[1]Diao Erlong,Cao Guangchao,Cao Shengkui,et al.Soil Particle Size and Fractal Characteristics at Different Scales[J].Research of Soil and Water Conservation,2024,31(05):212-220.[doi:10.13869/j.cnki.rswc.2024.05.015]
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Soil Particle Size and Fractal Characteristics at Different Scales

References:
[1]宛倩,王杰,王向涛,等.青藏高原不同草地利用方式对土壤粒径分形特征的影响[J].生态学报,2022,42(5):1716-1726.
Wan Q, Wang J, Wang X T, et al. Effects of different meadow use types on the fractal characteristics of soil particle in the Qinghai-Tibet Plateau[J]. Acta Ecologica Sinica, 2022,42(5):1716-1726.
[2]Qi F, Zhang R H, Liu X, et al. Soil particle size distribution characteristics of different land-use types in the Funiu mountainous region[J]. Soil and Tillage Research, 2018,184:45-51.
[3]刘均阳,周正朝,苏雪萌.植物根系对土壤团聚体形成作用机制研究回顾[J].水土保持学报,2020,34(3):267-273,298.
Liu J Y, Zhou Z C, Su X M. Review of the mechanism of root system on the formation of soil aggregates[J]. Journal of Soil and Water Conservation, 2020,34(3):267-273,298.
[4]Rieu M, Sposito G. Fractal fragmentation, soil porosity, and soil water properties:I. theory[J]. Soil Science Society of America Journal, 1991,55(5):1231-1238.
[5]Tyler S W, Wheatcraft S W. Fractal scaling of soil particle-size distributions:Analysis and limitations[J]. Soil Science Society of America Journal, 1992,56(2):362-369.
[6]Jordão H W C, Campos M C C, da Cunha J M, et al. Fractal features of soil texture and physical attributes in Indian dark earth under different uses in Western Amazon[J]. Bioscience Journal, 2020,36(6):1961-1974.
[7]Bai Y F, Qin Y, Lu X R, et al. Fractal dimension of particle-size distribution and their relationships with alkalinity properties of soils in the western Songnen Plain, China[J]. Scientific Reports, 2020,10(1):20603.
[8]安克俭,魏霞,赵恒策,等.长江源区高寒草原和高寒草甸土壤粒径分布特征[J].应用生态学报,2021,32(2):433-440.
An K J, Wei X, Zhao H C, et al. Distribution characteristics of soil particle size in alpine steppe and alpine meadow in the source region of the Yangtze River, China[J]. Chinese Journal of Applied Ecology, 2021,32(2):433-440.
[9]任建兰,张伟,张晓青,等.基于“尺度”的区域环境管理的几点思考:以中观尺度区域(省域)环境管理为例[J].地理科学,2013,33(6):668-675.
Ren J L, Zhang W, Zhang X Q, et al. Regional environmental management from the scale:A case study of medium scale[J]. Scientia Geographica Sinica, 2013,33(6):668-675.
[10]赵明月,赵文武,刘源鑫.不同尺度下土壤粒径分布特征及其影响因子:以黄土丘陵沟壑区为例[J].生态学报,2015,35(14):4625-4632.
Zhao M Y, Zhao W W, Liu Y X. Comparative analysis of soil particle size distribution and its influence factors in different scales:A case study in the Loess Hilly-gully area[J]. Acta Ecologica Sinica, 2015,35(14):4625-4632.
[11]沙国良,魏天兴,陈宇轩,等.黄土高原丘陵区典型植物群落土壤粒径分布特征[J].干旱区地理,2022,45(4):1224-1234.
Sha G L, Wei T X, Chen Y X, et al. Characteristics of soil particle size distribution of typical plant communities on the hilly areas of Loess Plateau[J]. Arid Land Geography, 2022,45(4):1224-1234.
[12]董智今,展秀丽,丁小花.毛乌素沙地西南缘不同土地利用类型土壤颗粒分形特征[J].水土保持研究,2022,29(3):43-48,56.
Dong Z J, Zhan X L, Ding X H. Fractal features of soil particles under different land uses in the southwestern edge of the Mu Us sandy land[J]. Research of Soil and Water Conservation, 2022,29(3):43-48,56.
[13]苏世锋,李世雄,赵文,等.黑河源区退化草地恢复过程中土壤磷养分及其调控因子[J].草业科学,2022,39(8):1562-1570.
Su S F, Li S X, Zhao W, et al. Study on soil phosphorus nutrient and its regulatory factors during the restoration of degraded grassland in the source region of Heihe River[J]. Pratacultural Science, 2022,39(8):1562-1570.
[14]童珊,曹广超,闫欣,等.祁连山南坡土壤侵蚀定量研究与影响因素分析[J].水土保持研究,2022,29(5):100-107,116.
Tong S, Cao G C, Yan X, et al. Quantitative study on soil erosion and its influencing factors on the south slope of Qilian Mountain[J]. Research of Soil and Water Conservation, 2022,29(5):100-107,116.
[15]任立清,董国涛,谷佳贺,等.黑河上游植被时空分布及驱动力分析[J].水土保持研究,2021,28(4):244-250.
Ren L Q, Dong G T, Gu J H, et al. Spatiotemporal distribution and driving force analysis of vegetation in the upper reaches of Heihe River[J]. Research of Soil and Water Conservation, 2021,28(4):244-250.
[16]鲍士旦.土壤农化分析[M].3版.北京:中国农业出版社,2000.
Bao S D. Soil and agricultural chemistry analysis[M].3rd Ed. Beijing:China Agriculture Press, 2000.
[17]王劲峰,徐成东.地理探测器:原理与展望[J].地理学报,2017,72(1):116-134.
Wang J F, Xu C D. Geodetector:Principle and prospective[J]. Acta Geographica Sinica, 2017,72(1):116-134.
[18]拓飞,董治宝,南维鸽,等.沙地柏人工林和天然林风沙土特性研究[J].水土保持研究,2021,28(2):80-87.
Ta F, Dong Z B, Nan W G, et al. Study on the characteristics of aeolian sandy soils in plantation and natural stand of Sabina vulgaris[J]. Research of Soil and Water Conservation, 2021,28(2):80-87.
[19]李璇,杨帆,李德成,等.祁连山区土壤砂粒含量剖面分布模式及其影响因素[J].土壤学报,2017,54(4):854-863.
Li X, Yang F, Li D C, et al. Mode of profile distribution of soil sand content and its affecting factors in the Qilian Mountains[J]. Acta Pedologica Sinica, 2017,54(4):854-863.
[20]林小兵,张秋梅,周利军,等.不同母质发育及pH的农田土壤重金属含量差异[J].环境生态学,2021,3(1):83-88.
Lin X B, Zhang Q M, Zhou L J, et al. Change of heavy metals in farmland soil from different parent material development and pH[J]. Environmental Ecology, 2021,3(1):83-88.
[21]童珊,曹广超,张卓,等.祁连山南坡土壤侵蚀时空变化及迁移特征分析[J].水土保持研究,2022,29(4):18-27.
Tong S, Cao G C, Zhang Z, et al. Analysis of the spatial and temporal changes and migration characteristics of soil erosion in the south slope of Qilian Mountain[J]. Research of Soil and Water Conservation, 2022,29(4):18-27.
[22]袁杰,曹广超,杨登兴,等.祁连山黑河源区植被NDVI时空变化特征及影响因素分析[J].生态科学,2021,40(5):172-182.
Yuan J, Cao G C, Yang D X, et al. Temporal and spatial variation characteristics and influencing factors of vegetation NDVI in Heihe source region of Qilian Mountains[J]. Ecological Science, 2021,40(5):172-182.
[23]Liu X, Zhang G C, Heathman G C, et al. Fractal features of soil particle-size distribution as affected by plant communities in the forested region of Mountain Yimeng, China[J]. Geoderma, 2009,154(1/2):123-130.
[24]许明祥,刘国彬,赵允格.黄土丘陵区土地利用及环境因子对土壤质量指标变异性的影响[J].应用生态学报,2011,22(2):409-417.
Xu M X, Liu G B, Zhao Y G. Effects of land use and environmental factors on the variability of soil quality indicators in hilly Loess Plateau region of China[J]. Chinese Journal of Applied Ecology, 2011,22(2):409-417.
[25]袁杰,曹广超,曹生奎,等.祁连山南坡不同植被类型枯落物及其土壤持水特性分析[J].生态科学,2018,37(5):180-190.
Yuan J, Cao G C, Cao S K, et al. Analysis on litterfall and soil water retention properties of different vegetation types on the South Slope of Qilian Mountains[J]. Ecological Science, 2018,37(5):180-190.
[26]刘云鹏,王国栋,张社奇,等.陕西4种土壤粒径分布的分形特征研究[J].西北农林科技大学学报:自然科学版,2003,31(2):92-94.
Liu Y P, Wang G D, Zhang S Q, et al. Fractal characteristics of particle-size distribution for four kinds of soil samples in Shaanxi[J]. Journal of Northwest Sci-Tech University of Agriculture and Forestry, 2003,31(2):92-94.
[27]高传友,赵清贺,刘倩.北江干流河岸带不同植被类型土壤粒径分形特征[J].水土保持研究,2016,23(3):37-42.
Gao C Y, Zhao Q H, Liu Q. Fractal characteristic of soil particle size under different vegetation types in riparian zone of the main stream of Beijiang River[J]. Research of Soil and Water Conservation, 2016,23(3):37-42.
[28]王瑞东,高永,党晓宏,等.希拉穆仁天然草地不同群落土壤分形特征及其影响因素[J].水土保持研究,2020,27(3):51-56.
Wang R D, Gao Y, Dang X H, et al. Characteristics of soil fractals and the influencing factors of different plant communities in the XiLamuren grassland[J]. Research of Soil and Water Conservation, 2020,27(3):51-56.
[29]Lobe I, Amelung W, Du Preez C C. Losses of carbon and nitrogen with prolonged arable cropping from sandy soils of the South African Highveld[J]. European Journal of Soil Science, 2010,52(1):93-101.
[30]高洋,王根绪,高永恒.长江源区高寒草地土壤有机质和氮磷含量的分布特征[J].草业科学,2015,32(10):1548-1554.
Gao Y, Wang G X, Gao Y H. Distribution characteristics of soil organic matter and nitrogen, phosphor content in alpine grassland ecosystem in upper Yangtze River[J]. Pratacultural Science, 2015,32(10):1548-1554.
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