Soil fungal community affected by regional climate played an important role in the decomposition of organic compost

A large amount of organic compost, produced with agricultural and breeding industry wastes by composting, is widely used in agriculture in China. The microbial decomposition of organic compost is a major flux in the nutrition cycle in sustainable agricultural soils. To explore the mechanism of organic compost mineralization in soil, in situ decomposition experiments of organic compost buried in soils were arranged in three different latitude regions located in Jilin, Jiangsu, and Yunnan in China. The results showed that organic compost had different decomposition rates at the three different sites, with the highest decomposition rate in Yunnan, followed by Jiangsu and Jilin. The decomposition rates of unsterilized organic compost were significantly greater than those of sterilized organic compost, indicating that the microorganisms in organic compost also made important contributions to the decomposition process. The soil microbial diversity and community structure among the three sites were significantly different. The fungal community, especially fungal richness, rather than the bacterial community in the soil, plays a major role in the decomposition of organic compost. The annual average temperature is an important environmental factor affecting fungal richness. This study will provide a reference for formulating agricultural fertilization models in different regions. •Organic composts had the highest decomposition rate in Yunnan, followed in Jiangsu and Jilin.•The microorganism in organic compost also made important contributions to the decomposition process.•The soil microbial diversity and community structure among the three sites are significantly different.•The fungal community in the soil plays a major role in the decomposition of organic composts, especially fungal richness.