. The government and the non-government organisations need to support and integrate the conservation research findings into development plans and the people’s daily consciousness [14]. The NTCAP and the “Save the Malayan Tiger” campaign are the result of integrated and holistic tiger conservation efforts. However, the wild population downward trend is persisting. The population figures indicate the Malayan tiger population has lost a big portion of its natural population, with approximately 200 wild individuals now [15,16] and 65 captive individuals in Malaysia [12]. The Malayan tiger population in Malaysia is critically threatened [6], and the wild Malayan tigers potentially will collapse [17] by 2022, as predicted by the World Wildlife Fund (WWF)-Malaysia [18]. Looking at the current wild population status, we are close to losing the whole population across the entire state range.
Therefore, this paper aims to present the tiger’s current conservation status and examine the tiger’s likeliness for impending extinction while impacted by anthropogenic disturbances due to environmental perturbation and recent zoonotic diseases.

2. Materials and Methods

We screened documents and internal annual reports from the Department of Wildlife and National Parks (DWNP) Malaysia. We conducted and analysed questionnaires from selected captive tiger facilities that housed captive Malayan tigers.
Based on available datasets, we interpreted the anthropogenic activities of the tropical lowland habitats, the impact of human–tiger conflict, and the roles of captive breeding to provide new insights for future global strategies for the management and perpetual conservation of this majestic critically endangered species for our next generation.

2.1. Sampling

The questionnaire was carried out from December 2018 to June 2019. During the present study, we distributed 73 questionnaires through emails or handed the hardcopy to the potential respondents with various positions in the 48 known captive tiger facilities globally and ten captive facilities in Malaysia that owned Malayan tigers. The zoos’ records consist of the Malayan tiger captive population based on datasets from the Department of Wildlife and National Parks (DWNP) Malaysia and the Malayan tiger (Panthera tigris jacksoni) Studbook which were extracted for this study [19].
The questionnaire distribution first was done using a pilot study in July 2018, where all the respondents’ unanswerable items were restructured. The questionnaire was registered under the University of Malaya and compiled according to the rules and regulations set under the University of Malaya Research Ethics Committee (reference number UM.TNC 2/UMREC -239).

2.1.1. Questionnaire Development

The type of sampling approach applied was a cross-sectional sampling survey and involved data collection at one point in time [20]. This study involved a non-probability sampling method. The respondents were the directors, veterinarians, senior supervisors, and senior keepers from the captive animal institutions dealing with captive Malayan tiger ex situ management.
The instrument was developed using both “closed-ended” and “open-ended” techniques using the 1–5 Likert scale to allow the respondents to give a value for their opinions. The questionnaire was written in English and divided into five sections (Supplementary File 1).
Section A contained the respondent’s background with six questions about demographic details such as name, gender, education level, the field of expertise, the subfield of expertise, and the number of working years in the conservation field.
Section B contained the institution’s background. This Section had five questions: name of the institution, the number of wildlife species kept in the institution, institution category, and the respondents’ position in the institution.
Section C regarded animal captive management, and the questionnaire focussed on the origin and background of the Malayan tiger. The items regarded the animal population’s initial sources, the number of years the institution had housed the animals, and the purpose of the institution’s captive programme. Regarding the 89 questions in section C, the items were specifically designed to collect information and opinions on the species’ captive animal management. Most of the questions were close-ended questions except for two open-ended questions. The open-ended questions enabled the respondents to give their opinions on any other domains and items essential for the animal species and captive conservation management.
Section D regarded animal ex situ management and contained 33 questions to gather expert opinions on animal ex situ management. Regarding the ex situ conservation efforts for the species, the author also provided 15 questions to explore the estimated amount of cost to the institution for the particular animal species. This section also had one open-ended question to enable the respondents to list any other domains in which their opinions were important in the ex situ species management.
Last, section E was for general comments; five open-ended questions inquired about the respondents’ general comments and views regarding animal conservation management.
The questionnaire was designed in the simplest and most informative way to avoid misunderstandings, confusion, or bias amongst respondents. Some of the questions needed the respondents to give a rating based on the Likert 1–5 scale. The Likert scale required the respondents to agree or disagree with the statements on a five-point scale [21]. Considering the purpose of this research, we used four types of Likert scale for important (1 = very unimportant, 2 = unimportant, 3 = neither unimportant nor important, 4 = important and 5 = very important), agreement (1 = strongly disagree, 2 = disagree, 3 = neither agree nor disagree, 4 = agree and 5 = strongly agree), quality (1 = poor, 2 = fair, 3 = good, 4 = very good and 5 = excellent) and frequency (1 = never, 2 = rarely, 3 = occasionally, 4 = often and 5 = always).

2.1.2. Quanlitative Data Analysis

The data were coded and analysed using the Statistical Package for Social Science software programme (IBM SPSS Statistic Version 20, 2011, Armonk, NY, USA, accessed on 15 September 2019). The percentage was used in representing the data (Supplementary File 2).

2.2. Secondary Data

We also compiled the Department of Wildlife and National Parks (DWNP’s) annual reports, published reports, and wildlife conflict database from 2008 to 2019 and classified them into various categories.

3. Results

The structured questionnaire was collected from 30 expert respondents (14 Malayan tiger captive facilities), including 20 local zoo respondents from five facilities, regarding the current governance of the ex situ Malayan tiger management. Malaysia has ten facilities that own captive Malayan tigers, with eight in Peninsular Malaysia and one each in the States of Sabah and Sarawak. We received 30 completed (41%) questionnaires (n = 30) from 14 captive animal facilities (29%) from 30 expert respondents. Out of the 14 facilities that gave a response, five were from Malaysia’s local captive animal facilities.
The 30 expert respondents were from zoos (26 respondents) and rescue centers (4 respondents) comprising executive-level (4), administrative-level (5), veterinarian or husbandry curator (13), and supervisor (8) responsibilities. Sixteen percent of the respondents were Masters degree holders, 50% were first degree holders, 17% were diploma holders, and certificate holders were 17%.

3.1. The Malayan Tiger Ex Situ Conservation Policy

About 93% of the expert respondents agreed that it was important that scientific knowledge be integrated into the Malayan tiger conservation policy and practice (Figure 1). However, the expert respondents also noted that the current integration of scientific knowledge of Malayan tigers in species conservation policy and practice is 30.8% occasionally, 38.5% often, and 15.4% always (Figure 2).
Considering the survey, 52% of the respondents agreed that the institution must implement Malayan tiger strategic and management plans (Figure 3). To implement the plans, it was noted that the Malayan tiger origin country needs to design and organise strategic and management plans for the captive animal facilities, as indicated by 78.6% of the respondents agreeing (Figure 4).

3.2. Anthropogenic Disturbances

Within about seven decades of persecution and prime habitat loss [22,23], the population experienced a rapid decline from 3000 individuals in the 1950s down to less than 200 animals in 2019. The Malayan tiger population was estimated at 500 individuals in 1990 [24] and had declined to 250–340 individuals by 2013 [6]. Unfortunately, the drastic trend has continued to nosedive to a critical level of near population crash. The estimated wild Malayan tiger population in 2018 was fewer than 200 individuals [15] (Table 1). Thus, the population lost approximately 60% of the wild Malayan tiger population in the last three decades since 1990.

3.3. Human-Wildlife Conflict and Roadkill

Considering the human–tiger conflict context, there were 652 cases of conflict recorded during 2008–2019. The yearly trend reveals that the number of conflict cases is decreasing. The conflict cases fluctuated from 86 cases per year in 2008 to 41 cases per year in 2019 (Table 2).
Viewing the data recorded from 2008–2019, the Department of Wildlife and National Parks (DWNP) has captured four conflict tigers and lost one tiger due to accidental roadkill. Malaysia also estimated that the country has lost approximately 39 tigers to illegal poaching from 2008–2018 [29] (Table 2).
Between 2008–2019, there were 99,954 cases of human–wildlife conflicts recorded in Malaysia, 652 cases involved the Malayan tigers (Table 2).

3.4. Roadkills

Regarding Peninsular Malaysia, there were 3386 cases of roadkills in nine years (2011–2019). The State of Johor recorded the highest roadkill numbers with 702 cases and the lowest recorded was one case in the Federal Territory (Table 3).
The government of Malaysia provided RM2.5 million to purchase land for corridors, habitat, rehabilitation, signs, road repairs, monitoring, and equipment (Table 4). The total cost of constructing 20 bridges and viaducts is unknown, but the Sungai Yu was RM89.9 million, Grik-Jeli RM60 million, and Pahang-Terengganu RM100 million.

4. Discussion

Over the past eight decades, Malaysians witnessed the extinction of the Java rhinoceros (Rhinoceros sondaicus) in 1932, the Banteng (Bos javanicus) in the 1950s, and the Sumatran rhinoceros (Dicerorhinus sumatrensis) in 2020 in Peninsular Malaysia [7,33,34,35,36,37,38]. The Malayan tiger is now on the brink of a population crash due to the small and reproductively-isolated individuals in fragmented habitats. A concerted effort is needed to protect the habitats, improve the numbers of apparently doomed populations of the Malayan tiger, create integrated captive breeding programmes, and ensure survivability for the next generations. Based on these results and records, we articulated our concerns and proposed strategic actions for the sustainable conservation of Malayan tigers over the next few decades.

4.1. Total Protection of Tiger Habitats

The in situ conservation policy of tiger conservation is well developed. Malaysia’s National Tiger Conservation Action Plan (NTCAP) is among the earliest comprehensive tiger actions in the region. The protection of forest habitat and the protection of tiger-prey species are among the actions enlisted in the NTCAP. Malaysia recognised the importance of the protected areas in biodiversity conservation and protection. All tiger habitats may be considered protected under the Wildlife Conservation Act (WCA) 2010 as part of the in situ conservation efforts, subject to agreements with the tiger range States within the Federal Constitution’s determinations. To secure the tiger prey species, Malaysia has issued a hunting moratorium on two main tiger prey species—the Sambar deer (Rusa unicolor) and the barking deer (Muntiacus muntjac) until 2021 [39]. The authority may consider implementing and extending the moratorium on hunting licenses to collect other wildlife to control wildlife harvesting.
Regarding ex situ conservation, the study has noted 93.1% of the respondents agree that scientific knowledge needs to be integrated into policy and practices (Figure 1). However, the integration of scientific knowledge for conservation policy and practice is still low (15.4% of always integration) (Figure 2) for Malayan tigers. Thus, the conservation community must carefully drive the Malayan tiger research and integrate the findings into the tiger policy. Malaysia is to draft a wildlife conservation policy to act as a working framework for wildlife management. The drafted policy shall revisit and insert a new conservation policy related to the anthropogenic disturbances, human–wildlife conflict, roadkill, and zoonotic diseases, that can save lives, protect livelihoods, and safeguard the Malayan tiger.
The survey also indicates that Malaysia, as the origin country of the Malayan tiger, needs to formulate a strategic plan (52% agreed) (Figure 3) to be followed by the global captive tiger facilities worldwide (78.6% agreed) (Figure 4). Currently, the captive Malayan tiger facilities play their roles based on their own interests and strong points. The authority may produce an international strategic plan that includes both an in situ and ex situ action plan. All zoos may use this plan to support the wild Malayan tiger population. Malaysia acknowledges it is a challenge to guarantee the survival of all animals under the current conditions of the natural habitats. However, Malaysia will continue to explore ways, using ex situ measures, to conserve biodiversity amongst large breeding groups of animals in zoos and captive animal facilities not only for tigers but, also, their prey species.
The Malayan tiger is listed under the Convention of International in Endangered Species of Wild Fauna and Flora (CITES). The CITES is an international agreement between governments to provide a sustainable international trade platform [40]. Regarding the national legislation, Malaysia gazetted the Malayan tiger in the International Trade in Endangered Species Act 2008 [Act 686] on 14 February 2008 to smooth the implementation of the Convention of International Endangered Species of Wild Fauna and Flora. Act 686 provides a legal basis for the CITES implementation in the country [41] by regulating the trade related to import and export. Concerning Peninsular Malaysia, the Wildlife Conservation Act 2010 [WCA 2010] has given the highest protection status for the Malayan tiger. Permission from the Minister of Energy and Natural Resources is required to keep the species.
The gazettement of Act, Enactment, and Ordinance in Malaysia has provided protection and conservation for the tiger [42,43]. However, there are a few challenges, for example, the lack of institutional enforcement capacity, a lack of cooperation among law enforcement agencies, and a lack of political will [42]. Those legal instruments need to be updated regularly to integrate scientific knowledge into the conservation and protection of the Malayan tiger (Figure 2).

4.2. Anthropogenic Activities (Mitigation Measures in Human–Tiger Conflicts)

Although studies show that the eco-certified logging concession in Peninsular Malaysia can preserve some of the threatened mammal species [44], logging’s negative side effect is alarming. The published report indicates the deforestation and biodiversity loss in Southeast Asia is the highest in the world [45,46], and we are losing our quality wildlife habitats. The concern arises further as it is reported that poaching (including snare trapping) of large felids and other species is increasing in Malaysia [29,47]. The national wildlife conflicts record also indicates that conflicts are unstable, and it is on an escalating trend over the last eight years (2012–2019) (Table 2). However, the human–tiger conflict shows a decreasing trend from 86 cases in 2008 to 41 cases in 2019, compared to the 84 human–tiger conflict cases in 1991 and 211 cases in 2002 [48]. The human–tiger conflict occurs when tigers pose a threat to the local communities’ livelihoods and safety, which leads to the ill-treatment of the species [49]. The frequency of conflicts indicates that tigers are getting closer to human settlement or human activities that might arise due to a prey shortage in the forest [6]. The decreasing trend is an alarm bell as the Malayan tiger population drops significantly–the trend indicating that we are losing our precious Malayan tiger. The authority needs to step up the mitigation measures by reviewing the moratorium on hunting, including reviewing the issuing of hunting licenses to secure Malayan tiger prey species. However, hunting licenses are still necessary for the case of human–wild boar conflicts and for research purposes.
The animals will cross the road either for water, food, shelter, mates, or nesting sites, but road networks and fast-moving traffic have become dangerous. Roads and fast-moving traffic have killed a lot of wildlife, leading to local population losses [50,51,52,53]. The construction of road networks is the major contributor to the death of wildlife. Although there are 20 bridges and viaducts constructed [50] in Peninsular Malaysia, Peninsular Malaysia lost a Malayan tiger due to roadkill (Table 2) (Figure 5). Studies show that combining mitigation measures such as viaducts and fences has reduced roadkill [54]. Thus, the wildlife authority, highway authority, and road caretakers may need to step up and combine several mitigation measures to reduce roadkills.
During 2019, canine distemper disease infected the Malayan tiger, and the infectious disease may threaten the tiger population [55]. Malaysia has lost two wild Malayan tigers to the deadly canine distemper [8,9]. The first deadly canine distemper was reported on 19 July 2019 in a wild male Malayan tiger in Kampung Besul, Terengganu. The Department of Wildlife and National Parks (DWNP) managed to retrieve the individual tiger and provide various treatments but, sadly, the male tiger died on 23 July 2019 [8]. The second Malayan tiger was discovered dead at Ladang Aramijaya, Mersing Johor, on 1 May 2020, possibly due to canine distemper [9]. The canine distemper source cannot be confirmed but it is believed that the disease source is from other animals [8]. The newest deadly disease detected to infect the Malayan tiger is COVID-19. COVID-19 is a new pandemic disease caused by the SARS-CoV-2 virus (COVID-19 virus) [56]. COVID-19 was detected in the captive Malayan tiger on the 5 April 2020 in the Bronx Zoo, New York, United States of America [10,57,58,59]. The positive incidence of COVID-19 in the USA is very alarming for the local wildlife authority regarding the control of zoonotic pathogens jumping from humans to tigers in Malaysia [12]. The wild Malayan tiger population is at a crossroad, with confirmed canine distemper disease and potential COVID-19, for future survivability. The threats of canine distemper disease and COVID-19 can threaten Peninsular Malaysia’s seven cat species, including the Malayan tiger, in Malaysia’s natural habitat and zoos [11,12]. Both canine distemper and COVID-19 are critical issues to Malayan tiger conservation. The nature of transmission of COVID-19 from human to animal will significantly impact the Malayan tiger populations. Once the disease reaches the wild Malayan tiger in the forest, COVID-19 can spread among them [60,61]. Until the impact of COVID-19 on the Malayan tiger is available, Malaysia is suggested to review and follow the zoonotic disease preventive control measures strictly. Avoiding or minimising interaction between domestic animal reservoir hosts and endangered wildlife species is a strategy to curb the spreading of infectious diseases [62,63]. The villagers, as animal hunters, are the potential COVID-19 carriers. Thus, to manage COVID-19, the authority needs to control human–tiger conflict cases effectively. Tightened and effective mitigation measures are needed to control the spreading rate of canine distemper and COVID-19 to buy time until the emergence of COVID-19 vaccines [12].

4.3. Professional Staff and High Technology

The present research on tigers uses labour-intensive methods by counting and comparing tracks of vital activities (counting direct or indirect signs) [44,64] and using remote tracking or specialised equipment (camera traps) [44,65,66,67]. To improve the current methods, the country’s researchers may consider remote wireless biosensor network technology to detect volatile organic compounds released from the tiger urine and faeces. The current development of wireless biosensor technology can differentiate between humans and a large cat [68]. These large-scale networks (deploying small biosensor devices) claim to be able to gather information from the physical environment (temperature, sound, chemicals, seismic waves, infrared, still and motion video camera, or the presence of certain objects) and perform simple processing [68]. The remote system could provide early warning to the ground crew to provide real-time tracking to arrest poachers within the vicinity of the tiger habitats.

5. Constraints

We distributed the questionnaire before the emergence of the COVID-19 pandemic. The questions in the survey were mostly designed from the standard for animal ex situ management. We were aware that the questionnaire feedback was limited. There are 48 captive animal facilities globally, and ten facilities in Malaysia that own Malayan tigers. We attempted to reach out to all the facilities but only managed to gather responses from 14 facilities with 30 respondents. This study provides an early indication of ex situ Malayan tiger management as a basis for an expanded questionnaire study.

6. Conclusions

The habitat protection, sustainable financing, inclusive species policy, strategic plan, and action plan in situ and ex situ are the essential ingredients for successful Malayan tiger survival to avert possible extinction. Aside from managing the wild and captive populations, Malaysia needs to address the threat of infectious disease (canine distemper and COVID-19) to the Malayan tiger. Malaysia’s wildlife authority needs to move swiftly to protect and avoid the critically endangered Malayan tiger from being infected and falling into the COVID-19 chain. The Malayan tiger conservationists need to continue collaborating, supporting, and co-managing its ex situ management as part of assisting and increasing its wild Malayan tiger population. Malaysia needs to set an integrated strategy for sustainable conservation of all the wildlife, including the Malayan tiger as a keystone species. Additionally, the authority also could explore, modify, and adapt the Giant Panda conservation model’s sustainable financing mechanism. The Giant Panda conservation efforts to bring the species back from extinction risk have proved that its conservation model is successful and workable [69,70].
Malaysia is working toward the United Nations Sustainable Development Goals (SDGs), designed to end poverty, protect the planet, and ensure that all people enjoy peace and prosperity by 2030 and achieve the SDG 15. The SDG 15′s goal is to protect, restore, and promote sustainable use of terrestrial ecosystems, sustainably manage forests, halt and reverse land degradation, and halt biodiversity loss. Future research should identify potential sites for reintroduction of Malayan tigers in protected areas. Alternatively, intensive management of the wild population could be established in an electrified fenced area. These areas could ensure the biosecurity of the genetic pool could be closely monitored while effectively controlling the biosafety against emerging infectious diseases or pandemic.

Supplementary Materials

The following are available online at https://www.mdpi.com/article/10.3390/ani11041032/s1, Supplementary File 1: The detailed information about the questionnaire. Upon request, information can be obtained from the corresponding authors, Supplementary File 2: The analysed data for the questionnaire survey.

Author Contributions

Conceptualization, D.C.Y.T. and M.T.A.; methodology, D.C.Y.T., S.S. and M.T.A.; software, D.C.Y.T. and R.J.; validation, D.C.Y.T. and S.S.; formal analysis, D.C.Y.T., S.S. and M.T.A.; investigation, S.S.; resources, D.C.Y.T., S.S. and A.K.A.H.; data curation, D.C.Y.T., S.S. and M.T.A.; writing—original draft preparation, D.C.Y.T. and M.T.A.; writing—review and editing, M.T.A., R.J. and N.H.H.; supervision, R.J., N.H.H. and M.T.A.; and funding acquisition, A.K.A.H. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by Ministry of Energy and Natural Resources (KeTSA) Malaysia through Giant Panda Research Consortium Malaysia leads by Mohd Tajuddin Abdullah of the Universiti Malaysia Terengganu, grant number KPGPM/UMT/53161.

Institutional Review Board Statement

The study (questionnaire survey) is registered under University of Malaya and compile to the rules and regulations set under the University of Malaya Research Ethics Committee with reference number UM.TNC 2/UMREC -239.

Informed Consent Statement

Not applicable. This research is not directed to human as it is on the management aspects of the tigers in the zoos.

Data Availability Statement

Data are reported in the Results and Supplementary Materials sections of this paper. Upon request, additional information can be obtained from the corresponding authors.

Acknowledgments

We also thank the Director-General of Department of Wildlife and National Parks (DWNP) Peninsular Malaysia, for research permission and invaluable assistance. We are thankful to Dato’ Dionysius S.K. Sharma for providing tiger-related unpublished manuscripts. We also acknowledged the critical comments by three anonymous reviewers who had significantly improved the presentation of this final draft manuscript.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. DWNP. National Tiger Action Plan for Malaysia; Department of Wildlife and National Parks Peninsular Malaysia Kuala Lumpur: Kuala Lumpur, Malaysia, 2008; p. 93. [Google Scholar]
  2. Wilkinson, R.J. Some Malay studies. J. Malay. Branch Royal Asiat. Soc. 1932, 10, 67–137. [Google Scholar]
  3. Winstedt, R.O. The Malay annals. J. Malay. Branch Royal Asiat. Soc. 1938, 16, 1–226. [Google Scholar]
  4. Chua, A. Tales from the Malay Annals: A Brief Introduction. Available online: https://museumvolunteersjmm.com/2020/04/10/tales-from-the-malay-annals-a-brief-introduction/ (accessed on 18 June 2020).
  5. Wallace, A.R. The Malay Archipelago, 10th ed.; MacMillan and Co: London, UK, 1890. [Google Scholar]
  6. Kawanishi, K. Panthera tigris ssp. jacksoni. The IUCN Red List of Threatened Species 2015: E.T136893A50665029. Downloaded 13 June 2017. Available online: https://www.iucnredlist.org/species/136893/50665029 (accessed on 13 June 2017).
  7. Clements, R.; Rayan, D.M.; Zafir, A.W.A.; Venkataraman, A.; Alfred, R.; Payne, J.; Ambu, L.; Sharma, D.S.K. Trio under threat: Can we secure the future of rhinos, elephants and tigers in Malaysia? Biodivers. Conserv. 2010, 19, 1115–1136. [Google Scholar] [CrossRef]
  8. DWNP. Awang Besul’ The Tiger Dies. Available online: https://harimau.my/awang-besul-the-tiger-dies/ (accessed on 16 April 2020).
  9. DWNP. Tragis, Harimau Belang Ditemukan Mati. Available online: https://harimau.my/tragis-harimau-belang-ditemukan-mati/ (accessed on 30 April 2020).
  10. Daly, N. Seven More Big Cats Test Positive for Coronavirus at Bronx Zoo. Available online: https://www.nationalgeographic.com/animals/2020/04/tiger-coronavirus-covid19-positive-test-bronx-zoo/ (accessed on 23 May 2020).
  11. Ten, D.C.Y.; Abdullah, M.T. Commentary on COVID-19 a threats to wildlife management. J. Sustain. Sci. Manag. 2021. In review. [Google Scholar]
  12. Ten, D.C.Y.; Edinur, H.A.; Jani, R.; Hashim, N.H.; Abdullah, M.T. COVID-19 and the Malaysian zoo preventive measures readiness. J. Sustain. Sci. Manag. 2021, 16, 46–54. [Google Scholar] [CrossRef]
  13. DWNP. Red List of Mammals for Peninsular Malaysia Version 2.0; Department of Wildlife and National Parks: Kuala Lumpur, Malaysia, 2017. [Google Scholar]
  14. Sanderson, E.W.; Forrest, J.; Loucks, C.; Ginsberg, J.; Dinerstein, E.; Seidensticker, J.; Leimgruber, P.; Songer, M.; Heydlauff, A.; O’Brien, T.; et al. Setting priorities for Tiger Conservation: 2005–2015. In Tigers of the World: The Science, Politics and Conservation of Panthera Tigris, 2nd ed.; Tilson, R., Nyhus, P.J., Eds.; Academic Press: London, UK, 2010; pp. 144–161. [Google Scholar]
  15. DWNP. Harimau Malaya. Available online: https://harimau.my/ (accessed on 6 August 2019).
  16. Halim, H.R.A.; Mustapha, N.; Ibrahim, N.L. The Story of Malayan Tiger, 2nd ed.; Department of Wildlife and National Parks: Cheras, Malaysia, 2019. [Google Scholar]
  17. Rayan, D.M.; Linkie, M. Conserving tigers in Malaysia: A science-driven approach for eliciting conservation policy change. Biol. Conserv. 2015, 184, 18–26. [Google Scholar] [CrossRef]
  18. Daim, N.; Harun, H.N. Tigers extinct by 2022? New Straits Times, 4 July 2019. [Google Scholar]
  19. Mueller, P. Malayan Tigers (Panthera Tigris Tigris Pop Jacksoni) Studbook; WAZA and Zoologischer Garten: Leipzig, Germany, 2017. [Google Scholar]
  20. Creswell, J.W. Research Design: Qualitative, Quantitative, and Mixed Methods Approaches, 3rd ed.; SAGE Publications: Thousand Oaks, CA, USA, 2009. [Google Scholar]
  21. Creswell, J.W. Research Design: Qualitative, Quantitative, and Mixed Methods Approaches, 4th ed.; SAGE Publications: Thousand Oaks, CA, USA, 2014. [Google Scholar]
  22. Sharma, D.S.K.; Brian Lee, M.S.; Mohd-Azlan, J.; Ahmad Zafir, A.W. Living In Harmony: Resolving Conflicts between People and Tigers at FELDA Jerangau Barat, Peninsular Malaysia; WWF-Malaysia: Petaling Jaya, Malaysia, 2006; p. 46. [Google Scholar]
  23. Shevade, V.; Potapov, P.; Harris, N.; Loboda, T. Expansion of industrial plantations continues to threaten Malayan Tiger habitat. Remote Sens. 2017, 9, 747. [Google Scholar] [CrossRef] [Green Version]
  24. Topani, R. Status and distribution of tiger (Panthera tigris corbetti). J. Wildl. Parks 1990, 9, 71–102. [Google Scholar]
  25. Locke, A. The Tigers of Terengganu; Museum Press Limited: London, UK, 1954. [Google Scholar]
  26. Khan, M.M.K.; Sivananthan, T.E.; Zolkifli, Z. Species conservation in the tropical forest in Peninsular Malaysia. In Proceedings of the 58th Meeting of the IUCN Species Survival Commission (SSC) Symposium, Kuala Lumpur, Malaysia, 4 October 1982; pp. 9–16. [Google Scholar]
  27. Khan, M.M.K. Tigers in Malaysia: Propects for the future. J. Wildl. Parks 1986, 5, 1–24. [Google Scholar]
  28. Abidin, Z.Z.; Abdullah, M.T.; Yusof, E. Large mammals in peninsular Malaysia. In The Status of Nature Conservation in Malaysia; Kiew, R., Ed.; Malayan Nature Society; International Development and Research Centre of Canana: Petaling Jaya, Malaysia, 1991; pp. 173–176. [Google Scholar]
  29. Wong, R.; Krishnasamy, K. Skin and Bones Unresolved: An Analysis of Tiger Seizures from 2000–2019; TRAFFIC Southeast Asia Regional Office: Petaling Jaya, Malaysia, 2019. [Google Scholar]
  30. DWNP. Wildlife Conflict Data of 2008–2019; Salman, S., Ed.; Department of Wildlife and National Parks: Kuala Lumpur, Malaysia, 2020. [Google Scholar]
  31. DWNP. Malayan Tiger an Iconic National Treasure; Department of Wildlife and National Parks: Cheras, Malaysia, 2015. [Google Scholar]
  32. DTCP. Laporan Akhir Central Forest Spine Pelan Induk Rangkaian Ekologi. Available online: https://dokumen.tips/download/link/laporan-akhir-central-forest-spine-pelan-induk-rangkaian-ekologi-laporan-akhir (accessed on 1 February 2021).
  33. Flynn, R.W.; Abdullah, M.T. Distribution and status of the Sumatran rhinoceros in Peninsular Malaysia. Biol. Conserv. 1984, 28, 253–273. [Google Scholar] [CrossRef]
  34. Flynn, R.W.; Abdullah, M.T. Distribution and number of Sumatran rhinoceros in the Endau-Rompin region of peninsular Malaysia. Malay. Nat. J. 1983, 36, 219–247. [Google Scholar]
  35. Abdullah, M.T. A Sumatran Rhinoceros Conservation Plan for the Endau-Rompin National Park, Malaysia; West Virginia University: Morgantown, WV, USA, 1985. [Google Scholar]
  36. Ahmad, A.H.; Payne, J.; Zainuddin, Z.Z. Preventing the extinction of the Sumatran rhinoceros. J. Indones. Nat. Hist. 2013, 1, 11–22. [Google Scholar]
  37. Bittel, J. Last Sumatran rhino in Malaysia dies. National Geographic, 24 November 2019. [Google Scholar]
  38. Havmøller, R.G.; Payne, J.; Ramono, W.; Ellis, S.; Yoganand, K.; Long, B.; Dinerstein, E.; Williams, A.C.; Putra, R.H.; Gawi, J.; et al. Will current conservation responses save the Critically Endangered Sumatran rhinoceros Dicerorhinus sumatrensis? Oryx 2016, 50, 355–359. [Google Scholar] [CrossRef] [Green Version]
  39. CHM. Malaysia 6th National Report for the Convention on Biological Diversity. Available online: https://chm.cbd.int/pdf/documents/nationalReport6/249273/1 (accessed on 15 June 2020).
  40. CITES. What is CITES? Available online: https://www.cites.org/eng/disc/what.php (accessed on 29 May 2020).
  41. Parliament of Malaysia. International Trade in Endangered Species Act; Parliament of Malaysia, Ed.; Attorney General’s Chambers of Malaysia: Putrajaya, Malaysia, 2008; Volume 686.
  42. Mariani, A. Recent challenges for the enforcement of wildlife laws in East Malaysia. Pertanika J. Soc. Sci. Humanit. 2018, 26, 167–180. [Google Scholar]
  43. Mariani, A. Enforcement against wildlife crimes in West Malaysia: The challenges. J. Sustain. Sci. Manag. 2015, 10, 19–26. [Google Scholar]
  44. Clements, G.R.; Rostro-Garcia, S.; Kamler, J.F.; Liang, S.H.; Abu Hashim, A.K. Conservation status of large mammals in protected and logged forests of the greater Taman Negara Landscape, Peninsular Malaysia. Biodiversitas J. Biol. Divers. 2021, 22, 272–277. [Google Scholar] [CrossRef]
  45. Heino, M.; Kummu, M.; Makkonen, M.; Mulligan, M.; Verburg, P.H.; Jalava, M.; Räsänen, T.A. Forest loss in protected areas and intact forest landscapes: A global analysis. PLoS ONE 2015, 10, e0138918. [Google Scholar] [CrossRef]
  46. Hughes, A.C. Understanding the drivers of Southeast Asian biodiversity loss. Ecosphere 2017, 8, e01624. [Google Scholar] [CrossRef]
  47. Belecky, M.; Gray, T.N.E. Silence of the Snares: Southeast Asia’s Snaring Crisis; WWF International: Gland, Switzerland, 2020. [Google Scholar]
  48. Md Shariff, B.A. The trend of tiger-human conflicts in Peninsular Malaysia from 1991 to 2003. J. Wildl. Parks 2003, 21, 103–109. [Google Scholar]
  49. Goodrich, J.M. Human–tiger conflict: A review and call for comprehensive plans. Integr. Zool. 2010, 5, 300–312. [Google Scholar] [CrossRef]
  50. Kasmuri, N.; Nazar, N.; Mohd Yazid, A.Z. Human and animals conflicts: A case study of wildlife roadkill in Malaysia. Environ. Behav. Proc. J. 2020, 5, 315–322. [Google Scholar] [CrossRef]
  51. Grilo, C.; Koroleva, E.; Andrášik, R.; Bíl, M.; González-Suárez, M. Roadkill risk and population vulnerability in European birds and mammals. Front. Ecol. Environ. 2020, 18, 323–328. [Google Scholar] [CrossRef]
  52. Kamil, S.K.S.M.; Zainuddin, Z.Z.; Abidin, F.A.Z. Roadkill of a flat-headed cat in Pahang, Peninsular Malaysia. CATnews 2011, 54, 12–13. [Google Scholar]
  53. Jamhuri, J.; Edinoor, M.A.; Kamarudin, N.; Lechner, A.M.; Ashton-Butt, A.; Azhar, B. Higher mortality rates for large- and medium-sized mammals on plantation roads compared to highways in Peninsular Malaysia. Ecol. Evol. 2020, 10, 12049–12058. [Google Scholar] [CrossRef] [PubMed]
  54. Rytwinski, T.; Soanes, K.; Jaeger, J.A.G.; Fahrig, L.; Findlay, C.S.; Houlahan, J.; van der Ree, R.; van der Grift, E.A. How effective is road mitigation at reducing road-kill? A meta-analysis. PLoS ONE 2016, 11, e0166941. [Google Scholar] [CrossRef]
  55. Sim, L.L. Malayan tigers face new threat: Extinction-level virus could wipe them out. The Star, 21 April 2020. [Google Scholar]
  56. OIE. Questions and Answers on the 2019 Coronavirus Disease (COVID-19). Available online: https://www.oie.int/en/scientific-expertise/specific-information-and-recommendations/questions-and-answers-on-2019novel-coronavirus/ (accessed on 26 April 2020).
  57. McGreevy, N. A Tiger in the Bronx Zoo tested positive for COVID-19. Smithsonian Magazine, 8 April 2020. [Google Scholar]
  58. WCS. Update: Bronx Zoo Tigers and Lions Recovering from COVID-19. WCS Newroom, 22 April 2020. [Google Scholar]
  59. USDA. USDA Statement on the Confirmation of COVID-19 in a Tiger in New York. Available online: https://www.aphis.usda.gov/aphis/newsroom/news/sa_by_date/sa-2020/ny-zoo-covid-19 (accessed on 28 May 2020).
  60. Kim, Y.-I.; Kim, S.-G.; Kim, S.-M.; Kim, E.-H.; Park, S.-J.; Yu, K.-M.; Chang, J.-H.; Kim, E.J.; Lee, S.; Casel, M.A.B.; et al. Infection and rapid transmission of SARS-CoV-2 in ferrets. Cell Host Microbe 2020, 27, 704–709. [Google Scholar] [CrossRef]
  61. Halfmann, P.J.; Hatta, M.; Chiba, S.; Maemura, T.; Fan, S.; Takeda, M.; Kinoshita, N.; Hattori, S.-I.; Sakai-Tagawa, Y.; Iwatsuki-Horimoto, K.; et al. Transmission of SARS-CoV-2 in domestic cats. N. Engl. J. Med. 2020. [Google Scholar] [CrossRef]
  62. Woodroffe, R. Managing disease threats to wild mammals. Anim. Conserv. 1999, 2, 185–193. [Google Scholar] [CrossRef]
  63. Pedersen, A.B.; Jones, K.E.; Nunn, C.L.; Altizer, S. Infectious diseases and extinction risk in wild mammals. Conserv. Biol. 2007, 21, 1269–1279. [Google Scholar] [CrossRef]
  64. Gumal, M.; Abu Bakar, M.S.; Mohd Nawayai, Y.; Horng, L.H.; Lee, B.P.Y.; Low, C.P.; Hasnizam, H.; Kong, D.; Magintan, D.; Ten, D.C.Y.; et al. Small-medium wild cats of Endau Rompin landscape in Johor, Peninsular Malaysia. CATnews 2014, 8, 10–18. [Google Scholar]
  65. Tan, C.K.W.; Rocha, D.G.; Clements, G.R.; Brenes-Mora, E.; Hedges, L.; Kawanishi, K.; Mohamad, S.W.; Mark Rayan, D.; Bolongon, G.; Moore, J.; et al. Habitat use and predicted range for the mainland clouded leopard Neofelis nebulosa in Peninsular Malaysia. Biol. Conserv. 2017, 206, 65–74. [Google Scholar] [CrossRef]
  66. Kawanishi, K.; Clements, G.R.; Gumal, M.; Goldthorpe, G.; Yasak, M.N.; Sharma, D.S.K. Using BAD for good: How best available data facilitated a precautionary policy change to improve protection of the prey of the tiger Panthera tigris in Malaysia. Oryx 2013, 47, 420–426. [Google Scholar] [CrossRef] [Green Version]
  67. Jambari, A.; Rafhan, H.; Halim, A.; Saharudin, H.; Seman, F.; Samsuddin, S.; Syahid, I.; Azmi, M.; Amirin, K.; Pazil, M.; et al. Play-fighting between wild female Malayan Tiger (Panthera tigris ssp. jacksoni) and cub in Taman Negara National Park, Peninsular Malaysia. J. Wildl. Parks 2016, 31, 71–74. [Google Scholar] [CrossRef]
  68. Badescu, A.-M.; Cotofana, L. A wireless sensor network to monitor and protect tigers in the wild. Ecol. Indic. 2015, 57, 447–451. [Google Scholar] [CrossRef]
  69. Swaisgood, R.R.; Wang, D.; Wei, F. Panda downlisted but not out of the woods. Conserv. Lett. 2017, 11, 1–9. [Google Scholar] [CrossRef] [Green Version]
  70. Swaisgood, R.R.; Wei, F.; Mcshea, W.J.; Wildt, D.E.; Kouba, A.J.; Zhang, Z. Can science save the giant panda (Ailuropoda melanoleuca)? Unifying science and policy in an adaptive management paradigm. Integr. Zool. 2011, 6, 290–296. [Google Scholar] [CrossRef]
Figure 1. The importance of the integration of scientific knowledge in ex situ species management into the species’ conservation policy and practice.
Figure 1. The importance of the integration of scientific knowledge in ex situ species management into the species’ conservation policy and practice.
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Figure 2. The existing integration of scientific knowledge of the captive species management into the species’ conservation policy and practice.
Figure 2. The existing integration of scientific knowledge of the captive species management into the species’ conservation policy and practice.
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Figure 3. The implementation of the species strategic management plan and research procedures by the institution.
Figure 3. The implementation of the species strategic management plan and research procedures by the institution.
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Figure 4. The need for a conservation policy or strategy or a species management plan by the captive animal institution from the animal host country.
Figure 4. The need for a conservation policy or strategy or a species management plan by the captive animal institution from the animal host country.
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Figure 5. The female Malayan tiger was hit and killed by a high-speed vehicle along East Coast Highway 2 on 7 February 2016. Possibly due to the poor maintenance of highway fencing. (Photograph @Ahmad Ikhwan Zainuddin).
Figure 5. The female Malayan tiger was hit and killed by a high-speed vehicle along East Coast Highway 2 on 7 February 2016. Possibly due to the poor maintenance of highway fencing. (Photograph @Ahmad Ikhwan Zainuddin).
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Table 1. Estimated wild Malayan Tiger population in Malaysia.
Table 1. Estimated wild Malayan Tiger population in Malaysia.
YearEstimate Population/IndividualsSource
1950s3000Locke [25]
1982250Khan, et al. [26]
1986650Khan [27]
1990500Topani [24]
1991400Abidin, et al. [28]
2013250–340 Kawanishi [6]
2018200Abdul Halim, Mustapha and Ibrahim [16]
Table 2. Human–Tiger Conflicts in Malaysia 2008–2019.
Table 2. Human–Tiger Conflicts in Malaysia 2008–2019.
YearHuman-Wildlife Conflict (Case)Human-Tiger Conflict (Cases) 1Captured due to Conflicts (Individuals)Infected by Canine Distemper (Individuals)Roadkill (Individuals) 1Estimate Poached (Individuals) 4
200813,65286NANA04
200913,24482NANA05
20109281870.2.0 2NA08
2011802962NANA06
2012560265NANA05
20135628690.1.0 3NA01
2014645638NANA00
2015623629NANA01
20166741271.0.0 2NA14
2017742835NANA02
2018790231NANA03
2019975541NA10NA
2020NANANA10NA
Total99,95465242139
1 Department of Wildlife and National Parks (DWNP) [30], 2 Abdul Halim, Mustapha and Ibrahim [16], 3 DWNP [31], 4 Wong and Krishnasamy [29], NA (Not available).
Table 3. Wildlife roadkills in Malaysia from 2011 to 2019.
Table 3. Wildlife roadkills in Malaysia from 2011 to 2019.
States201120122013201420152016201720182019Total
Perak1005860839157482733557
Johor16789911390113796549702
KedahNA NA 1261929862584330609
Kelantan2781663019138118
Terengganu1433526101104233643412
Pahang201521121829124159380
Selangor3632591NA 222107
N. Sembilan NA NA 9247750454778330
Perlis6NA 232014164NA 184
Melaka NA NA 101562058569
P.PinangNA NA NA 3553NA 117
F. Territory NA 1NA NA NA NA NA NA NA 1
Total1732663905024914753153654093386
NA (not available).
Table 4. Estimated Total Development Cost.
Table 4. Estimated Total Development Cost.
ParameterMYR (Million)Percentage %
Primary linkages1545.4 61.6
Secondary linkages963.2 38.4
Total2508.6100.0
Data were adapted from the Department of Town and Country Planning (DTCP) [32].
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Ten, D.C.Y.; Jani, R.; Hashim, N.H.; Saaban, S.; Abu Hashim, A.K.; Abdullah, M.T. Panthera tigris jacksoni Population Crash and Impending Extinction due to Environmental Perturbation and Human-Wildlife Conflict. Animals 2021, 11, 1032. https://doi.org/10.3390/ani11041032

AMA Style

Ten DCY, Jani R, Hashim NH, Saaban S, Abu Hashim AK, Abdullah MT. Panthera tigris jacksoni Population Crash and Impending Extinction due to Environmental Perturbation and Human-Wildlife Conflict. Animals. 2021; 11(4):1032. https://doi.org/10.3390/ani11041032

Chicago/Turabian Style

Ten, Dennis Choon Yung, Rohana Jani, Noor Hashida Hashim, Salman Saaban, Abdul Kadir Abu Hashim, and Mohd Tajuddin Abdullah. 2021. "Panthera tigris jacksoni Population Crash and Impending Extinction due to Environmental Perturbation and Human-Wildlife Conflict" Animals 11, no. 4: 1032. https://doi.org/10.3390/ani11041032

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