Fungi capable of arsenic(As) accumulation and volatilization are hoped to tackle As-contaminated environment in the future. However, little data is available regarding their performances in field soils. In this stud...Fungi capable of arsenic(As) accumulation and volatilization are hoped to tackle As-contaminated environment in the future. However, little data is available regarding their performances in field soils. In this study, the chlamydospores of Trichoderma asperellum SM-12F1 capable of As resistance, accumulation, and volatilization were inoculated into As-contaminated Chenzhou(CZ) and Shimen(SM) soils, and subsequently As volatilization and availability were assessed. The results indicated that T. asperellum SM-12F1 could reproduce well in As-contaminated soils. After cultivated for 42 days, the colony forming units(cfu) of T. asperellum SM-12F1 in CZ and SM soils reached 10^10–10^11 cfu g^–1 fresh soil when inoculated at a rate of 5.0%. Inoculation with chlamydospores of T. asperellum SM-12F1 could significantly accelerate As volatilization from soils. The contents of volatilized As from CZ and SM soils after being inoculated with chlamydospores at a rate of 5.0% for 42 days were 2.0 and 0.6 μg kg^–1, respectively, which were about 27.5 and 2.5 times higher than their corresponding controls of no inoculation(CZ, 0.1 μg kg^–1; SM, 0.3 μg kg^–1). Furthermore, the available As content in SM soils was decreased by 23.7%, and that in CZ soils increased by 3.3% compared with their corresponding controls. Further studies showed that soil p H values significantly decreased as a function of cultivation time or the inoculation level of chlamydospores. The p H values in CZ and SM soils after being inoculated with 5.0% of chlamydospores for 42 days were 6.04 and 6.02, respectively, which were lowered by 0.34 and 1.21 compared with their corresponding controls(CZ, 6.38; SM, 7.23). The changes in soil p H and As-binding fractions after inoculation might be responsible for the changes in As availability. These observations could shed light on the future remediation of As-contaminated soils using fungi.展开更多
基金support from the National Natural Science Foundation of China(41101296)the Key Technologies R&D Program of China during the 12th Five-Year Plan period(2012BAD14B02)
文摘Fungi capable of arsenic(As) accumulation and volatilization are hoped to tackle As-contaminated environment in the future. However, little data is available regarding their performances in field soils. In this study, the chlamydospores of Trichoderma asperellum SM-12F1 capable of As resistance, accumulation, and volatilization were inoculated into As-contaminated Chenzhou(CZ) and Shimen(SM) soils, and subsequently As volatilization and availability were assessed. The results indicated that T. asperellum SM-12F1 could reproduce well in As-contaminated soils. After cultivated for 42 days, the colony forming units(cfu) of T. asperellum SM-12F1 in CZ and SM soils reached 10^10–10^11 cfu g^–1 fresh soil when inoculated at a rate of 5.0%. Inoculation with chlamydospores of T. asperellum SM-12F1 could significantly accelerate As volatilization from soils. The contents of volatilized As from CZ and SM soils after being inoculated with chlamydospores at a rate of 5.0% for 42 days were 2.0 and 0.6 μg kg^–1, respectively, which were about 27.5 and 2.5 times higher than their corresponding controls of no inoculation(CZ, 0.1 μg kg^–1; SM, 0.3 μg kg^–1). Furthermore, the available As content in SM soils was decreased by 23.7%, and that in CZ soils increased by 3.3% compared with their corresponding controls. Further studies showed that soil p H values significantly decreased as a function of cultivation time or the inoculation level of chlamydospores. The p H values in CZ and SM soils after being inoculated with 5.0% of chlamydospores for 42 days were 6.04 and 6.02, respectively, which were lowered by 0.34 and 1.21 compared with their corresponding controls(CZ, 6.38; SM, 7.23). The changes in soil p H and As-binding fractions after inoculation might be responsible for the changes in As availability. These observations could shed light on the future remediation of As-contaminated soils using fungi.