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牦牛放牧试验结果表明:随着放牧率的增加,冬季草场不同土层有机质、有机碳、全氮的含量和C/N值下降,它们的含量与放牧率呈显著的线性回归关系,全磷和速效氮的含量与放牧率呈显著的二次回归关系,各土壤营养因子平均含量与放牧率也有类似的关系;当放牧率分别达到0.81头hm-2和1.00头hm-2,1.03头hm-2和1.03头hm-2,1.36头hm-2和1.30头hm-2时,0~5cm,5~10cm,10~20cm土层全磷和速效氮的含量分别依此达到最大,若放牧率继续增强,它们的含量依此开始减小;而且0~20cm土层全磷和速效氮平均含量达到最大的放牧率分别是1.03头hm-2和1.06头hm-2。放牧率和土壤深度的交互作用对土壤各养分因子含量的影响极显著(P<0.01);放牧率对各土壤层含水量有极显著的影响(P<0.01),不同年度间同一土壤层含水量的差异极显著(P<0.01)。 相似文献
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对中国科学院沈阳生态实验站潮棕壤水稻田、玉米地、撂荒地和人工林地4种土地利用方式经过14年后在0~150 cm土体10个土层中土壤比表面的剖面分布进行比较研究的结果表明,不同土地利用方式及不同深度土层土壤比表面差异显著,除林地0~5 cm表层外,4种土地利用方式在80 cm以内深度的土层中土壤比表面随剖面深度增加呈渐次增大的趋势,说明林地表层高有机碳积累对土壤比表面增加可能产生了重要影响。150 cm深度土壤比表面平均值为林地>玉米地>撂荒地>水稻田。土壤比表面与土壤风干含水量及交换性盐基总量呈极显著正相关关系:水稻田、玉米地、撂荒地、林地中土壤比表面与风干含水量相关系数分别为0.767、0.911、0.943、0.953(n=30,P<0.001);与土壤交换性盐基总量的相关系数分别为0.877、0.978、0.673、0.780(n=30,P<0.001)。不同利用方式下土壤比表面与土壤有机碳、全氮、碱解氮呈显著负相关关系,与土壤pH、硫、磷之间的关系因土地利用方式不同而具有一定的差异。研究结果表明,土壤比表面可作为指征不同土地利用方式对土壤理化性质影响的可行的土壤物理学指标,测定不同土壤的比表面可以基本反映出土壤交换性能的差异。 相似文献
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在洞庭湖区的2km2典型样区内,按3个/hm2的密度采集土样,分析不同耕种方式下(水稻、水旱轮作油菜、水改旱种苎麻1~5年)水稻土壤的有机碳、全氮和全磷含量状况。结果表明,水稻田土壤有机碳、全氮和全磷含量水平均较高,水田改为旱地后土壤有机碳、全氮含量及C/N比值有较大幅度的下降,但全磷含量变化不大。土壤有机碳、全氮及C/N比值均以水稻田土壤>油菜地土壤>苎麻地土壤,与水稻田相比,油菜土壤有机碳平均下降了11.19%、全氮下降了10.33%,而苎麻土壤有机碳平均下降了35.57%、全氮下降了31.61%。土壤有机碳与全氮之间呈线性关系,相关性均达极显著水平(P<0.01)。 相似文献
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以三江平原腹地挠力河、别拉洪河、浓江河流域自然沼泽湿地为研究对象,研究了典型湿地土壤腐殖质的剖面分布及其组成特征,并探讨了土壤腐殖质与植被类型及土壤全氮含量的关系。三江平原典型湿地土壤草根层和泥炭层中胡敏酸(HA)和富里酸(FA)的累计含量在整个剖面总量中的比例均大于70%,各组分相对含量分别高于35%总有机碳和23%总有机碳,其剖面分布与土壤有机碳(SOC)的变化趋势一致,由表层向下层逐渐减少。除小叶章湿地土壤草根层HA/FA值为0.97外,三江平原典型湿地土壤HA/FA均大于1,其剖面均值为1.4~2.5,表明三江平原湿地为胡敏酸型土壤.腐殖质各组份含量及其HA/FA值因植被类型而异,而与土壤全氮含量呈显著线性相关(p<0.05)。 相似文献
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研究了蔗园土壤养分的垂直分布特征。结果表明:(1)不管是在旱地蔗园还是在水田蔗园,0~30cm土层的有机质、水解氮、速效磷、速效钾等主要养分含量明显高于30~60cm的土层,但全氮、全磷、全钾在0~30cm土层与30~60cm土层之间没有明显的变化。(2)旱地蔗园的有效铁、有效锰和有效铜0~30cm土层比30~60cm土层高,有效锌含量在0~30cm的土层与30~60cm的土层之间变化不大。 相似文献
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以常规水作和裸地旱作作对照,对覆膜旱作栽培条件下稻田各土层(0~60cm)土壤有效N、P、K和盐分含量变化作了比较研究。结果表明:与常规水作相比,覆膜旱作稻田10~15cm土层的碱解氮与有效磷含量显著增加,其余差异不大。与裸地旱作相比,覆膜旱作稻田5~15cm土层的碱解氮含量及5~20cm土层的有效磷含量显著增加,其余差异不大。与常规水作和裸地旱作相比,覆膜旱作稻田土壤速效钾含量在20cm以上土层增加明显。当地下水位较高时,覆膜旱作稻田0~5cm表层土壤表现积盐,地下水位较低时表层表现脱盐。 相似文献
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在宁夏灌区和旱区30块农田分别采集了0~120 cm深土壤剖面样品,测定了土壤全磷和速效磷含量,分析了土壤磷素养分含量的空间变异性。结果表明,在0~120 cm深土壤剖面中的全磷和速效磷含量,灌区土壤显著高于旱区土壤,在剖面点之间和土壤层次之间存在极显著差异,而且在土层间还存在着正相关。其变异系数总体上是旱区土壤大于灌区土壤,速效磷大于全磷。从地区来看,旱区土壤全磷和速效磷含量的变异系数随剖面深度的增加而增大,灌区土壤全磷量的变异系数在剖面层次之间差别不大,而速效磷的变异系数随剖面深度的增加而呈降低趋势。在0~120 cm深土壤剖面中,土壤全磷和速效磷的累积量灌区较旱区分别高出26.8%和65.0%,在土类间也存在较大差异。 相似文献
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本文对环江肯福环境移民安置示范区所采 88个表层土样及 4个剖面土样有机质 ,全氮 ,全磷 ,全钾 ,水解氮 ,速效磷 ,速效钾 ,pH等指标进行了测定。结果表明该区表层土壤有机质含量较高 ,土壤氮相对丰富 ,钾含量偏低 ,磷严重缺乏 ,pH偏酸性。土壤剖面发育完整 ,在土壤剖面中有机质、氮、速效磷、交换性钾主要聚集在 2 0cm的表层土壤中 ,全磷随深度的增加而降低 ,全钾和 pH值则随土壤深度增加而上升 相似文献
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结合6个施氮水平下土壤Nmin速测值分析了土壤Nmin与施肥量和棉花产量关系,对应用土壤Nmin进行棉花氮肥推荐进行了研究。分析结果表明:土壤Nmin与棉花产量和施氮量均呈正相关关系,与土壤深度呈负相关关系;其中0~20cm土层土壤与施氮量和棉花产量相关性最强,可以很好的表征土壤初始供氮能力,因而可以利用它作为棉花氮肥推荐的指标。在考虑土壤初始供氮能力下,供试棉花品种达到最高产量时的最佳施肥量为226kghm-2,此时0~20cm土层土壤Nmin临界值为为20mgkg-1,并结合最佳施肥量和0~20cm土层土壤Nmin临界值计算出了棉花苗期、蕾期、花铃期的氮肥追施量。 相似文献
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利用数学模型模拟的方法分析土壤水运移过程 ,用以评价土壤 -作物 -大气循环系统的交互作用和作物需水、耗水规律。本项研究以松嫩平原典型黑土区海伦站为试验基地 ,以 1995、1997和 1999(平水年、丰水年和枯水年 )三个典型年份为样本 ,建立了土壤属性数据库、作物生长参数数据库和气象数据库。模拟了土壤水分的变化过程 ,取得了较好的结果。 相似文献
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本文通过ASDFR便携式光谱仪对132个风干土壤样品的光谱反射率进行了实验室测定。根据土样光谱反射率变化,获得了褐潮土土壤剖面的不同诊断层反射光谱特征。结果表明,在400~1200nm范围之间,土壤有机质含量与土壤光谱反射率有较好的相关性。利用导数光谱方法建立了预测土壤有机质含量的方程,提出了预测北京地区褐潮土有机质光谱的最佳波段。在波长447nm处采用反射率和A值(反射率倒数的对数)所建立的预测方程的预测精度较高。采用反射率的一阶微分建立的预测方程的最佳波段在516nm处。而A值一阶微分光谱在615nm处相关性最好。作为一项参考指标用光谱分析法评价土壤中有机质含量,以期对精准农业中土壤养分或肥力的预测具有一定的指导作用。 相似文献
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本文研究了黔中岩溶丘陵区几种不同士地利用和管理方式下土壤物理、化学和生物学性状的特征。结果表明,农林(林草)复合利用模式在土壤粒级组成、孔隙分布、持水性能、有机质和N、P养分、酶活性等方面表现出较好的肥力性状特征,有机无机肥配施、精细管理的灌溉农田次之,而粗放管理的旱坡耕地,土壤肥力性状严重恶化,逐步向石漠化景观演变。不同土地利用方式和管理措施显著影响土地肥力变化的程度和方向,调整土地利用结构,实行基本农田精细管理、陡坡耕地退耕还林(革)是保护土地资源,实现区域生态重建和农业可持续发展的根本途径。 相似文献
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《Environmental Modelling & Software》2002,17(3):295-311
We investigated two approaches for large-scale analysis and prediction of the spatial distribution of soil properties in an agricultural landscape in the Canadian prairies. The first approach was based on the implementation of nine types of digital terrain models (DTMs) and regression analysis of soil and topographic data. The second approach used a concept of accumulation, transit, and dissipation zones of the landsurface. Soil properties were soil moisture, residual phosphorus, solum thickness, depth to calcium carbonate, and organic carbon content. The dependence of soil properties on topography was supported by correlations for the upper soil layer. However, topographic control of soil moisture and residual phosphorus decreased with depth. Also, correlation coefficients and regression equations describing topographic control of soil moisture and residual phosphorus differed among seasons. This imposes limitations on regression-based predictions of the spatial distribution of soil properties. The prediction of soil property distribution with the concept of accumulation, transit and dissipation zones can be more successful and appropriate than the prediction based on linear regression. The variability in relationships between soil and topographic characteristics with depth may stem from spatial variability in the rate of decline of hydraulic conductivity with depth. Temporal variability in soil–topography relationships occurs because soil properties result from interactions of a variety of pedogenetic factors and processes marked by different temporal variability. In soil studies with digital terrain modelling, there is a need to take into account four types of variability in relations between soil and relief: regional, temporal, depth, and scale. 相似文献
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Pedotransfer functions (PTFs) have routinely been used to estimate the soil hydraulic properties (SHPs) from easily measurable soil properties, such as particle-size distribution, organic matter content and bulk density. However, different PTFs often yielded different prediction results. In order to deal with the PTF selection problem, this study used multimodel ensemble approaches to simulate forest soil moisture based on the modelling results of different PTFs. A total of 300 days of observed soil moisture data at four depths (10-, 20-, 40- and 60-cm) were adopted to calibrate the Richards equation and obtain the SHPs by using the inverse option in HYDRUS-1D. Six published PTFs were selected to predict the SHPs, which were used to predict soil moisture temporal variations at these four different depths. Two multimodel ensemble methods, including the simple model average (SMA) and the multiple linear regression (MLR)-based superensemble, were used in this study. Under different selections of training periods (i.e. 50, 100 and 150 days), performances of these multimodel ensemble approaches were compared with those of the best single PTF model. The SMA always had worse performance than the best single model. However, the performances of the superensemble approach were better than those of the best single model, and even comparable to those of the calibrated soil water flow model. Results show that given the relatively long training period (>50 days), it is worthwhile to consider the superensemble method to simulate soil moisture contents in forestland. 相似文献
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Satellite images obtained in the optical domain can provide information on important soil properties, such as texture. The use of these images to automatically map soil texture is, however, complicated by the presence of vegetation cover, which can mask the soil spectral response. A multistep methodology based on the use of ground, satellite and ancillary data is proposed and tested to map soil texture in Grosseto, a province of Central Italy. The methodology first separated vegetated and nonvegetated pixels of Landsat Thematic Mapper (TM) images by the use of an appropriate spectral index, the Soil Adjusted Vegetation Index (SAVI). Next, different transforms (nonparametric and parametric) were tuned using ground samples and applied to the two pixel types to separately extract relevant spectral information. The outcomes of these transforms were then merged and subjected to further processing aimed at reducing noise and conveying spatial information to the mapping process. The stratification of the soil texture estimates obtained on different lithological units was finally tested to further improve map accuracy. 相似文献
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《Environmental Modelling & Software》2007,22(7):937-950
The Plant Protection Product Directive (91/414/EEC) stresses the need of validated models to calculate predicted environmental concentrations. The use of models has become an unavoidable step before pesticide registration. The main topic of the research presented here is the validation of the PEARL model for two well-instrumented sites located in the Netherlands and Sweden. First the water transport module was calibrated, and then the solute transport module, keeping unchanged the water transport parameters. The Dutch site is characterised by a sandy soil. PEARL predictions were very satisfactory for both soil moisture content and groundwater level. Predictions for the tracer, bentazone and ethoprophos concentrations in the soil profile were also successful. The Swedish site is characterised by a structured clay soil. PEARL was successful in predicting soil moisture profiles and the draining water. PEARL performed well in predicting the soil concentration of bentazone at different depths, however, it did not predict accurately solute concentration in the drainage water. A sensitivity analysis of the PEARL model performed on the Swedish site showed the greater importance of the pesticide degradation properties over the soil hydraulic properties. 相似文献
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ALFREDO R. HUETE 《International journal of remote sensing》2013,34(9):1307-1317
Abstract The spectral behaviour of an incomplete cotton canopy was analysed in relation to solar zenith angle and soil background variations. Soil and vegetation spectral contributions towards canopy response were separated using a first-order interactive model and consequently used to compare the relative sensitivity of canopy spectra to soil background and solar angle differences. Canopy reflectance behaviour with solar angle increased, decreased or remained invariant depending on the reflectance properties of the underlying soil. Sunlit and shaded soil contributions were found to alter vegetation index behaviour significantly over different Sun angles. 相似文献
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保护地蔬菜土壤养分状况与大田露地土壤有很大差别.土壤有机质含量高于露地,一般在15~40g/kg,土壤有酸化的趋势.土壤中有效氮的含量明显高于露地土壤,硝态氮的平均含量超过190mg/kg.土壤有效磷的含量158.8mg/kg,比露地土壤高出6倍多.土壤有效钾的平均含量274.52mg/kg,比露地土壤高出2.56倍.土壤中交换性钙和镁的含量在临界指标以上,但某些情况下作物出现缺钙和缺镁症.化肥施用量大,决定了保护地蔬菜土壤养分的特点. 相似文献