Phylogenetic regionalization of the Pan‐Himalayan vascular flora

Abstract Pan‐Himalaya, including Himalaya and its neighboring areas, hosts a rich and unique flora that is crucial for understanding the evolutionary history of mountainous biodiversity. Phylogenetic regionalization can provide novel insights into biodiversity distribution patterns and their formation mechanisms. In this study, based on comprehensive species distribution data and a species‐level phylogenetic tree, we propose a phylogenetic regionalization scheme of the Pan‐Himalayan vascular flora comprising 15 zones, which can be grouped into five floristic subregions and three floristic regions (i.e., the West Himalayan [WH], the Southeast Himalayan [SEH], and the Northeast Himalayan [NEH] regions). Our results reveal that the SEH and NEH regions are closely clustered, which are then grouped with the WH region. The floras of these three regions exhibit distinct evolutionary histories and phylogenetic structures. The WH region presents a phylogenetically clustered flora with Euro‐Mediterranean affinities and the highest evolutionary uniqueness. The NEH region has the highest species richness and phylogenetic diversity, with most of its areas, especially at higher elevations, displaying phylogenetic clustering. In contrast, the SEH region exhibits a phylogenetically overdispersed flora, characterized by harboring species‐rich families with tropical, temperate, and alpine distributions, as well as relict plant lineages. This study provides valuable insights into the evolutionary history of the Pan‐Himalayan flora and informs the development of effective conservation strategies.