›› 2006, Vol. 14 ›› Issue (4): 395-396.DOI: 10.11733/j.issn.1007-0435.2006.04.022

• 博士论文摘要 • 上一篇    

中国南方亚热带丘陵地区草地植被重建

欧阳克蕙1,2, 王堃1   

  1. 1. 中国农业大学草地研究所, 北京, 100094;
    2. 江西农业大学动物科学技术学院, 南昌, 330045
  • 收稿日期:2006-11-20 修回日期:2006-11-05 出版日期:2006-11-15 发布日期:2006-11-15
  • 作者简介:欧阳克蕙(1974- ),女,博士,副教授,研究方向为草地资源与生态,E-mail:ouyangkehui@sina.com

A Study on the Grassland Reconstruction in the Subtropical Hilly Regions of Southern ChinaCandidate:

OUYANG Ke-hui1,2, Wang Kun1   

  1. 1. Institute of Grassland Science, China Agriculture University, Beijing 100094, China;
    2. College of Animal Science and Technology, Jiangxi Agriculture University, Nanchang, Jiangxi Province 330045, China
  • Received:2006-11-20 Revised:2006-11-05 Online:2006-11-15 Published:2006-11-15

摘要: 以实验生态学和生态工程相结合的措施,按照人为设计理论和生态恢复的一般程序,在中国南方亚热带丘陵地区研究截叶胡枝子(Lespedez acuneata)草地和宽叶雀稗(Paspalum wettsteinii)草地植被的重建,并探讨了这一生态恢复模式在恢复初期的生态学过程和规律。

关键词: 中国南方, 亚热带丘陵地区, 草地植被重建

Abstract: Measures taken according to experimental ecology and ecological engineering to modify environment of the subtropical hilly regions of southern China, cultivated grasslands of Chinese lespedeza (Lespedeza cuneata) and broadleaf paspalum (Paspalum wettsteinii) were raised. The sown pastures replaced the degraded grasslands of shrub-herb and herb growths of low-productivity in order to improve the degenerated ecosystem of the region. Some early stage ecological restoration measures and processes to ensure the grassland reconstruction were adopted.Results show that the soil productivity could be raised to provide yield of Chinese lespedeza to 12160 kg/hm2 and of broadleaf paspalum to 17690 kg/hm2 in the first year of cultivation, and to 13400 kg/hm2 of the former, 20750 kg/hm2 of the latter in the second year, an increase of 2.61~5.16 times of the yield of the previous degraded pastures. The solar energy utilization efficiency increased from 0.14% to 0.64% with the Chinese lespedeza grassland and to 0.93% with the broadleaf paspalum in the first year, then to 0.68% with the former and 1.01% with the latter in the second year. The output of energy, nitrogen and phosphorus were manifold of those of the degraded grassland. Effects in the second year were still better. The cultivated grassland prevented soil erosion efficiently by restoring vegetation, thickening the vegetation coverage, and establishing better above- and under-ground vegetation construction. The amount of soil erosion in the first year was deducted by about three quarters of that of the previous half-barren grassland. Soil erosion in the second year was cut by 51.77% in the Chinese lespedeza plot and 61.47% in the broadleaf paspalum grassland compared to the extent of soil erosion in the previous year.Compared to the former grassland, the newly cultivated pastures boasted higher soil pH value, richer amount of organic matter, total N, total P and available nutrients of the soil, as well as increased activities of catalase, acid phosphatase and urease, though the soil total K content and the activity of polyphenol oxidase were not regularly effected. Intensive cultivation and management ensures the soil qualities of the grassland. More organic carbon was fixed in the pasture with the increased vegetative cover. The soil organic carbon increased by 23% in the Chinese lespedeza pasture and 27% in the broadleaf paspalum one due to more organic matter input into the soil and the friendly environment conditions.Much more economic benefits have been gained in the reconstructed pasture. There is a payoff of RMB 5015.73 yuan/hm2 with the Chinese lespedeza grassland and 5755.80 yuan/hm2 with the broadleaf paspalum one in the first year, and RMB 8940.07 yuan/hm2 of the former, and 9330.36 yuan/hm2 of the latter in the second year. The input/output is 2.09 and 2.60 in the first year, and 7.15 and 7.39 in the second year, respectively.

Key words: Southern China, Subtropical hilly regions, Grassland reconstruction