125 results on '"Abdul-Latiff, Muhammad Abu Bakar"'
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2. Assessing Methodological Variability in Gut Microbiome Studies: Lessons from Southeast Asian for Effective Conservation Strategies
3. Application of Next-Generation Sequencing Technology in Southeast Asia: A Practical Framework for Advancing Wildlife Conservation
4. Utilization Practices and Conservation Impacts of Endangered Wildlife in Asian Countries
5. The Role of Citizen Scientist in the Emerging Scientific World: Supporting CEPA Through Advancements in Wildlife Conservation
6. Determining the diet of wild Asian elephants (Elephas maximus) at human–elephant conflict areas in Peninsular Malaysia using DNA metabarcoding
7. 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
8. 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
9. 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
10. 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
11. 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
12. 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
13. 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
14. 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
15. Environmental DNA metabarcoding of freshwater fish in Malaysian tropical rivers using short‐read nanopore sequencing as a potential biomonitoring tool
16. A Preliminary Checklist of Fish Species in the Peat Swamp Forest of Ayer Hitam Utara State Park Forest, Johor, Malaysia
17. The Ethnozoology, Wildlife Utilisation and Hunting Practices of the Semoq Beri Tribe in Pahang
18. Figure 1 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
19. Figure 3 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
20. Figure 4 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
21. Supplementary material 1 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
22. Figure 5 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
23. Figure 2 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
24. Figure 6 from: Ramli FF, Munian K, Mahyudin NAA, Othman N, Haris H, Abdullah-Fauzi NAF, Sariyati NH, Ilham-Norhakim ML, Abdul-Latiff MAB (2024) First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA). Biodiversity Data Journal 12: e108476. https://doi.org/10.3897/BDJ.12.e108476
25. First documentation on herpetofauna diversity in Gunung Belumut Amenity Forest, Peninsular Malaysia: Implications for conservation in an Environmentally Sensitive Area (ESA)
26. Preliminary Ethnoichthyological Assessment: Fish Consumption Patterns among Orang Asli Semelai (Aborigines: Proto-Malay) in Tasek Bera, Pahang
27. Molecular DNA-based spatial mapping technique predicting diversity and distribution of otters (Lutrinae) in Peninsular Malaysia using non-invasive fecal samples
28. Correction to: Molecular DNA-based spatial mapping technique predicting diversity and distribution of otters (Lutrinae) in Peninsular Malaysia using non-invasive fecal samples
29. 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
30. A Review of Next-Generation Wildlife Monitoring using Environmental DNA (eDNA) Detection and Next-Generation Sequencing in Malaysia
31. Supplementary material 1 from: Kaviarasu M, Ramli FF, Mohd Ilham Norhakim L, Othman N, Mahyuddin NAA, Haris H, Sariyati NH, Najmuddin MF, Aman S, Zaharin SF, Abdul-Latiff MAB (2022) First insight into freshwater fish assemblages in the western part of the Endau-Rompin landscape, Malaysia. Nature Conservation 50: 265-281. https://doi.org/10.3897/natureconservation.50.86090
32. Figure 1 from: Kaviarasu M, Ramli FF, Mohd Ilham Norhakim L, Othman N, Mahyuddin NAA, Haris H, Sariyati NH, Najmuddin MF, Aman S, Zaharin SF, Abdul-Latiff MAB (2022) First insight into freshwater fish assemblages in the western part of the Endau-Rompin landscape, Malaysia. Nature Conservation 50: 265-281. https://doi.org/10.3897/natureconservation.50.86090
33. First insight into freshwater fish assemblages in the western part of the Endau-Rompin landscape, Malaysia
34. Figure 3 from: Kaviarasu M, Ramli FF, Mohd Ilham Norhakim L, Othman N, Mahyuddin NAA, Haris H, Sariyati NH, Najmuddin MF, Aman S, Zaharin SF, Abdul-Latiff MAB (2022) First insight into freshwater fish assemblages in the western part of the Endau-Rompin landscape, Malaysia. Nature Conservation 50: 265-281. https://doi.org/10.3897/natureconservation.50.86090
35. Figure 2 from: Kaviarasu M, Ramli FF, Mohd Ilham Norhakim L, Othman N, Mahyuddin NAA, Haris H, Sariyati NH, Najmuddin MF, Aman S, Zaharin SF, Abdul-Latiff MAB (2022) First insight into freshwater fish assemblages in the western part of the Endau-Rompin landscape, Malaysia. Nature Conservation 50: 265-281. https://doi.org/10.3897/natureconservation.50.86090
36. 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
37. Evaluation of wildlife distribution data in Southeast Asia: Public data mining and ecological modelling of Malaysia's primate.
38. First checklist of arachnid in Tasik Chini Biosphere Reserve, Pahang, Malaysia with notes on important tarantula species.
39. Figure 2 from: Osman NA, Abdul-Latiff MAB, Mohd-Ridwan AR, Yaakop S, Karuppannan KV, Md-Zain BM (2022) Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia. Biodiversity Data Journal 10: e89617. https://doi.org/10.3897/BDJ.10.e89617
40. Figure 5 from: Osman NA, Abdul-Latiff MAB, Mohd-Ridwan AR, Yaakop S, Karuppannan KV, Md-Zain BM (2022) Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia. Biodiversity Data Journal 10: e89617. https://doi.org/10.3897/BDJ.10.e89617
41. Figure 6 from: Osman NA, Abdul-Latiff MAB, Mohd-Ridwan AR, Yaakop S, Karuppannan KV, Md-Zain BM (2022) Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia. Biodiversity Data Journal 10: e89617. https://doi.org/10.3897/BDJ.10.e89617
42. Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia
43. Figure 1 from: Osman NA, Abdul-Latiff MAB, Mohd-Ridwan AR, Yaakop S, Karuppannan KV, Md-Zain BM (2022) Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia. Biodiversity Data Journal 10: e89617. https://doi.org/10.3897/BDJ.10.e89617
44. Figure 3 from: Osman NA, Abdul-Latiff MAB, Mohd-Ridwan AR, Yaakop S, Karuppannan KV, Md-Zain BM (2022) Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia. Biodiversity Data Journal 10: e89617. https://doi.org/10.3897/BDJ.10.e89617
45. Figure 4 from: Osman NA, Abdul-Latiff MAB, Mohd-Ridwan AR, Yaakop S, Karuppannan KV, Md-Zain BM (2022) Metabarcoding data analysis revealed the plant dietary variation of long-tailed macaque Macaca fascicularis (Cercopithecidae, Cercopithecinae) living in disturbed habitats in Peninsular Malaysia. Biodiversity Data Journal 10: e89617. https://doi.org/10.3897/BDJ.10.e89617
46. Phylogenetic relationships of Malaysia’s long-tailed macaques, Macaca fascicularis, based on cytochrome b sequences
47. Figure 9 from: Mohd-Yusof NS, Abdul-Latiff MAB, Mohd-Ridwan AR, Badrulisham AS, Othman N, Yaakop S, Md-Nor S, Md-Zain BM (2022) First report on metabarcoding analysis of gut microbiome in Island Flying Fox (Pteropus hypomelanus) in island populations of Malaysia. Biodiversity Data Journal 10: e69631. https://doi.org/10.3897/BDJ.10.e69631
48. Figure 8 from: Mohd-Yusof NS, Abdul-Latiff MAB, Mohd-Ridwan AR, Badrulisham AS, Othman N, Yaakop S, Md-Nor S, Md-Zain BM (2022) First report on metabarcoding analysis of gut microbiome in Island Flying Fox (Pteropus hypomelanus) in island populations of Malaysia. Biodiversity Data Journal 10: e69631. https://doi.org/10.3897/BDJ.10.e69631
49. Figure 1 from: Mohd-Yusof NS, Abdul-Latiff MAB, Mohd-Ridwan AR, Badrulisham AS, Othman N, Yaakop S, Md-Nor S, Md-Zain BM (2022) First report on metabarcoding analysis of gut microbiome in Island Flying Fox (Pteropus hypomelanus) in island populations of Malaysia. Biodiversity Data Journal 10: e69631. https://doi.org/10.3897/BDJ.10.e69631
50. Figure 5 from: Mohd-Yusof NS, Abdul-Latiff MAB, Mohd-Ridwan AR, Badrulisham AS, Othman N, Yaakop S, Md-Nor S, Md-Zain BM (2022) First report on metabarcoding analysis of gut microbiome in Island Flying Fox (Pteropus hypomelanus) in island populations of Malaysia. Biodiversity Data Journal 10: e69631. https://doi.org/10.3897/BDJ.10.e69631
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