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Biogeographic patterns and drivers of soil viromes.

Bin MaYiling WangKankan ZhaoErinne StirlingXiaofei LvYijun YuLingfei HuChao TangChuyi WuBaiyu DongRan XueRandy A DahlgrenXiangfeng TanHengyi DaiYong-Guan ZhuHaiyan ChuJianming Xu
Published in: Nature ecology & evolution (2024)
Viruses are crucial in shaping soil microbial functions and ecosystems. However, studies on soil viromes have been limited in both spatial scale and biome coverage. Here we present a comprehensive synthesis of soil virome biogeographic patterns using the Global Soil Virome dataset (GSV) wherein we analysed 1,824 soil metagenomes worldwide, uncovering 80,750 partial genomes of DNA viruses, 96.7% of which are taxonomically unassigned. The biogeography of soil viral diversity and community structure varies across different biomes. Interestingly, the diversity of viruses does not align with microbial diversity and contrasts with it by showing low diversity in forest and shrubland soils. Soil texture and moisture conditions are further corroborated as key factors affecting diversity by our predicted soil viral diversity atlas, revealing higher diversity in humid and subhumid regions. In addition, the binomial degree distribution pattern suggests a random co-occurrence pattern of soil viruses. These findings are essential for elucidating soil viral ecology and for the comprehensive incorporation of viruses into soil ecosystem models.
Keyphrases
  • plant growth
  • sars cov
  • climate change
  • healthcare
  • magnetic resonance imaging
  • computed tomography
  • magnetic resonance
  • health insurance
  • human health
  • genetic diversity