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  1. Hasan NH, Daud US, Amat A, Lok YC, Mohd Johar MF, Gompoyo J, et al.
    Biodivers Data J, 2022;10:e87860.
    PMID: 36761649 DOI: 10.3897/BDJ.10.e87860
    A female Hypsugocf.vordermanni was caught at a stream near a village road in Mantailang, Crocker Range Park, Sabah, on 12 November 2018. This bat is a new record for the national park and the second record for Sabah. It was first recorded from Banggi Island, Kudat, in 1991. The species' few records throughout its range is most likely due to sampling effort bias towards forest interior and cave-dwelling species, as this species is more likely an edge-space aerial forager. It is morphologically similar to Peninsular Malaysia's Hypsugomacrotis, but the latter has never been reported from Borneo. Therefore, additional specimen collection and molecular data for H.cf.vordermanni are needed for further species confirmation. More information on H.vordermanni ecology is also crucial in aiding the management plan for this species as it is currently classified as Data Deficient by the IUCN.
  2. Lok YC, Siau VG, Mohd Kanapiah NAA, Lai TC, Haslan NNHH, Nukili NN, et al.
    Biodivers Data J, 2021;9:e72651.
    PMID: 34803464 DOI: 10.3897/BDJ.9.e72651
    Bats (Order: Chiroptera) is a recognised group of bioindicators due to their sensitivity towards alterations in their immediate surroundings. With the threats of climate change becoming more severe on a daily basis, it is reasonable to collect data on how bat diversity is influenced by elevation. This will be useful to predict and monitor possible upslope shifting of bat species due to increase in surrounding temperature or anthropogenic pressure. Hence, this study aims to uncover the bat diversity trend at different elevations in Crocker Range Park (CRP), Sabah, Malaysia. Bat trappings were conducted in four substations within this park, covering an elevation spectrum from 450 to 1900 m a.s.l. The overall sampling managed to capture 133 individuals of bats, predominantly Pteropodidae, with the addition of two new species locality records for CRP, Murinapeninsularis and Hypsugovondermanni. Simple linear regression analyses revealed that both bat diversity and richness have an inverse linear relationship with elevation. Likewise, the Pearson's correlation value, associating bat diversity with elevation, also shows that they have a negative relationship at r = -0.852. Heterogeneity of habitats explain this trend, as in the lower counterpart of CRP, lowland forests, which are richer in fruit and insect resources persist. Besides, lower land forests have better niche assortment, due to the distinctive layers stratification, allowing bats utilising different guilds to thrive in the same vegetation profile. This study further emphasises the role of CRP to protect most of the bat species found in Borneo, as well as serving as the baseline data for the future studies that look into the impact of temperature increment towards the upslope shifting of the bat population in CRP.
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