新疆阿图什哈拉峻地区地下水系统分析

通过对阿图什哈拉峻地区水文地质特征和地下含水系统各子系统间关系分析,采用系统分解合成方法,将地下水系统分解为北部单一潜水系统和南部上层潜水、下部承压水子系统,在合理耦合各子系统基础上,建立了该地区地下水系统的数学模型。采用有限元方法对该模型进行数值离散,经DevelopStudio编程,利用潜水、承压水模拟与实测结果的比较,在得到该地区地下水系统的水文地质参数的同时,重点研究了各系统间水量交换关系,为地下水系统的合理开采利用提供了理论基础和科学数据。     

南方稻区迟熟中籼品种主要经济性状遗传参数估计

应用方差和协方差分析方法对1989年南方区试中籼迟熟组的8个品种的13个性状进行了遗传参数估计,结果表明,参试品种的着粒密度、有效穗和千粒重的遗传基础较丰富,抽穗日数和小区产量的遗传差异则较小;千粒重、着粒密度、穗长和抽穗日数的广义遗传率较高,日产量和小区产量则较低,结实率的遗传变异系数和广义遗传率最低;产量与着粒数的相关较微弱,与有效穗,着粒密度等性状的遗传相关显著,与每穗实粒数、结实率和千粒重的环境相关值较大,有效穗、着粒数和千粒重三个产量构成因素两两之间的三种相关值均为负值,其遗传相关达显著或极显著标准;同一遗传型在不同环境条件中,穗粒数和有效穗与产量的关系较大。     

不同强度静电场长期处理对3种作物几种光合生理指标的影响

在0.1、0.3和0.5 kV·cm-1不同场强的静电场长期作用下,大豆、黄瓜和油青菜心叶片的叶绿素含量、PSⅡ的潜在活性和原初光能转换效率、叶绿体Mg2 -ATP酶和Ca2 -ATP酶活性以及光合代谢产物可溶性蛋白和可溶性糖含量均有不同程度的提高,表明用静电场长期处理作物能够有效地改善作物的光合性能,促进作物的光合作用与光合产物的积累.不同作物对不同场强静电场的响应有所差异,本试验条件下,对大豆、黄瓜和油青菜心处理效果最好的静电场强度分别为0.1、0.3 和0.5 kV·cm-1.     

羧甲基纤维素钠对壤砂土水分运动及水力参数的影响

科学使用羧甲基纤维素钠(CMC)实现保水控盐对于滨海壤砂盐碱土改良具有重要意义,而明晰CMC对滨海壤砂土水分运动规律的影响是科学使用CMC的重要基础。为研究施加CMC滨海壤砂土水分运动规律,本文通过开展一维垂直土柱积水入渗试验,探索不同CMC施量(0、0.1、0.2、0.4、0.6 g?kg-1) 对壤砂土入渗特性、水分分布和土壤水力参数的影响。结果表明,施用CMC土壤的最终累积入渗量增加了4.90％～15.17％、达到预设湿润锋深度的入渗时间增加了61.90%～604.73%;Philip入渗模型参数吸渗率S和Green-Ampt模型参数KsSf均随CMC施量的增加而减少,吸渗率S和平均土壤水扩散率与CMC施量之间的数学关系分别可用二次多项式和指数函数来表示;CMC增强了土壤的持水能力,土壤剖面含水量提高了0.72%～3.74%;CMC通过改变土壤结构影响了土壤水力参数,滞留含水率θr、饱和含水率θs及进气吸力倒数α均与CMC施量呈正相关关系,而与饱和导水率Ks和形状系数n呈反比关系。通过对变异系数CV的分析发现,CMC对饱和导水率Ks和进气吸力倒数α影响表现为中等差异,对滞留含水率θr、饱和含水率θs和形状系数n表现为弱差异。研究结果揭示了CMC对滨海壤砂土减渗保水的内在机理,为滨海盐碱地的改良提供了理论参考。     

秸秆还田种类对稻田N2O排放及硝化反硝化微生物的影响

以太湖流域典型单季稻田的原状土柱为研究对象,通过设置温室土柱试验,同步监测3种秸秆(水稻秸秆RS、小麦秸秆WS、玉米秸秆MS)施用下水稻各生长期N₂O排放、水稻产量和土壤理化因子,同时定量化分析多个N₂O排放相关菌群及功能基因的丰度,以阐明N₂O排放对不同种类秸秆施用引发的微生物响应机制,筛选控制单季稻田N₂O减排增效最佳的秸秆种类。结果表明：与对照相比,RS、WS和MS处理下水稻生长期N₂O排放量分别增加162.32%、107.11%和9.48%,其中RS处理显著高于MS处理。水稻生育期内,土壤氨氧化菌(AOA、AOB)和反硝化菌群落(nir S、nos Z)丰度均呈现先上升后下降的变化趋势。与对照相比,拔节期RS处理显著增加AOA、AOB、nirS和nosZ拷贝数,MS和WS处理对上述功能基因丰度均无显著影响。各生育期土壤NH₄⁺-N含量整体高于NO₃^–-N含量,二者均在水稻分蘖期达到峰...     

Detachment of road surface soil by flowing water

An agricultural watershed generally consists of two land use categories, farmland and the unpaved road or path networks with different traffic frequency and size. Road surfaces are quite different from farmland soil in physical properties, resulting in it's distinguish production transportation process. Hydraulic flume experiments were conducted with the flow discharges ranging from 1 to 5 L s^− 1 and the slope gradients ranging from 8.8% to 46.6% to simulate the soil detachment process on a road surface and to develop tools in order to calculate detachment rates occurring on that road surfaces. The results illustrate that road surfaces behave characteristically in the runoff detachment and sediment delivery process due to the difference in the bulk density and functions of agricultural soils. The soil detachment rate is closely related to flow depth, slope gradient and other hydraulic parameters such as shear stress, stream power and unit stream power. Multiple non-linear regression analyses indicate that detachment rates for all roads can be accurately predicted by power functions of flow depth and slope gradient. According to the experimental results, stream power was suggested as an indicator to estimate soil detachment rate instead of shear stress in soil erosion models. However, considering the simplicity and availability, power function of flow depth and slope gradient is also recommended to predict detachment rate on the road surfaces.     

土壤持水特性参数与土壤质地尺度关系的联合多重分形分析

Soil water-retention characteristics at measurement scales are generally different from those at application scales, and there is scale disparity between them and soil physical properties. The relationships between two water-retention parameters, the scaling parameter related to the inverse of the air-entry pressure (αvG, cm-1) and the curve shape factor related to soil pore-size distribution (n) of the van Genuchten water-retention equation, and soil texture (sand, silt, and clay contents) were examined at multiple scales. One hundred twenty-eight undisturbed soil samples were collected from a 640-m transect located in Fuxin, China. Soil water-retention curves were measured and the van Genuchten parameters were obtained by curve fitting. The relationships between the two parameters and soil texture at the observed scale and at multiple scales were evaluated using Pearson correlation and joint multifractal analyses, respectively. The results of Pearson correlation analysis showed that the parameter αvG was significantly correlated with sand, silt, and clay contents at the observed scale. Joint multifractal analyses, however, indicated that the parameter αvG was not correlated with silt and sand contents at multiple scales. The parameter n was positively correlated with clay content at multiple scales. Sand content was significantly correlated with the parameter n at the observed scale but not at multiple scales. Clay contents were strongly correlated to both water-retention parameters because clay content was relatively low in the soil studied, indicating that water retention was dominated by clay content in the field of this study at all scales. These suggested that multiple-scale analyses were necessary to fully grasp the spatial variability of soil water-retention characteristics.     

基于Markov链地统计模型的区域土壤性质研究进展

土壤水力学性质的空间变异对于区域土壤水分溶质循环模拟研究至关重要。基于Markov链的条件模拟是一种能融合多源信息技术的地统计学模拟方法,与传统插值法和基于变异函数的条件模拟相比有诸多优势。目前,该方法在土壤水力学性质空间变异性领域的研究并未全面展开。实现区域土壤水力学模型参数的随机模拟,对于实现区域土壤水分运动和溶质运移的随机模拟,分析土壤水力学性质空间变异性对土壤水分运动和溶质运移模拟结果的影响,特别是参数采样点变化对土壤水分运动和溶质运移结果影响的不确定性等研究都有重要意义。本文旨在综述基于Markov链的地统计学模拟在土壤学相关领域的研究进展,以期为区域模拟中面临的参数获取难题提供帮助,为区域农业生产管理,水分高效利用,农田生态环境保护提供科学依据。     

流域尺度土壤厚度的模糊聚类与预测制图研究

基于土壤厚度与景观位置和特征之间的关系,运用模糊c均值聚类(FCM)方法对西苕溪流域的土壤厚度分布进行了空间预测。选取高程、坡度、平面曲率、剖面曲率、径流强度系数和地形湿度指数6个地形因子进行模糊聚类,根据相应的聚类参数将流域地形组合分为8类。利用部分调查获得的土壤剖面数据,结合样点属性和专家经验为典型区赋值,最后由加权平均得到流域土壤厚度预测图。验证结果表明,FCM方法可以对地形因子组合进行有效合理的分级,其预测精度较高,模型的稳定性较好,是一种低成本高效率的制图方法。该方法在土壤厚度预测方面具有一定的可靠性。     

GENOTYPIC DIFFERENCES IN ROOT MORPHOLOGY AND PHOSPHORUS UPTAKE KINETICS IN BRASSICA NAPUS UNDER LOW PHOSPHORUS SUPPLY

Application of phosphorus (P) fertilizer is important in crop production because of the low bioavailability of phosphorus to plants in both acidic and calcareous soils. Although rapeseed (Brassica napus) is generally sensitive to P deficiency, different cultivars differ widely in this respect. Differences in P uptake and utilization between two rapeseed cultivars, one P-efficient (‘97081’) and one P-inefficient (‘97009’), were evaluated in solution culture by studying the changes in root morphology and parameters of P uptake kinetics in response to low-P stress. The P-efficient cultivar had lower Km and Cmin values and higher Vmax and developed longer and denser lateral root hair with greater number of root tips and branches under low-P stress, which resulted in a better developed root system and more efficient uptake of P. That, in turn, led to higher concentration and accumulation of P in the plants, culminating in higher biomass production. However, P utilization efficiency (biomass production per unit P accumulated in plant) of the P-efficient ‘97081’ was lower than that of ‘97009’ when P was deficient. These results suggest that P efficiency in rapeseed is due to a better developed root system as well as efficient uptake of P.