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111.
本文对雄县试区试验田的土壤特性空间变异性进行经典统计分析,并利用地质统计学半方差分析法定量描述土壤特性的空间相关结构,然后使用Kriging最优内插估值法得到了田间土壤特性参数的空间分布等值图。分析结果表明,该试验田0~100cm土壤范围内的平均含水量不仅在整个空间分布上而且在纵横曲型剖面上都呈现出弱变异性,空间相关结构显著,相关距离约60~80m。采用上述结论和等值图不但能减少样本采样的数量和密度,还能根据田间含水量的空间分布特征合理布点采样,实施土壤墒情的科学监测。 相似文献
112.
113.
Use of poor-quality groundwater has become inevitable for irrigation to compensate rapidly increasing water demands in many arid and semiarid regions. Salinity and sodicity are the principal soil and water quality concerns in such areas. Many saline–sodic and sodic soils have saline or saline–sodic subsurface drainage waters. Amelioration of these soils needs a source of calcium (Ca2+) that can replace the excess exchangeable sodium (Na+). Most of these soils, however, contain calcite (CaCO3) of extremely low solubility. The native calcite does not supply adequate levels of Ca2+ for soil amelioration as do other chemical amendments. Phytoremediation may help ameliorate such soils through cultivation of certain crops tolerant to ambient soil salinity and sodicity. This amelioration strategy works through plant root action to help dissolve CaCO3 to supply adequate Ca2+ without the application of an amendment. During a 3-year field experiment conducted under irrigated conditions, we evaluated phytoremediation against soil application of gypsum and farm manure, and water treatment with sulphuric acid on a calcareous saline–sodic soil (pHs=8.0–8.4, ECe=24–32 dS m−1, SAR=57–78, CaCO3=45–50 g kg−1 for the top 0.15 m depth; Calcic Haplosalids). A saline–sodic water (EC=2.9–3.4 dS m−1, SAR=12.0–19.4, RSC=4.6–10.0 mmolc l−1, SARadj=15.6–18.4) was used to irrigate the rice (Oryza sativa L.) and wheat (Triticum aestivum L.) crops grown in rotation. Active desalinisation and desodication processes were observed in all the treatments. After the final wheat crop, the 1.2 m soil profile ECe was 7±0.5 dS m−1 and SAR was 15±2 with non-significant treatment differences, indicating comparable soil amelioration effect of phytoremediation with other treatments. Better crop yields were obtained from the manure-treated plots, owing to its annual addition to the soil that possibly improved soil fertility. Phytoremediation needed minimum capital input because no initial investment was made to purchase the amendments. 相似文献
114.
Fusheng Ma Shaozhong Kang Fusheng Li Jianhua Zhang Taisheng Du Xiaotao Hu Mixia Wang 《Agricultural Water Management》2007,90(3):190-196
The effects of water deficit in different fruit growth stages on the variation of stem sap flux of 6-year old greenhouse-grown pear-jujube trees were investigated. Treatments included sufficient water supply during the whole fruit-growing period (T1), mild water deficit during the flowering–fruit setting stage (T2), moderate water deficit during the fruit rapid growth stage (T3) and severe water deficit during the fruit maturing stage (T4). Results showed that significant compensation effect on stem sap flux after re-watering was observed in T2, but not in T3 and T4 stages. At the end of rapid growth stage, the diurnal variation of stomatal conductance generally had a similar trend as that of stem sap flux, but with a distinct midday depression from 12:00 to 14:00 p.m. In addition, a linear relationship between the relative available soil water content (RAWC) and the ratio of daily stem sap flux to that of sufficient water treatment was observed (R2 = 0.4489). 相似文献
115.
为了实现野外偏远、无GPRS信号地区土壤墒情、温度及降雨量的远程无线实时监测,设计了一套由土壤墒情及相关影响信息实时采集系统、铱星通信以及互联网技术构成的"物联网"架构式土壤墒情实时监测系统,围绕铱星SBD(Short burst data)终端模块9602开发了具有独立知识产权的数据采集系统。该系统实现了智能化、网络化的土壤墒情实时监测,以及历史数据的查询、下载,根据设定阈值进行短信报警、传感器和通信故障报警等功能。该系统自2011年8月在山东省、北京市等地运行以来,可以安全、稳定、可靠地获取监测土壤含水率、温度及降雨量信息。通过试验可知铱星通信在空旷地带成功率为97.2%,单个节点通信费用为每月200元(12 000字节),达到了对土壤墒情、温度和降雨量变化规律进行长期监测的目的。 相似文献
116.
黄土高原半干旱区退耕还林对土壤微量元素的影响 总被引:1,自引:0,他引:1
为了探明黄土高原半干旱区退耕还林对土壤微量元素(Cu、Zn、Mn、Mo、Fe)含量的影响及其与影响因子间的关系,以甘肃省关川河流域退耕还林地和农地为研究对象,使用有效性评价、通径分析等方法研究土壤微量元素与土壤环境变量间的关系。结果表明:退耕后土壤微量元素含量随土层深度增加而减少,在表层土壤中呈一定的富集现象。退耕地Cu、Mn、Mo的有效性指数高于Zn、Fe,侧柏林地有效性综合指数高于云杉林地。偏相关分析显示,退耕还林区土壤微量元素有效态含量的主要影响因素为土壤有机质、全钾、全氮与土壤含水率;回归分析显示,土壤环境因子可解释38.1%~73.8%有关土壤微量元素含量的变异;通径分析表明,土壤全钾对土壤微量元素的直接作用最大,土壤全氮对微量元素的间接作用最大;决策分析表明,土壤全钾与土壤有机质是退耕还林区微量元素含量的决策变量,而土壤含水率是土壤微量元素的限制变量。 相似文献
117.
日本设施栽培土壤热水消毒技术的发展现状 总被引:5,自引:0,他引:5
简要说明了土壤物理消毒技术的基本方法和原理,着重介绍了日本土壤热水消毒法的发展过程,土壤热水消毒的主要设备、基本作业步骤、土壤热水消毒的功效。 相似文献
118.
对山东省姜田土壤特性与南方根结线虫密度进行了逐步回归和通径分析 ,同时进行了曲线拟合处理。表明 :土壤总空隙度 37.91%、有机质含量 3.16 %、有效磷含量 130 .6 9× 10 - 6 、有效铁含量 14 5 .93× 10 - 6 和有效锰含量 4 8.6 0× 10 - 6 时南方根结线虫密度最低 ,有效钾含量在 2 4 3.6 2× 10 - 6 时南方根结线虫密度最高。提出适当降低土壤总空隙度和有效钾含量 ,尽可能提高土壤中有机质、有效磷、有效铁和锰含量的土壤改良方案。 相似文献
119.
Can carbon sequestration markets benefit low-income producers in semi-arid Africa? Potentials and challenges 总被引:1,自引:0,他引:1
The Clean Development Mechanism (CDM) of the Kyoto Protocol of the United Nations Framework Convention on Climate Change allows a country that emits C above agreed-upon limits to purchase C offsets from an entity that uses biological means to absorb or reduce greenhouse emissions. The CDM is currently offered for afforestation and reforestation projects, but may apply subsequently to sequestration in agricultural soils. Additionally, markets outside of the Protocol are developing for soil C sequestration. 相似文献
120.
There is an increasing trend to require more efficient use of water resources, both in urban and rural environments. A major mechanism that can be used to achieve greater efficiencies is the reuse of water that once would have been discarded into the environment after use. The reuse of water for agricultural irrigation is often viewed as a positive means of recycling water due to the potential large volumes of water that can be used. Recycled water can have the advantage of being a constant, reliable water source and reduces the amount of water extracted from the environment. In addition, in some cases treatment requirements may be need to be less than for water used in an urban environment due to less potential human contact. There are concerns and unknowns, however, about the impact of the quality of the recycled water, both on the crop itself and on the end users of the crops. Water quality issues that can create real or perceived problems in agriculture include nutrient and sodium concentrations, heavy metals, and the presence of contaminants such as human and animal pathogens, pharmaceuticals and endocrine disruptors. Social attitudes to the use of crops that have been irrigated with recycled waters and the resulting impact on market value of crops are also a major consideration. This paper will discuss the benefits from using different types of recycled water and outline the current knowledge and opinions relating to risks such as water quality issues. 相似文献