Sitam Frankie T, Salgado-Lynn Milena, Denel Azroie, Panjang Elisa, McEwing Ross, Lightson Amanda, Ogden Rob, Maruji Nur Alwanie, Yahya Nurhartini Kamalia, Ngau Cosmas, Mohd Kulaimi Noor Azleen, Ithnin Hartini, Rovie-Ryan Jeffrine, Abu Bakar Mohd Soffian, Ewart Kyle M
Department of Wildlife and National Parks (DWNP/PERHILITAN) National Wildlife Forensic Laboratory (NWFL) Kuala Lumpur Malaysia.
Danau Girang Field Centre (DGFC) Kota Kinabalu Malaysia.
Ecol Evol. 2023 Aug 15;13(8):e10373. doi: 10.1002/ece3.10373. eCollection 2023 Aug.
The Sunda pangolin () is the most widely distributed Asian pangolin species, occurring across much of Southeast Asia and in southern China. It is classified as Critically Endangered and is one of the most trafficked mammals in the world, which not only negatively impacts wild Sunda pangolin populations but also poses a potential disease risk to other species, including humans and livestock. Here, we aimed to investigate the species' phylogeography across its distribution to improve our understanding of the species' evolutionary history, elucidate any taxonomic uncertainties and enhance the species' conservation genetic management and potential wildlife forensics applications. We sequenced mtDNA genomes from 23 wild Sunda pangolins of known provenance originating from Malaysia to fill sampling gaps in previous studies, particularly in Borneo. To conduct phylogenetic and population genetic analyses of Sunda pangolins across their range, we integrated these newly generated mitochondrial genomes with previously generated mtDNA and nuclear DNA data sets (RAD-seq SNP data). We identified an evolutionarily distinct mtDNA lineage in north Borneo, estimated to be ~1.6 million years divergent from lineages in west/south Borneo and the mainland, comparable to the divergence time from the Palawan pangolin. There appeared to be mitonuclear discordance, with no apparent genetic structure across Borneo based on analysis of nuclear SNPs. These findings are consistent with the 'out of Borneo hypothesis', whereby Sunda pangolins diversified in Borneo before subsequently migrating throughout Sundaland, and/or a secondary contact scenario between mainland and Borneo. We have elucidated possible taxonomic issues in the Sunda/Palawan pangolin complex and highlight the critical need for additional georeferenced samples to accurately apportion its range-wide genetic variation into appropriate taxonomic and conservation units. Additionally, these data have improved forensic identification testing involving these species and permit the implementation of geographic provenance testing in some scenarios.
马来穿山甲()是分布最广的亚洲穿山甲物种,遍布东南亚大部分地区和中国南部。它被列为极度濒危物种,是世界上被贩运最多的哺乳动物之一,这不仅对野生马来穿山甲种群产生负面影响,还对包括人类和牲畜在内的其他物种构成潜在疾病风险。在此,我们旨在研究该物种在其分布范围内的系统地理学,以增进我们对该物种进化历史的理解,阐明任何分类学上的不确定性,并加强该物种的保护遗传管理以及潜在的野生动物法医应用。我们对来自马来西亚的23只已知来源的野生马来穿山甲的线粒体DNA基因组进行了测序,以填补先前研究中的采样空白,特别是在婆罗洲。为了对马来穿山甲在其分布范围内进行系统发育和种群遗传分析,我们将这些新生成的线粒体基因组与先前生成的线粒体DNA和核DNA数据集(RAD-seq SNP数据)整合在一起。我们在北婆罗洲发现了一个进化上独特的线粒体DNA谱系,估计与西/南婆罗洲和大陆的谱系分歧约为160万年,这与巴拉望穿山甲的分歧时间相当。基于核SNP的分析,婆罗洲似乎存在线粒体-核不一致,没有明显的遗传结构。这些发现与“婆罗洲起源假说”一致,即马来穿山甲在婆罗洲多样化,然后迁移到巽他陆块各地,和/或大陆与婆罗洲之间的二次接触情况。我们阐明了马来/巴拉望穿山甲复合体中可能存在的分类学问题,并强调迫切需要更多地理参考样本,以便将其全范围的遗传变异准确地分配到适当的分类和保护单元中。此外,这些数据改进了涉及这些物种的法医鉴定测试,并允许在某些情况下进行地理来源测试。
