<p>Gymnosperms play important ecological and evolutionary roles, but many species in Asia are increasingly threatened by climate change and habitat loss. Here we examined current gymnosperm diversity using species richness, geographic rarity and evolutionary uniqueness, and combined ecological niche modelling with measures of species richness to examine patterns of gymnosperm diversity in eastern and southern Asia under past, present, and future climates. We found that the Hengduan Mountains and parts of central Japan contain especially high diversity, while southwestern, southern, and southeastern China hold many evolutionarily distinct and geographically restricted species. Climate projections suggest that many current diversity hotspots could lose most suitable habitat by 2100, with 33 species facing possible extinction and 29 becoming highly vulnerable. Future climate refugia are predicted mainly in Indochina, India, southern China, Taiwan, and the southern Himalayas. Our results highlight the urgent need to expand protected areas and consider assisted migration for vulnerable species.</p>

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Eastern and southern Asian gymnosperms are doomed to extinction under climate change

  • Cindy Q. Tang,
  • Tetsuya Matsui,
  • Takuto Shitara,
  • Neus Nualart,
  • Arnau Bosch-Guiu,
  • Peng-Bin Han,
  • Shenhua Qian,
  • Yi-Fei Dong,
  • Jiangshan Lai,
  • Paul J. Grote,
  • Hong Truong Luu,
  • Dinesh Raj Bhuju,
  • Shandesh Bhattarai,
  • Ben LePage,
  • Kevin Robertson,
  • Haruka Ohashi,
  • Min-Rui Du,
  • Ming-Chun Peng,
  • Chongyun Wang,
  • Shuaifeng Li,
  • You-Cai Shi,
  • Shu-Li Xiao,
  • Shi-Gang Li,
  • Kai Yan,
  • Jordi López-Pujol

摘要

Gymnosperms play important ecological and evolutionary roles, but many species in Asia are increasingly threatened by climate change and habitat loss. Here we examined current gymnosperm diversity using species richness, geographic rarity and evolutionary uniqueness, and combined ecological niche modelling with measures of species richness to examine patterns of gymnosperm diversity in eastern and southern Asia under past, present, and future climates. We found that the Hengduan Mountains and parts of central Japan contain especially high diversity, while southwestern, southern, and southeastern China hold many evolutionarily distinct and geographically restricted species. Climate projections suggest that many current diversity hotspots could lose most suitable habitat by 2100, with 33 species facing possible extinction and 29 becoming highly vulnerable. Future climate refugia are predicted mainly in Indochina, India, southern China, Taiwan, and the southern Himalayas. Our results highlight the urgent need to expand protected areas and consider assisted migration for vulnerable species.