Characteristics of Rhizosphere Microbiome, Soil Chemical Properties, and Plant Biomass and Nutrients in Citrus reticulata cv. Shatangju Exposed to Increasing Soil Cu Levels
Xiaorong Mo, Qichun Huang, Chuanwu Chen, Hao Xia, Muhammad Riaz, Xiaomin Liang, Jinye Li, Yilin Chen, Qiling Tan, Songwei Wu, Chengxiao Hu

TL;DR
This study examines how increasing copper levels in soil affect citrus plant growth, soil chemistry, and the rhizosphere microbiome.
Contribution
The paper provides new insights into the interactions between soil copper, microbial communities, and citrus plant health.
Findings
Soil Cu increases alter chemical properties and enzyme activities related to nutrient cycling.
Tolerant microorganisms are enriched while sensitive ones are suppressed in citrus rhizosphere.
Plant biomass and nutrients correlate with specific soil properties and microbial taxa.
Abstract
The prolonged utilization of copper (Cu)-containing fungicides results in Cu accumulation and affects soil ecological health. Thus, a pot experiment was conducted using Citrus reticulata cv. Shatangju with five Cu levels (38, 108, 178, 318, and 388 mg kg−1) to evaluate the impacts of the soil microbial processes, chemistry properties, and citrus growth. These results revealed that, with the soil Cu levels increased, the soil total Cu (TCu), available Cu (ACu), organic matter (SOM), available potassium (AK), and pH increased while the soil available phosphorus (AP) and alkali-hydrolyzable nitrogen (AN) decreased. Moreover, the soil extracellular enzyme activities related to C and P metabolism decreased while the enzymes related to N metabolism increased, and the expression of soil genes involved in C, N, and P cycling was regulated. Moreover, it was observed that tolerant microorganisms…
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Taxonomy
TopicsSoil Carbon and Nitrogen Dynamics · Heavy metals in environment · Mycorrhizal Fungi and Plant Interactions
