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With a semi-solitary social organization, interactions between orangutans are infrequent, but still complex. Mother-offspring pairs are the basic social unit in orangutan social organization. The distance between a mother and offspring decreases in the presence of males compared to when the pair is alone or with a non-related female. In order to investigate who is responsible for this change in distance, we collected behavioral data on wild orangutans in Gunung Palung National Park, West Kalimantan, from May 2018-April 2019. We employed the Hinde Index as a measure of proximity maintenance. The Hinde Index is a ratio calculated from the number of approaches and leaves between two individuals. We found that for 97% of days (N=30) the offspring was responsible for proximity maintenance. There was no difference in the Hinde Index when mother-offspring pairs were alone compared to in the presence of a male (Nalone=29, Nmale=10, t = 0.917, df = 14.878, p-value = 0.374). However, controlling for individual variation by analyzing the data on a per follow basis, we found that proximity became more mother-maintained when males were present for 6 out of 7 follows, but this difference was not significant (N=7, t = 0.029, df = 6, p-value = 0.489). 

Seed dispersal is a process essential for the maintenance and regeneration of tropical forests. Many primates are important seed dispersers, and orangutans are predicted to be important seed dispersers as they are large-bodied and highly frugivorous. However, minimal previous research has been conducted on orangutan seed dispersal behavior. Here, we present our preliminary analyses on orangutan (Pongo pygmaeus wurmbii) seed dispersal behavior. Our data were collected in Gunung Palung National Park in West Kalimantan from August 2018 to August 2019. We collected 549 wild Bornean orangutan fecal samples, of which 75.2% of the fecal samples contained intact seeds. Dispersed seeds ranged in length from 0.1mm to 32.5mm. Next, we used a comparative perspective to understand orangutan seed dispersal effectiveness by placing orangutans in the context of the other apes. Orangutans disperse seeds with similar frequency as some populations of chimpanzees and gorillas. Overall, orangutans appear to be effective seed dispersers based on quantitative seed dispersal measures. Orangutans appear to have a vital ecological role in tropical forests, thus we advocate for the conservation of wild orangutans and the forests they inhabit. Funders: National Science Foundation (BCS-1638823); National Geographic Society; US Fish and Wildlife Services (F19AP00798; F18AP00898); Disney Wildlife Conservation Fund 

Monitoring health status is a critical aspect of primate conservation, yet can be difficult to noninvasively investigate in the wild. Internal body temperature, a marker of health in endotherms, has been tested in humans and chimpanzees using two different fecal temperature methods: using the peak internal temperature (PIT) or applying a sigmoid curve (SC). We tested both methods on wild and rehabilitant Bornean orangutans to determine if either is a feasible methodology for arboreal mammals. The SC method involves a series of temperatures for each sample that we fitted to a sigmoid curve, whereas the PIT method involved a single peak temperature recording. Estimates from the two methods were not significantly different in either our wild (T(88)= -2.0781, P=0.0406) or rehabilitant (T(29)= -2.8404, P=0.0082) samples. Adult rehabilitant body temperatures (N=9; 34.62 ± 1.32°C) were estimated to be hotter than those in the wild (N=107; 33.59 ± 1.66°C), although not significantly different (T(115)=1.9859; P=0.0493). In our model, testing a number of factors, we found height of fecal drop (P=0.0071), fecal weight (P=0.0198), and time of day (P=0.0029) to significantly affect body temperature estimates. Our field sample (N=107) indicates that wild orangutans have an internal fecal temperature, ranging between 29.5 and 37.3°C, lower than mean temperatures for chimpanzees or humans. This supports the finding that orangutans have lower metabolic rates than do most other eutherian mammals. Lower body temperature may serve as a metabolic adaptation of orangutans to survive extended periods of low food availability when energy needs to be conserved. 

The Gunung Palung Orangutan Project has conducted research on critically endangered wild Bornean orangutans (Pongo pygmaeus wurmbii) since 1994 in Gunung Palung National Park, West Kalimantan, Indonesia. A major goal of our broad-ranging research on orangutan behavior and ecology is to understand how the unique rainforest environment of Southeast Asia, characterized by dramatic changes in fruit productivity due to unpredictable mast fruiting, impacts orangutan behavior, physiology, and health. Much of our research has been devoted to the development of non-invasive techniques and an integrated biology approach – using hormonal assays, fecal processing, nutritional analysis, genetics, and behavioral ecology – and has led to an increased understanding of the ecological and evolutionary pressures shaping orangutan adaptations. Our results show that the extended life history and very slow reproductive rate of orangutans are adaptations to their environment. Orangutans in the Gunung Palung landscape, as elsewhere across Borneo and Sumatra, also face a series of conservation challenges, including extensive habitat loss and the illegal pet trade. We highlight how our investigations of orangutan health status, ecosystem requirements, and the assessment of orangutan density using ground and drone nest surveys have been applied to conservation efforts. We describe our project’s direct conservation interventions of public education and awareness campaigns, sustainable livelihood development, establishment of village-run customary forests, investigation of the illegal pet trade, and active engagement with Indonesian government organizations. These efforts, in concert with the development of local scientific and conservation capacity, provide a strong foundation for further conservation as orangutans face a challenging future.