不同水土保持措施对石漠化区水土流失的影响

doi:10.16843/j.sswc.2018.02.014

摘要
图/表
参考文献
相关文章 (15)

全文: HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要为科学评估不同水土保持措施对石漠化地区的治理效果，进一步探索和完善石漠化地区水土流失治理工作，以云南沾益石漠化地区官麦地小流域为研究对象，分析水保林、坡耕地+巨菌草、坡改梯耕地和经果林等不同的水土保持措施对石漠化径流小区土壤改良和产流产沙的影响。结果表明：1）在相同降雨条件下，坡耕地产流量最多，水保林产流量最少。不同水土保持措施下，土壤侵蚀量由高到低分别为荒山草地、坡耕地、梯地、经果林和水保林，其土壤侵蚀量分别占总侵蚀量的65.00%、56.13%、52.43%、50.35%和46.03%；2）水保林、经果林、梯地和坡耕地可有效降低土壤密度、增大孔隙度以及改善土壤结构；3）治理后坡耕地土壤全氮全磷质量分数最高，经果林和水保林次之，荒山草地的全氮质量分数最低，坡耕地、经果林、水保林和梯地土壤全氮量分别较荒山草地高90.63%、74.48%、26.56%和22.4%，全磷质量分数分别较荒山草地高123.64%、96.36%、67.27%和16.64%。综合分析表明：水保林、坡耕地+巨菌草、坡改梯耕地、经果林等水土保持措施能减少水土流失，有效改善土壤理化性质；其中，水保林效果最好，经果林、梯地和坡耕地次之。该研究为解决西南地区石漠化问题，提供理论依据和技术支撑。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	柏勇
	杜静
	杨婷婷
	王正选
	邱金亮
	李靖

关键词 ：石漠化, 径流量, 土壤侵蚀量, 土壤结构, 土壤肥力

Abstract：[Background] Karst rocky desertification is a process of land degradation involving serious soil erosion, extensive exposure of basement rocks, drastic decrease in soil productivity, and the appearance of a desert-like landscape. The process is expanding rapidly, and it is daily reducing the living space of residents and is the root of disasters and poverty in the Karst areas of southwestern China. Although some profitable experience has been conducted, scientific evaluations and effective remedial actions have not been carried out.[Methods] These experiments were conducted in Guanmaidi small watershed of Zhanyi County, Yunnan Province, where rocky desertification was severely suffered. We compared the difference of runoff and sediment yield characteristics after taking different measures in 5 runoff plots under different vegetation arrangements (soil and water conservation forest, economic fruit forest, slope farmland(Pennisetum sp.), terracing farmland, and wild grassland).[Results] 1) Under the condition of the same rainfall, soil and water conservation measures played a key role in reducing soil erosion. The flow of rain at slope farmland was the most while soil and water conservation forest was the least. Under different soil and water conservation measures, the descending order of soil erosion was as wild grass land, slope farmland (Pennisetum sp.), terracing farmland, economic fruit forest, and soil and water conservation forest. The amount of soil erosion in the total erosion amount were 65.00%, 56.13%, 52.43%, 50.35% and 46.03%, respectively. 2) The measures of soil and water conservation improved the soil environment to a better condition. In soil and water conservation forest, economic fruit forest, terracing farmland, and slope farmland, soil bulk density decreased while soil porosity increased and soil structure was improved. 3) The measures of soil and water conservation also improved the nutrient content of rocky desertified soil. The effect of slope tillage measure on improving soil total nitrogen and total phosphorus content was the highest, then the second for soil and water conservation forest and economic fruit forest, and the lowest for wild grassland. Specifically, the content of soil total nitrogen of slope farmland, economic fruit forest, soil and water conservation forest, terracing farmland increased by 90.63%, 74.48%, 26.56%, 22.4%, and the soil total phosphorus of them increased by 123.64%, 96.36%, 67.27%, 16.64% compared with wild grassland.[Conclusions] In our data, soil and water conservation forest acts the best role in combating rocky desertification in this area, and then followings are economic fruit forest, slope farmland, terracing farmland. Our result provided a case study on combating rocky desertification in Southwest China, and helped to explore and improve the management of soil and water conservation in Karst area. Further study should be considered to combine soil and water conservation measures with industrial crops, such as using fruit tree forests or timber forests to combat rocky desertification in this area. Moreover, quantitative analysis of the pattern, process and evolutional mechanism of Karst rocky desertification will be the trend.

Key words： rocky desertification runoff soil erosion soil structure soil fertility

收稿日期: 2017-01-16

PACS:

S157.2

基金资助:云南省高校重点实验室建设计划资助"云南省城乡水安全与节水减排"（20163709）；水利部科技推广计划项目"云南典型岩溶区水土保持综合治理集成技术应用"（2014TG1411）

通讯作者: 李靖(1969-),男,教授。主要研究方向:水资源及环境工程。E-mail:li_jing69@163.com E-mail: li_jing69@163.com

作者简介: 柏勇(1991-),男,硕士研究生。主要研究方向:水土保持。E-mail:by511602@126.com

引用本文:

柏勇^1,2, 杜静¹, 杨婷婷^1,2, 王正选^2,3, 邱金亮², 李靖². 不同水土保持措施对石漠化区水土流失的影响[J]. 中国水土保持科学, 2018, 16(2): 103-110.
BAI Yong, DU Jing, YANG Tingting, WANG Zhengxuan, QIU Jinliang, LI Jing. Effects of different soil and water conservation measures on soil and water loss from rocky desertification area. SSWC, 2018, 16(2): 103-110.

链接本文:

http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2018.02.014 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2018/V16/I2/103

[1]	王宇, 杨世瑜, 袁道先. 云南岩溶石漠化状况及治理规划要点[J]. 中国岩溶, 2005,24(3):206. WANG Yu, YANG Shiyu, YUAN Daoxian. The status quo of Karst rocky desertification and the key points for harnessing rocky desertification in Yunnan province[J]. Carsologica Sinica, 2005,24(3):206.
[2]	FERRARA A, SALVATI L, SATERIANO A et al. Performance evaluation and cost assessment of a key indicator system to monitor desertification vulnerability[J]. Ecological Indicators, 2012,11(23):123.
[3]	ADAMCOVA R, ABDALLAH C, KHAWLIE M. Assessing soil erosion in Mediterranean karst landscapes of Lebanon using remote sensing and GIS[J]. Engineering Geology, 2008,99(3):239.
[4]	熊康宁, 李晋, 龙明忠. 典型喀斯特石漠化治理区水土流失特征与关键问题[J]. 地理学报, 2012,67(7):878. XIONG Kangning, LI Jin, LONG Mingzhong. Features of soil and water loss and key issues in demonstration areas for combating Karst rocky desertification[J]. Acta Geographica Sinica, 2012,67(7):878.
[5]	卢彪, 杨明刚. 关岭自治县花江石漠化的成因及防治措施[J]. 中国水土保持科学, 2007,5(2):51. LU Biao, YANG Minggang. Causes and control measures of rocky desertification in Guanling County of Guizhou Province[J]. Science of Soil and Water Conservation, 2007,5(2):51.
[6]	周毅, 魏天兴, 解建强,等. 黄土高原不同林地类型水土保持效益分析[J]. 水土保持学报, 2011,25(3):12. ZHOU Yi, WEI Tianxing, XIE Jianqiang, et al. Different types of vegetation cover and water conservation benefits[J]. Journal of Soil and Water Conservation, 2011,25(3):12.
[7]	郭晓朦, 黄茹, 何丙辉,等. 不同水土保持林草措施对三峡库区土壤理化性质的影响[J]. 草业科学, 2016,33(4):555. GUO Xiaomeng, HUANG Ru, HE Binghui,et al. Correlation analysis of soil physicochemical properties under different soil and water conservation biological measures in Three Gorges Reservoir Region[J]. Pratacultural Science, 2016,33(4):555.
[8]	路炳军, 王志强. 北京西部山区径流小区产流产沙和土壤养分流失特征[J]. 中国水土保持科学, 2015,13(6):33. LU Bingjun, WANG Zhiqiang. Water and nutrient losses on runoff plots in the mountainous area at western Beijing[J]. Science of Soil and Water Conservation, 2015,13(6):33.
[9]	赵世伟, 刘娜娜, 苏静,等. 黄土高原水土保持措施对侵蚀土壤发育的效应[J]. 中国水土保持科学, 2006,4(6):5. ZHAO Shiwei, LIU Nana, SU Jing,et al. Effects of soil and water conservation measures on eroded soil development in the Loess Plateau[J]. Science of Soil and Water Conservation, 2006,4(6):5.
[10]	陈小强, 张寿鹏, 张连根,等. 岩溶石漠化区吉科小流域治理效果评价[J]. 中国水土保持, 2015(6):21. CHEN Xiaoqiang, ZHANG Shoupeng, ZHANG Liangen,et al. Assessment of Jike small watershed governance effect in Karst rocky desertification area[J]. Soil and Water Conservation in China, 2015(6):21.
[11]	冯莹, 孟广涛, 俞亭如,等. 官麦地小流域径流场产流产沙特征[J]. 中国水土保持, 2015(9):42. FENG Ying, MENG Guangtao, YU Tingru,et al. Characteristics of runoff and sediment production of runoff plot of Guanmaidi small watershed[J]. Soil and Water Conservation in China, 2015(9):42.
[12]	曾繁富, 张军, 赵同谦,等. 蒿坪河小流域降雨径流特征研究[J]. 水土保持学报, 2010,24(2):40. ZENG Fanfu, ZHANG Jun, ZHAO Tongqian,et al. Study on characteristics of runoff in Haoping river watershed[J]. Journal of Soil and Water Conservation, 2010,24(2):40.
[13]	赵志贡, 荣晓明, 菅浩然. 水文测验学[M]. 郑州,:黄河水利出版社, 2014:113. ZHAO Zhigong, RONG Xiaoming, JIAN Haoran. Hydrological Science[M]. Zhengzhou:The yellow river water conservancy press, 2014:113.
[14]	闫建梅, 何丙辉, 田太强,等. 川中丘陵区不同土地利用方式土壤入渗与贮水特征[J]. 水土保持学报, 2014,28(1):53. YAN Jianmei, HE Binghui, TIAN Taiqiang, et al. Soil infiltration and water-holding characteristics of different land use in Sichuan hilly basin[J]. Journal of Soil and Water Conservation, 2014,28(1):53.
[15]	马志鹏, 范茂攀, 陈小强,等. 间作模式下作物根系与坡耕地红壤抗蚀性的关系[J]. 水土保持学报, 2016,30(4):68. MA Zhipeng, FAN Maopan, CHEN Xiaoqiang, et al. Study on root system and soil anti-erodibility of slope farmland under the intercropping of maize and soybean[J]. Journal of Soil and Water Conservation, 2016,30(4):68.
[16]	魏义长, 康玲玲, 王云璋,等. 水土保持措施对土壤物理性状的影响:以黄土高原水土保持世界银行贷款项目区为例[J]. 水土保持学报, 2003,17(5):114. WEI Yichang, KANG Lingling, WANG Yunzhang, et al. Effect of soil and water conservation measures on soil physical behaviors:Taking World Bank's loan project area of soil and water conservation on Loess Plateau as example[J]. Journal of Soil and Water Conservation, 2003,17(5):114.
[17]	盛茂银, 刘洋, 熊康宁. 中国南方喀斯特石漠化演替过程中土壤理化性质的响应[J]. 生态学报, 2013,33(19):6303. SHENG Maoyin, LIU Yang, XIONG Kangning. Response of soil physical-chemical properties to rocky desertification succession in South China Karst[J]. Acta Ecologica Sinica, 2013,33(19):6303.
[18]	李新虎, 张展羽, 杨洁,等. 不同水土保持措施对坡地养分的影响[J]. 水资源与水工程学报, 2010,21(3):16. LI Xinhu, ZHANG Zhanyu, YANG Jie, et al. Impacts of different measures of soil and water conservancy on nutrients of slope land[J]. Journal of Water Resources & Water Engineering, 2010,21(3):16.
[19]	喻荣岗, 杨洁, 王农,等. 侵蚀红壤区不同水土保持措施的土壤改良效果研究[J]. 中国水土保持, 2012(7):40. YU Ronggang, YANG Jie, WANG Nong, et al. Effects of soil amelioration with different soil and water conservation measures of eroded red soil region[J]. Soil and Water Conservation in China, 2012(7):40.
[20]	林兴生, 林占熺, 林冬梅,等. 不同种植年限的巨菌草对植物和昆虫多样性的影响[J]. 应用生态学报, 2012,23(10):2849. LIN Xingsheng, LIN Zhanxi, LIN Dongmei, et al. Effects of different years of planting Pennisetum sp. on the plant-and insect diversity in Pennisetum sp. communities[J]. Chinese Journal of Applied Ecology, 2012,23(10):2849.