262 results on '"Md-Zain, Badrul Munir"'
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2. Habitat shapes the gut microbiome diversity of Malayan tigers (Panthera tigris jacksoni) as revealed through metabarcoding 16S rRNA profiling
3. Figure 1 from: Tingga RCT, Gani M, Osman NA, Aifat NR, Chan E, Khamis S, Rohani ER, Mohd-Daut N, Mohd-Ridwan AR, Md-Zain BM (2024) Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia. Biodiversity Data Journal 12: e122453. https://doi.org/10.3897/BDJ.12.e122453
4. Figure 4 from: Tingga RCT, Gani M, Osman NA, Aifat NR, Chan E, Khamis S, Rohani ER, Mohd-Daut N, Mohd-Ridwan AR, Md-Zain BM (2024) Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia. Biodiversity Data Journal 12: e122453. https://doi.org/10.3897/BDJ.12.e122453
5. Figure 2 from: Tingga RCT, Gani M, Osman NA, Aifat NR, Chan E, Khamis S, Rohani ER, Mohd-Daut N, Mohd-Ridwan AR, Md-Zain BM (2024) Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia. Biodiversity Data Journal 12: e122453. https://doi.org/10.3897/BDJ.12.e122453
6. Figure 6 from: Tingga RCT, Gani M, Osman NA, Aifat NR, Chan E, Khamis S, Rohani ER, Mohd-Daut N, Mohd-Ridwan AR, Md-Zain BM (2024) Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia. Biodiversity Data Journal 12: e122453. https://doi.org/10.3897/BDJ.12.e122453
7. Figure 3 from: Tingga RCT, Gani M, Osman NA, Aifat NR, Chan E, Khamis S, Rohani ER, Mohd-Daut N, Mohd-Ridwan AR, Md-Zain BM (2024) Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia. Biodiversity Data Journal 12: e122453. https://doi.org/10.3897/BDJ.12.e122453
8. Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia
9. Figure 5 from: Tingga RCT, Gani M, Osman NA, Aifat NR, Chan E, Khamis S, Rohani ER, Mohd-Daut N, Mohd-Ridwan AR, Md-Zain BM (2024) Interspecific variation in the diet of Symphalangus syndactylus and Macaca nemestrina at Genting Highlands, Pahang, Peninsular Malaysia. Biodiversity Data Journal 12: e122453. https://doi.org/10.3897/BDJ.12.e122453
10. Unveiling prey preferences of endangered wild Malayan tiger, Panthera tigris jacksoni, in Peninsular Malaysia through scat analysis via COI DNA metabarcoding
11. Assessing Methodological Variability in Gut Microbiome Studies: Lessons from Southeast Asian for Effective Conservation Strategies
12. Application of Next-Generation Sequencing Technology in Southeast Asia: A Practical Framework for Advancing Wildlife Conservation
13. Utilization Practices and Conservation Impacts of Endangered Wildlife in Asian Countries
14. The Ethnozoology, Wildlife Utilisation and Hunting Practices of the Semoq Beri Tribe in Pahang
15. Morphological and molecular identification of medically important questing Dermacentor species collected from some recreational areas of Peninsular Malaysia
16. Population dynamics and ranging behaviours of provisioned silvered langur (Trachypithecus cristatus) in Peninsular Malaysia
17. Figure 4 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
18. Figure 5 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
19. Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA
20. Figure 7 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
21. Figure 6 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
22. Figure 1 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
23. Figure 2 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
24. Figure 3 from: Sariyati NH, Abdul-Latiff MAB, Aifat NR, Mohd-Ridwan AR, Osman NA, Karuppannan KV, Chan E, Md-Zain BM (2024) Molecular phylogeny confirms the subspecies delineation of the Malayan Siamang (Symphalangus syndactylus continentis) and the Sumatran Siamang (Symphalangus syndactylus syndactylus) based on the hypervariable region of mitochondrial DNA. Biodiversity Data Journal 12: e120314. https://doi.org/10.3897/BDJ.12.e120314
25. First recorded sighting of the Critically Endangered Tricolour Langur, Presbytis chrysomelas cruciger (Thomas, 1892) (Primates, Cercopithecidae), in Jemoreng Protected Forest, Sarawak, Malaysia
26. Greater Bandicoot Rats (Bandicota indica) are Not Native to Sundaland Based on Deoxyribonucleic Acid (DNA) Analyses
27. First Bornean orangutan sighting in Usun Apau National Park, Sarawak
28. Preliminary assessment of group composition and activity pattern of the critically endangered Bornean Banded Langur Presbytis chrysomelas chrysomelas in Tanjung Datu National Park.
29. Molecular DNA-based spatial mapping technique predicting diversity and distribution of otters (Lutrinae) in Peninsular Malaysia using non-invasive fecal samples
30. Correction to: Molecular DNA-based spatial mapping technique predicting diversity and distribution of otters (Lutrinae) in Peninsular Malaysia using non-invasive fecal samples
31. Figure 3 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
32. Figure 1 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
33. Figure 7 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
34. High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting
35. Figure 4 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
36. Figure 5 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
37. Figure 6 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
38. Figure 8 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
39. Figure 2 from: Khairulmunir M, Gani M, Karuppannan KV, Mohd-Ridwan AR, Md-Zain BM (2023) High-throughput DNA metabarcoding for determining the gut microbiome of captive critically endangered Malayan tiger (Panthera tigris jacksoni) during fasting. Biodiversity Data Journal 11: e104757. https://doi.org/10.3897/BDJ.11.e104757
40. Is Malaysia’s banded langur, Presbytis femoralis femoralis, actually Presbytis neglectus neglectus? Taxonomic revision with new insights on the radiation history of the Presbytis species group in Southeast Asia
41. The feeding ecology and dietary overlap in two sympatric primate species, the long-tailed macaque (Macaca fascicularis) and dusky langur (Trachypithecus obscurus obscurus), in Malaysia
42. Unveiling prey preferences of endangered wild Malayan tiger, Panthera tigris jacksoni, in Peninsular Malaysia through scat analysis via COI DNA metabarcoding.
43. Metagenomic profile of the bacterial communities associated with Ixodes granulatus (Acari: Ixodidae): a potential vector of tick-borne diseases
44. Molecular Phylogeny of Long-Tailed Giant Rats (Muridae: Genus Leopoldamys) Based on Mitochondrial Cytochrome B Sequences
45. Haplotype analysis of long-tailed macaques in TNB Bukit Selambau, Peninsular Malaysia, leads to inferences of fissionfusion social structure
46. Haplotype analysis of long-tailed macaques in TNB Bukit Selambau, Peninsular Malaysia, leads to inferences of fissionfusion social structure.
47. Complete mitochondrial genome of Red Junglefowl (Gallus gallus spadiceus) from Peninsular Malaysia.
48. Assessing primate’s pelage colour using RGB method in Malayan Pale-thighed Surili (Presbytis siamensis siamensis).
49. Determining the Dietary Preferences of Wild Asian Elephants (Elephas maximus) in Taman Negara National Park, Malaysia Based on Sex and Age using trnL DNA Metabarcoding Analysis
50. Figure 1 from: Mohd-Radzi NHS, Karuppannan KV, Abdullah-Fauzi NAF, Mohd-Ridwan AR, Othman N, Muhammad Abu Bakar A-L, Gani M, Abdul-Razak MFA, Md-Zain BM (2022) Determining the diet of wild Asian elephants (Elephas maximus) at human–elephant conflict areas in Peninsular Malaysia using DNA metabarcoding. Biodiversity Data Journal 10: e89752. https://doi.org/10.3897/BDJ.10.e89752
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