INBREEDING DEPRESSION OF CAPTIVE MALAYAN GAUR (Bos gaurus hubbacki) AT JENDERAK SELATAN WILDLIFE CONSERVATION CENTRE, PAHANG

The Malayan gaur or locally known as Seladang (Bos gaurus hubbacki) is the second largest terrestrial mammal in Malaysia. In Peninsular Malaysia, wild gaur can be found in considerable numbers in states of Perak, Pahang and Terengganu (Muhamad Rizal, pers. comm.). According to Conry (1981), the home range of Malayan gaur differ with sex and age. Conry (1981) calculated the home range of a herd in Lepar River Valley (central Pahang) and he found that adult male have an estimated home range of 7,018 ha, adult female with 5,213 ha, and yearling male had a home range of 2,989 ha. Gaur food preference was affected by elevation from sea level (increase in elevation limit choice of food) and types of habitat (i.e. primary forest, secondary forest, agricultural area) within their home range (Ebil, 1982, 2009). Gaur preferred 17 species of shrubs and six species of grasses (Ebil, 2009). According to Ebil (2009) the most preferred shrubs based on habitat are Shorea acuminata (primary forest), Melastoma malabathricum (secondary forest), Erythrina variegata (agricultural area) and as for grasses species, the gaur favour Imperata cylindrica (primary forest), Paspalum conjugatum (secondary forest), and Paspalum vaginatum (agricultural area)

Impact of bauxite mining on quality of life : An analysis of road users

Mining activities are often associated with various adverse effects. Until now, most research focuses on the environmental, occupational, and health impacts of mining activities. However, existing literature lacks information on mining activities' impact on the quality of life of surrounding road users. Therefore, this research aims to compare the quality of life of road users between bauxite and non-bauxite areas. To achieve that objective, questionnaire survey data from road users were collected and analyzed. The findings suggest that the affected road users have an overall significantly lower health- related quality of life than the control group. Specifically, the affected road users have significantly lower physical-, psychological-, and social-related quality of life. While numerous other factors might influence the participants' quality of life, respondent demographic and road satisfaction variables have a low to a negligible relationship with the quality of life in this study. This research's key contribution is by identifying the impact of mining activities on road users in a developing country

DNA forensic case study: species identification from suspected crocodile penis

Department of Wildlife and National Parks (PERHILITAN) began developing the capacity on wildlife DNA forensic since 2009 to assist in law enforcement activities. Most of the forensic cases require DNA species identification of animal parts where key morphological characters are missing. Among the cases frequently confiscated are from traditional Chinese medicine (TCM), which often claim to use animal parts such as reproductive organs. Dried crocodile penises, in particular, are believed to have medicinal benefits and are highly demanded in TCM industries since millennials ago. In this case study, we analysed four enforcement cases comprising of 44 exhibits which resemble crocodile penis using the partial cytochrome b gene of the mitochondrial DNA. Sequence similarity searches were conducted using both the BLAST search engines of GenBank and also PERHILITAN’s MyWILDNA database to identify the species. Out of 44 exhibits, 22 items produced DNA sequences in which three were found to be derived from Crocodylus porosus while the remaining was identified as Bos taurus, Bos javanicus, and Bos indicus. This case study showed that most of TCM which claimed to be derived from crocodile penis turned out to be counterfeit products

Genetic diversity and phylogenetic relationships of Malayan tapir (Tapirus indicus) populations in the Malay Peninsula based on mitochondrial DNA control region

The Malayan tapir (Tapirus indicus) is an endangered species in Southeast Asia (SEA). Over the years, there has only been a few reports on its population genetic structure and evolutionary history in SEA. In particular, while the captive Malayan tapir population in Thailand has received fairly more research in recent years, there has not been any widescale population genetic study in the Malay Peninsula since the last decade. In this study, we report on the genetic diversity and attempt to make inferences on the phylogeography of the Malayan tapir in the Malay Peninsula, using the mitochondrial DNA control region, including also data from previous studies. We identifed 12 novel haplotypes and two distinct Malayan tapir clades with a divergence time of 14.6 million years ago (mya) in the Peninsular Malaysia (i.e. southern Malay Peninsula) samples, as opposed to only one clade found in the Thai (i.e. Thailand western border and northern Malay Peninsula) captive individuals, with an almost two-fold higher nucleotide diversity compared to the latter. The co-occurrence of the two lineages in southern Malay Peninsula suggested past historical events of population isolation, migration and admixture as a result of episodic glacial periods and paleoenvironmental changes in SEA. Only one haplotype shared between the populations of the two regions suggested further gene fow restriction at the narrow corridor of the Malay Peninsula as of present day

Population genetic structure of wild Malayan tapirs (Tapirus indicus) in Peninsular Malaysia revealed by nine cross-species microsatellite markers

The Malayan tapir (Tapirus indicus) is an endangered species endemic to Southeast Asia. Previous research have used maternally inherited, mitochondrial DNA genetic markers to investigate the population genetics of the species but not the biparentally inherited, nuclear genetic markers. However, the increasing pressure of habitat fragmentation and roadkill on the Malayan tapirs has called for an urgent need to assess the species’ genetic status. In this study, the genetic diversity, population genetic structure, and sex-biased dispersal patterns of the tapir population in Peninsular Malaysia were investigated using nine cross-species microsatellite markers, using sixty-seven tapir samples (39 wild, 11 captive-born, and 17 of unknown origin) provided by the wildlife department, zoo and conservation centre. Low genetic diversity of the wild population was found based on heterozygosity and allelic richness, and a cryptic pattern of population genetic structure was inferred. One (K = 3) to two (K = 4) genetic clusters in proximity to the south-western part of the major forest complexes seemed to be experiencing restricted gene flows compared to the other more widespread clusters or clines. Effective to census population size was estimated at 0.39-0.46. Sex-biased dispersal was not found in the current dataset. Even though these results may need cautious interpretation due to possible sampling bias, this study is the first study that investigated the genetic diversity distribution for the species using nuclear markers, and therefore will have conservation implications for the implementation of the Central Forest Spine Master Plan in Peninsular Malaysia to connect major forest complexes

Rediscovery of nycticebus coucang insularis Robinson, 1917 (Primates: Lorisidae) at Tioman Island and its mitochondrial genetic assessment

Slow lorises (Nycticebus) consist of eight species native to Southeast Asia while three species are recognised in Malaysia - N. coucang, N. menagensis and N. kayan. This study reports on the rediscovery of the subspecies N. coucang insularis Robinson, 1917 in Tioman Island and the genetic assessment of its mitochondrial DNA variation. Morphological measurements conform the specimen as the putative N. coucang but with distinct colour and markings. Two mitochondrial DNA segments (cytochrome b and control region) were produced from the subspecies representing their first registered sequences in GenBank. Genetically, the subspecies showed 99% of nucleotide similarity to N. coucang species type for both the DNA segments and constitute its own unique haplotype. Phylogenetic trees constructed using three methods (neighbour joining, maximum likelihood and Bayesian inference) showed two major groups within Nycticebus; the basal group was formed by N. pygmaeus while the second group consisted of the remaining Nycticebus species. The phylogenetic position of the subspecies, however, remains unresolved due to the observed mixing between N. coucang and N. bengalensis. Several reasons could lead to this condition including the lack of well documented voucher specimens and the short DNA fragments used. In addition, the possibility of hybridisation event between N. coucang and N. bengalensis could not be excluded as a possible explanation since both species occur sympatrically at the Isthmus of Kra region until the Thailand-Malaysia border. The rediscovery of this subspecies displays the unique faunal diversity that justifies the importance of Tioman Island as a protected area

Sequence variation data of the mitochondrial DNA D-loop region of the captive Malayan Gaur (Bos gaurus hubbacki)

This article contains data of the sequence variation in the mitochondrial DNA D-loop region of the Malayan gaur (Bos gaurus hubbacki), locally known as the seladang, from two captive centers. Thirty fecal samples of Malayan gaur were collected from Jenderak Selatan Wildlife Conservation Center (Pahang) and the Sungkai Wildlife Reserve (Perak) for DNA extraction and amplification with polymerase chain reactions. DNA sequences were then analyzed using neighbor joining (NJ) and maximum parsimony (MP) methods. Based on the 652 base pairs obtained, we found seven variable characters with a value of 1%. The genetic distance between the two captive centers was 0.001. Haplotype analyses detected only four haplotypes between these two captive centers. Both NJ and MP trees demonstrate that all individuals in the Jenderak and Sungkai captive centers are in the same clade. Genetic variation of the Malayan gaur in these centers is considered low, possibly because individuals share the same common parent. This sequence variation data are of paramount importance for designing a proper breeding and management program of the Malayan gaur in the future

A revisit to a low-cost method for the isolation of microsatellite markers: the case of the endangered Malayan tapir (Tapirus indicus)

There are many approaches to develop microsatellite markers. Despite the availability of the more advanced technology in the market, due to budget constraints, we revisited an easy and rapid polymerase chain reaction (PCR) cloning-sequencing method to design microsatellite markers for Tapirus indicus. Using six random amplified microsatellite markers, this study had rapidly generated 45 unique genomic sequences containing microsatellites. After screening 15 terminal and seven intermediate microsatellite loci, we shortlisted five and seven which were amplified either by single- or multiplex PCR using the economical three-primer PCR method. Genotyping attempts were made with ten T. indicus individuals using three of the terminal microsatellite loci and all seven intermediate loci. However, none of the terminal microsatellite loci were considered useful for population genotyping studies, while the seven intermediate loci showed good amplification but were monomorphic in the ten samples and the subsequent 51 tapir samples. Despite successful detection of amplified loci, we would like to highlight that, researchers who are interested in this alternative method for isolation of microsatellite loci to be cautious and be aware of the limitations and downfalls reported herein that could render these loci unsuitable for population genotyping

Population genetic structure of wild Malayan tapirs (Tapirus indicus) in Peninsular Malaysia revealed by nine cross-species microsatellite markers

The Malayan tapir (Tapirus indicus) is an endangered species endemic to Southeast Asia. Previous research have used maternally inherited, mitochondrial DNA genetic markers to investigate the population genetics of the species but not the biparentally inherited, nuclear genetic markers. However, the increasing pressure of habitat fragmentation and roadkill on the Malayan tapirs has called for an urgent need to assess the species’ genetic status. In this study, the genetic diversity, population genetic structure, and sex-biased dispersal patterns of the tapir population in Peninsular Malaysia were investigated using nine cross-species microsatellite markers, using sixty-seven tapir samples (39 wild, 11 captive-born, and 17 of unknown origin) provided by the wildlife department, zoo and conservation centre. Low genetic diversity of the wild population was found based on heterozygosity and allelic richness, and a cryptic pattern of population genetic structure was inferred. One (K = 3) to two (K = 4) genetic clusters in proximity to the south-western part of the major forest complexes seemed to be experiencing restricted gene flows compared to the other more widespread clusters or clines. Effective to census population size was estimated at 0.39–0.46. Sex-biased dispersal was not found in the current dataset. Even though these results may need cautious interpretation due to possible sampling bias, this study is the first study that investigated the genetic diversity distribution for the species using nuclear markers, and therefore will have conservation implications for the implementation of the Central Forest Spine Master Plan in Peninsular Malaysia to connect major forest complexes

The complete mitochondrial genome of Malayan Gaur (Bos gaurus hubbacki) from Peninsular Malaysia

Here, we present the first complete mitochondrial genome of Malayan Gaur (Bos gaurus hubbacki) inferred using next-generation sequencing. The mitogenome is 16,367 bp in length with the structural organization of a typical bovine mitochondrial arrangement comprising 13 protein-coding genes, 21 tRNAs, and 2 rRNAs. No internal stop codon was found in the protein-coding genes. Phylogenetic tree analysis revealed that Malayan gaur is more closely related to Burmese banteng instead of gaur