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331.
温室内采用的供试作物为青椒,在土壤水分相同的条件下(土壤含水率下限为60%~70%,以占田间持水率的百分比计)通过试验对比分析了日光温室小管出流和沟灌2种灌溉方式对土壤温度、土壤水分、青椒叶绿素含量及长势、产量的影响。研究结果表明,在土层深度为5、15、25、35 cm时,小管出流的土壤温度较沟灌依次高0.24、0.23、0.17、0.30℃。在灌水前后的土壤水分空间分布及含水率均大于沟灌,小管出流灌溉方式下青椒的叶绿素含量较沟灌高6.8%,产量较沟灌增产34%,水分生产率比沟灌提高了0.9倍。 相似文献
332.
侵蚀产沙的尺度变异规律,是当今土壤侵蚀研究的前沿,它涉及的研究范围广泛,小到土壤颗粒,大到全球气候变化与碳循环过程。特别是不同尺度流域之间侵蚀产沙和输移,究竟有什么样的内在联系,小流域所获得的研究成果是否能推广应用到大中流域,已成为迫切需要解决的重要科学问题。有关流域侵蚀产沙与输移过程随流域尺度复杂变化的研究,国际上刚刚开始,国内有关流域尺度研究主要涉及于水文学领域的一些尺度研究,关于流域侵蚀产沙与输移过程随流域尺度复杂变化的研究不多。作者对国外当前土壤侵蚀模型的最新进展进行了综述,并对侵蚀产沙的尺度变异规律进行了分析。由于具有GIS强大的空间数据管理和分析能力,它将在流域侵蚀产沙尺度变异这一侵蚀产沙的问题研究中发挥重要作用。 相似文献
333.
Mohammad Bahadori Hasan Tofighi 《Communications in Soil Science and Plant Analysis》2016,47(2):213-220
The Walkley-Black (WB) method, because of its simplicity and rapidity, has been widely used during the past 50 years for determination of soil organic carbon (SOC), but one of the main problems with WB method in operation is determination of titration end point by the observer. In the past several years some studies have been done to reduce the human role in determination of titration end point in WB method. In this study, in addition to the routine method of using an indicator for end point determination, a potentiometric and a spectrophotometric method was also employed for end point determination. The results indicated that these two methods are more accurate than the indicator method. Finally, a modified Walkley-Black (MWB) method employing a spectrophotometric procedure was proposed, which is more reproducible, easier in operation, and more economical. 相似文献
334.
Michael Schubert Klaus Freyer Hans-Christian Treutler Holger Weiß 《Journal of Soils and Sediments》2001,1(4):217-222
1 The Problem One of the major problems facing risk assessment at polluted industrial sites and military bases is subsurface contamination by non-aqueous phase-liquids (NAPLs), since tracing the extent of a NAPL plume using conventional methods (drive point profiling) is usually associated with difficulties. In an effort to trace subsurface contamination as precisely as possible, monitoring points are placed in the area that might be affected by contaminants, and groundwater and soil samples are taken to the laboratory for analysis. However, the final number of monitoring points is hardly ever sufficient for distinctive contamination mapping, and this may ultimately result in an unsuitable remediation action being taken. 2 Objectives To obtain a more detailed image of a subsurface NAPL plume and, hence, to facilitate remediation measures that are best suited for the site in question, a denser network of monitoring points is desirable. The aim of the investigation described in this paper was therefore to develop a new detection method for subsurface NAPL contamination, which is based on an easily accessibleindicator for NAPLs rather than on the analysis of soil and groundwater samples taken at the site. Based on the good solubility of radon in NAPLs, the idea was put forward that subsurface NAPL contamination should have an influence on the natural radon concentration of the soil gas. Provided this effect is significant, it would be possible to carry out a straightforward radon survey on an appropriate sampling grid covering the suspected site and thus enabling the NAPL contamination to be detected by the localization of anomalous low radon concentrations in the soil. The overall aim of the investigation was to assess the general suitability of the soil-gas radon concentration as an indirect tracer for NAPL contamination in the ground. 3 Methods The partitioning coefficient KNAPL/air is one of the most influential parameters governing the decrease of the radon concentration in the soil gas in the presence of a subsurface NAPL contamination. Since NAPL mixtures such as gasoline, diesel fuel and paraffin are among the most important NAPLs regarding remediation activities, laboratory experiments were performed to determine the radon-partitioning coefficient for these three NAPL mixtures. Field experiments were carried out as well. The aim of the field experiments was to test the use of the soil-gas radon concentration as a tracer for NAPL contamination on-site. For the field experiments, each site was covered with a suitable grid of soil gas sampling points. Finally, the lateral radon distribution pattern achieved on each of the sites was compared to the respective findings of the earlier research performed by conventional means. 4 Results and Discussion The results of the laboratory experiments clearly show a very strong affinity of radon to the NAPL mixtures examined. The partitioning coefficients achieved correspond to those published for pure NAPLs (Clever 1979) and are thus in the expected range. The results of the field experiments showed that the minimum radon concentrations detected match the respective NAPL plumes traced previously. 5 Conclusions Both the results of the lab experiments and the on-site findings demonstrate that the soil-gas radon concentration can be used as an indicator for subsurface NAPL contamination. The investigation showed that NAPL-contaminated soil volumes give rise to anomalous low soil-gas radon concentrations in the close vicinity of the contamination. The reason for this decrease in the soil-gas radon concentration is the good solubility of radon in NAPLs, which enables the NAPLs to accumulate and ‘trap’ part of the radon available in the soil pores. 6 Recommendations and Outlook Further research is required into contamination with rather volatile NAPLs such as BTEX. Further research is also needed to examine whether it is possible to not only localize a NAPL plume, but also to obtain some quantitative information about the subsurface NAPL contamination. The authors also believe that additional investigations should be carried out to study the ability of the method to not just localize a NAPL contamination, but also to monitor on-site, clean-up measures. 相似文献
335.
336.
长期的劣质水灌溉将导致土壤潜在的次生盐碱化。通过在以色列的大田试验,分析了劣质水灌溉对浅埋地下水位条件下土壤盐碱动态和作物产量的影响。试验在安装有暗管排水系统的试验田中进行。试验田土壤为粉砂粘土,种植有饲料玉米(Zea mays L.)。试验结果显示,高盐碱地下水的侧向运动和蒸发形成了试验田南半部和北半部土壤中盐碱度分布的巨大差异。在试验条件下,0~1.2 m土壤中的盐分在整个玉米生长期内平均增加了7.5%,碱度增大了19.6%。作物产量和植株高度与土壤含盐量成反比,籽粒产量受影响最为严重。利用冬季的降雨淋洗土壤盐分是维持本地区灌溉农业持续发展的关键。 相似文献
337.
零通量面法计算土壤水分腾发量研究 总被引:1,自引:0,他引:1
土壤水分腾发量的确定是土壤水分运动研究的难点问题。零通量面法是利用零通量面存在时段计算土壤水分腾发量的方法。在计算时段内,根据零通量面发育状态不同可分为零通量面稳定条件下的计算公式和零通量面移动条件下的计算公式。选择不同水位埋深、不同作物类型的土壤剖面对计算公式进行了验证,结果表明,零通量面法计算土壤水分腾发量精度较高,简单易行。本方法适用于计算潜水埋深在3~10 m的干旱半干旱的平原地区计算土壤水分腾发量。 相似文献
338.
为了探讨施肥及耕作技术集成对木薯地土壤理化、生物性状及木薯产量的影响,本试验共设置5个处理,分别是生物有机肥+测土配方肥+盖膜集雨水+深耕(处理1)、生物有机肥+测土配方肥+盖膜集雨水(处理2)、生物有机肥+测土配方肥+深耕(处理3)、生物有机肥+测土配方肥(处理4)、施通用高浓度复合肥(处理5常规施肥及种植方式作为对照),通过大田试验研究他们对木薯地土壤理化、生物性状及木薯产量的影响。结果表明:与常规施肥及种植方式相比,不同施肥及耕作栽培技术集成处理均可提高木薯地土壤养分含量和含水量,改善土壤理化性状和土壤微生物区系组成。处理1的木薯产量增幅达到35.81%,差异极显著。本试验条件下,木薯最优的施肥及耕作栽培模式是技术综合集成生物有机肥+测土配方肥+盖膜集雨水+深耕(处理1)。 相似文献
339.
对云南五种植烟土壤上烤烟三个品种、六个生育期烟叶中钾、磷、硫、钙、镁、铁、锰、锌、铜、硼浓度和烟株根区土壤中AB/D联合提取的养分含量及土壤pH、有机质和碱解氮的测试数据,用主组分分析(PCA)方法,讨论土壤─烤烟系统矿质营养元素的相互关系及交互作用。结果显示:①烟叶矿质营养元素浓度随烤烟生育期有规律的变化,受根区土壤化学性质影响的变异大于品种间的差异;②烟叶钾、磷、铜、硼表现明显的稀释效应,钙、镁表现积累效应;③烤烟钾、磷、铜、硼营养存在相互协同作用,钙对钾、磷、铜、硼营养有明显的拮抗作用。④增加土壤有机质,利用钾、磷、铜、硼的协同作用,减轻钙对钾、磷、硼的拮抗是改善烤烟营养,提高烤烟产量品质的关键之一。 相似文献
340.
华北平原农田生态系统土壤C、N净矿化及尿素转化研究 总被引:4,自引:0,他引:4
以华北平原区4个农田生态系统[京郊蔬菜大棚(GH)和河北栾城(LF)、河北南皮(NF)、山东惠民(HF)3个粮田]为研究对象,采用室内好气、恒温、避光条件下培养30.d,对比研究了不同海拔和不同农业扰动强度下的农田生态系统中耕层(020.cm)土壤的净N矿化、净硝化、净C矿化以及尿素的转化,旨在探索人类农业扰动强度和地理海拔对土壤供N潜力和尿素N转化的影响。结果表明,4个地区的土壤供N潜力分别为:14.4、13.2,17.7和16.5.mg/kg,说明高度熟化的华北区农田土壤供N潜力相对稳定。以施用有机肥为主的蔬菜大棚和以施用化肥为主的粮田对土壤供N没有显著影响。农田土壤净矿化后的供N形式主要是NO3--N。以施用有机肥为主的蔬菜大棚积累了较高的土壤有机质和全N,但是土壤净C矿化以及施用尿素后CO2的排放量均低于以施用化肥为主的粮田。尿素在各区域农田土壤中水解转化后均主要以NO3--N形式存在,NO3--N占尿素水解后无机N增量的98%9~9%;华北平原农田生态系统施入尿素态N.30d后,水解成有效态无机N的转化率为63.4%8~3.2%,即每克尿素态N在京郊蔬菜大棚(GH)、栾城高产农田(LF)、南皮农田(NF)和惠民农田(HF)土壤中转化为NO3--N的量分别为0.69、0.82、0.64和0.63.g/kg,同时可使相应区域农田的CO2排放量分别增加CO21.20、1.360、.67和1.58.g/kg。 相似文献