黄土丘陵区枣林土壤性质时空特征研究
|
摘要
黄土丘陵区生态环境脆弱,植被生长受到影响,研究区域枣树生态经济林土壤性质的时空特征有助于促进该区域植被生态建设及水土资源高效利用。本文分析了枣树林土壤全氮、有机碳、饱和导水率、容重、土壤含水量等理化性质的时空变异特征,探讨保墒措施对土壤水、热过程和枣树生长的影响,以及枣林与其它植被土壤性质的分布特征和差异,得出以下主要结论:
(1)枣林坡面土壤全氮、全磷、有机碳、电导率、饱和导水率、粘粒和砂粒含量表现为中等变异性。pH、粉粒含量、容重、总孔隙度、毛管孔隙度和饱和含水表现为弱变异性。坡位对枣林坡面土壤全氮、有机碳、pH、容重、总孔隙度、毛管孔隙度、饱和含水量、饱和导水率、粘粒、粉粒、砂粒含量有显著影响(P <0.01),而对全磷和电导率影响不显著。土壤性质的空间分布的半方差模型可以用指数和球形模型来描述,除饱和导水率和粉粒含量外,其它土壤性质均表现出中等空间依赖性。交叉验证表明坡面土壤性质测定值与模拟值差异较小,其克里格空间分布图能精确反映土壤性质空间分布规律。
(2)枣林坡面的表层土壤水分的变异系数基本达到0.1以上,表现出中等变异性,随着土壤含水量的增加,变异系数表现出明显递减的趋势。通过累积概率函数、平均相对偏差和spearman秩相关系数等时间稳定性分析得出,30cm深度土壤含水量的时间稳定性比10cm深度下的好,可以选择研究区域的代表性测点来估计整个区域的平均土壤含水量。
(3)秸秆和砾石覆盖具有保墒和调节温度的作用。秸秆覆盖量越高,保墒效果越好。秸秆覆盖处理的土壤温度日变化幅度小于不覆盖处理,秸秆覆盖能够调节耕层土壤温度,有利于作物生长发育。降雨过程中砾石覆盖处理下的土壤含水量随时间增加的速率明显高于秸秆覆盖处理,说明砾石覆盖比秸秆覆盖更有利于降雨的入渗。砾石覆盖和秸秆覆盖处理的枣果含水量、VC含量、总糖含量和可溶性固形物显著高于不覆盖处理,说明覆盖措施有利于红枣的生长发育。
(4)植被类型对土壤性质有显著影响(P<0.01),全氮和有机碳的大小顺序为:谷子>苜蓿>枣树>柠条,全磷的顺序为:苜蓿>谷子>枣树>柠条。土壤pH值在垂直方向上随深度增加而增大,全氮和有机碳含量均随土层深度增加而逐渐减小,在垂直分布上表现出明显的表聚性特征。不同植被类型土壤粒径分布曲线变化幅度大,表现出明显的非均匀特性。土壤粒径分布的广义维数D(q)为典型反S型递减函数,多重分形谱α-(α)为不对称的上凸曲线。植被类型对土壤粘粒、粉粒、砂粒含量和粘粒域的分维数有极显著影响(P<0.01)。
(5)不同植被类型的土壤含水量均呈现出明显的季节变化特征,其变化趋势与降雨量密切相关,前期降雨量与土壤平均含水量呈显著正相关(R2=0.6198,P<0.01)。谷子地的土壤水分最高,而变异系数最小,说明谷子地的土壤水分较充足且稳定。随着土层深度的增加,不同植被类型的土壤水分表现出先增加后降低的变化趋势。土壤表层0~40cm为土壤水分活跃层,40~160cm为主要的土壤水分利用层,160~200cm为土壤水分调节层。
In the northern loess plateau of china, the growth of vegetation was seriously affectedbecause of the fragile ecological environment. Study on the temporal and spatialcharacteristics of soil properties in the jujube ecological economic forest will help to improvethe ecological construction and water-soil resources high-efficiency utilization. In this study,the temporal and spatial characteristics of soil total nitrogen, organic carbon, saturatedhydraulic conductivity, bulk density, and soil moisture were analyzed, the effects of mulchingtreatment on soil moisture, temperature and the growth of jujube tree were investigated, andthe distributions of soil properties between jujube tree and other different vegetation typeswere researched. The main conclusions of this study were as follows:
(1)The soil total nitrogen, total phosphorus, organic carbon, electrical conductivity,saturated hydraulic conductivity, clay and sand content had moderate variability. The pH, siltcontent, bulk density, total porosity, capillary porosity and saturation moisture content hadlow variability. The effects of slope position on total nitrogen, organic carbon, pH, bulkdensity, total porosity, capillary porosity, saturation moisture content, saturated hydraulicconductivity, clay, silt and sand content were significant (P <0.01). The effects of slopeposition on total phosphorus and electrical conductivity were not significant. Thegeostatistical statistics results showed that the soil properties were defined by the exponentialor spherical models. The nugget to sill ratios indicated that all soil properties had moderatedependences except the saturated hydraulic conductivity and silt content. The results ofcross-validation showed that spatial prediction maps from ordinary kriging method accuratelyreflected the distribution of soil properties in the study slope.
(2)The coefficients of variation of soil moisture were almost more than0.1withmoderate variability. As the increasing of soil moisture, coefficients of variation decreasedobviously. The time stability analysis was used to investigate the soil moisture by cumulativeprobability function, mean relative deviation and spearman rank correlation coefficient. Theresults showed that the soil moisture at30cm depth had higher time stability than at10cm.The soil moisture at representative measuring site could estimate the mean soil moisture ofthe region.
(3)The straw and grave mulching could conserve soil moisture and regulatetemperature,. The impact of conserving moisture would be better as the increasing of strawmulching quantity. The daily changing rate of soil temperature on straw mulching treatmentwas less than the non-mulching treatmeat. The straw mulching could regulate the soiltemperature and favor the growth of plants. In the process of rainfall, the soil moisture on thegrave mulching treatment increased more rapidly than the straw mulching treatment, whichindicated that grave mulching benefit the rainfall infiltration greater than straw mulchingtreatment. The fruit water content, VCcontent, total sugar and soluble solid content on the strawand grave mulching treatment were significantly higher than the non-mulching treatmeat. Theresults showed that the mulching treatmeat was good for the growth and development ofjujube tree.
(4)The soil properties were significantly influenced by vegetation types (P <0.01). Theorder of the soil total nitrogen and organic carbon on different vegetation types was millet>alfalfa> jujube> Caragana Korshinskii Kom. The order of the total phosphorus was alfalfa>millet> jujube> Caragana Korshinskii Kom. As the increasing of the soil depth, the pHshowed the increasing trend, and the soil total nitrogen and total phosphorus showed the downtrend with the surface-aggregated distribution. The soil particle size distribution of vegetationtypes in the study region showed heterogeneous distribution and had multifractal feature. Thegeneralized dimensions spectra q-D(q) were decreasing function with inverted S-lag pattern.The multifractal spectrum functions α-(α) were asymmetrical convex curve. The claycontents, silt contents, sand contents, and dimension of silt domain values were significantlyinfluenced by vegetation types (P <0.01).
(5)The soil moisture on different vegetation types showed the obvious seasonalvariation, which was closely related with the precipitation. There was significantly positiverelationship between the average soil moisture and the preceding quantity of precipitation(R2=0.6198,P <0.01). The soil moisture was highest on millet land with the lowestcoefficient of variation, which indicated that there was sufficient and stable moisture on milletland. The soil moisture on different vegetation types increased firstly, and then decreased withthe increasing of the soil depth. The0~40cm layer was weak absorbing layer for the verticalchange of soil moisture, the40~160cm layer was absorbing layer, and the160~200cm layerwas regulating layer.
(1)枣林坡面土壤全氮、全磷、有机碳、电导率、饱和导水率、粘粒和砂粒含量表现为中等变异性。pH、粉粒含量、容重、总孔隙度、毛管孔隙度和饱和含水表现为弱变异性。坡位对枣林坡面土壤全氮、有机碳、pH、容重、总孔隙度、毛管孔隙度、饱和含水量、饱和导水率、粘粒、粉粒、砂粒含量有显著影响(P <0.01),而对全磷和电导率影响不显著。土壤性质的空间分布的半方差模型可以用指数和球形模型来描述,除饱和导水率和粉粒含量外,其它土壤性质均表现出中等空间依赖性。交叉验证表明坡面土壤性质测定值与模拟值差异较小,其克里格空间分布图能精确反映土壤性质空间分布规律。
(2)枣林坡面的表层土壤水分的变异系数基本达到0.1以上,表现出中等变异性,随着土壤含水量的增加,变异系数表现出明显递减的趋势。通过累积概率函数、平均相对偏差和spearman秩相关系数等时间稳定性分析得出,30cm深度土壤含水量的时间稳定性比10cm深度下的好,可以选择研究区域的代表性测点来估计整个区域的平均土壤含水量。
(3)秸秆和砾石覆盖具有保墒和调节温度的作用。秸秆覆盖量越高,保墒效果越好。秸秆覆盖处理的土壤温度日变化幅度小于不覆盖处理,秸秆覆盖能够调节耕层土壤温度,有利于作物生长发育。降雨过程中砾石覆盖处理下的土壤含水量随时间增加的速率明显高于秸秆覆盖处理,说明砾石覆盖比秸秆覆盖更有利于降雨的入渗。砾石覆盖和秸秆覆盖处理的枣果含水量、VC含量、总糖含量和可溶性固形物显著高于不覆盖处理,说明覆盖措施有利于红枣的生长发育。
(4)植被类型对土壤性质有显著影响(P<0.01),全氮和有机碳的大小顺序为:谷子>苜蓿>枣树>柠条,全磷的顺序为:苜蓿>谷子>枣树>柠条。土壤pH值在垂直方向上随深度增加而增大,全氮和有机碳含量均随土层深度增加而逐渐减小,在垂直分布上表现出明显的表聚性特征。不同植被类型土壤粒径分布曲线变化幅度大,表现出明显的非均匀特性。土壤粒径分布的广义维数D(q)为典型反S型递减函数,多重分形谱α-(α)为不对称的上凸曲线。植被类型对土壤粘粒、粉粒、砂粒含量和粘粒域的分维数有极显著影响(P<0.01)。
(5)不同植被类型的土壤含水量均呈现出明显的季节变化特征,其变化趋势与降雨量密切相关,前期降雨量与土壤平均含水量呈显著正相关(R2=0.6198,P<0.01)。谷子地的土壤水分最高,而变异系数最小,说明谷子地的土壤水分较充足且稳定。随着土层深度的增加,不同植被类型的土壤水分表现出先增加后降低的变化趋势。土壤表层0~40cm为土壤水分活跃层,40~160cm为主要的土壤水分利用层,160~200cm为土壤水分调节层。
In the northern loess plateau of china, the growth of vegetation was seriously affectedbecause of the fragile ecological environment. Study on the temporal and spatialcharacteristics of soil properties in the jujube ecological economic forest will help to improvethe ecological construction and water-soil resources high-efficiency utilization. In this study,the temporal and spatial characteristics of soil total nitrogen, organic carbon, saturatedhydraulic conductivity, bulk density, and soil moisture were analyzed, the effects of mulchingtreatment on soil moisture, temperature and the growth of jujube tree were investigated, andthe distributions of soil properties between jujube tree and other different vegetation typeswere researched. The main conclusions of this study were as follows:
(1)The soil total nitrogen, total phosphorus, organic carbon, electrical conductivity,saturated hydraulic conductivity, clay and sand content had moderate variability. The pH, siltcontent, bulk density, total porosity, capillary porosity and saturation moisture content hadlow variability. The effects of slope position on total nitrogen, organic carbon, pH, bulkdensity, total porosity, capillary porosity, saturation moisture content, saturated hydraulicconductivity, clay, silt and sand content were significant (P <0.01). The effects of slopeposition on total phosphorus and electrical conductivity were not significant. Thegeostatistical statistics results showed that the soil properties were defined by the exponentialor spherical models. The nugget to sill ratios indicated that all soil properties had moderatedependences except the saturated hydraulic conductivity and silt content. The results ofcross-validation showed that spatial prediction maps from ordinary kriging method accuratelyreflected the distribution of soil properties in the study slope.
(2)The coefficients of variation of soil moisture were almost more than0.1withmoderate variability. As the increasing of soil moisture, coefficients of variation decreasedobviously. The time stability analysis was used to investigate the soil moisture by cumulativeprobability function, mean relative deviation and spearman rank correlation coefficient. Theresults showed that the soil moisture at30cm depth had higher time stability than at10cm.The soil moisture at representative measuring site could estimate the mean soil moisture ofthe region.
(3)The straw and grave mulching could conserve soil moisture and regulatetemperature,. The impact of conserving moisture would be better as the increasing of strawmulching quantity. The daily changing rate of soil temperature on straw mulching treatmentwas less than the non-mulching treatmeat. The straw mulching could regulate the soiltemperature and favor the growth of plants. In the process of rainfall, the soil moisture on thegrave mulching treatment increased more rapidly than the straw mulching treatment, whichindicated that grave mulching benefit the rainfall infiltration greater than straw mulchingtreatment. The fruit water content, VCcontent, total sugar and soluble solid content on the strawand grave mulching treatment were significantly higher than the non-mulching treatmeat. Theresults showed that the mulching treatmeat was good for the growth and development ofjujube tree.
(4)The soil properties were significantly influenced by vegetation types (P <0.01). Theorder of the soil total nitrogen and organic carbon on different vegetation types was millet>alfalfa> jujube> Caragana Korshinskii Kom. The order of the total phosphorus was alfalfa>millet> jujube> Caragana Korshinskii Kom. As the increasing of the soil depth, the pHshowed the increasing trend, and the soil total nitrogen and total phosphorus showed the downtrend with the surface-aggregated distribution. The soil particle size distribution of vegetationtypes in the study region showed heterogeneous distribution and had multifractal feature. Thegeneralized dimensions spectra q-D(q) were decreasing function with inverted S-lag pattern.The multifractal spectrum functions α-(α) were asymmetrical convex curve. The claycontents, silt contents, sand contents, and dimension of silt domain values were significantlyinfluenced by vegetation types (P <0.01).
(5)The soil moisture on different vegetation types showed the obvious seasonalvariation, which was closely related with the precipitation. There was significantly positiverelationship between the average soil moisture and the preceding quantity of precipitation(R2=0.6198,P <0.01). The soil moisture was highest on millet land with the lowestcoefficient of variation, which indicated that there was sufficient and stable moisture on milletland. The soil moisture on different vegetation types increased firstly, and then decreased withthe increasing of the soil depth. The0~40cm layer was weak absorbing layer for the verticalchange of soil moisture, the40~160cm layer was absorbing layer, and the160~200cm layerwas regulating layer.
引文
白一茹,邵明安,2009.黄土高原水蚀风蚀交错带不同土地利用方式坡面土壤水分特性研究.干旱地区农业研究,27(1),122~129.
白一茹,邵明安,2011.黄土高原雨养区坡面土壤蓄水量时间稳定性.农业工程学报,27(7),45-50.
曹建生,张万军,刘昌明,杨永辉,2007.石子和秸秆覆盖条件下降雨水量转化特征试验研究.水利学报,38(3),378-382.
查轩,黄少燕,2001.植被破坏对黄土高原加速侵蚀及土壤退化过程的影响.山地学报,19(2),109-114.
常庆瑞,安韶山,刘京,文治国,2003.陕北农牧交错带土地荒漠化本质特性研究.土壤学报,40(4),518-523.
陈百明,1997.试论中国土地利用和土地覆被变化及其人类驱动力研究.自然资源,(2),31-36.
陈浮,濮励杰,彭补拙,包浩生,2001.新疆库尔勒市土地利用变化对土壤性状的影响研究.生态学报,21(8),1290~1295.
陈洪松,邵明安,王克林,2006.土壤初始含水率对坡面降雨入渗及土壤水分再分布的影响.农业工程学报,22(1),44~47.
陈健,王忠义,李良涛,张克锋,宇振荣,2008.基于比较优势分析法的冬小麦产量差异.应用生态学报,19(9),1971-1976.
陈士辉,谢忠奎,王亚军,魏兴琥,2005.砂田西瓜不同粒径砂砾石覆盖的水分效应研究.中国沙漠,25(3),433-436.
陈素英,张喜英,裴冬,孙宏勇,2004.秸秆覆盖对夏玉米田棵间蒸发和土壤温度的影响灌溉排水学报,23(4),32~36.
陈素英,张喜英,裴冬,孙宏勇,2005.玉米秸秆覆盖对麦田土壤温度和土壤蒸发的影响.农业工程学报,21(010),171-173.
陈文波,郑蕉,鄢帮有,2007.鄱阳湖区土地利用景观格局特征研究.农业工程学报,23(4),79-83.
董莉丽,郑粉莉,2009.陕北黄土丘陵沟壑区土壤粒径分形特征.中国水土保持科学,7(2),35-41.
杜鹏飞,姜洪涛,袁小宇,2009.北方农牧交错带不同土地利用方式下表层土壤含水量对比研究.干旱区资源与环境,23(009),118-122.
方静,丁永建,2009.荒漠绿洲边缘不同粒径砂砾凝结水量.生态学杂志,28(6),1102-1106.
符淙斌,董文杰,温刚,叶笃正,2003.全球变化的区域响应和适应.气象学报,61(002),245-250.
符素华,路炳军,叶芝菡,2010.地表砾石对降雨径流及土壤侵蚀的影响.水土保持学报,(2),15-18.
傅伯杰,陈利顶,马克明,1999.黄土丘陵区小流域土地利用变化对生态环境的影响——以延安市羊圈沟流域为例.地理学报,54(03),241~246.
高茂盛,温晓霞,黄灵丹,廖允成,刘根全,2010.耕作和秸秆覆盖对苹果园土壤水分及养分的.自然资源学报,25(4),547~555.
巩杰,陈利顶,傅伯杰,李延梅,黄志霖,黄奕龙,彭鸿嘉,2005.黄土丘陵区小流域土地利用
和植被恢复对土壤质量的影响.应用生态学报,15(12),2292-2296.
谷博轩,梁鹏锋,彭红涛,霍金东,蒋志云,汤加,2011.砂田降雨入渗过程的模拟实验研究.中国农学通报,27(32),281-286.
关红杰,冯浩,吴普特,2008.土壤砂砾覆盖对入渗和蒸发影响研究进展.中国农学通报,24(12),289-193.
管孝艳,杨培岭,吕烨,2011.基于多重分形的土壤粒径分布与土壤物理特性关系.农业机械学报,42(3),44-50.
管孝艳,杨培岭,任树梅,李仙岳,吕烨,2009.基于多重分形理论的壤土粒径分布非均匀性分析.应用基础与工程科学学报,17(2),196~205.
郭军玲,吴士文,金辉,卢升高,2010.农田土壤微量元素含量的空间变异特征和影响因素.水土保持学报,24(1),145-149.
郭正刚,张自和,肖金玉,侯扶江,陆妮,2002.黄土高原丘陵沟壑区紫花苜蓿品种间根系发育能力的初步研究.应用生态学报,13(08),1007~1012.
何婷婷,汪有科,张陆军,赵颖娜,2010.黄土高原坡地枣树林龄和坡向对叶面积指数的影响.果树学报,27(2),293-298.
侯扶江,肖金玉,南志标,2002.黄土高原退耕地的生态恢复.应用生态学报,13(8),923–929.
胡实,谢小立,王凯荣,2009.覆被对桔园旱季土壤水分变化和利用的影响.生态学报,29(2),976-983.
胡伟,邵明安,王全九,2005.黄土高原退耕坡地土壤水分空间变异的尺度性研究.农业工程学报,21(8),11~16.
黄刚,赵学勇,黄迎新,苏延桂,2009.科尔沁沙地不同地形小叶锦鸡儿灌丛土壤水分动态.应用生态学报,20(003),555-561.
黄冠华,张宏宾,叶自桐,2003.水力传导度空间变异性的分形模拟研究进展.水科学进展,14(2),236~240.
黄金辉,廖允成,高茂盛,殷瑞敬,2009.耕作和覆盖对黄土高原果园土壤水分和温度的影响.应用生态学报,20(11),2652-2658.
黄文芳,2011.农业化肥污染的政策成因及对策分析.生态环境学报,20(1),193-198.
黄元仿,周志宇,苑小勇,2004.干旱荒漠区土壤有机质空间变异特征.生态学报,24(12),2776-2781.
黄志霖,傅伯杰,陈利顶,黄奕龙,吴祥林,2004.黄土丘陵沟壑区不同退耕类型径流,侵蚀效应及其时间变化特征.水土保持学报,18(4),37-41.
贾恒义,彭琳,彭祥林,余存祖,1994.黄土高原地区土壤养分资源分区及其评价.水土保持学报,8(03),22~28.
贾晓红,李新荣,李元寿,2007.干旱沙区植被恢复过程中土壤颗粒分形特征.地理研究,26(3),518~524.
蒋志云,彭红涛,方唐福,姚新宇,霍金东,2010.砾石覆盖层截留降雨的模拟实验研究.中国农学通报,26(18),410-414.
李广,黄高宝,2009.雨强和土地利用方式对黄土丘陵区水土流失的影响.农业工程学报,25(11),85~90.
李家洋,陈泮勤,葛全胜,方修琦,2005.全球变化与人类活动的相互作用.地球科学进展,20(4),371-377.
李玲玲,黄高宝,张仁陟,晋小军,2005.免耕秸秆覆盖对旱作农田土壤水分的影响.水土保持学报,19(6),94~96.
李明悦,朱静华,廉晓娟,高伟,高贤彪,2010.基于gis的葡萄园土壤养分管理及平衡施肥研究.中国农学通报,26(3),202-205.
李鹏,李占斌,郑良勇,2004.植被恢复演替初期对模拟降雨产流特征的影响ξ.水土保持学报,18(1).
李晓东,魏龙,张永超,郭丁,李旭东,傅华,2009.土地利用方式对陇中黄土高原土壤理化性状的影响.草业学报,18(04),103~110.
李玉鹏,贾志宽,杨保平,王昕,2010.秸秆覆盖量对半干旱区旱作春玉米生长及水分利用效率的影响.灌溉排水学报,29(1),117~120.
李裕元,邵明安,陈洪松,霍竹,郑纪勇,2010.水蚀风蚀交错带植被恢复对土壤物理性质的影响.生态学报,(16),4306-4316.
李志,刘文兆,王秋贤,2008.黄土塬区不同地形部位和土地利用方式对土壤物理性质的影响.应用生态学报,19(6),1303-1308.
梁银丽,张成娥,郭东伟,2001.黄土高原区农田覆盖效应与前景分析. Chinese Journal of Eco—Agriculture,9(1).
刘鸽,赵文智,何志斌,张立杰,2008.祁连山浅山区不同植被类型土壤水分时间异质性.
刘纪远,张增祥,庄大方,王一谋,周万村,张树文,李仁东,江南,吴世新,2003.20世纪90年代中国土地利用变化时空特征及其成因分析.地理研究,22(01),1~12.
刘继龙,马孝义,张振华,2010.不同土层土壤水分特征曲线的空间变异及其影响因素.农业机械学报,41(1).
刘建立,徐绍辉,刘慧,2003.确定田间土壤水力传导率的分形方法.水科学进展,14(4),464~469.
刘举,常庆瑞,张俊华,陈涛,贾科利,2005.黄土高原不同林地植被对土壤肥力的影响.西北农林科技大学学报:自然科学版,32(B11),111-115.
刘曙光,1991.中子探测仪在林地土壤水分研究中的应用.中国水土保持,(010),43-46.
刘婷,贾志宽,张睿,郑甲成,任世春,杨宝平,聂俊峰,刘艳红,王海霞,2010.秸秆覆盖对旱地土壤水分及冬小麦水分利用效率的影响.西北农林科技大学学报(自然科学版),38(7),69~76.
刘杨,孙志梅,杨军,刘霞,王小敏,刘树庆,王文江,2010.京东板栗主产区土壤氮磷钾的空间变异.应用生态学报,21(4),901-907.
吕国安,陈明亮,王春潮,2000.丹江口库区石渣土土壤水分特性研究.华中农业大学学报,19(4),342-345
马东豪,2009.黄土区土石混合介质水分运动试验研究及数值模拟[博士学位论文].中国科学院地理科学与资源研究所,北京.
马国飞,张晓煜,张磊,曹宁,张学艺,2011.宁夏压砂地土壤水分动态及消耗规律分析.宁夏农林科技,52(1),4-7.
孟庆华,杨林章,2000.三峡库区不同土地利用方式的养分流失研究.生态学报,20(6),1028~1033.
牛新胜,牛灵安,张宏彦,范聚芳,郝晋珉,马永良,2008.玉米秸秆覆盖免耕对土壤呼吸的影响.生态环境,17(1),256-260.
牛伊宁,沈禹颖,高崇岳,CHAN K.Y.,南志标,2006.覆盖和耕作对黄土高原冬小麦土壤入渗特性的影响.山地学报,24(001),13-18.
彭文英,张科利,陈瑶,杨勤科,2005.黄土坡耕地退耕还林后土壤性质变化研究.自然资源学报,20(2).
邱莉萍,张兴昌,2006.子午岭不同土地利用方式对土壤性质的影响.自然资源学报,21(06),965~972.
邱扬,傅伯杰,2002.黄土丘陵小流域土壤物理性质的空间变异.地理学报,57(005),587-594.
邱扬,傅伯杰,王军,陈利顶,2000.黄土丘陵小流域土壤水分时空分异与环境关系的数量分析.生态学报,20(5),741-747.
邱扬,傅伯杰,王军,陈利顶,2004.黄土高原小流域土壤养分的时空变异及其影响因子.自然科学进展,14(3),294~299.
冉有华,李新,王维真,晋锐,2009.黑河流域临泽盐碱化草地网格尺度多层土壤水分时空稳定性分析.地球科学进展,24(7),817-824.
时忠杰,王彦辉,于澎涛,徐丽宏,熊伟,郭浩,2008.六盘山森林土壤中的砾石对渗透性和蒸发的影响.生态学报,28(12),6090-6098.
宋孝玉,李亚娟,李怀有,沈冰,2009.不同地貌类型及土地利用方式下土壤粒径的分形特征.西北农林科技大学学报,37(9),155~160.
苏衍涛,王凯荣,刘迎新,谢小立,2008.稻草覆盖对红壤旱地土壤温度和水分的调控效应.农业环境科学学报,27(2),670-676.
苏永中,赵哈林,2004.科尔沁沙地农田沙漠化演变中土壤颗粒分形特征.生态学报,24(1),71~73.
孙小花,张仁陟,蔡立群,陈强强,2009.不同耕作措施对黄土高原旱地土壤呼吸的影响.应用生态学报,20(9),2173-2180.
孙悦超,麻硕士,陈智,赵永来,苏洁,冬梅,2010.砾石覆盖对抑制旱作农田土壤风蚀效果的风洞模拟.农业工程学报,26(11).
唐克丽,西安地质学院研究员,中国科学院,黄土高原综合科学考察队,1991.黄土高原地区土壤侵蚀区域特征及其治理途径.中国科学技术出版社.
汪汇海,沙丽清,杨效东,2006.稻秸覆盖对有机茶园土壤生态环境影响的研究.中国生态农业学报,14(4),65-67.
王瑷玲,赵庚星,王庆芳,刘文鹏,2011.丘陵区土地整理对土壤理化性状的影响.农业工程学报,9.
王德,傅伯杰,陈利顶,赵文武,汪亚峰,2007.不同土地利用类型下土壤粒径分形分析.生态学报,27(7).
王富,贾志军,董智,李红丽,甄宝艳,孙明高,张卫平,2009.不同生态修复措施下水库水源涵养区土壤粒径分布的分形特征.水土保持学报,23(5),113~117.
王国梁,刘国彬,党小虎,2009.黄土丘陵区不同土地利用方式对土壤含水率的影响.农业工程学报,(02).
王国梁,周生路,赵其国,2005.土壤颗粒的体积分形维数及其在土地利用中的应用.土壤学报,42(004),545-550.
王慧芳,邵明安,2009.田间含碎石土壤水分入渗及再分布试验研究.水土保持学报,23(5),81-86.
王建国,樊军,王全九,王力,2011.黄土高原水蚀风蚀交错区植被地上生物量及其影响因素.Chinese Journal of Applied Ecology,22(3),556-564.
王军,傅伯杰,2000.黄土丘陵小流域土壤水分的时空变异特征:半变异函数.地理学报,55(004),428-438.
王康,张仁铎,2004.基于连续分形理论的土壤非饱和水力传导度的研究.水科学进展,15(2),206~210.
王丽学,李宝筏,刘洪禄,2002.农田覆盖技术及相关理论的发展现状与展望.中国农村水利水电,1,33-35.
王润元,杨兴国,张九林,王德民,梁东升,张立功,2007.陇东黄土高原土壤储水量与蒸发和气候研究.地球科学进展,22(6),625-635.
王玉宽,朱波,高美容,2004.小流域土壤水分空间分异特征及时稳性分析.山地学报,22(001),116-120.
王兆伟,郝卫平,龚道枝,梅旭荣,王春堂,2010.秸秆覆盖量对农田土壤水分和温度动态的影响.中国农业气象,31(2),244-250.
王政权,王庆成,2000.森林土壤物理性质的空间异质性研究.生态学报,20(6),945-950.
魏孝荣,邵明安,2007.黄土高原沟壑区小流域坡地土壤养分分布特征.生态学报,27(02),603~612.
温仲明,焦峰,刘宝元,卜耀军,焦菊英,2005.黄土高原森林草原区退耕地植被自然恢复与土壤养分变化.应用生态学报,16(11),2025~2029.
吴钦孝,杨文治,1998.黄土高原植被建设与可持续发展.科学出版社,北京.
徐绍辉,刘建立,2003.估计不同质地土壤水分特征曲线的分形方法.水利学报,1,78~81.
薛萐,刘国彬,戴全厚,党小虎,周萍,2007.不同植被恢复模式对黄土丘陵区侵蚀土壤微生物量的影响.自然资源学报,22(1).
薛萐,刘国彬,张超,樊良心,2011.黄土高原丘陵区坡改梯后的土壤质量效应.农业工程学报,27(4),310-316.
杨东,刘强,2011.基于gis和地统计学的张掖市甘州区土壤全氮、有机质的空间变异特征分析.土壤通报,42(3),593-597.
杨培岭,罗远培,石元春,1993.用粒径的重量分布表征的土壤分形特征.科学通报,38(20),1896-1899.
杨新民,杨文治,马玉玺,1994.纸坊沟流域人工刺槐林生长状况与土壤水分条件研究.水土保持研究,1(3),31-36.
杨永辉,武继承,吴普特,赵世伟,何方,史福刚,2009.秸秆覆盖与保水剂对土壤结构、蒸发及入渗过程的作用机制.中国水土保持科学,7(5),70~75.
尹锴,崔胜辉,赵千钧,花利忠,石龙宇,吝涛,2009.基于冗余分析的城市森林林下层植物多样性预测.生态学报,29(011),6085-6094.
于舜章,陈雨海,周勋波,李全起,罗毅,于强,2004.冬小麦期覆盖秸秆对夏玉米土壤水分动态变化及产量的影响.水土保持学报,18(6),175~179.
于晓蕾,2007.冬小麦秸秆覆盖保墒灌溉效应研究[硕士论文].西北农林科技大学,杨凌.
余新晓,张晓明,牛丽丽,岳永杰,武思宏,张满良,2009.黄土高原流域土地利用/覆被动态演变及驱动力分析.农业工程学报,25(07),219~225.
余云飞,许学宏,高芹,袁斌,2006.土壤水分空间分布及时间稳定性的探讨.农业环境与发展,23(3),89-92.
员学锋,吴普特,汪有科,徐福利,2006.免耕条件下秸秆覆盖保墒灌溉的土壤水、热及作物效应研究.农业工程学报,22(7),22~26.
袁亚宏,高振鹏,史亚歌,2002.我国红枣的产业化开发.西北农林科技大学学报,30(Z1),95-98.
原翠萍,张心平,雷廷武,刘汗,李鑫,2008.砂石覆盖粒径对土壤蒸发的影响.农业工程学报,24(7),25-28.
张电学,韩志卿,王秋兵,陈洪斌,常连生,于玉桥,刘东强,王介元,2007.长期不同施肥制度下土壤有机质质量动态变化规律.土壤通报,38(2),251~255.
张国盛,黄高宝,张仁陟,黄鹏,晋小军,李玲玲,2003.种植苜蓿对黄绵土表土理化性质的影响.草业学报,12(05),88~93.
张继光,陈洪松,苏以荣,张伟,孔祥丽,2008.喀斯特山区洼地表层土壤水分的时空变异.生态学报,28(012),6334-6343.
张社奇,王国栋,时新玲,2005.黄土高原油松人工林地土壤水分物理性质研究.干旱地区农业研究,23(1),60-64.
张伟,汪春,梁远,李玉清,2006.残茬覆盖对寒地旱作区土壤温度的影响.农业工程学报,22(005),70-73.
张晓明,余新晓,武思宏,张满良,李建劳,2007.黄土丘陵沟壑区典型流域土地利用/土地覆被变化水文动态响应.生态学报,27(02),414~423.
赵爱辉,黄明斌,史竹叶,2008.农业工程学报.土壤颗粒分布参数模型对黄土性土壤的适应性研究,24(1),1~6.
赵春江,薛绪掌,王秀,陈立平,潘瑜春,孟志军,2003.精准农业技术体系的研究进展与展望.农业工程学报,19(4),7-12.
赵凤霞,温晓霞,杜世平等,2005.渭北地区残茬(秸秆)覆盖农田生态效应及应用技术实例.干旱地区农业研究,23(3),90-95.
周莉,李保国,周广胜,2005.土壤有机碳的主导影响因子及其研究进展.地球科学进展,20(01),99~105.
周炜星,吴韬,2000.多重分形奇异谱的几何特性: Ⅱ.配分函数法.华东理工大学学报:自然科学版,26(4),390-395.
周忠学,2007.陕北黄土高原土地利用变化与社会经济发展关系及效应评价.陕西师范大学,.
朱伟,谢三桃,阮爱东,卞勋文,2008.碎石覆盖对河流硬质护坡土壤抗侵蚀性及植物生长的影响.应用生态学报,19(3),634-640.
朱显谟,1989.黄土高原土壤与农业.农业出版社.
朱元骏,2007.黄土区土石混合介质中水分运动及有效性研究.中国科学院地理科学与资源研究所,北京.
Aggelopoulou K.,Pateras D.,Fountas S.,Gemtos T.,Nanos G.,2011. Soil spatial variability andsite-specific fertilization maps in an apple orchard. Precision Agriculture,12(1),118-129.
Bai Y.R.,Wang Y.K.,2011. Spatial variability of soil chemical properties in a jujube slope on the loessplateau of china. Soil Science,176(10),550-558.
Batjes N.H.,1996. Total carbon and nitrogen in the soils of the world. European Journal of SoilScience,47(2),151-163.
Bi H.,Li X.,Liu X.,Guo M.,Li J.,2009. A case study of spatial heterogeneity of soil moisture in theloess plateau, western china: A geostatistical approach. International Journal of Sediment Research,24,63~73.
Bittelli M.C., Flury G.S.,1999. Characterization of particle-size distribution in soils with afragmentation model. Soil Science Society of America Journal,63(4),782.
Boekhold A.E., Vanderzee S.E.A.T.M.,1992. Significance of soil chemical heterogeneity forspatial-behavior of cadmium in field soils. Soil Science Society of America Journal,56(3),747-754.
Brocca L.,Melone F.,Moramarco T.,Morbidelli R.,2009. Soil moisture temporal stability overexperimental areas in central italy. Geoderma,148(3-4),364-374.
Burrough P.,1981. Fractal dimensions of landscapes and other environmental data. Nature,294,240-242.
Burrough P.,1983. Multiscale sources of spatial variation in soil. I. The application of fractal conceptsto nested levels of soil variation. European Journal of Soil Science,34,577-597.
Cambardella C.A.,Moorman T.B.,Novak J.M.,Parkin T.B.,Karlen D.L.,Turco R.F.,Konopka A.E.,1994. Field-scale variability of soil properties in central iowa soils. Soil Science Society of AmericaJournal,58(5),1501-1511.
Cava D.,Katul G.G.,2008. Spectral short-circuiting and wake production within the canopy trunkspace of an alpine hardwood forest. Boundary-Layer Meteorology,126(3),415-431.
Changere A.,Lal R.,1997. Slope position and erosional effects on soil properties and corn productionon a miamian soil in central ohio. Journal of Sustainable Agriculture,11(1),5-21.
Chen L.D.,Gong J.,Fu B.J.,Huang Z.L.,Huang Y.L.,Gui L.D.,2007a. Effect of land use conversionon soil organic carbon sequestration in the loess hilly area, loess plateau of china. Ecological Research,22(4),641-648.
Chen L.D.,Wei W.,Fu B.J.,Lu Y.H.,2007b. Soil and water conservation on the loess plateau in china:Review and perspective. Progress in Physical Geography,31(4),389-403.
Chien Y.J.,Lee D.Y.,Guo H.Y.,Houng K.H.,1997. Geostatistical analysis of soil properties ofmid-west taiwan soils. Soil Science,162(4),291-298.
Chuluun T.,Ojima D.,2002. Land use change and carbon cycle in and and semi-arid lands of east andcentral asia. Science in China (Series C),45(10),48~54.
Cosh M.H.,Jackson T.J.,Bindlish R.,Prueger J.H.,2004. Watershed scale temporal and spatialstability of soil moisture and its role in validating satellite estimates. Remote Sensing of Environment,92(4),427-435.
Cosh M.H.,Jackson T.J.,Moran S.,Bindlish R.,2008. Temporal persistence and stability of surfacesoil moisture in a semi-arid watershed. Remote Sensing of Environment,112(2),304-313.
Cui N.B.,Du T.S.,Kang S.Z.,Li F.S.,Zhang J.H.,Wang M.X.,Li Z.J.,2008. Regulated deficitirrigation improved fruit quality and water use efficiency of pear-jujube trees. Agricultural WaterManagement,95(4),489-497.
Duffera M.,White J.G.,Weisz R.,2007. Spatial variability of southeastern u.S. Coastal plain soilphysical properties: Implications for site-specific management. Geoderma,137(3-4),327-339.
Ebeid M.M.,Lal R.,Hall G.F.,Miller E.,1995. Erosion effects on soil properties and soybean yieldof a miamian soil in western ohio in a season with below normal rainfall. Soil Technology,8(2),97-108.
Epstein E.G.,Struchtemeyer W.J.,1966. Effects of stones on runoff, erosion, and soil moisture. SoilScience Society of America Journal,30(5),638-640.
Ersahin S.,Brohi A.R.,2006. Spatial variation of soil water content in topsoil and subsoil of a typicustifluvent. Agricultural Water Management,83(1-2),79-86.
Evertsz C.J.G.,Mandelbrot B.B.,1992. Multifractal measures (appendix b). Springler-Verlag,NewYork
Famiglietti J.,Rudnicki J.,Rodell M.,1998. Variability in surface moisture content along a hillslopetransect: Rattlesnake hill, texas. Journal of Hydrology,210(1-4),259-281.
Ferguson R.B.,Hergert G.W.,Schepers J.S.,Gotway C.A.,Cahoon J.E.,Peterson T.A.,2002.Site-specific nitrogen management of irrigated maize: Yield and soil residual nitrate effects. Soil ScienceSociety of America Journal,66(2),544-553.
Fu B.,Chen L.,2000. Agricultural landscape spatial pattern analysis in the semi-arid hill area of theloess plateau, china. Journal of Arid Environments,44(3),291-303.
Fu B.J.,Wang J.,Chen L.D.,Qiu Y.,2003. The effects of land use on soil moisture variation in the
danangou catchment of the loess plateau, china. Catena,54(1-2),197-213.
Fu W.J.,Tunney H.,Zhang C.S.,2010a. Spatial variation of soil nutrients in a dairy farm and its
implications for site-specific fertilizer application. Soil&Tillage Research,106(2),185-193.Fu X.L.,Shao M.A.,Wei X.R.,Horton R.,2010b. Soil organic carbon and total nitrogen as affected
by vegetation types in northern loess plateau of china. Geoderma,155(1-2),31-35.Gallardo A.,Parama R.,2007. Spatial variability of soil elements in two plant communities of nwspain. Geoderma,139(1-2),199-208.
Goovaerts P.,1998. Geostatistical tools for characterizing the spatial variability of microbiological and
physico-chemical soil properties. Biology and Fertility of Soils,27(4),315-334.
Goovaerts P.,1999. Geostatistics in soil science: State-of-the-art and perspectives. Geoderma,89(1-2),1-45.
Goovaerts P.,Chiang C.N.,1993. Temporal persistence of spatial patterns for mineralizable nitrogen
and selected soil properties. Soil Science Society of America Journal,57.
Govers G.,Vandaele K.,Desmet P.,Poesen J.,Bunte K.,1994. The role of tillage in soil redistribution
on hillslopes. European Journal of Soil Science,45(4),469-478.
Grant L.,Seyfried M.,McNamara J.,2004. Spatial variation and temporal stability of soil water in a
snow‐dominated, mountain catchment. Hydrological Processes,18(18),3493-3511.
Grout H.,Tarquis A.M.,Wiesner M.R.,1998. Multifractal analysis of particle size distributions in soil.Environmental Science&Technology,32(9),1176-1182.
Guo D.,Mou P.,Jones R.H.,Mitchell R.J.,2002. Temporal changes in spatial patterns of soil moisture
following disturbance: An experimental approach. Journal of Ecology,90(2),338-347.Guo L.B.,Gifford R.M.,2002. Soil carbon stocks and land use change: A meta analysis. Global
Change Biology,8(4),345-360.
Han F.P.,Hu W.,Zheng J.Y.,Du F.,Zhang X.C.,2010. Estimating soil organic carbon storage and
distribution in a catchment of loess plateau, china. Geoderma,154(3-4),261-266.
Hao H.M.,Ren Z.Y.,2009. Land use/land cover change (lucc) and eco-environment response to luccin farming-pastoral zone, china. Agricultural Sciences in China,8(1),91-97.
Hu W.,Shao M.A.,Wang Q.J.,Reichardt K.,2009. Time stability of soil water storage measured byneutron probe and the effects of calibration procedures in a small watershed. Catena,79(1),72-82.
Iqbal J.,Thomasson J.A.,Jenkins J.N.,Owens P.R.,Whisler F.D.,2005. Spatial variability analysis
of soil physical properties of alluvial soils. Soil Science Society of America Journal,69(4),1338-1350.
Isaaks E.H.,Srivastava R.M.,1990. An introduction to applied geostatistics. Oxford University Press,USA.
Jacobs J.M.,Mohanty B.P.,Hsu E.C.,Miller D.,2004. Smex02: Field scale variability, time stability
and similarity of soil moisture. Remote Sensing of Environment,92(4),436-446.
Jaynes D.B.,Hunsaker D.J.,1989. Spatial and temporal variability of water content and infiltration on
a flood irrigated field. Transactions of the Asae,32(4),1229-1238.
Jiménez C.C.,Tejedor M.,Díaz F.,Rodríguez C.,2005. Effectiveness of sand mulch in soil and water
conservation in an arid region, lanzarote, canary islands, spain. Journal of Soil and Water Conservation,60(1),63-67.
Kachanoski R.G.,de Jong E.,1988. Scale dependence and the temporal persistence of spatial patterns
of soil water storage. Water Resour. Res.,24(1),85-91.
Kitanidis P.K.,1997. Introduction to geostatistics. Cambridge University Press,Cambridge, U. K.
Kravchenko A.N.B.,Donald G.,2000. Correlation of corn and soybean grain yield with topographyand soil properties. Agronomy Journal,92(1),75.
Lal R.,2004. Soil carbon sequestration impacts on global climate change and food security. Science,304(5677),1623-1627.
Lee B.D.,Graham R.C.,Laurent T.E.,Amrhein C.,Creasy R.M.,2001. Spatial distributions of soil
chemical conditions in a serpentinitic wetland and surrounding landscape. Soil Science Society of AmericaJournal,65(4),1183-1196.
Li J.W.,Fan L.P.,Ding S.D.,Ding X.L.,2007. Nutritional composition of five cultivars of chinesejujube. Food Chemistry,103(2),454-460.
Li X.Y.,2002. Effects of gravel and sand mulches on dew deposition in the semiarid region of china.Journal of Hydrology,260(1-4),151-160.
Li X.Y.,2003. Gravel-sand mulch for soil and water conservation in the semiarid loess region ofnorthwest china. Catena,52(2),105-127.
Li Y.Y.,Shao M.A.,Zheng J.Y.,Zhang X.C.,2005. Spatial-temporal changes of soil organic carbonduring vegetation recovery at ziwuling, china. Pedosphere,15(5),601-610.
Liu G.S.,Wang X.Z.,Zhang Z.Y.,Zhang C.H.,2008. Spatial variability of soil properties in a tobaccofield of central china. Soil Science,173(9),659-667.
Lopez-Granados F.,Jurado-Exposito M.,Atenciano S.,Garcia-Ferrer A.,de la Orden M.S.,
Garcia-Torres L.,2002. Spatial variability of agricultural soil parameters in southern spain. Plant and Soil,246(1),97-105.
Ma F.S.,Kang S.Z.,Li F.S.,Zhang J.H.,Du T.S.,Hu X.T.,Wang M.X.,2007. Effect of water deficitin different growth stages on stem sap flux of greenhouse grown pear-jujube tree. Agricultural WaterManagement,90(3),190-196.
Mandelbrot B.B.,1989. Fractal geometry: What is it, and what does it do?. Royal Society ofLondon/Princeton University Press,New Jersey.
Martinez M.L.,Perez-Maqueo O.,Vazquez G.,Castillo-Campos G.,Garcia-Franco J.,Mehltreter K.,
Equihua M.,Landgrave R.,2009. Effects of land use change on biodiversity and ecosystem services in
tropical montane cloud forests of mexico. Forest Ecology and Management,258(9),1856-1863.
McKinion J.M.,Jenkins J.N.,Akins D.,Turner S.B.,Willer J.L.,Jallas E.,Whisler F.D.,2001.Analysis of a precision agriculture approach to cotton production. Computers and Electronics inAgriculture,32(3),213-228.
Mermut A.R.,Eswaran H.,2001. Some major developments in soil science since the mid-1960s.Geoderma,100,403–426.
Miao Y.,Mulla D.,Robert P.,2006. Spatial variability of soil properties, corn quality and yield in two
illinois, USA fields: Implications for precision corn management. Precision Agriculture,7(1),5-20.
Miranda J.,Montero E.,Alves M.,Paz González A.,Vidal Vázquez E.,2006. Multifractal
characterization of saprolite particle-size distributions after topsoil removal. Geoderma,134(3-4),373-385.
Montero E.,2005. Rényi dimensions analysis of soil particle-size distributions. Ecological Modelling,182(3-4),305-315.
Murage E.W.,Karanja N.K.,Smithson P.C.,Woomer P.L.,2000. Diagnostic indicators of soil qualityin productive and non-productive smallholders' fields of kenya's central highlands. Agriculture Ecosystems&Environment,79(1),1-8.
Nielsen D.R.,Bouma J.,1985. Soil spatial variability. Proceedings of a Workshop of the ISSS and the
SSSA, Las Vegas, USA. Pudoc, Wageningenpp.112-129.
Papendick R.I.,Parr J.F.,1992. Soil quality—the key to a sustainable agriculture. American Journal ofAlternative Agriculture,7(1-2),2-3.
Paz-Ferreiro J.,Vazquez E.,Miranda J.,2010. Assessing soil particle-size distribution on experimentalplots with similar texture under different management systems using multifractal parameters. Geoderma,160(1,30),47~56.
Peng L.,Wang J.Z.,Yu C.Z.,1995. Nutrient lossed in soils on loess plateau. Pedosphere,5(1),83-92.
Perez F.L.,1998. Conservation of soil moisture by different stone covers on alpine talus slopes (lassen,california). Catena,33(3-4),155-177.
Poesen J.,Lavee H.,1994. Rock fragments in top soils: Significance and processes. Catena,23,1-28.
Posadas A.,Giménez D.,Bittelli M.,Vaz C.M.P.,Flury M.,2001. Multifractal characterization of soilparticle-size distributions. Soil Sci. Soc. Am. J,65(5),1361-1367.
Reinhart K.G.,1961. The problem of stones in soil-moisture measurement. Soil Science Society ofAmerica Journal,25(4),268-270.
Sarangi A.,Cox C.A.,Madramootoo C.A.,2005. Geostatistical methods for prediction of spatial
variability of rainfall in a mountainous region. Transactions of the Asae,48(3),943-954.
Seyfried M.,1998. Spatial variability constraints to modeling soil water at different scales. Geoderma,85,231–254.
Shi H.,Shao M.G.,2000. Soil and water loss from the loess plateau in china. Journal of AridEnvironments,45(1),9-20.
Shukla M.K.,Slater B.K.,Lal R.,Cepuder P.,2004. Spatial variability of soil properties and potential
management classification of a chernozemic field in lower austria. Soil Science,169(12),852-860.
Sobieraj J.A.,Elsenbeer H.,Cameron G.,2004. Scale dependency in spatial patterns of saturatedhydraulic conductivity. Catena,55(1),49-77.
Stewart C.M.,McBratney A.B.,Skerritt J.H.,2002. Site-specific durum wheat quality and itsrelationship to soil properties in a single field in northern new south wales. Precision Agriculture,3(2),155-168.
Sun B.,Zhou S.L.,Zhao Q.G.,2003. Evaluation of spatial and temporal changes of soil quality basedon geostatistical analysis in the hill region of subtropical china. Geoderma,115(1-2),85-99.
Tsui C.C.,Chen Z.S.,Hsieh C.F.,2004. Relationships between soil properties and slope position in alowland rain forest of southern taiwan. Geoderma,123(1-2),131-142.
Tyler S.W.,Wheatcraft S.W.,1992. Fractal scaling of soil particle-size distributions: Analysis andlimitations. Soil Science Society of America Journal,56(2),362-362.
Tyler S.W.W.,Stephen W.,1989. Application of fractal mathematics to soil water retention estimation.Soil Science Society of America Journal,53(4),987.
Vachaud G.,Passerat De Silans A.,Balabanis P.,Vauclin M.,1985. Temporal stability of spatiallymeasured soil water probability density function. Soil Science Society of America Journal,49(4),822-828.
Van Pelt R.S.,Wierenga P.J.,2001. Temporal stability of spatially measured soil matric potentialprobability density function. Soil Science Society of America Journal,65(3),668-677.
Vervier P.,Pinheiro A.,Fabre A.,Pinay G.,Fustec E.,1999. Spatial changes in the modalities of n andp inputs in a rural river network. Water Research,33(1),95-104.
Wang J.,Fu B.J.,Qiu Y.,Chen L.D.,2001a. Soil nutrients in relation to land use and landscapeposition in the semi-arid small catchment on the loess plateau in china. Journal of Arid Environments,48(4),537-550.
Wang J.,Fu B.J.,Qiu Y.,Chen L.D.,Wang Z.,2001b. Geostatistical analysis of soil moisturevariability on da nangou catchment of the loess plateau, china. Environmental Geology,41(1-2),113-120.
Wang Y.Q.,Shao M.A.,2011. Spatial variability of soil physical properties in a region of the loessplateau of pr china subject to wind and water erosion. Land Degradation&Development,.
Wang Y.Q.,Shao M.A.,Gao L.,2010. Spatial variability of soil particle size distribution and fractalfeatures in water-wind erosion crisscross region on the loess plateau of china. Soil Science,175(12),579-585.
Wang Z.M.,Song K.S.,Zhang B.,Liu D.W.,Li X.Y.,Ren C.Y.,Zhang S.M.,Luo L.,Zhang C.H.,2009. Spatial variability and affecting factors of soil nutrients in croplands of northeast china: A case studyin dehui county. Plant Soil and Environment,55(3),110-120.
Watson R.T.,Bolin B.,2000. Land use, land use change and forestry: A special report of the ipcc.Cambridge Uhiversity Press,Cambridge,U.K.
Wei J.B.,Xiao D.N.,Zeng H.,Fu Y.K.,2008. Spatial variability of soil properties in relation to landuse and topography in a typical small watershed of the black soil region, northeastern china. EnvironmentalGeology,53(8),1663-1672.
Wei W.,Chen L.D.,Fu B.J.,Huang Z.L.,Wu D.P.,Gui L.D.,2007. The effect of land uses and rainfallregimes on runoff and soil erosion in the semi-arid loess hilly area, china. Journal of Hydrology,335(3-4),247-258.
Wei X.R.,Shao M.G.,Fu X.L.,Horton R.,Li Y.,Zhang X.C.,2009. Distribution of soil organic c,n and p in three adjacent land use patterns in the northern loess plateau, china. Biogeochemistry,96(1-3),149-162.
Weindorf D.C.,Zhu Y.,2010. Spatial variability of soil properties at capulin volcano, new mexico,USA: Implications for sampling strategy. Pedosphere,20(2),185-197.
Wick B.,Tiessen H.,Menezes R.S.C.,2000. Land quality changes following the conversion of thenatural vegetation into silvo-pastoral systems in semi-arid ne brazil. Plant and Soil,222,59-70.
Wilcox B.P.,Wood M.K.,1989. Factors influencing interrill erosion from semiarid slopes in newmexico. Journal of Range Management,42,66-70.
Wu H.B.,Guo Z.T.,Peng C.H.,2003. Land use induced changes of organic carbon storage in soils ofchina. Global Change Biology,9(3),305-315.
Wu J.,Norvell W.A.,Welch R.M.,2006. Kriging on highly skewed data for dtpa-extractable soil znwith auxiliary information for ph and organic carbon. Geoderma,134(1-2),187-199.
Xie Z.,Wang Y.,Jiang W.,Wei X.,2006. Evaporation and evapotranspiration in a watermelon fieldmulched with gravel of different sizes in northwest china. Agricultural Water Management,81(1-2),173-184.
Xue Z.P.,Feng W.H.,Cao J.K.,Cao D.D.,Jiang W.B.,2009. Antioxidant activity and total phenoliccontents in peel and pulp of chinese jujube (ziziphus jujuba mill) fruits. Journal of Food Biochemistry,33(5),613-629.
Yajun G.,Yun L.,Jianchang Z.,Wenguo L.,Zhanping D.,Weixian C.,Qin Q.,2009. Effects of mulch,n fertilizer, and plant density on wheat yield, wheat nitrogen uptake, and residual soil nitrate in a drylandarea of china. Nutr Cycl Agroecosyst,85,109-121.
Yanai J.,Choung K.L.,Kaho T.,Iida M.,Matsui T.,Umeda M.,Kosaki T.,2001. Geostatisticalanalysis of soil chemical properties and rice yield in a paddy field and application to the analysis ofyield-determining factors. Soil Science and Plant Nutrition,47(2),291-301.
Yimer F.,Ledin S.,Abdelkadir A.,2006. Soil organic carbon and total nitrogen stocks as affected bytopographic aspect and vegetation in the bale mountains, ethiopia. Geoderma,135,335-344.
Zeleke T.B., Si B.C.,2006. Characterizing scale-dependent spatial relationships between soilproperties using multifractal techniques. Geoderma,134(3-4),440-452.
Zeng Y.,Gantzer C.,Payton R.,Anderson S.,1996. Fractal dimension and lacunarity of bulk densitydetermined with x-ray computed tomography. Soil Science Society of America Journal,60(6),1718-1724.
Zhao P.P.,Shao M.A.,2010. Soil water spatial distribution in dam farmland on the loess plateau, china.Acta Agriculturae Scandinavica Section B-Soil and Plant Science,60(2),117-125.
Zhao Y.,Peth S.,Wang X.,Lin H.,Horn R.,2010. Controls of surface soil moisture spatial patternsand their temporal stability in a semi‐arid steppe. Hydrological Processes,24(18),2507-2519.
Zheng Z.,Zhang F.R.,Ma F.Y.,Chai X.R.,Zhu Z.Q.,Shi J.L.,Zhang S.X.,2009. Spatiotemporalchanges in soil salinity in a drip-irrigated field. Geoderma,149(3-4),243-248.
白一茹,邵明安,2011.黄土高原雨养区坡面土壤蓄水量时间稳定性.农业工程学报,27(7),45-50.
曹建生,张万军,刘昌明,杨永辉,2007.石子和秸秆覆盖条件下降雨水量转化特征试验研究.水利学报,38(3),378-382.
查轩,黄少燕,2001.植被破坏对黄土高原加速侵蚀及土壤退化过程的影响.山地学报,19(2),109-114.
常庆瑞,安韶山,刘京,文治国,2003.陕北农牧交错带土地荒漠化本质特性研究.土壤学报,40(4),518-523.
陈百明,1997.试论中国土地利用和土地覆被变化及其人类驱动力研究.自然资源,(2),31-36.
陈浮,濮励杰,彭补拙,包浩生,2001.新疆库尔勒市土地利用变化对土壤性状的影响研究.生态学报,21(8),1290~1295.
陈洪松,邵明安,王克林,2006.土壤初始含水率对坡面降雨入渗及土壤水分再分布的影响.农业工程学报,22(1),44~47.
陈健,王忠义,李良涛,张克锋,宇振荣,2008.基于比较优势分析法的冬小麦产量差异.应用生态学报,19(9),1971-1976.
陈士辉,谢忠奎,王亚军,魏兴琥,2005.砂田西瓜不同粒径砂砾石覆盖的水分效应研究.中国沙漠,25(3),433-436.
陈素英,张喜英,裴冬,孙宏勇,2004.秸秆覆盖对夏玉米田棵间蒸发和土壤温度的影响灌溉排水学报,23(4),32~36.
陈素英,张喜英,裴冬,孙宏勇,2005.玉米秸秆覆盖对麦田土壤温度和土壤蒸发的影响.农业工程学报,21(010),171-173.
陈文波,郑蕉,鄢帮有,2007.鄱阳湖区土地利用景观格局特征研究.农业工程学报,23(4),79-83.
董莉丽,郑粉莉,2009.陕北黄土丘陵沟壑区土壤粒径分形特征.中国水土保持科学,7(2),35-41.
杜鹏飞,姜洪涛,袁小宇,2009.北方农牧交错带不同土地利用方式下表层土壤含水量对比研究.干旱区资源与环境,23(009),118-122.
方静,丁永建,2009.荒漠绿洲边缘不同粒径砂砾凝结水量.生态学杂志,28(6),1102-1106.
符淙斌,董文杰,温刚,叶笃正,2003.全球变化的区域响应和适应.气象学报,61(002),245-250.
符素华,路炳军,叶芝菡,2010.地表砾石对降雨径流及土壤侵蚀的影响.水土保持学报,(2),15-18.
傅伯杰,陈利顶,马克明,1999.黄土丘陵区小流域土地利用变化对生态环境的影响——以延安市羊圈沟流域为例.地理学报,54(03),241~246.
高茂盛,温晓霞,黄灵丹,廖允成,刘根全,2010.耕作和秸秆覆盖对苹果园土壤水分及养分的.自然资源学报,25(4),547~555.
巩杰,陈利顶,傅伯杰,李延梅,黄志霖,黄奕龙,彭鸿嘉,2005.黄土丘陵区小流域土地利用
和植被恢复对土壤质量的影响.应用生态学报,15(12),2292-2296.
谷博轩,梁鹏锋,彭红涛,霍金东,蒋志云,汤加,2011.砂田降雨入渗过程的模拟实验研究.中国农学通报,27(32),281-286.
关红杰,冯浩,吴普特,2008.土壤砂砾覆盖对入渗和蒸发影响研究进展.中国农学通报,24(12),289-193.
管孝艳,杨培岭,吕烨,2011.基于多重分形的土壤粒径分布与土壤物理特性关系.农业机械学报,42(3),44-50.
管孝艳,杨培岭,任树梅,李仙岳,吕烨,2009.基于多重分形理论的壤土粒径分布非均匀性分析.应用基础与工程科学学报,17(2),196~205.
郭军玲,吴士文,金辉,卢升高,2010.农田土壤微量元素含量的空间变异特征和影响因素.水土保持学报,24(1),145-149.
郭正刚,张自和,肖金玉,侯扶江,陆妮,2002.黄土高原丘陵沟壑区紫花苜蓿品种间根系发育能力的初步研究.应用生态学报,13(08),1007~1012.
何婷婷,汪有科,张陆军,赵颖娜,2010.黄土高原坡地枣树林龄和坡向对叶面积指数的影响.果树学报,27(2),293-298.
侯扶江,肖金玉,南志标,2002.黄土高原退耕地的生态恢复.应用生态学报,13(8),923–929.
胡实,谢小立,王凯荣,2009.覆被对桔园旱季土壤水分变化和利用的影响.生态学报,29(2),976-983.
胡伟,邵明安,王全九,2005.黄土高原退耕坡地土壤水分空间变异的尺度性研究.农业工程学报,21(8),11~16.
黄刚,赵学勇,黄迎新,苏延桂,2009.科尔沁沙地不同地形小叶锦鸡儿灌丛土壤水分动态.应用生态学报,20(003),555-561.
黄冠华,张宏宾,叶自桐,2003.水力传导度空间变异性的分形模拟研究进展.水科学进展,14(2),236~240.
黄金辉,廖允成,高茂盛,殷瑞敬,2009.耕作和覆盖对黄土高原果园土壤水分和温度的影响.应用生态学报,20(11),2652-2658.
黄文芳,2011.农业化肥污染的政策成因及对策分析.生态环境学报,20(1),193-198.
黄元仿,周志宇,苑小勇,2004.干旱荒漠区土壤有机质空间变异特征.生态学报,24(12),2776-2781.
黄志霖,傅伯杰,陈利顶,黄奕龙,吴祥林,2004.黄土丘陵沟壑区不同退耕类型径流,侵蚀效应及其时间变化特征.水土保持学报,18(4),37-41.
贾恒义,彭琳,彭祥林,余存祖,1994.黄土高原地区土壤养分资源分区及其评价.水土保持学报,8(03),22~28.
贾晓红,李新荣,李元寿,2007.干旱沙区植被恢复过程中土壤颗粒分形特征.地理研究,26(3),518~524.
蒋志云,彭红涛,方唐福,姚新宇,霍金东,2010.砾石覆盖层截留降雨的模拟实验研究.中国农学通报,26(18),410-414.
李广,黄高宝,2009.雨强和土地利用方式对黄土丘陵区水土流失的影响.农业工程学报,25(11),85~90.
李家洋,陈泮勤,葛全胜,方修琦,2005.全球变化与人类活动的相互作用.地球科学进展,20(4),371-377.
李玲玲,黄高宝,张仁陟,晋小军,2005.免耕秸秆覆盖对旱作农田土壤水分的影响.水土保持学报,19(6),94~96.
李明悦,朱静华,廉晓娟,高伟,高贤彪,2010.基于gis的葡萄园土壤养分管理及平衡施肥研究.中国农学通报,26(3),202-205.
李鹏,李占斌,郑良勇,2004.植被恢复演替初期对模拟降雨产流特征的影响ξ.水土保持学报,18(1).
李晓东,魏龙,张永超,郭丁,李旭东,傅华,2009.土地利用方式对陇中黄土高原土壤理化性状的影响.草业学报,18(04),103~110.
李玉鹏,贾志宽,杨保平,王昕,2010.秸秆覆盖量对半干旱区旱作春玉米生长及水分利用效率的影响.灌溉排水学报,29(1),117~120.
李裕元,邵明安,陈洪松,霍竹,郑纪勇,2010.水蚀风蚀交错带植被恢复对土壤物理性质的影响.生态学报,(16),4306-4316.
李志,刘文兆,王秋贤,2008.黄土塬区不同地形部位和土地利用方式对土壤物理性质的影响.应用生态学报,19(6),1303-1308.
梁银丽,张成娥,郭东伟,2001.黄土高原区农田覆盖效应与前景分析. Chinese Journal of Eco—Agriculture,9(1).
刘鸽,赵文智,何志斌,张立杰,2008.祁连山浅山区不同植被类型土壤水分时间异质性.
刘纪远,张增祥,庄大方,王一谋,周万村,张树文,李仁东,江南,吴世新,2003.20世纪90年代中国土地利用变化时空特征及其成因分析.地理研究,22(01),1~12.
刘继龙,马孝义,张振华,2010.不同土层土壤水分特征曲线的空间变异及其影响因素.农业机械学报,41(1).
刘建立,徐绍辉,刘慧,2003.确定田间土壤水力传导率的分形方法.水科学进展,14(4),464~469.
刘举,常庆瑞,张俊华,陈涛,贾科利,2005.黄土高原不同林地植被对土壤肥力的影响.西北农林科技大学学报:自然科学版,32(B11),111-115.
刘曙光,1991.中子探测仪在林地土壤水分研究中的应用.中国水土保持,(010),43-46.
刘婷,贾志宽,张睿,郑甲成,任世春,杨宝平,聂俊峰,刘艳红,王海霞,2010.秸秆覆盖对旱地土壤水分及冬小麦水分利用效率的影响.西北农林科技大学学报(自然科学版),38(7),69~76.
刘杨,孙志梅,杨军,刘霞,王小敏,刘树庆,王文江,2010.京东板栗主产区土壤氮磷钾的空间变异.应用生态学报,21(4),901-907.
吕国安,陈明亮,王春潮,2000.丹江口库区石渣土土壤水分特性研究.华中农业大学学报,19(4),342-345
马东豪,2009.黄土区土石混合介质水分运动试验研究及数值模拟[博士学位论文].中国科学院地理科学与资源研究所,北京.
马国飞,张晓煜,张磊,曹宁,张学艺,2011.宁夏压砂地土壤水分动态及消耗规律分析.宁夏农林科技,52(1),4-7.
孟庆华,杨林章,2000.三峡库区不同土地利用方式的养分流失研究.生态学报,20(6),1028~1033.
牛新胜,牛灵安,张宏彦,范聚芳,郝晋珉,马永良,2008.玉米秸秆覆盖免耕对土壤呼吸的影响.生态环境,17(1),256-260.
牛伊宁,沈禹颖,高崇岳,CHAN K.Y.,南志标,2006.覆盖和耕作对黄土高原冬小麦土壤入渗特性的影响.山地学报,24(001),13-18.
彭文英,张科利,陈瑶,杨勤科,2005.黄土坡耕地退耕还林后土壤性质变化研究.自然资源学报,20(2).
邱莉萍,张兴昌,2006.子午岭不同土地利用方式对土壤性质的影响.自然资源学报,21(06),965~972.
邱扬,傅伯杰,2002.黄土丘陵小流域土壤物理性质的空间变异.地理学报,57(005),587-594.
邱扬,傅伯杰,王军,陈利顶,2000.黄土丘陵小流域土壤水分时空分异与环境关系的数量分析.生态学报,20(5),741-747.
邱扬,傅伯杰,王军,陈利顶,2004.黄土高原小流域土壤养分的时空变异及其影响因子.自然科学进展,14(3),294~299.
冉有华,李新,王维真,晋锐,2009.黑河流域临泽盐碱化草地网格尺度多层土壤水分时空稳定性分析.地球科学进展,24(7),817-824.
时忠杰,王彦辉,于澎涛,徐丽宏,熊伟,郭浩,2008.六盘山森林土壤中的砾石对渗透性和蒸发的影响.生态学报,28(12),6090-6098.
宋孝玉,李亚娟,李怀有,沈冰,2009.不同地貌类型及土地利用方式下土壤粒径的分形特征.西北农林科技大学学报,37(9),155~160.
苏衍涛,王凯荣,刘迎新,谢小立,2008.稻草覆盖对红壤旱地土壤温度和水分的调控效应.农业环境科学学报,27(2),670-676.
苏永中,赵哈林,2004.科尔沁沙地农田沙漠化演变中土壤颗粒分形特征.生态学报,24(1),71~73.
孙小花,张仁陟,蔡立群,陈强强,2009.不同耕作措施对黄土高原旱地土壤呼吸的影响.应用生态学报,20(9),2173-2180.
孙悦超,麻硕士,陈智,赵永来,苏洁,冬梅,2010.砾石覆盖对抑制旱作农田土壤风蚀效果的风洞模拟.农业工程学报,26(11).
唐克丽,西安地质学院研究员,中国科学院,黄土高原综合科学考察队,1991.黄土高原地区土壤侵蚀区域特征及其治理途径.中国科学技术出版社.
汪汇海,沙丽清,杨效东,2006.稻秸覆盖对有机茶园土壤生态环境影响的研究.中国生态农业学报,14(4),65-67.
王瑷玲,赵庚星,王庆芳,刘文鹏,2011.丘陵区土地整理对土壤理化性状的影响.农业工程学报,9.
王德,傅伯杰,陈利顶,赵文武,汪亚峰,2007.不同土地利用类型下土壤粒径分形分析.生态学报,27(7).
王富,贾志军,董智,李红丽,甄宝艳,孙明高,张卫平,2009.不同生态修复措施下水库水源涵养区土壤粒径分布的分形特征.水土保持学报,23(5),113~117.
王国梁,刘国彬,党小虎,2009.黄土丘陵区不同土地利用方式对土壤含水率的影响.农业工程学报,(02).
王国梁,周生路,赵其国,2005.土壤颗粒的体积分形维数及其在土地利用中的应用.土壤学报,42(004),545-550.
王慧芳,邵明安,2009.田间含碎石土壤水分入渗及再分布试验研究.水土保持学报,23(5),81-86.
王建国,樊军,王全九,王力,2011.黄土高原水蚀风蚀交错区植被地上生物量及其影响因素.Chinese Journal of Applied Ecology,22(3),556-564.
王军,傅伯杰,2000.黄土丘陵小流域土壤水分的时空变异特征:半变异函数.地理学报,55(004),428-438.
王康,张仁铎,2004.基于连续分形理论的土壤非饱和水力传导度的研究.水科学进展,15(2),206~210.
王丽学,李宝筏,刘洪禄,2002.农田覆盖技术及相关理论的发展现状与展望.中国农村水利水电,1,33-35.
王润元,杨兴国,张九林,王德民,梁东升,张立功,2007.陇东黄土高原土壤储水量与蒸发和气候研究.地球科学进展,22(6),625-635.
王玉宽,朱波,高美容,2004.小流域土壤水分空间分异特征及时稳性分析.山地学报,22(001),116-120.
王兆伟,郝卫平,龚道枝,梅旭荣,王春堂,2010.秸秆覆盖量对农田土壤水分和温度动态的影响.中国农业气象,31(2),244-250.
王政权,王庆成,2000.森林土壤物理性质的空间异质性研究.生态学报,20(6),945-950.
魏孝荣,邵明安,2007.黄土高原沟壑区小流域坡地土壤养分分布特征.生态学报,27(02),603~612.
温仲明,焦峰,刘宝元,卜耀军,焦菊英,2005.黄土高原森林草原区退耕地植被自然恢复与土壤养分变化.应用生态学报,16(11),2025~2029.
吴钦孝,杨文治,1998.黄土高原植被建设与可持续发展.科学出版社,北京.
徐绍辉,刘建立,2003.估计不同质地土壤水分特征曲线的分形方法.水利学报,1,78~81.
薛萐,刘国彬,戴全厚,党小虎,周萍,2007.不同植被恢复模式对黄土丘陵区侵蚀土壤微生物量的影响.自然资源学报,22(1).
薛萐,刘国彬,张超,樊良心,2011.黄土高原丘陵区坡改梯后的土壤质量效应.农业工程学报,27(4),310-316.
杨东,刘强,2011.基于gis和地统计学的张掖市甘州区土壤全氮、有机质的空间变异特征分析.土壤通报,42(3),593-597.
杨培岭,罗远培,石元春,1993.用粒径的重量分布表征的土壤分形特征.科学通报,38(20),1896-1899.
杨新民,杨文治,马玉玺,1994.纸坊沟流域人工刺槐林生长状况与土壤水分条件研究.水土保持研究,1(3),31-36.
杨永辉,武继承,吴普特,赵世伟,何方,史福刚,2009.秸秆覆盖与保水剂对土壤结构、蒸发及入渗过程的作用机制.中国水土保持科学,7(5),70~75.
尹锴,崔胜辉,赵千钧,花利忠,石龙宇,吝涛,2009.基于冗余分析的城市森林林下层植物多样性预测.生态学报,29(011),6085-6094.
于舜章,陈雨海,周勋波,李全起,罗毅,于强,2004.冬小麦期覆盖秸秆对夏玉米土壤水分动态变化及产量的影响.水土保持学报,18(6),175~179.
于晓蕾,2007.冬小麦秸秆覆盖保墒灌溉效应研究[硕士论文].西北农林科技大学,杨凌.
余新晓,张晓明,牛丽丽,岳永杰,武思宏,张满良,2009.黄土高原流域土地利用/覆被动态演变及驱动力分析.农业工程学报,25(07),219~225.
余云飞,许学宏,高芹,袁斌,2006.土壤水分空间分布及时间稳定性的探讨.农业环境与发展,23(3),89-92.
员学锋,吴普特,汪有科,徐福利,2006.免耕条件下秸秆覆盖保墒灌溉的土壤水、热及作物效应研究.农业工程学报,22(7),22~26.
袁亚宏,高振鹏,史亚歌,2002.我国红枣的产业化开发.西北农林科技大学学报,30(Z1),95-98.
原翠萍,张心平,雷廷武,刘汗,李鑫,2008.砂石覆盖粒径对土壤蒸发的影响.农业工程学报,24(7),25-28.
张电学,韩志卿,王秋兵,陈洪斌,常连生,于玉桥,刘东强,王介元,2007.长期不同施肥制度下土壤有机质质量动态变化规律.土壤通报,38(2),251~255.
张国盛,黄高宝,张仁陟,黄鹏,晋小军,李玲玲,2003.种植苜蓿对黄绵土表土理化性质的影响.草业学报,12(05),88~93.
张继光,陈洪松,苏以荣,张伟,孔祥丽,2008.喀斯特山区洼地表层土壤水分的时空变异.生态学报,28(012),6334-6343.
张社奇,王国栋,时新玲,2005.黄土高原油松人工林地土壤水分物理性质研究.干旱地区农业研究,23(1),60-64.
张伟,汪春,梁远,李玉清,2006.残茬覆盖对寒地旱作区土壤温度的影响.农业工程学报,22(005),70-73.
张晓明,余新晓,武思宏,张满良,李建劳,2007.黄土丘陵沟壑区典型流域土地利用/土地覆被变化水文动态响应.生态学报,27(02),414~423.
赵爱辉,黄明斌,史竹叶,2008.农业工程学报.土壤颗粒分布参数模型对黄土性土壤的适应性研究,24(1),1~6.
赵春江,薛绪掌,王秀,陈立平,潘瑜春,孟志军,2003.精准农业技术体系的研究进展与展望.农业工程学报,19(4),7-12.
赵凤霞,温晓霞,杜世平等,2005.渭北地区残茬(秸秆)覆盖农田生态效应及应用技术实例.干旱地区农业研究,23(3),90-95.
周莉,李保国,周广胜,2005.土壤有机碳的主导影响因子及其研究进展.地球科学进展,20(01),99~105.
周炜星,吴韬,2000.多重分形奇异谱的几何特性: Ⅱ.配分函数法.华东理工大学学报:自然科学版,26(4),390-395.
周忠学,2007.陕北黄土高原土地利用变化与社会经济发展关系及效应评价.陕西师范大学,.
朱伟,谢三桃,阮爱东,卞勋文,2008.碎石覆盖对河流硬质护坡土壤抗侵蚀性及植物生长的影响.应用生态学报,19(3),634-640.
朱显谟,1989.黄土高原土壤与农业.农业出版社.
朱元骏,2007.黄土区土石混合介质中水分运动及有效性研究.中国科学院地理科学与资源研究所,北京.
Aggelopoulou K.,Pateras D.,Fountas S.,Gemtos T.,Nanos G.,2011. Soil spatial variability andsite-specific fertilization maps in an apple orchard. Precision Agriculture,12(1),118-129.
Bai Y.R.,Wang Y.K.,2011. Spatial variability of soil chemical properties in a jujube slope on the loessplateau of china. Soil Science,176(10),550-558.
Batjes N.H.,1996. Total carbon and nitrogen in the soils of the world. European Journal of SoilScience,47(2),151-163.
Bi H.,Li X.,Liu X.,Guo M.,Li J.,2009. A case study of spatial heterogeneity of soil moisture in theloess plateau, western china: A geostatistical approach. International Journal of Sediment Research,24,63~73.
Bittelli M.C., Flury G.S.,1999. Characterization of particle-size distribution in soils with afragmentation model. Soil Science Society of America Journal,63(4),782.
Boekhold A.E., Vanderzee S.E.A.T.M.,1992. Significance of soil chemical heterogeneity forspatial-behavior of cadmium in field soils. Soil Science Society of America Journal,56(3),747-754.
Brocca L.,Melone F.,Moramarco T.,Morbidelli R.,2009. Soil moisture temporal stability overexperimental areas in central italy. Geoderma,148(3-4),364-374.
Burrough P.,1981. Fractal dimensions of landscapes and other environmental data. Nature,294,240-242.
Burrough P.,1983. Multiscale sources of spatial variation in soil. I. The application of fractal conceptsto nested levels of soil variation. European Journal of Soil Science,34,577-597.
Cambardella C.A.,Moorman T.B.,Novak J.M.,Parkin T.B.,Karlen D.L.,Turco R.F.,Konopka A.E.,1994. Field-scale variability of soil properties in central iowa soils. Soil Science Society of AmericaJournal,58(5),1501-1511.
Cava D.,Katul G.G.,2008. Spectral short-circuiting and wake production within the canopy trunkspace of an alpine hardwood forest. Boundary-Layer Meteorology,126(3),415-431.
Changere A.,Lal R.,1997. Slope position and erosional effects on soil properties and corn productionon a miamian soil in central ohio. Journal of Sustainable Agriculture,11(1),5-21.
Chen L.D.,Gong J.,Fu B.J.,Huang Z.L.,Huang Y.L.,Gui L.D.,2007a. Effect of land use conversionon soil organic carbon sequestration in the loess hilly area, loess plateau of china. Ecological Research,22(4),641-648.
Chen L.D.,Wei W.,Fu B.J.,Lu Y.H.,2007b. Soil and water conservation on the loess plateau in china:Review and perspective. Progress in Physical Geography,31(4),389-403.
Chien Y.J.,Lee D.Y.,Guo H.Y.,Houng K.H.,1997. Geostatistical analysis of soil properties ofmid-west taiwan soils. Soil Science,162(4),291-298.
Chuluun T.,Ojima D.,2002. Land use change and carbon cycle in and and semi-arid lands of east andcentral asia. Science in China (Series C),45(10),48~54.
Cosh M.H.,Jackson T.J.,Bindlish R.,Prueger J.H.,2004. Watershed scale temporal and spatialstability of soil moisture and its role in validating satellite estimates. Remote Sensing of Environment,92(4),427-435.
Cosh M.H.,Jackson T.J.,Moran S.,Bindlish R.,2008. Temporal persistence and stability of surfacesoil moisture in a semi-arid watershed. Remote Sensing of Environment,112(2),304-313.
Cui N.B.,Du T.S.,Kang S.Z.,Li F.S.,Zhang J.H.,Wang M.X.,Li Z.J.,2008. Regulated deficitirrigation improved fruit quality and water use efficiency of pear-jujube trees. Agricultural WaterManagement,95(4),489-497.
Duffera M.,White J.G.,Weisz R.,2007. Spatial variability of southeastern u.S. Coastal plain soilphysical properties: Implications for site-specific management. Geoderma,137(3-4),327-339.
Ebeid M.M.,Lal R.,Hall G.F.,Miller E.,1995. Erosion effects on soil properties and soybean yieldof a miamian soil in western ohio in a season with below normal rainfall. Soil Technology,8(2),97-108.
Epstein E.G.,Struchtemeyer W.J.,1966. Effects of stones on runoff, erosion, and soil moisture. SoilScience Society of America Journal,30(5),638-640.
Ersahin S.,Brohi A.R.,2006. Spatial variation of soil water content in topsoil and subsoil of a typicustifluvent. Agricultural Water Management,83(1-2),79-86.
Evertsz C.J.G.,Mandelbrot B.B.,1992. Multifractal measures (appendix b). Springler-Verlag,NewYork
Famiglietti J.,Rudnicki J.,Rodell M.,1998. Variability in surface moisture content along a hillslopetransect: Rattlesnake hill, texas. Journal of Hydrology,210(1-4),259-281.
Ferguson R.B.,Hergert G.W.,Schepers J.S.,Gotway C.A.,Cahoon J.E.,Peterson T.A.,2002.Site-specific nitrogen management of irrigated maize: Yield and soil residual nitrate effects. Soil ScienceSociety of America Journal,66(2),544-553.
Fu B.,Chen L.,2000. Agricultural landscape spatial pattern analysis in the semi-arid hill area of theloess plateau, china. Journal of Arid Environments,44(3),291-303.
Fu B.J.,Wang J.,Chen L.D.,Qiu Y.,2003. The effects of land use on soil moisture variation in the
danangou catchment of the loess plateau, china. Catena,54(1-2),197-213.
Fu W.J.,Tunney H.,Zhang C.S.,2010a. Spatial variation of soil nutrients in a dairy farm and its
implications for site-specific fertilizer application. Soil&Tillage Research,106(2),185-193.Fu X.L.,Shao M.A.,Wei X.R.,Horton R.,2010b. Soil organic carbon and total nitrogen as affected
by vegetation types in northern loess plateau of china. Geoderma,155(1-2),31-35.Gallardo A.,Parama R.,2007. Spatial variability of soil elements in two plant communities of nwspain. Geoderma,139(1-2),199-208.
Goovaerts P.,1998. Geostatistical tools for characterizing the spatial variability of microbiological and
physico-chemical soil properties. Biology and Fertility of Soils,27(4),315-334.
Goovaerts P.,1999. Geostatistics in soil science: State-of-the-art and perspectives. Geoderma,89(1-2),1-45.
Goovaerts P.,Chiang C.N.,1993. Temporal persistence of spatial patterns for mineralizable nitrogen
and selected soil properties. Soil Science Society of America Journal,57.
Govers G.,Vandaele K.,Desmet P.,Poesen J.,Bunte K.,1994. The role of tillage in soil redistribution
on hillslopes. European Journal of Soil Science,45(4),469-478.
Grant L.,Seyfried M.,McNamara J.,2004. Spatial variation and temporal stability of soil water in a
snow‐dominated, mountain catchment. Hydrological Processes,18(18),3493-3511.
Grout H.,Tarquis A.M.,Wiesner M.R.,1998. Multifractal analysis of particle size distributions in soil.Environmental Science&Technology,32(9),1176-1182.
Guo D.,Mou P.,Jones R.H.,Mitchell R.J.,2002. Temporal changes in spatial patterns of soil moisture
following disturbance: An experimental approach. Journal of Ecology,90(2),338-347.Guo L.B.,Gifford R.M.,2002. Soil carbon stocks and land use change: A meta analysis. Global
Change Biology,8(4),345-360.
Han F.P.,Hu W.,Zheng J.Y.,Du F.,Zhang X.C.,2010. Estimating soil organic carbon storage and
distribution in a catchment of loess plateau, china. Geoderma,154(3-4),261-266.
Hao H.M.,Ren Z.Y.,2009. Land use/land cover change (lucc) and eco-environment response to luccin farming-pastoral zone, china. Agricultural Sciences in China,8(1),91-97.
Hu W.,Shao M.A.,Wang Q.J.,Reichardt K.,2009. Time stability of soil water storage measured byneutron probe and the effects of calibration procedures in a small watershed. Catena,79(1),72-82.
Iqbal J.,Thomasson J.A.,Jenkins J.N.,Owens P.R.,Whisler F.D.,2005. Spatial variability analysis
of soil physical properties of alluvial soils. Soil Science Society of America Journal,69(4),1338-1350.
Isaaks E.H.,Srivastava R.M.,1990. An introduction to applied geostatistics. Oxford University Press,USA.
Jacobs J.M.,Mohanty B.P.,Hsu E.C.,Miller D.,2004. Smex02: Field scale variability, time stability
and similarity of soil moisture. Remote Sensing of Environment,92(4),436-446.
Jaynes D.B.,Hunsaker D.J.,1989. Spatial and temporal variability of water content and infiltration on
a flood irrigated field. Transactions of the Asae,32(4),1229-1238.
Jiménez C.C.,Tejedor M.,Díaz F.,Rodríguez C.,2005. Effectiveness of sand mulch in soil and water
conservation in an arid region, lanzarote, canary islands, spain. Journal of Soil and Water Conservation,60(1),63-67.
Kachanoski R.G.,de Jong E.,1988. Scale dependence and the temporal persistence of spatial patterns
of soil water storage. Water Resour. Res.,24(1),85-91.
Kitanidis P.K.,1997. Introduction to geostatistics. Cambridge University Press,Cambridge, U. K.
Kravchenko A.N.B.,Donald G.,2000. Correlation of corn and soybean grain yield with topographyand soil properties. Agronomy Journal,92(1),75.
Lal R.,2004. Soil carbon sequestration impacts on global climate change and food security. Science,304(5677),1623-1627.
Lee B.D.,Graham R.C.,Laurent T.E.,Amrhein C.,Creasy R.M.,2001. Spatial distributions of soil
chemical conditions in a serpentinitic wetland and surrounding landscape. Soil Science Society of AmericaJournal,65(4),1183-1196.
Li J.W.,Fan L.P.,Ding S.D.,Ding X.L.,2007. Nutritional composition of five cultivars of chinesejujube. Food Chemistry,103(2),454-460.
Li X.Y.,2002. Effects of gravel and sand mulches on dew deposition in the semiarid region of china.Journal of Hydrology,260(1-4),151-160.
Li X.Y.,2003. Gravel-sand mulch for soil and water conservation in the semiarid loess region ofnorthwest china. Catena,52(2),105-127.
Li Y.Y.,Shao M.A.,Zheng J.Y.,Zhang X.C.,2005. Spatial-temporal changes of soil organic carbonduring vegetation recovery at ziwuling, china. Pedosphere,15(5),601-610.
Liu G.S.,Wang X.Z.,Zhang Z.Y.,Zhang C.H.,2008. Spatial variability of soil properties in a tobaccofield of central china. Soil Science,173(9),659-667.
Lopez-Granados F.,Jurado-Exposito M.,Atenciano S.,Garcia-Ferrer A.,de la Orden M.S.,
Garcia-Torres L.,2002. Spatial variability of agricultural soil parameters in southern spain. Plant and Soil,246(1),97-105.
Ma F.S.,Kang S.Z.,Li F.S.,Zhang J.H.,Du T.S.,Hu X.T.,Wang M.X.,2007. Effect of water deficitin different growth stages on stem sap flux of greenhouse grown pear-jujube tree. Agricultural WaterManagement,90(3),190-196.
Mandelbrot B.B.,1989. Fractal geometry: What is it, and what does it do?. Royal Society ofLondon/Princeton University Press,New Jersey.
Martinez M.L.,Perez-Maqueo O.,Vazquez G.,Castillo-Campos G.,Garcia-Franco J.,Mehltreter K.,
Equihua M.,Landgrave R.,2009. Effects of land use change on biodiversity and ecosystem services in
tropical montane cloud forests of mexico. Forest Ecology and Management,258(9),1856-1863.
McKinion J.M.,Jenkins J.N.,Akins D.,Turner S.B.,Willer J.L.,Jallas E.,Whisler F.D.,2001.Analysis of a precision agriculture approach to cotton production. Computers and Electronics inAgriculture,32(3),213-228.
Mermut A.R.,Eswaran H.,2001. Some major developments in soil science since the mid-1960s.Geoderma,100,403–426.
Miao Y.,Mulla D.,Robert P.,2006. Spatial variability of soil properties, corn quality and yield in two
illinois, USA fields: Implications for precision corn management. Precision Agriculture,7(1),5-20.
Miranda J.,Montero E.,Alves M.,Paz González A.,Vidal Vázquez E.,2006. Multifractal
characterization of saprolite particle-size distributions after topsoil removal. Geoderma,134(3-4),373-385.
Montero E.,2005. Rényi dimensions analysis of soil particle-size distributions. Ecological Modelling,182(3-4),305-315.
Murage E.W.,Karanja N.K.,Smithson P.C.,Woomer P.L.,2000. Diagnostic indicators of soil qualityin productive and non-productive smallholders' fields of kenya's central highlands. Agriculture Ecosystems&Environment,79(1),1-8.
Nielsen D.R.,Bouma J.,1985. Soil spatial variability. Proceedings of a Workshop of the ISSS and the
SSSA, Las Vegas, USA. Pudoc, Wageningenpp.112-129.
Papendick R.I.,Parr J.F.,1992. Soil quality—the key to a sustainable agriculture. American Journal ofAlternative Agriculture,7(1-2),2-3.
Paz-Ferreiro J.,Vazquez E.,Miranda J.,2010. Assessing soil particle-size distribution on experimentalplots with similar texture under different management systems using multifractal parameters. Geoderma,160(1,30),47~56.
Peng L.,Wang J.Z.,Yu C.Z.,1995. Nutrient lossed in soils on loess plateau. Pedosphere,5(1),83-92.
Perez F.L.,1998. Conservation of soil moisture by different stone covers on alpine talus slopes (lassen,california). Catena,33(3-4),155-177.
Poesen J.,Lavee H.,1994. Rock fragments in top soils: Significance and processes. Catena,23,1-28.
Posadas A.,Giménez D.,Bittelli M.,Vaz C.M.P.,Flury M.,2001. Multifractal characterization of soilparticle-size distributions. Soil Sci. Soc. Am. J,65(5),1361-1367.
Reinhart K.G.,1961. The problem of stones in soil-moisture measurement. Soil Science Society ofAmerica Journal,25(4),268-270.
Sarangi A.,Cox C.A.,Madramootoo C.A.,2005. Geostatistical methods for prediction of spatial
variability of rainfall in a mountainous region. Transactions of the Asae,48(3),943-954.
Seyfried M.,1998. Spatial variability constraints to modeling soil water at different scales. Geoderma,85,231–254.
Shi H.,Shao M.G.,2000. Soil and water loss from the loess plateau in china. Journal of AridEnvironments,45(1),9-20.
Shukla M.K.,Slater B.K.,Lal R.,Cepuder P.,2004. Spatial variability of soil properties and potential
management classification of a chernozemic field in lower austria. Soil Science,169(12),852-860.
Sobieraj J.A.,Elsenbeer H.,Cameron G.,2004. Scale dependency in spatial patterns of saturatedhydraulic conductivity. Catena,55(1),49-77.
Stewart C.M.,McBratney A.B.,Skerritt J.H.,2002. Site-specific durum wheat quality and itsrelationship to soil properties in a single field in northern new south wales. Precision Agriculture,3(2),155-168.
Sun B.,Zhou S.L.,Zhao Q.G.,2003. Evaluation of spatial and temporal changes of soil quality basedon geostatistical analysis in the hill region of subtropical china. Geoderma,115(1-2),85-99.
Tsui C.C.,Chen Z.S.,Hsieh C.F.,2004. Relationships between soil properties and slope position in alowland rain forest of southern taiwan. Geoderma,123(1-2),131-142.
Tyler S.W.,Wheatcraft S.W.,1992. Fractal scaling of soil particle-size distributions: Analysis andlimitations. Soil Science Society of America Journal,56(2),362-362.
Tyler S.W.W.,Stephen W.,1989. Application of fractal mathematics to soil water retention estimation.Soil Science Society of America Journal,53(4),987.
Vachaud G.,Passerat De Silans A.,Balabanis P.,Vauclin M.,1985. Temporal stability of spatiallymeasured soil water probability density function. Soil Science Society of America Journal,49(4),822-828.
Van Pelt R.S.,Wierenga P.J.,2001. Temporal stability of spatially measured soil matric potentialprobability density function. Soil Science Society of America Journal,65(3),668-677.
Vervier P.,Pinheiro A.,Fabre A.,Pinay G.,Fustec E.,1999. Spatial changes in the modalities of n andp inputs in a rural river network. Water Research,33(1),95-104.
Wang J.,Fu B.J.,Qiu Y.,Chen L.D.,2001a. Soil nutrients in relation to land use and landscapeposition in the semi-arid small catchment on the loess plateau in china. Journal of Arid Environments,48(4),537-550.
Wang J.,Fu B.J.,Qiu Y.,Chen L.D.,Wang Z.,2001b. Geostatistical analysis of soil moisturevariability on da nangou catchment of the loess plateau, china. Environmental Geology,41(1-2),113-120.
Wang Y.Q.,Shao M.A.,2011. Spatial variability of soil physical properties in a region of the loessplateau of pr china subject to wind and water erosion. Land Degradation&Development,.
Wang Y.Q.,Shao M.A.,Gao L.,2010. Spatial variability of soil particle size distribution and fractalfeatures in water-wind erosion crisscross region on the loess plateau of china. Soil Science,175(12),579-585.
Wang Z.M.,Song K.S.,Zhang B.,Liu D.W.,Li X.Y.,Ren C.Y.,Zhang S.M.,Luo L.,Zhang C.H.,2009. Spatial variability and affecting factors of soil nutrients in croplands of northeast china: A case studyin dehui county. Plant Soil and Environment,55(3),110-120.
Watson R.T.,Bolin B.,2000. Land use, land use change and forestry: A special report of the ipcc.Cambridge Uhiversity Press,Cambridge,U.K.
Wei J.B.,Xiao D.N.,Zeng H.,Fu Y.K.,2008. Spatial variability of soil properties in relation to landuse and topography in a typical small watershed of the black soil region, northeastern china. EnvironmentalGeology,53(8),1663-1672.
Wei W.,Chen L.D.,Fu B.J.,Huang Z.L.,Wu D.P.,Gui L.D.,2007. The effect of land uses and rainfallregimes on runoff and soil erosion in the semi-arid loess hilly area, china. Journal of Hydrology,335(3-4),247-258.
Wei X.R.,Shao M.G.,Fu X.L.,Horton R.,Li Y.,Zhang X.C.,2009. Distribution of soil organic c,n and p in three adjacent land use patterns in the northern loess plateau, china. Biogeochemistry,96(1-3),149-162.
Weindorf D.C.,Zhu Y.,2010. Spatial variability of soil properties at capulin volcano, new mexico,USA: Implications for sampling strategy. Pedosphere,20(2),185-197.
Wick B.,Tiessen H.,Menezes R.S.C.,2000. Land quality changes following the conversion of thenatural vegetation into silvo-pastoral systems in semi-arid ne brazil. Plant and Soil,222,59-70.
Wilcox B.P.,Wood M.K.,1989. Factors influencing interrill erosion from semiarid slopes in newmexico. Journal of Range Management,42,66-70.
Wu H.B.,Guo Z.T.,Peng C.H.,2003. Land use induced changes of organic carbon storage in soils ofchina. Global Change Biology,9(3),305-315.
Wu J.,Norvell W.A.,Welch R.M.,2006. Kriging on highly skewed data for dtpa-extractable soil znwith auxiliary information for ph and organic carbon. Geoderma,134(1-2),187-199.
Xie Z.,Wang Y.,Jiang W.,Wei X.,2006. Evaporation and evapotranspiration in a watermelon fieldmulched with gravel of different sizes in northwest china. Agricultural Water Management,81(1-2),173-184.
Xue Z.P.,Feng W.H.,Cao J.K.,Cao D.D.,Jiang W.B.,2009. Antioxidant activity and total phenoliccontents in peel and pulp of chinese jujube (ziziphus jujuba mill) fruits. Journal of Food Biochemistry,33(5),613-629.
Yajun G.,Yun L.,Jianchang Z.,Wenguo L.,Zhanping D.,Weixian C.,Qin Q.,2009. Effects of mulch,n fertilizer, and plant density on wheat yield, wheat nitrogen uptake, and residual soil nitrate in a drylandarea of china. Nutr Cycl Agroecosyst,85,109-121.
Yanai J.,Choung K.L.,Kaho T.,Iida M.,Matsui T.,Umeda M.,Kosaki T.,2001. Geostatisticalanalysis of soil chemical properties and rice yield in a paddy field and application to the analysis ofyield-determining factors. Soil Science and Plant Nutrition,47(2),291-301.
Yimer F.,Ledin S.,Abdelkadir A.,2006. Soil organic carbon and total nitrogen stocks as affected bytopographic aspect and vegetation in the bale mountains, ethiopia. Geoderma,135,335-344.
Zeleke T.B., Si B.C.,2006. Characterizing scale-dependent spatial relationships between soilproperties using multifractal techniques. Geoderma,134(3-4),440-452.
Zeng Y.,Gantzer C.,Payton R.,Anderson S.,1996. Fractal dimension and lacunarity of bulk densitydetermined with x-ray computed tomography. Soil Science Society of America Journal,60(6),1718-1724.
Zhao P.P.,Shao M.A.,2010. Soil water spatial distribution in dam farmland on the loess plateau, china.Acta Agriculturae Scandinavica Section B-Soil and Plant Science,60(2),117-125.
Zhao Y.,Peth S.,Wang X.,Lin H.,Horn R.,2010. Controls of surface soil moisture spatial patternsand their temporal stability in a semi‐arid steppe. Hydrological Processes,24(18),2507-2519.
Zheng Z.,Zhang F.R.,Ma F.Y.,Chai X.R.,Zhu Z.Q.,Shi J.L.,Zhang S.X.,2009. Spatiotemporalchanges in soil salinity in a drip-irrigated field. Geoderma,149(3-4),243-248.