吴家森 Wu Jiasen scite author profile

Along with the increase of economics, heavy metal pollution in soil directly threatens food production security, and the toxicity affects humans because of their longevity and accumulation in organs. Phytoremediation is a new technology that usually employ hyperaccumulator plants to remove pollutants from environment or to render them harmless. The biomass of hyper鄄accumulators discovered before are less, and as a result in actual applications the hyper鄄accumulators are restricted significantly. Moso bamboo ( Phyllostachy pubescens) is not hyperacculator specie, but it has several advantages compared with hyperaccumulators. Moso bambo grows quickly, reaching maximum size within two months with an average height of 15m. In present paper the seeds of Moso bamboo are taken as test materials, the toxicity effects of four heavy metals involving Pb 2+ , Zn 2+ , Cu 2+ and Cd 2+ on seed germination and its accumulation of heavy metals were studied. The results indicated that: (1) The addition of Pb 2+ and Cd 2+ inhibited the germination rate, germination energy, germination index and vigor index of Moso bamboo seed significantly. For the low treatment level of Cu 2+ and Zn 2+ , the germination rate, germination energy, germination index and vigor index increase significantly, while the results were on the contrary for the high treatment level. When the treatment dosage reached to 1600 滋mol / L, the Cd 2+ addition has strong inhibition on seed germination than other three heavy metals. (2) The addition of low levle of Pb 2 + and Zn 2+ would promote the root growth significantly, while with the stress of Cu 2+ and Cd 2+ the root morphology are inhibited. (3) The concentration of Pb 2+ , Zn 2+ , http: / / www.ecologica.cn Cu 2+ and Cd 2+ in shoots of Moso bamboo reached 6810.51, 1387.77, 951.77 and 429.33mg / kg respectively after treating for 10 d. The translocation factor dimension is Zn 2+ >Cd 2+ >Pb 2+ >Cu 2+ , and the tolerance order of bamboo seedlings to heavy metal is: Zn 2+ >Pb 2+ > Cu 2+ >Cd 2+ . In summary, the results of above all would provide useful reference for soil test in future, and it also opens a new perspective for the study of phytoremediation species selection.

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Effects of exclosure term on community structure and undergrowth diversity of Phyllostachys pubescens

Liuxin¹,

Weipeng²,

Jun³

et al. 2020

Acta Eco Sin

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Effects of sod-cultural practices on soil nutrients and microbial diversity in theCarya cathayensisforest

Jinfang¹,

Jiasen²,

Jianqin³

2014

Acta Eco Sin

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Rapid development of the hickory (Carya cathayensis Sarg.) industry and excessive use of herbicides as well as other intensive management practices have resulted in serious damage to soil properties and forest vegetation. A decline in soil nutrients and a reduction in soil microbial biodiversity are often observed. To evaluate the potential of sod鄄culture to improve soil fertility and microbial activities of C. cathayensis forest soil, a 2鄄year field trial was initiated in 2010. In this study, six treatments (white clover, rye grass, oil rape seed, milk vetch, natural weeds and clean tillage (as CK)) each with three replicates were assessed in a randomized design. The effects of sod鄄culture treatments on soil nutrients and soil microbial biomass carbon in the C. cathayensis forest soil were measured. Changes in soil microbial diversity were also evaluated using Biolog. The results showed that there are various degrees of change in soil organic matter, available N, available K, available P, total N, total K and total P in C. cathayensis forest soil due to the different sod鄄culture treatments. Data indicated that except for soil total K, sod鄄culture treatments enhanced soil nutrient content significantly in the C. cathayensis forest soil as compared with the CK treatment. White clover and milk vetch treatments increased soil nutrient

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