Yingzhou Tang

• Clemson University

Aims Microbial inoculants play important roles in the remediation of abandoned mine sites by stimulating plant growth. However, further investigations are required to elucidate their impacts on soil microbial communities and metabolites in this process. Methods For this study, we employed amplicon sequencing and Liquid Chromatography-Tandem Mass S...

Global‐scale mining activities have had significant deleterious impacts on local ecosystems and the overall environment, which will necessitate robust restoration efforts. A practical approach includes combining microbial inoculants with the technology of external soil spray seeding. This approach holds the potential for sustainable abandoned mine...

The application of microbial inoculants holds promise for the sustainable restoration of abandoned mine sites by affecting soil nutrients and microbial communities. However, the responses of plant microbial communities to microbial inoculants in mine restoration remain largely unknown. To bridge this knowledge gap, we conducted a 4‐year field exper...

This study investigates the structure and functional groups of soil fungal communities in major vegetation types in subtropical China. The main objective is to understand the responses of these communities to different vegetation types, and the influence of soil properties, such as soil organic carbon (SOC), pH, soil ammonium nitrogen (AN), availab...

The mining industry continues to have considerable adverse effects on ecosystems, which necessitates the development of robust and effective strategies for the remediation of abandoned mine sites. One such approach involves the integration of mineral‐solubilizing microorganisms into existing external soil spray seeding technologies. These microorga...

Fine root decomposition plays a vital role in driving the carbon cycle in terrestrial ecosystems, as it constitutes a substantial part of annual net primary production and, as transient tissues, returns to the soil within relatively short timescales. Soil fungal communities and enzyme activities strongly influence this process. In this study, we us...

Aims: Changes in root system architecture (RSA) and soil depth affect the root decomposition rate. However, due to soil opacity, many variables of RSA have not been well studied or even measured. Methods: To investigate the effects of soil depth and the characteristics of RSA on the root decomposition rate, soil samples (Soil cores were collected i...

Purpose This study investigates the structure and functional groups of soil fungal communities in major vegetation types in subtropical China. The main objective is to understand the responses of these communities to different vegetation types, and the influence of soil properties, such as soil organic carbon (SOC), pH, soil ammonium nitrogen (AN),...

Aims Changes in root structure and soil depth affect root decomposition. However, due to soil opacity, many variables of root structure have not been well studied and even measured. Methods To investigate the effects of soil depth and the characteristics of root structure on root decomposition, soil samples (In-situ soil core of 10cm diameter and...

Shear strength is an important mechanical property of soil, as its mechanical function plays critical roles in reducing land degradation and preventing soil erosion. However, shear strength may be affected by vegetation type through changes in the soil and root patterns. To understand the influences of different types of vegetation on shear strengt...

Rainfall is an indispensable link in the atmospheric water cycle, which plays a critical role in forest hydrology. Quercus acutissima and Cunninghamia lanceolata are two fast-growing and economically important tree species in the middle and lower reaches of the Yangtze River. They are extensively applied in the restoration of vegetation, hydraulic...