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The timing of flowering and fruiting plays a critical role in the reproduction, population size, and range of fruit-eating animals. The Hainan Tropical Rainforest National Park, China, hosts one of the world’s most endangered primate species, the Hainan gibbon (Nomascus hainanus). Understanding the phenological patterns of the principal food sources of the Hainan gibbon is crucial for the effective management of their habitats and the conservation of this threatened population. To that end, we conducted a regression analysis to better understand how climate may impact the timing and availability of fruits known to support the Hainan gibbon. We observed significant seasonal and inter-annual variations in the reproductive phenology of these fruiting species, with most species flowering from March to June and fruiting from August to December. Importantly, we found that Hainan gibbons face severe food scarcity between January and April. We show that sunshine exerts a significant effect on the flowering time, while fruiting phenology is most sensitive to temperature. We suggest that the restoration of the Hainan gibbon habitat should include planting more tree species which that produce fruit in the time of low food availability between January-April, including the species Memecylon ligustrifolium, Wrightia pubescens, Sarcosperma laurinum, Eurya ciliata, and Pouteria annamensis. Full article

Diabetes mellitus prevalence in Indonesia reached 19.5 million cases, which has affected the productive age population. The indigenous people of Indonesia are blessed with the second largest biodiversity in the world, including vegetables, which are also prepared as medicaments. Vegetables are well-known as natural antioxidants which evolved in metabolic disease prevention, including diabetes mellitus. One of the Government of Indonesia’s strategic plans in health is to develop new antidiabetic from nature. In this study, nineteen vegetable species were collected and evaluated for their antioxidant activity followed by computational-based bioprospecting. The study indicated Ipomoea aquatica, Paederia foetida, Plumbago zeylanica, Nauclea pallida, Sauropus androgynus, Wrightia pubescens, and Psophocarpus tetragonolobus to contain high antioxidant components. Computational experiments on chemical constituents previously reported from the same species showed potent compounds with high affinity against α-glucosidase (3a4a). 7-O-β-D-glucopyranosyl-dihydroquercetin-3-O-α-D-glucopyranoside 1, stigmasterol 7, and chitanone 12 are the most potent compounds from Ipomoea aquatica, Paederia foetida, and Plumbago zeylanica, respectively, which are superior to a standard drug, acarbose. The four vegetable species are feasible for conventional drug sources or developed as botanical dosage according to the Indonesian government’s strategic plan. Further studies are necessary to ensure adequate preclinical and clinical data to meet the requirement of safe and potent medicine. Nevertheless, Nauclea pallida and Psophocarpus tetragonolobus are valuable species with potent yet understudied antioxidant sources. Full article