LIU Gang,XU Wen-nian,CAI Chong-fa,et al.Assessment of Soil Erosion Risk Based on Loess Deposition Rate[J].Research of Soil and Water Conservation,2012,19(02):19-21,25.
基于黄土沉积速率的土壤侵蚀危险度评价
- Title:
- Assessment of Soil Erosion Risk Based on Loess Deposition Rate
- 分类号:
- S157.1
- 摘要:
- 土壤侵蚀危险度是评估和预测侵蚀作用破坏土地资源和生态环境危险性的重要指标,也是科学防治水土流失的基础。利用14C测年技术对陕北黄土高原黄土沉积速率进行研究,并通过计算土壤侵蚀模数与黄土沉积速率的比值,对该研究区的土壤侵蚀危险度进行评价。结果表明:洛川县、延长县和横山县采样点的黄土沉积速率分别为0.0179cm/a,0.0153cm/a和0.0213cm/a,土壤侵蚀危险度分别为14.1,43.3和24.8,均远远大于临界危险度值1,因此该地区为水土流失重点防治区域。通过该项研究可以为水土保持治理及规划提供科学参考,并为环境治理决策部门提供理论依据。
- Abstract:
- Soil erosion risk is an important index for evaluation and prediction on risk of land resources and ecological environment which is destroyed by soil erosion,and also a basis for soil and water conservation.Radiocarbon dating method was used to examine loess deposition rate in north Shaanxi Province.And soil erosion risk in this area was assessed by the ratio of soil erosion modulus and loess deposition rate.The results indicated that the loess deposition rate in Luochuan,Yanchang,and Hengshan was 0.0179cm/a,0.0153cm/a,and 0.0213cm/a,respectively.The soil erosion risks were 14.1,43.3,and 24.8,individually,which were much lager than the critical value 1.Thus,the research area was an important region for soil and water conservation.This result could provide scientific references for management and programming of soil and water conservation,and theoretical basis for environmental treatment decision.
参考文献/References:
[1] Meyer L D.Evaluation of the universal soil loss equation[J].Journal of Soil and Water Conservation,1984,39(2):99-104.
[2] Laflen J M,Lwonard J L,Foster G R.WEPP a new generation of erosion prediction technology[J].Journal of Soil and Water Conservation,1991,46(1):34-38.
[3] Branca M,Voltaggio M.Erosion rate in badlands of central Italy: Estimation by radiocaesium isotope ratio from Chernobyl nuclear accident[J].Applied Geochemistry,1993,8(5):437-445.
[4] Darryl E,Granger,James W,et al.Spatially averaged long-time erosion rates measured from in situ-produced cosmogenic nuclides in alluvial sediment[J].The Journal of Geology,1996,104(3):249-257.
[5] 刘刚,刘普灵,杨明义,等.土壤侵蚀危险度评价研究进展[J].中国水土保持科学,2008,6(5):100-105.
[6] Zhu Xianmo,Li Yushan,Peng Xianglin,et al.Soils of the loess region in China[J].Geoderma,1983,29(3):237-255.
[7] 郭兆元.陕西土壤[M].北京:科学出版社,1992.
[8] Brown R H.14C depth profiles as indicators of trends of climate and 14C/12C ratio[J].Radiocarbon,1986,28(2A):350-357.
[9] Trumbore S.Age of soil organic matter and soil respiration: radiocarbon constraints on belowground C dynamics[J].Ecological Applications,2000,10(2):399-411.
[10] Schmitt A,Rodzik J,Zglobicki W,et al.Time and scale of gully erosion in the Jedliczny Dol gully system,south-east Poland[J].Catena,2006,68(2/3):124-132.
[11] Benoit G J,Turekian K K,Benninger L K.Radiocarbon dating of a core from Long Island Sound[J].Estuarine and Coastal Marine Science,1979,9(2):171-180.
[12] Muhs D R.A soil chronosequence on quaternary marine terraces,San Clemente Island,California[J].Geoderma,1982,28(3/4),257-283.
[13] Shen C D,Beer J,Ivy-Ochs S,et al.10Be,14C distribution,and soil production rate in a soil profile of a grassland slope at Heshan Hilly Land,Guangdong[J].Radiocarbon,2004,46(1):445-454.
[14] Kliment’ev A I,Tikhonov V E.Ecohydrological analysis of soil loss tolerance in agrolandscapes[J].Eurasian Soil Science,2001,34(6):673-682.
[15] 陈奇伯.宁南黄土丘陵区坡耕地水土流失对土地生产力影响研究[D].北京:北京林业大学,2001.
相似文献/References:
[1]刘刚,许文年,蔡崇法,等.陕西洛川全新世黑垆土理化特征年龄函数的构建[J].水土保持研究,2012,19(03):24.
LIU Gang,XU Wen-nian,CAI Chong-fa,et al.Construction of Heilu Soil Chronofunction in the Holocene in Luochuan, Shaanxi Province[J].Research of Soil and Water Conservation,2012,19(02):24.
备注/Memo
收稿日期:2011-1-13;改回日期:2011-3-6。
基金项目:湖北省教育厅自然科学研究项目(Q20111207,XD20100595);黄土高原土壤侵蚀与旱地农业国家重点实验室基金(10501-1211);中国博士后科学基金(2011049162);三峡大学基金项目(KJ2009B033)
作者简介:刘刚(1982- ),男,博士,副教授,从事水土保持与生态环境研究。E-mail:extreme0082000@yahoo.com.cn