Abstract
Orchids are traded globally, where wild populations can be threatened by overharvesting, habitat loss, and climate change. Many orchid species lack ex situ protection, such as botanical gardens, making in situ genetic studies of wild populations critical to inform conservation plans. Taiwan is a center for orchid diversity and has witnessed declines in wild orchids. Holcoglossum pumilum, an island endemic epiphytic species, is popular among citizen scientists and shows potential for public engagement in biodiversity conservation. This study aims to evaluate the genetic diversity, population structure, and adaptive potential of wild Holcoglossum pumilum in Taiwan, not only to serve as an example for public outreach but also to inform conservation policy. We collected 64 plants from 18 sites across Taiwan and used ddRADseq to generate genome-wide SNP data. We found higher genetic diversity in southern populations than in northern ones. While evidence for genetic clustering and isolation by distance was limited, we detected significant genotype-environment associations, especially with annual precipitation. Demographic reconstructions suggested a pre-LGM expansion followed by a plateau. Contemporary Ne estimates varied by data filtering strategies but were mostly below 500. Our study demonstrates the critical role of genomic data not only in revealing the evolutionary origin of genetic diversity but also in guiding conservation plans. Specifically, we argued that the seasonal monsoon and the mountainous landscape of Taiwan may have shaped a latitudinal gradient of genetic diversity in H. pumilum. As a result, southern populations exhibit greater genetic diversity, which makes them priorities for conservation management.