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Advancing conservation of threatened primates

Published online by Cambridge University Press:  25 March 2024

Luciana Oklander*
Affiliation:
Grupo de Investigación en Genética Aplicada, Instituto de Biología Subtropical, Universidad Nacional de Misiones—Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina Neotropical Primate Conservation, Argentina
Andie Ang
Affiliation:
Mandai Nature, Singapore
Rachel Ashegbofe Ikemeh
Affiliation:
SW/Niger Delta Forest Project, Nigeria
*
*Corresponding author, lula_ok@yahoo.com.ar

Abstract

Type
Editorial
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Fauna & Flora International

Our closest living relatives—the non-human primates—are in trouble. Approximately 64% of the 536 currently recognized species are included in one of the threatened categories of the IUCN Red List, with 16% categorized as Critically Endangered. How did this happen? Many factors combine to threaten primates: deforestation and habitat fragmentation reduce resources and restrict dispersal and gene flow; encroachment and urban expansion into primate habitats extend the human–wildlife interface, heightening the potential for conflicts and pathogen transmission; and extraction of primates for biomedicine, consumption and the pet and wildlife trade (notably for rituals and so-called medicine) reduces populations and affects demography. These threats drive mortality, decrease adaptability and lead to local extinctions, with profound—and potentially irreversible—effects on primates and the ecosystems they inhabit. Unsurprisingly, all articles in the primate conservation theme in this issue of Oryx concern threatened species.

Primates have long generation times (e.g. 22 years for gorillas; 12 years for howler monkeys and langurs; 6 years for tamarins), advanced ages at first reproduction, long lifespans and low fertility. Their conservation thus requires a matching long-term vision sustained by continuous efforts and resources. But, as Hameed et al. (Reference Hameed, Bashir, Ali, Khanyari and Kumar2024) note in their review of primates in India, monitoring of primate populations is often short-lived and limited in geographical coverage.

Further hindrances to primate conservation include challenges of financing and logistics for environmental education, community conservation initiatives, maintenance of study sites, surveys and ranger patrols. Some logistical problems, however, are now being addressed by the application of technologies such as camera traps, acoustic monitoring and drones, improving the efficiency of data collection, especially for arboreal or cryptic species: unoccupied aerial vehicles have been used to survey the Critically Endangered cao vit gibbon Nomascus nasutus in China and Viet Nam (Wearn et al., Reference Wearn, Trinh-Dinh, Le and Nguyen2024); the northern muriqui Brachyteles hypoxanthus and buffy-headed marmoset Callithrix flaviceps, both Critically Endangered, have been detected in Caparaó National Park, Brazil, using arboreal infrared camera traps (Kaizer et al., Reference Kaizer, Alvim, Novaes, McDevitt and Young2022); occupancy-based camera-trap surveys have been used to assess the Critically Endangered Celebes crested macaque Macaca nigra across its range in North Sulawesi, Indonesia (Johnson et al., Reference Johnson, Hilser, Linkie, Rahasia, Rovero and Pusparini2020); and multi-strata camera traps have been used to examine habitat use by the Endangered dryas monkey Chlorocebus dryas in the Democratic Republic of the Congo (Alempijevic et al., Reference Alempijevic, Hart, Hart and Detwiler2022). We cannot develop conservation plans for threatened primates without accurate population assessments (Rylands et al., Reference Rylands, Mittermeier and Williamson2020). These novel studies, together with more traditional research—such as for the Endangered ring-tailed lemur Lemur catta in Madagascar (Randrianjaka et al., Reference Randrianjaka, Calkins, Sefczek, Frasier, Randriamampionona and Rakotoniaina2024), the Endangered golden monkey Cercopithecus mitis kandti in Rwanda (Tuyisingize et al., Reference Tuyisingize, Kaplin, Eckardt, Musana and Caillaud2023), the Critically Endangered Vieira's titi monkey Plecturocebus vieirai in Brazil (Costa-Araújo et al., Reference Costa-Araújo, da Silva, de Melo, Rossi, Bottan and Silva2022), and the Critically Endangered Delacour's langur Trachypithecus delacouri in Viet Nam (Nguyen et al., Reference Nguyen, Trinh-Dinh, Le and Manh Ha2022)—all deal with surveys and the provision of essential baseline data.

A further challenge is ensuring that evidence from research is used appropriately and promptly by policymakers for management and conservation purposes. An example of a success story in this respect is the marked increase in the population size of the Critically Endangered white-headed langur Trachypithecus leucocephalus in China (Tang et al., Reference Tang, Huang, Wang, Wu, Wang and Nong2024) following government intervention to reduce poaching. Population surveys conducted in 2010/2011 and 2020/2021 in the Chongzuo White-Headed Langur National Nature Reserve, Guangxi Province—home to 95% of the few known individuals—recorded an increase in the number of both individuals and groups over this period. Poaching for food and traditional medicine is no longer the main threat to these langurs, although forest loss and fragmentation continue.

Like other animals, primates do not respect national boundaries, and threatened species that occur in more than one jurisdiction potentially face additional problems from uneven conservation efforts. Transboundary collaboration and coordination are key in such situations. For example, the only known population of the cao vit gibbon occurs along the border between China and Viet Nam, and the home ranges of groups often span the two countries. Collaborative transboundary censuses in the Bangliang Gibbon National Nature Reserve in China and Trung Khanh Cao Vit Gibbon Species and Habitat Conservation Area in Viet Nam demonstrated a slow increase in this population from 2007 to 2016 (Ma et al., Reference Ma, Trinh-Dinh, Nguyen, Le, Le and Le2020). A memorandum of understanding between the two countries for cooperative conservation of the cao vit gibbon, along with a transboundary action plan, collaborative approaches to counter hunting, and informal meetings on the border have all facilitated the conservation of this species. But as with the white-headed langur (Tang et al., Reference Tang, Huang, Wang, Wu, Wang and Nong2024), habitat carrying capacity is limiting further growth of the population. Other transboundary primate conservation efforts known to us include those for the Critically Endangered Raffles’ banded langur Presbytis femoralis in Malaysia and Singapore (Ang et al., Reference Ang, D'Rozario, Jayasri, Lees, Li and Luz2016), the Vulnerable brown howler monkey Alouatta guariba in Argentina and Brazil, and the Critically Endangered Cross River gorilla Gorilla gorilla diehli in Nigeria and Cameroon.

To appreciate the broader picture over and above the plight of individual species and locations, we need to step back and look at wider groups and regions. Rafanoharana et al. (Reference Rafanoharana, Andrianambinina, Rasamuel, Waeber, Wilmé and Ganzhorn2024) and Hameed et al. (Reference Hameed, Bashir, Ali, Khanyari and Kumar2024) do this for lemurs in Madagascar and primates in India, respectively. Madagascar often makes headlines for its high deforestation rates and conservation challenges but extrapolation of current deforestation rates to 2050 indicates that the protected area system will provide a stronghold for the conservation of forest ecosystems and lemurs for at least the next 30 years. This should allow sufficient time for the implementation of effective conservation measures. In contrast, a systematic review of research on Indian primates conducted during 2000–2021 on 20 of the country's 26 primate species shows, overall, declining population trends, and that only seven species have been surveyed or re-surveyed in the last 5 years. As elsewhere, hunting and habitat loss and fragmentation are the main threats.

With so many species threatened, and with conservation hindered by the availability of both funding and time, how can the future of our closest relatives be secured? From our personal perspectives across three continents, local participation is key to the development and implementation of conservation actions. Primate conservation needs to be embedded in local leadership and knowledge, and to foster inclusivity. Across the major regions where primates live—Africa, Asia, Madagascar and the Neotropics—we see an urgent need to enhance local capacity-building programmes and networking to nurture and support the next generation of primate conservationists, as noted in an earlier editorial for conservation more widely (O'Connell & Carter, Reference O'Connell and Carter2022).

Local stakeholders and researchers need to be engaged in research and conservation work and to be provided with the opportunities and resources to support long-term endeavours that match the long generation times of primates. Amongst others, the Latin American Society of Primatology, African Primatological Society, and Southeast Asian Primatological Association are helping primatology to flourish. The connections fostered by these and other regional and national organizations can catalyse effective conservation, capacity-building, long-term field studies and transboundary collaboration.

We thank Anthony Rylands for his critique.

This Editorial and the Oryx articles cited are available as a virtual issue: cambridge.org/core/journals/oryx/virtual-issues.

References

Alempijevic, D., Hart, J.A., Hart, T.B. & Detwiler, K.M. (2022) Using local knowledge and camera traps to investigate occurrence and habitat preference of an Endangered primate: the endemic dryas monkey in the Democratic Republic of the Congo. Oryx, 56, 260267.CrossRefGoogle Scholar
Ang, A., D'Rozario, V., Jayasri, S.L., Lees, C.M., Li, T.J., & Luz, S. et al. (2016) Species Action Plan for the Conservation of Raffles' Banded Langur (Presbytis femoralis femoralis) in Malaysia and Singapore. IUCN SSC Conservation Breeding Specialist Group. iucn.org/resources/grey-literature/species-action-plan-conservation-raffles-banded-langur-presbytis [accessed March 2024].Google Scholar
Costa-Araújo, R., da Silva, L.G., de Melo, F.R., Rossi, R.V., Bottan, J.P., Silva, D.A. et al. (2022) Primate conservation in the Arc of Deforestation: a case study of Vieira's titi monkey Plecturocebus vieirai. Oryx, 56, 837845.CrossRefGoogle Scholar
Galea, B., Mobarak, I., Izzati, N.A., Fong, M.Y., Abdullah, M.F.D., Mohd Bukhari, A.M. et al. (2024) Recommendations for the establishment of a trans-island canopy bridge network to support primate movement across Langkawi Island, Malaysia. Oryx, 58, 187191.CrossRefGoogle Scholar
Hameed, S., Bashir, T., Ali, M.N., Khanyari, M. & Kumar, A. (2024) Recent studies on Indian primates show declining population trends, even in protected areas. Oryx, 58, 167178.CrossRefGoogle Scholar
Johnson, C.L., Hilser, H., Linkie, M., Rahasia, R., Rovero, F., Pusparini, W. et al. (2020) Using occupancy-based camera-trap surveys to assess the Critically Endangered primate Macaca nigra across its range in North Sulawesi, Indonesia. Oryx, 54, 784793.CrossRefGoogle Scholar
Kaizer, M.C., Alvim, T.H.G., Novaes, C.L., McDevitt, A.D., & Young, R.J. (2022) Snapshot of the Atlantic Forest canopy: surveying arboreal mammals in a biodiversity hotspot. Oryx, 56, 825836.CrossRefGoogle Scholar
Ma, C., Trinh-Dinh, H., Nguyen, V.-T., Le, T.D., Le, V.D., Le, H.O. et al. (2020) Transboundary conservation of the last remaining population of the cao vit gibbon Nomascus nasutus. Oryx, 54, 776783.CrossRefGoogle Scholar
Nguyen, A.T., Trinh-Dinh, H., Le, M. & Manh Ha, N. (2022) Status of a second viable population of the Critically Endangered Delacour's langur in Viet Nam. Oryx, 56, 439441.CrossRefGoogle Scholar
O'Connell, M. & Carter, M. (2022) Capacity development for conservation. Oryx, 56, 641642.CrossRefGoogle Scholar
Rafanoharana, S.C., Andrianambinina, F.O.D., Rasamuel, H.A., Waeber, P.O., Wilmé, L. & Ganzhorn, J.U. (2024) Projecting forest cover in Madagascar's protected areas to 2050 and its implications for lemur conservation. Oryx, 58, 155163.CrossRefGoogle Scholar
Randrianjaka, S., Calkins, S., Sefczek, T.M., Frasier, C.L., Randriamampionona, R., Rakotoniaina, J.C. et al. (2024) Assessment of ring-tailed lemur Lemur catta populations in south-western Madagascar. Oryx, 58, 164166.CrossRefGoogle Scholar
Rylands, A.B., Mittermeier, R.A. & Williamson, E.A. (2020) Primate conservation—new reports from the field. Oryx, 54, 751752.CrossRefGoogle Scholar
Tang, H.X., Huang, H.L., Wang, Z.X., Wu, J.B., Wang, A.L., Nong, D.P. et al. (2024) Population dynamics and conservation status of the white-headed langur in the Chongzuo forest fragments, Guangxi, China. Oryx, 58, 179182.CrossRefGoogle Scholar
Tuyisingize, D., Kaplin, B.A., Eckardt, W., Musana, A. & Caillaud, D. (2023) Distribution and conservation status of the golden monkey Cercopithecus mitis kandti in Rwanda. Oryx, 57, 98106.CrossRefGoogle Scholar
Wearn, O.R., Trinh-Dinh, H., Le, Q.K. & Nguyen, T.D. (2024) UAV-assisted counts of group size facilitate accurate population surveys of the Critically Endangered cao vit gibbon Nomascus nasutus. Oryx, 58, 183186.CrossRefGoogle Scholar