Genetic erosion in a tropical tree species demonstrates the need to conserve wide-ranging germplasm amid extreme habitat fragmentation

Aireen Suet Lin Phang* (Corresponding Author), Matti Niissalo, Markus Ruhsam, FF Pezzini, W.L. Neo , David Burslem, David John Middleton, Peter Wilkie, Gillian S W Khew

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Comparing the genetic diversity across different generations within tropical tree populations is an understudied topic. To assess the potential genetic consequences and conservation implications of contemporary disturbances, a population genomic study of Palaquium obovatum across age classes was undertaken. Trees and juveniles were sampled from ten different localities (eight in Singapore, two in Peninsular Malaysia) and subjected to double digest restriction-site associated DNA-sequencing (ddRAD-seq) to assess intergenerational genetic differences and investigate population structure in a hexaploid lineage. Genetic erosion, characterised by reduced heterozygosity, was found to have occurred in almost all wild populations over time, the exceptions being in one isolated coastal population and some areas with cultivated occurences. Population structure was highly localised with the number of genetically distinct populations usually following geographically separated districts, which indicates limitations in pollen and seed dispersal between fragments, possibly due to declines in the associated assemblage of dispersers. For this reason, the germplasm for conserving species diversity in degraded habitats and forest fragments should be selected from a wide range of wild populations across the landscape.
Original languageEnglish
JournalBiodiversity and Conservation
Early online date17 May 2024
DOIs
Publication statusE-pub ahead of print - 17 May 2024

Bibliographical note

Acknowledgements
We thank the management of the National Parks Board and Singapore Botanic Gardens for providing continuous support, facilities and fieldwork approval (Permit NP/RP17-098-3) in Singapore’s nature reserves, as well as the Singapore Land Authority for fieldwork permission in St. John’s and Lazarus Islands. We thank numerous staff at the Singapore Botanic Gardens: Mui Hwang Khoo-Woon for strong molecular lab support, Serena Lee for kind assistance with fieldwork permits, Lim Wei Hao and Koh Sin Lan from the Herbarium for stoic field support, Chong Kwek Yan, Rie Chong, Chan Pin Jia and Ali Ibrahim from the forest ecology team for helpful tips on big tree locations, Elango Velauthum, Edmund Chia, Primeman Tan, Cheryl Kong and Dennis Sng from the Living Collections branch for efficient arborist and records support, and Louise Neo for patient QGIS advice. We are grateful to Ngo Kang Min for sharing her deep knowledge of the Bukit Timah Nature Reserve forest sites, as well as Leanne Tan and Edwin Wong from Sentosa Development Corporation for forest access and collections assistance. We also thank staff at the Forest Research Institute Malaysia (FRIM) for their kind help to locate and collect samples in the premises of the Kepong Botanic Gardens. We appreciate the digital research team at the University of Aberdeen for providing technical support while using the computational resources on the HPC cluster, “Maxwell”. Lastly, we thank the reviewers for their constructive feedback on the manuscript.

Keywords

  • Conservation
  • Popular genetics
  • Fragmentation
  • Palaquium
  • Sapotaceae
  • ddRAD
  • Population genetics

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