Paul Shrutarshi, Ghosh Tista, Pandav Bivash, Mohan Dhananjai, Habib Bilal, Nigam Parag, Mondol Samrat
Wildlife Institute of India, Chandrabani, Dehradun 248 001, India.
J Genet. 2019 Jun;98(2).
Burgeoning pressures of habitat loss is a major cause of herbivore decline across India, forcing them to coexist with humans in non-protected areas. Their conservation in such landscapes is challenging due to paucity of ecological and demographic information. The northern subspecies of swamp deer, , is one such herbivore that lives across human dominated landscapes in Terai region and upper Gangetic plains of north India. Here, we describe species-specific molecular markers and a cervid-specific molecular sexing assay for swamp deer and four other coexisting cervids sambar, chital, barking deer and hog deer. Our markers show species-specific band patterns and a high success rate of 88.21% in large number of field collected referencesamples for all species. Faecal pellets from pilot swamp deer survey samples from upper Ganges basin show 93.81% success rate, and only 5.5% misidentification based on morphological characteristics. Our cervid-specific molecular sexing multiplex assay accurately ascertained 81.15% samples to respective sexes. These molecular approaches provide an easy, quick and cheap option to generate critical information on herbivore population parameters and aid their conservation in this mosaic of protected and non-protected grassland habitats.
栖息地丧失带来的压力不断增大,是印度各地食草动物数量减少的主要原因,迫使它们在非保护区与人类共存。由于缺乏生态和人口信息,在这样的景观中对它们进行保护具有挑战性。沼泽鹿的北方亚种就是这样一种食草动物,它生活在印度北部特莱地区和恒河上游平原人类主导的景观中。在这里,我们描述了沼泽鹿以及与之共存的其他四种鹿(水鹿、花鹿、赤麂和豚鹿)的物种特异性分子标记和鹿类特异性分子性别鉴定分析方法。我们的标记显示出物种特异性的条带模式,并且在大量野外采集的所有物种参考样本中成功率高达88.21%。来自恒河上游盆地沼泽鹿初步调查样本的粪便颗粒显示成功率为93.81%,基于形态特征的误识别率仅为5.5%。我们的鹿类特异性分子性别鉴定多重分析方法准确地将81.15%的样本确定到相应性别。这些分子方法提供了一种简单、快速且廉价的选择,以生成关于食草动物种群参数的关键信息,并有助于在这片由保护区和非保护区组成的草原栖息地中对它们进行保护。