[1]黄 悦,张风宝,高晶霞,等.基于高能水分特性法的土壤团聚体结构稳定性研究进展[J].水土保持研究,2022,29(06):431-437.
 HUANG Yue,ZHANG Fengbao,GAO Jingxia,et al.Progress in Research on Structural Stability of Soil Aggregates Based on High Energy Moisture Characteristic Method[J].Research of Soil and Water Conservation,2022,29(06):431-437.
点击复制

基于高能水分特性法的土壤团聚体结构稳定性研究进展

参考文献/References:

[1] 卢金伟,李占斌.土壤团聚体研究进展[J].水土保持研究,2002,9(1):81-85.
[2] 王小云.土壤团聚体与土壤侵蚀关系研究进展[J].安徽农业科学,2016,44(23):106-108.
[3] Norton L D, Mamedov A I, Huang C H, et al. Soil aggregate stability as affected by long-term tillage and clay mineralogy[J]. Advances in Geoecology, 2006,38:422-429.
[4] Mamedov A I. Soil water retention and structure stability as affected by water quality[J]. Eurasian Journal of Soil Science, 2014,3:89-94.
[5] Amezketa E. Soil aggregate stability:a review[J]. Journal of Sustainable Agriculture, 1999,14:83-151.
[6] Nciizah A D, Wakindiki I I C. Physical indicators of soil erosion, aggregate stability and erodibility[J]. Archives of Agronomy and Soil Science, 2015,61(6):827-842.
[7] Saygin S D, Cornelis W, Erpul G, et al. Comparison of different aggregate stability approaches for loamy sand soils[J]. Applied Soil Ecology, 2012,54:1-6.
[8] 王进,刘子琦,鲍恩俣,等.喀斯特石漠化区林草恢复对土壤团聚体及其有机碳含量的影响[J].水土保持学报,2019,33(6):249-256.
[9] Le Bissonnais Y. Aggregate stability and assessment of soil crustability and erodibility: I. Theory and methodology[J]. European Journal of Soil Science, 1996,47(4):425-437.
[10] Farres P J. Some observations on the stability of soil aggregates to raindrop impact[J]. Catena, 1980,7(2):223-231.
[11] Almajmaie A, Hardie M, Acuna T, et al. Evaluation of methods for determining soil aggregate stability[J]. Soil & Tillage Research, 2016,167:39-45.
[12] Yoder R E. A direct method of aggregate analysis of soils and a study of the physical nature of erosion losses[J]. Journal of the American Society of Agronomy, 1936,28(5):337-351.
[13] 王秀颖,高晓飞,刘和平,等.土壤水稳性大团聚体测定方法综述[J].中国水土保持科学,2011,9(3):106-113.
[14] Mamedov A I, Wagner L E, Huang C, et al. Polyacrylamide effects on aggregate and structure stability of soils with different clay mineralogy[J]. Soil Science Society of America Journal, 2010,74(5):1720-1732.
[15] Mamedov A I, Levy G J. High energy moisture characteristics: linking between some soil physical processes and structure stability[M]//Logsdon S, Berli M, Horn R. Quantifying and Modeling Soil Structure Dynamics. Soil Science Society of America, Madison, Wi, 2013:41-74.
[16] Levy G J, Mamedov A I, Goldstein D. Sodicity and water quality effects on slaking of aggregates from semi-arid soils[J]. Soil Science, 2003,168(8):552-562.
[17] Mamedov A I, Beckmann S, Huang C H, et al. Aggregate stability as affected by polyacrylamide molecular weight, soil texture, and water quality[J]. Soil Science Society of America Journal, 2007,71(6):1909-1918.
[18] De-Campos A B, Mamedov A I, Huang C H. Short-term reducing conditions decrease soil aggregation[J]. Soil Science Society of America Journal, 2009,73:550-559.
[19] da Silva E A, de Oliveira G C, Silva B M, et al. Aggregate stability by the ‘high energy moisture characteristic' method in an oxisol under differentiated management[J]. Revista Brasileira De Ciencia Do Solo, 2014,38(5):1633-1642.
[20] Gholoubi A, Emami H, Caldwell T G. Deforestation effects on soil aggregate stability quantified by the high energy moisture characteristic method[J]. Geoderma, 2019,355:113919.
[21] Childs E C. The use of moisture characteristics in soil studies[J]. Soil Science, 1940,50(4):239-252.
[22] Collis-George N, Figueroa B. The use of high energy moisture characteristic to assess soil stability[J]. Australian Journal of Soil Research, 1984,22(3):349-356.
[23] Pierson F B, Mulla D J. An improved method for measuring aggregate stability of a weakly aggregated loessial soil[J]. Soil Science Society of America Journal, 1989,53(6):1825-1831.
[24] Levy G J, Mamedov A I. High-energy-moisture-characteristic aggregate stability as a predictor for seal formation[J]. Soil Science Society of America Journal, 2002,66(5):1603-1609.
[25] Poch R M, Antúnez M. Aggregate development and organic matter storage in mediterranean mountain soils[J]. Pedosphere, 2010,20(6):702-710.
[26] Mamedov A I, Bar-Yosef B, Levkovich I, et al. Amending soil with sludge, manure, humic acid, orthophosphate and phytic acid: effects on aggregate stability[J]. Soil Research, 2014,52:317-326.
[27] Hosseini F, Mosaddeghi M R, Hajabbasi M A, et al. Influence of tall fescue endophyte infection on structural stability as quantified by high energy moisture characteristic in a range of soils[J]. Geoderma, 2015,249:87-99.
[28] Childs E C. Stability of clay soils[J]. Soil Science, 1942,53:79-92.
[29] Feng C L, Browning G M. Aggregate stability in relation to pore size distribution1[J]. Soil Science of America Journal, 1947,11:67-73.
[30] van Genuchten Th M. A closed-form equation for predicting the hydraulic conductivity of unsaturated soils[J]. Soil Science Society of America Journal, 1980,44(5):892-898.
[31] Hosseini F, Mosaddeghi M R, Hajabbasi M A, et al. Effects of endophyte-infected and non-infected tall fescue residues on aggregate stability in four texturally different soils[J]. Geoderma, 2017,285:195-205.
[32] 陈义群,董元华.土壤改良剂的研究与应用进展[J].生态环境,2008,17(3):1282-1289.
[33] Mamedov A I, Huang C H, Aliev F A, et al. Aggregate stability and water retention near saturation characteristics as affected by soil texture, aggregate size and polyacrylamide application[J]. Land Degradation & Development, 2017,28(2):543-552.
[34] Mamedov A I, Tsunekawa A, Haregeweyn N, et al. Soil structure stability under different land uses in association with polyacrylamide effects[J]. Sustainability, 2021,13(3):1407.
[35] Mamedov A I, Fujimaki H, Tsunekawa A, et al. Structure stability of acidic luvisols: effects of tillage type and exogenous additives[J]. Soil & Tillage Research, 2021,206:104832.
[36] Saffari N, Hajabbasi M A, Shirani H, et al. Biochar type and pyrolysis temperature effects on soil quality indicators and structural stability[J]. Journal of Environmental Management, 2020,261:110190.
[37] Bearden B N. Influence of arbuscular mycorrhizal fungi on soil structure and soil water characteristics of vertisols[J]. Plant and Soil, 2001,229(2):245-258.
[38] 罗晓虹,王子芳,陆畅,等.土地利用方式对土壤团聚体稳定性和有机碳含量的影响[J].环境科学,2019,40(8):3816-3824.
[39] 赵富王,王宁,苏雪萌,等.黄土丘陵区主要植物根系对土壤有机质和团聚体的影响[J].水土保持学报,2019,33(5):105-113.
[40] Mamedov A I, Tsunekawa A, Tsubo M, et al. Structure stability of cultivated soils from semi-arid region: comparing the effects of land use and anionic polyacrylamide application[J]. Agronomy, 2020,10(12):2010.
[41] Amoli F P, Mosaddeghi M R, Davatgar N, et al. Effects of land use and reducing conditions of paddy fields on soil quality and high energy moisture characteristic structural stability indices in north of Iran[J]. Paddy Water Environment, 2021,19(3):433-451.
[42] Avanzi J C, Norton L D, Naves Silva M L, et al. Aggregate stability in soils cultivated with eucalyptus[J]. Pesquisa Agropecuaria Brasileira, 2011,46(1):89-96.
[43] Kelishadi H, Mosaddeghi M R, Ayoubi S, et al. Effect of temperature on soil structural stability as characterized by high energy moisture characteristic method[J]. Catena, 2018,170:290-304.
[44] Levy G J, Miller W P. Aggregate stabilities of some southeastern U. S. soils[J]. Soil Science Society of America Journal, 1997,61(4):1176-1182.
[45] Mamedov A I, Shainberg I, Levy G J. Irrigation with effluents: effects of prewetting rate and clay content on runoff and soil loss[J]. Journal of Environmental Quality, 2001,30(6):2149-2156.
[46] Mandal U K, Bhardwaj A K, Warrington D N, et al. Changes in soil hydraulic conductivity, runoff, and soil loss due to irrigation with different types of saline-sodic water[J]. Geoderma, 2008,144(3/4):509-516.
[47] Bhardwaj A, Goldstein D, Azenkot A, et al. Irrigation with treated wastewater under two different irrigation methods:effects on hydraulic conductivity of a clay soil[J]. Geoderma, 2007,140:199-206.
[48] Baiamonte G, De Pasquale C, Marsala V, et al. Structure alteration of a sandy-clay soil by biochar amendments[J]. Journal of Soils Sediments, 2015,15(4):816-824.
[49] Baiamonte G, Crescimanno G, Parrino F, et al. Effect of biochar on the physical and structural properties of a sandy soil[J]. Catena, 2019,175:294-303.
[50] Saedi T, Mosaddeghi M R, Sabzalian M R, et al. Effect of epichloe endophyte-tall fescue symbiosis on rhizosphere aggregate stability and quality indicators under oxygen-limited conditions[J]. Geoderma, 2021,381:114624.
[51] Six J, Bossuyt H, Degryze S, et al. A history of research on the link between(micro)aggregates, soil biota, and soil organic matter dynamics[J]. Soil & Tillage Research, 2004,79(1):7-31.
[52] Crescimanno G, Iovino M, Provenzano G. Influence of salinity and sodicity on soil structural and hydraulic characteristics[J]. Soil Science Society of America Journal, 1995,59(6):1701-1708.
[53] Bronick C J, Lal R. Soil structure and management:a review[J]. Geoderma, 2005,124(1/2):3-22.
[54] Bhardwaj A, Mandal U, Bar-Tal A, et al. Replacing saline-sodic irrigation water with treated wastewater: effects on saturated hydraulic conductivity, slaking, and swelling[J]. Irrigation Science, 2008,26:139-146.

相似文献/References:

[1]林绍霞,张清海,张珍明,等.不同垦植模式茶园土壤性状及团聚体特征研究[J].水土保持研究,2012,19(06):45.
 LIN Shao-xia,ZHANG Qing-hai,ZHANG Zhen-ming,et al.Research for Soil Properties and Aggregates in Tea Plantation with Different Planting Patterns[J].Research of Soil and Water Conservation,2012,19(06):45.
[2]韩加强,高晓飞,路炳军,等.水保措施对褐土水稳性大团聚体的影响研究[J].水土保持研究,2012,19(06):50.
 HAN Jia-qiang,GAO Xiao-fei,LU Bing-jun,et al.Research on the Influence of Measures of Soil and Water Conservation on the Water-stable Macroaggregates in Cinnamon Soil[J].Research of Soil and Water Conservation,2012,19(06):50.
[3]黄安,谢贤健,周贵尧,等.内江市微地形条件影响下土壤团聚体稳定性及分形特征[J].水土保持研究,2012,19(06):77.
 HUANG An,XIE Xian-jian,ZHOU Gui-yao,et al.The Soil Aggregates Stability and the Fractal Features as Influenced by Tiny Terrain Conditions in Neijiang City[J].Research of Soil and Water Conservation,2012,19(06):77.
[4]陈媛媛,周运超.灰质白云岩土壤有机碳的团聚体保护[J].水土保持研究,2012,19(06):82.
 CHEN Yuan-yuan,ZHOU Yun-chao.Protection of Soil Organic Carbon in the Calcite Dolomite Aggregate[J].Research of Soil and Water Conservation,2012,19(06):82.
[5]卢金伟,李占斌.土壤团聚体研究进展[J].水土保持研究,2002,9(01):81.
 LU Jin-wei,LI Zhan-bin.Advance in Soil Aggregate Study[J].Research of Soil and Water Conservation,2002,9(06):81.
[6]吕春花,郑粉莉.冰草根系生长发育对土壤团聚体形成和稳定性的影响[J].水土保持研究,2004,11(04):97.
 LU Chun-hua,ZHENG Fen-li.Soil Aggregate Formation and Stability as Effected by Root Growth of Ryegrass[J].Research of Soil and Water Conservation,2004,11(06):97.
[7]林培松,高全洲.不同土地利用方式下紫色土结构特性变化研究[J].水土保持研究,2010,17(04):134.
 LIN Pei-song,GAO Quan-zhou.Study on Changes in Structural Properties of Purple Soils under Different Land Use[J].Research of Soil and Water Conservation,2010,17(06):134.
[8]由政,姚旭,景航,等.不同演替阶段群落根系分布与土壤团聚体特征的协同变化[J].水土保持研究,2016,23(06):20.
 YOU Zheng,YAO Xu,JING Hang,et al.Coordinated Variation Between Root Distributions and Soil Aggregate Characteristics at Different Successional Stages[J].Research of Soil and Water Conservation,2016,23(06):20.
[9]李娟,韩霁昌,陈超,等.山地丘陵区不同土地利用方式对空心村整治还田土壤团聚体特征的影响[J].水土保持研究,2017,24(04):174.
 LI Juan,HAN Jichang,CHEN Chao,et al.Effects of Different Land Use Patterns on Characteristics of Soil Aggregates Under Vacancy Village Renovation in Hilly Areas[J].Research of Soil and Water Conservation,2017,24(06):174.
[10]谢志强,许建林,朱兆龙,等.一种可用于评估土壤团聚体稳定性的超声能量法[J].水土保持研究,2016,23(04):19.
 XIE Zhiqiang,XU Jianlin,ZHU Zhaolong,et al.Application of Ultrasonic Energy for Assessing Aggregate Stability[J].Research of Soil and Water Conservation,2016,23(06):19.

备注/Memo

收稿日期:2021-09-05 修回日期:2021-10-12
资助项目:宁夏回族自治区农业高质量发展和生态保护科技创新示范项目(NGSB-2021-8-05); 国家自然科学基金项目(41877080); 国家自然科学基金青年资助项目(41907054)
第一作者:黄悦(1998—),女(瑶族),广西桂林人,硕士研究生,主要从事土壤侵蚀研究。E-mail:hyue_825@163.com
通信作者:张风宝(1980—),男(回族),宁夏彭阳人,博士,研究员,主要从事坡面土壤侵蚀过程及其环境效应研究。E-mail:fbzhang@nwsuaf.edu.cn

更新日期/Last Update: 2022-10-20