Removal from the wild endangers the once widespread long-tailed macaque.

In 2022, long-tailed macaques (Macaca fascicularis), a once ubiquitous primate species, was elevated to Endangered on the International Union for Conservation of Nature (IUCN) Red List of Threatened Species. In 2023, recognizing that the long-tailed macaque is threatened by multiple factors: (1) declining native habitats across Southeast Asia; (2) overutilization for scientific, commercial, and recreational purposes; (3) inadequate regulatory mechanisms; and (4) culling due to human-macaque conflicts, a petition for rulemaking was submitted to the United States Fish and Wildlife Service to add the species to the US Endangered Species Act, the nation's most effective law to protect at risk species. The long-tailed macaque remains unprotected across much of its geographical range despite the documented continual decline of the species and related sub-species and the recent IUCN reassessment. This commentary presents a review of the factors that have contributed to the dramatic decline of this keystone species and makes a case for raising the level of protection they receive.

Plasmodium knowlesi and other malaria parasites in long-tailed macaques from the Philippines.

BACKGROUND: Macaca fascicularis (long-tailed macaque) is the most widespread species of macaque in Southeast Asia and the only species of monkey found naturally in the Philippines. The species is the natural host for the zoonotic malaria species, Plasmodium knowlesi and Plasmodium cynomolgi and for the potentially zoonotic species, Plasmodium inui. Moreover, other Plasmodium species such as Plasmodium coatneyi and Plasmodium fieldi are also natural parasites of M. fascicularis. The aims of this study were to identify and determine the prevalence of Plasmodium species infecting wild and captive long-tailed macaques from the Philippines. METHODS: A total of 95 blood samples from long-tailed macaques in the Philippines were collected from three locations; 30 were from captive macaques at the National Wildlife Rescue and Rehabilitation Center (NWRRC) in Luzon, 25 were from captive macaques at the Palawan Wildlife Rescue and Conservation Center (PWRCC) in Palawan and 40 were from wild macaques from Puerto Princesa Subterranean River National Park (PPSRNP) in Palawan. The Plasmodium spp. infecting the macaques were identified using nested PCR assays on DNA extracted from these blood samples. RESULTS: All 40 of the wild macaques from PPSRNP in Palawan and 5 of 25 captive macaques from PWRCC in Palawan were Plasmodium-positive; while none of the 30 captive macaques from the NWRRC in Luzon had any malaria parasites. Overall, P. inui was the most prevalent malaria parasite (44.2%), followed by P. fieldi (41.1%), P. cynomolgi (23.2%), P. coatneyi (21.1%), and P. knowlesi (19%). Mixed species infections were also observed in 39 of the 45 Plasmodium-positive macaques. There was a significant difference in the prevalence of P. knowlesi among the troops of wild macaques from PPSRNP. CONCLUSION: Wild long-tailed macaques from the island of Palawan, the Philippines are infected with P. knowlesi, P. inui, P. coatneyi, P. fieldi and P. cynomolgi. The prevalence of these Plasmodium spp. varied among the sites of collection and among troops of wild macaques at one site. The presence of these simian Plasmodium parasites, especially P. knowlesi and P. cynomolgi in the long-tailed macaques in Palawan presents risks for zoonotic transmission in the area.

The first complete mitochondrial genome sequence of Cynopterusbrachyotis (Chiroptera, Pteropodidae) from the Philippines.

The technical limitations of capillary sequencing in providing insights on phylogeny have been greatly aided in recent years by the implementation of next generation sequencing platforms which can generate whole mitochondrial genome (mitogenome) sequences. In this study, enriched mitochondrial DNA of Cynopterusbrachyotis from Mindanao, Philippines was sequenced using the Illumina MiSeq platform. A total of 653,967 clean paired-end reads was assembled using a MIRA-MITObim pipeline, resulting in a consensus mitogenome sequence length of 17,382 bases and a GC content of 41.48%, which is consistent with other published mitogenomes in fruit bats. The assembled C.brachyotis mitogenome was annotated using the MITOS online server and was able to resolve all mitochondrial genes, except for one transfer RNA gene (trnT) which may be further resolved by additional capillary sequencing of the region. Sequence analysis showed that the Philippine C.brachyotis is only 90%-91% homologous with other Cynopterus spp., based on its full mitogenome sequence. Phylogenetic analysis of fruit bat mitogenomes, deposited in online repositories, revealed that the Philippine C.brachyotis in this study has diverged from Asian Cynopterus, namely Cynopterusbrachyotis and Cynopterussphinx from other parts of Asia (100% bootstrap support) with the latter two forming a separate clade. This divergence at the species level was consistent with phylogentic inference using cytochrome oxidase 1 (CO1) and cytochrome B (cytb) gene markers. Our results strengthen the previously reported hypothesis that the Cynopteruscf.brachyotis in the Philippines is distinct from its Asian counterparts and should be, therefore, treated as a new species.

Three decades of Philippine nonhuman primate studies: research gaps and opportunities for Philippine primatology.

The Philippines is considered a megadiverse country. However, there are few published studies on its nonhuman primate (NHP) species (Carlito syrichta, Macaca fascicularis, and Nycticebus menagensis). Understanding the nature and extent of existing NHP research in the Philippines would help us to determine research gaps and opportunities. Thus, studies on NHPs of Philippine origin were retrieved from online databases including Google Scholar, ResearchGate, Primate Lit, the Integrated Taxonomic Information System (ITIS), and relevant authors. Of a total of 107 studies on Philippine NHP from 1989 to 2019, most focused on Philippine long-tailed macaque (52.78%), and Philippine tarsier (42.59%), with far fewer on Philippine slow loris (4.63%). Fewer studies were based on fieldwork (26.17%); more were based on research on captive animals or that undertaken in the laboratory (34.58%), or used only existing specimens or data (33.64%). Studies on wild NHPs were mostly conducted in Bohol Island. In terms of the type of research, studies on diseases (38.60%) were the most prevalent for macaques; ecological studies (23.91%) for tarsiers; evolutionary, taxonomic, and systematic studies (40%), and ecological and natural history studies (40%) for lorises. Philippine researchers and collaborations with foreign researchers contributed fewer studies (43.93%) than foreign-only researchers (56.07%). In conclusion, although research on Philippine NHPs is increasing, there is a bias with regards to the species studied, the type of research, and study location. Conservation-driven studies are also lacking. These gaps offer opportunities for further research to identify threats to the survival of NHPs in the Philippines, and for the development of plans and effective strategies for their conservation.