Fungal richness and community composition are known to be positively associated with soil
multifunctionality. However, the contributions of bacterial and fungal communities to the …

Alpine meadows are sensitive to climate change due to their unique ecosystem. The
mechanisms by which soil microbial diversity regulates soil multifunctionality under …

Understanding how microbial processes develop and change in alpine meadow soils is key
to global initiatives toward environmental sustainability and local land management. Yet …

Over half of the alpine meadows in the Qinghai-Tibet Plateau (QTP) are degraded due to
human activities. Soil degradation from overgrazing is the most direct cause of grassland …

Soil microbial communities are essential in regulating ecosystem functions and services.
However, the importance of bacterial and fungal communities as predictors of multiple soil …

The alpine meadow in the Qinghai-Tibet Plateau has been seriously degraded due to
human activities and climate change in recent decades. Understanding the changes of the …

Topography plays a significant role in shaping soil biogeochemical cycling through its
influence on the composition and function of bacterial communities. However, little is known …

To understand effects of soil microbes on soil biochemistry in alpine grassland ecosystems
under environmental changes, we explored relationships between soil microbial diversity …

It is important to have a deep understanding of microbial diversity–multifunctionality
relationships. Studies on α diversity of microorganisms have been reported extensively, but …

Soil microbes have vital functions in terrestrial ecosystems, but the concurrent effects of soil
microclimates, edaphic attributes, and plant properties on soil microbial diversity and …