In recent years, phytoremediation as a promising ecological restoration technique has emerged. Phytoremediation is a repair method that uses green plants to transfer, contain, or convert contaminants to the environment. Phytoremediation is a heavy metal, organic or radioactive element contaminated soil and water. The results show

that the use of plant absorption, volatilization, root filtration, degradation, stability and other effects, can purify soil

or water pollutants, to achieve the purpose of purifying the environment, so phytoremediation is a great potential, the development of the clean environment Pollution of green technology. The use of plants to repair contaminated soil is a cheap and durable bioremediation technique. The protection and management of Taihu Lake is an indispensable measure for the protection of Taihu Lake water, and the advantages of phytoremedry investment, low freight and

low leakage of pollutants show that its promotion has this unusual significance. This paper expounds the difference

of remediation soil between Taihu Lake Ecological Shelter Forest, and the comparison of the soil capacity of the

experimental tree species. Second, the correlation between the monitoring projects is discussed.

1. Wu Xinmin, Fan Genxing, Li Yinqing. Characteristics of soil quality evolution in the Yangtze River Delta [J]. Geography and Geo-Information Science, 2006,5 (3): 36-45.

2. Cheng Hangxin, Zhao Chuandong, Zhuang Guangmin, Nie Haifeng. History of heavy metal pollution in soils of Taihu Lake Basin [J]. Geological Frontier (China University of Geosciences (Beijing); Peking University), 2008,5 (9) 135-163.

3. LUOYM, WUWD, CHRISTIEP. Soil solution dynamics of Cu and Zn in a Cu-and Zn-polluted soil asaters by-irradiation and Cu-Zn interaction [J]. Chemosphere, 2001, 42: 179-184.

4. Meagher RB (2000). Phytoremediation of toxic elemental and organic pollutants. Curr Opin Plant Biol 3: 153-162.

5.

6. Differences in Soil Remediation of Ecological Shelterbelt in Taihu Lake

7. Chen Xiaodong, Chang Wenyue, Shao Chunyan. 2001. Soil pollution bioremediation research progress. Environmental Protection Science, 27: 23-25.

8. Wang Jing, Yin Guoxun. Status and problems of phytoremediation of contaminated soils [J]. Guangdong Chemical Industry, 2010,37 (1): 95-97.

9. Xi Danli, Sun Yusheng, Liu Xiuying. Environmental Monitoring (Third Edition) [M]. Beijing: Higher Education Press, 2004,7.

10. Chu Long, He Bin. (1): 81-83 (in Chinese with English abstract) [J].

11. Determination of nitrogen content in Zhoujin soil [J]. Soil and Fertilizer, 2008,15 (2): 32-33.

12. Pan Ping, Kang Qingrong, Li Xiao. Determination of total phosphorus in soil by spectrophotometry [J]. Spectroscopy Laboratory, 2003,9 (3): 34-36.

13. Yang Guishan, Wang Dejian. Taihu Lake Basin economic development water environment water disaster [M]. Beijing: Science Press, 2003.

14. ZhangY, YANGH, DUMY. Soil erosion study on hill-side in southern Jiangsu Province using the Cesium-137 Tracer technique [J]. Sail Science Plant Nutrition, 2003,49 (1): 85-92.

15. LUO YM, CHRISTIE P. Short-term effects of alkaline biosolids on pH and trace metals in oligotrophic forest peat and on growth of Picea sitchensis [J]. Forestry, 2001, 74 (2): 145-159.