黄土高原草本植被水土保持作用研究进展

doi:10.11867/j.issn.1001-8166.2005.01.0074

草本植被具有积极的保持水土的作用，在黄土高原生态环境建设中具有不可替代的作用。在系统分析黄土高原草本植被保土减蚀作用研究的过去与现状的基础上，归纳并总结了草被覆盖度与水土流失量、草被植物与地表径流系数、草被植物地下根系与土壤抗冲性及抗蚀性等方面的最新研究进展，并针对各方面存在的问题以及今后有待深入研究的问题进行了探讨。

关键词: 黄土高原, 草本植被, 水土保持

Grassland vegetation plays active and important role in conserving soil and water, particularly in the eco-environment construction on Loess Plateau. On the basis of reviewing and analyzing the past and present situation of the effect of grassland vegetation for conserving soil and water, the relationships between vegetation coverage and soil and water loss, between vegetation and runoff coefficients, the improvement of root system of grassland vegetation on anti-scourability and anti-erodibility of soil were induced and summarized. The existed problems including the impact of grass coverage on runoff resistance characteristics, the maximum capacity of grass in conserving soil and water, the mechanism of grass in conserving soil and water, the best position of grass distribution on sloping surface and the impact degree of grass coverage on gully erosion when the grass resumed on the sloping surface were discussed. Some blanks existed in the present research field, including the impact of dead grass roots on soil organic matter content, shear stress and the water stability of soil aggregate, the quantitative calculation of benefit of grass in conserving soil and water are pointed out. Also the future directions of research in these fields were discussed, so that the role of grassland vegetation in conserving soil and water can be evaluated scientifically and provide some references for the present and future eco-environment construction in this area.

Key words: Loess Plateau, Grassland vegetation, The soil and water conservation

中图分类号:

S157

[1]Hou Qingchun, Han Ruilian, Han Shifeng. Preliminary research on the “dry soil layer” in man-made grassland on Loess Plateau［J］.Soil and Water Conservation in China, 1999,(5)：11-14. ［侯庆春,韩蕊莲,韩仕峰．黄土高原人工草地“土壤干层”问题初探［J］.中国水土保持,1999,(5)：11-14.］
[2]Ren Jizhou, Hou Fujiang, Zhang Zihe. Developing grassland agriculture and advancing sustainable development in western China［J].Advances in Earth Science, 2000,15(1)：19-24. ［任继周, 侯扶江, 张自和. 发展草地农业推进我国西部可持续发展［J］.地球科学进展, 2000, 15(1)：19-24.］
[3]Min Qingwen, Yu Weidong. Vegetation eco-construction in Loess Plateau Region viewing from precipitation resource［J].Research of Soil and Water Conservation, 2002,9(3)：109-112. ［闵庆文,余卫东．从降水资源看黄土高原地区的植被生态建设［J］．水土保持研究,2002,9(3)：109-112.］
[4]Zhang Guanghui, Liang Yimin. A summary of impact of vegetation coverage on soil and water conservation benefit[J].Research of Soil and Water Conservation, 1996,3(2)：104-110. ［张光辉,梁一民．植被盖度对水土保持功效影响的研究综述［J］．水土保持研究,1996,3(2)：104-110.］
[5]Jiao Juying, Wang Wanzhong, Li Jing. Effective cover rate of woodland and grassland for soil and water conservation［J］.Acta Phytoecologica Sinica, 2000,24(5)：608-612.［焦菊英,王万忠,李靖．黄土高原林草水土保持有效盖度分析［J］.植物生态学报,2000,24(5)：608-612.］
[6]Luo Weixiang, Bai Liqiang, Song Xide, et al. Runoff and scouring amount in forest and grassland with different cover rate［J].Journal of Soil and Water Conservation, 1990,4(1)：30-34. ［罗伟祥,白立强,宋西德,等．不同覆盖度林地和草地的径流量与冲刷量［J］．水土保持学报,1990,4(1)：30-34.］
[7]Wang Hansheng, Liu Guobin. The basic characteristic of effective erosion preventing by plant: Closing ground coverage［J].Soil and Water Conservation in China, 2000,3：28-31. ［王晗生,刘国彬．试论防蚀有效植被的基本特征——贴地面覆盖［J］．中国水土保持,2000,3：28-31.］
[8]Wang Hansheng, Liu Guobin. Analyses on vegetation structures and their controlling soil erosion［J］.Journal of Arid LandResources and Environment, 1999,13(2)：62-68. ［王晗生,刘国彬．植被结构及其防止土壤侵蚀作用分析［J］．干旱区资源与环境,1999,13(2)：62-68.］
[9]Liu Yuanbao, Tang Keli, Zha Xuan, et al. Experimental study on the sloping farmland with different ground mantle［J].Journal of Soil and Water Conservation, 1990,4(1)：25-29. ［刘元保,唐克丽,查轩,等．坡耕地不同地面覆盖的水土流失试验研究［J］．水土保持学报,1990,4(1)：25-29.］
[10]Hou Xilu, Cao Qingyu. Study on the benefits of plants to reduce sediment in the loess rolling gullied region of north Shaanxi［J］.Bulletin of Soil and Water Conservation, 1990,10(2)：33-40. ［侯喜禄,曹清玉．陕北黄土丘陵沟壑区植被减沙效益研究［J］．水土保持通报,1990,10(2)：33-40.］
[11]Xiong Yunfu, Wang Hongxing, Bai Zhigang, et al. Preliminary study on the index of loss of soil and water reducing benefit by terrace, woodland and grassland［J].Soil and Water Conservation in China, 1996,(8)：10-14. ［熊运阜,王宏兴,白志刚,等．梯田、林地、草地减水减沙效益指标初探［J］.中国水土保持,1996,(8)：10-14.］
[12]Bai Zhigang. The loss reducing benefit of woods and grass in the flood of “94.8.4” in Wuding Watershed［J］.Soil and Water Conservation in China, 1997,(7)：17-19. ［白志刚．从无定河流域“94.8.4”暴雨洪水看林草措施的减蚀作用［J］.中国水土保持,1997,(7)：17-19.］
[13]Tang Keli. The Changes of Erosion and Runoff in Yellow River Basin［M］.Beijing: China Sciences and Technology Press, 1993.114-117. ［唐克丽主编．黄河流域的侵蚀与径流泥沙变化［M］．北京：中国科学技术出版社,1993. 114-117.］
[14]Zhao Huanyin, Zhu Jinwei, Wang Weihua. Study on the runoff in forestbelt and grassland［J］.Journal of Soil and Water Conservation, 1994,8(2)：56-61. ［赵焕胤,朱劲伟,王维华．林带和牧草地径流的研究［J].水土保持学报,1994,8(2)：56-61.］
[15]Ma Sanbao, Zheng Yan, Ma Yanxi. Characteristic of soil and water loss and measures of returning farmland to forestry andgrassland in Loess Hilly Area［J].Research of Soil and Water Conservation, 2002,9(3)：55-57. ［马三宝,郑妍,马彦喜．黄土丘陵区水土流失特征与还林还草措施研究［J］.水土保持研究, 2002,9(3)：55-57.］
[16]Bai Hongyng, Tang Keli, Zhang Keli, et al. Study on man-made accelerated erosion of grassland being reclaimed by simulated rainfall experiment［J].Memoir of Northwestern Institute of Soil and Water Conservation, Academia Sinica and Ministry of Water Resources, 1993,17：87-93. ［白红英,唐克丽,张科利,等．草地开垦人为加速侵蚀的人工降雨试验研究［J］.中国科学院水利部西北水土保持研究所集刊, 1993,17：87-93.］
[17]Zhu Xianmo, Tian Jiying. The study on strengthening anti-scourability and penetrability of soil in Loess Plateau［J].Journal of Soil and Water Conservation,1993,7(3)：1-10. ［朱显谟,田积莹．强化黄土高原土壤渗透性及抗冲性的研究［J].水土保持学报,1993,7(3)：1-10.］
[18]Zhou Yue, Watts D. Current development of slope eco-engineering principle and application in Europe and America［J].Journal of Soil Erosion and Soil and Water Conservation, 1999,5(1)：79-85. ［周跃,Watts D．欧美坡面生态工程原理及应用的发展现状［J］．土壤侵蚀与水土保持学报,1999,5(1)：79-85.］
[19]Li Yong,Xu Xiaoqin, Zhu Xianmo, et al. Effectiveness on the strengthening penetrability by plant roots in Loess Plateau［J].Chinese Science Bulletin, 1992,37(4)：366-369. ［李勇,徐晓琴,朱显谟,等．黄土高原植物根系强化土壤渗透力的有效性［J］．科学通报,1992,37(4)：366-369.］
[20]Li Yong, Zhu Xianmo, Tian Jiying. Study on the effectiveness of soil anti-scourability by plant roots in Loess Plateau［J].Chinese Science Bulletin,1991,36(12)：935-938. ［李勇,朱显谟,田积莹．黄土高原植物根系提高土壤抗冲性的有效性［J］．科学通报,1991,36(12)：935-938.］
[21]Li Yong, Xu Xiaoqin, Zhu Xianmo, et al. Preliminary study on the mechanism of soil anti-scourability by plant roots in Loess Plateau［J].Science in China(B), 1992,35(3)：254-259.〖KG1〗[李勇,徐晓琴,朱显谟,等．黄土高原植物根系提高土壤抗冲性机制初步研究［J］.中国科学B辑,1992,35(3)：254-259.]
[22]Liu Guobin, Jiang Dingsheng, Zhu Xianmo. Study on the characteristics of bio-mechanics of grass roots on loess area ［J].Journal of Soil Erosion and Soil and Water Conservation, 1996,2(3)：21-28. ［刘国彬,蒋定生,朱显谟．黄土区草地根系生物力学特性研究［J］.土壤侵蚀与水土保持学报,1996,2(3)：21-28.］
[23]Liu Guobin. Study on soil anti-scourability and its mechanism of grassland on Loess Plateau［J].Journal of Soil Erosion and Soil and Water Conservation, 1998,4(1)：93-96. ［刘国彬．黄土高原草地土壤抗冲性及其机理研究［J］．土壤侵蚀与水土保持学报,1998,4(1)：93-96.］
[24]Li Peng, Li Zhanbin, Zheng Liangyong. Advances in researches of the effectiveness for vegetation conserving soil and water［J].Research of Soil and Water Conservation, 2002,9(1)：76-80.［李鹏,李占斌,郑良勇．植被保持水土有效性研究进展［J］．水土保持研究,2002,9(1)：76-80.］

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摘要

Progress of the Effect of Grassland Vegetation for Conserving Soil and Water on Loess Plateau