共查询到20条相似文献,搜索用时 46 毫秒
1.
Mats Söderström 《Environmental Geology》1992,20(2):85-92
Spatial distribution of the salinity in groundwater used for irrigation and irrigated soil was investigated on Gammouda Plain, an important agricultural area in central Tunisia. Samples from 188 wells and irrigated fields were obtained in November 1988. Groundwater salinity ranges from 2 to 30 dS/m, and 50 percent of the sampled wells have a salinity higher than 3.5 dS/m. In most cases the soil samples have a salinity higher than 4 dS/m. Maps of salinity and leaching were produced by a geostatistical interpolation method based on ordinary kriging. In a great part of the plain, the estimated salinity levels indicate that there is a considerable risk for reduced yield potential for several of the most important crops grown. A rough estimation of the leaching fraction was computed from the soil and water salinity. Computer-based models of salinity ought to facilitate the general planning of irrigation management and crop selection. 相似文献
2.
Dr. Jiftah Ben-Asher 《GeoJournal》1987,15(3):267-272
The potential of the saline water for irrigation against the background of the world's food shortage is reviewed. It is shown that irrigation has improved food situation wherever it has been used. However, irrigation is always associated with salinity problems. Leaching techniques and drip irrigation suggest a partial solution for the problem. The objective of this paper is to review and examine additional solutions in order to increase the use of saline water for irrigation. A quantitative approach to further research on the use of saline water for irrigation is suggested. An analytical solution to the mass-balance equation of nutrients and salt in the soil, which includes a sink term for absorption by a plant, revealed some valuable derivatives, both for planning further research in irrigation with saline water and making decisions about fertilization and soil leaching throughout the growth period of a crop. Preliminary attempts to meaningfully increase the fertilization level of crops irrigated with saline water support the approach that was developed from one of the model's derivatives. 相似文献
3.
Under thhe drought conditions that have occurred in Bulgaria during the last decade, agricultural use of non-conventional water may be an important resource. This is a specific case of simultaneous purification and utilisation by soil ecological systems. However, using non-conventional quality water presents a number of ecological and health risks and poses problems connected with soil and surface and ground water contaminated and with producing crops of acceptable quality. Bulgaria's municipal, industrial, and rural wastewater reclamation and reuse, in addition to other non conventional water resources as sea water, drainage water and mineralised groundwater, may be a reliable source even in drought years and thus is capable of replacing potable used in agriculture. This paper reviews the work of the authors and their colleagues in assessing the irrigation potentials of waste water in Bulgaria. 相似文献
4.
N. K. Sharma S. Bhardwaj P. K. Srivastava Y. J. Thanki P. K. Gadhia M. Gadhia 《International Journal of Environmental Science and Technology》2012,9(2):361-370
Irrigating food crops with treated wastewater is a popular management option in India. This study evaluated the impacts of land application of treated petrochemical effluent on soil chemical properties. Soil samples were collected from different depths from sites irrigated with petrochemical effluent for 2?years and from control sites. The effluent collected was analysed for different physic?Cchemical properties and its impact on Lagenaria siceraria (Bottle gourd) growth. 100% concentrated effluent was used for the study and compared with the control. It was observed that application of effluent significantly increased the major cations and anions in the field. On the basis of the study, it may be suggested that treated petrochemical effluent can be used as an alternate source for irrigating crops as it increases the nutrient content of the soil. The overall application indicates a lavishing growth of L. siceraria crop in petrochemical irrigated soil than control sites. This study provides information for better understanding of changes in soil properties due to land application of petrochemical effluent. These changes must be considered in developing possible criteria for preserving delicate ecosystems. 相似文献
5.
Comparative analysis of heavy metal concentration in secondary treated wastewater irrigated soils cultivated by different crops 总被引:4,自引:4,他引:0
O. Dikinya Ph.D. O. Areola Ph.D. 《International Journal of Environmental Science and Technology》2010,7(2):337-346
The use of treated urban wastewater for irrigation is a relatively recent innovation in Botswana and knowledge is still limited on its impact on soil heavy metal levels. The aim of this study is to analyze and compare heavy metal concentration in secondary wastewater irrigated soils being cultivated to different crops: olive, maize, spinach and tomato in the Glen Valley near Gaborone City, Botswana. The studied crop plots have been cultivated continuously under treated wastewater irrigation for at least 3 years. Most crop farms have sandy loam, loamy sand soils. Based on food and agriculture organization, heavy metal threshold values for crop production have been studied. Results showed that the wastewater irrigated soils in the Glen Valley have higher cadmium, nickel and copper than desirable levels, while the levels of mercury, lead and zinc are lower than the maximum threshold values recommended for crop production. The control sites show that the soils are naturally high in some of these heavy metals (e.g copper, zinc, nickel) and that crop cultivation under wastewater irrigation has actually lowered the heavy metal content. Comparing between the crops, mercury and cadmium levels are highest in soils under maize and decline linearly from maize to spinach to olive to tomato and control site. By contrast, concentrations of the other metals are at their lowest in maize and then increase from maize to spinach to olive to tomato and to control site. 相似文献
6.
The method of principal component analysis was applied to systematical research on the soil multi-media environment, including
soil, surface water, ground water, waterbody sediment and agricultural crops, as well as pollution-inducing wastewater, mullock
(or waste ore) and slag in the periphery of a large-sized Pb-Zn mining and smelting plant in a karst area of Guangxi Zhuang
Autonomous Region. The results revealed that soils in the area studied have been heavily polluted by Cd, Zn, Pb and Hg, and
the levels of these metals in the samples of agricultural crop greatly exceed the standards. The above-mentioned pollutants
exist in all soil-multi-media environments. The mullock, slag, wastewater, surface water, ground water, soil, and agricultural
crops constitute a composite ecological chain. Therefore, the improper disposal of mullock and slag, and the use of polluted
wastewater for agricultural irrigation are the main causes of soil pollution. Heavy metals in the soil have three transition
progresses: point (improved soil with slag, ground water inflow plot), linear (river transition) and non-point transition
(regional pollution by slag) patterns, and the tailing yard is the most important locus for heavy metals to release into the
environment. 相似文献
7.
选择甘肃省临洮县洮惠渠灌区为试验研究区,通过直接观读、自动监测等技术手段,获取试验灌区的引水量、退水量、土壤墒情、降水量及蒸发量等水文基础数据。以水文监测基础数据为依据,采用引排差法、水分平衡法等相结合的方法,开展了农业灌溉耗水系数试验研究。初步试验结果表明:试验灌区灌溉期平均耗水系数为0. 730,典型地块灌溉期平均耗水系数为0. 671,2016年试验灌区降水量较常年偏少13. 0%~26. 3%,总体上属轻度干旱年份。该研究成果可为甘肃陇中黄土高原区水资源管理提供技术支撑。 相似文献
8.
为了识别石家庄市南部污灌区地下水硝酸盐污染来源, 采集5种潜在污染源和19组地下水样用于化学和氮同位素分析.灌溉污水NH4+的δ15N值较低(4.0‰), 施化肥土壤和粪堆下土壤NO3-的δ15N值分别为1.4‰和12.4‰; 仅施厩肥的蔬菜种植区下伏近30 m厚包气带沉积物NO3-的δ15N分布显示, 来自动物粪便的NO3-已运移到11.5 m以下包气带, 均值10.9‰; 污水灌溉农田下伏厚层包气带沉积物样品分析结果指示, 土壤层下伏包气带沉积物δ15N值变幅较小, 均值5.7‰.污灌区内除一深井外, 其他水井地下水硝酸盐浓度变化在52.6~124.5 mg/L之间, 均值79.72 mg/L, δ15N值变化在5.3‰~8.3‰之间, 均值7.0‰.污灌区地下水的δ15N值较污灌区土壤层下伏包气带沉积物的δ15N值高, 表明地下水NO3-除了来自灌溉的污水外, 还有δ15N值更高的其他来源, 这些来源主要是人和动物粪便.利用线性混合模型计算, 污灌区地下水NO3-来自灌溉的污水, 约占76%, 而来自人和动物粪便的NO3-约占24%.为控制污灌区地下水NO3-浓度进一步增长, 不仅要加强污水灌溉管理, 还要加强人和动物粪便的管理. 相似文献
9.
The Cretaceous Mancos Shale (MS) is a known nonpoint source for a significant portion of the salinity and selenium (Se) loads in the Colorado River in the southwestern United States and northwestern corner of Mexico. These two contaminants pose a serious threat to rivers in these arid regions where water supplies are especially critical. Tuttle et al. (companion paper) investigates the cycling of contaminants in a Colorado River tributary watershed (Uncompahgre River, southwestern Colorado) where the MS weathers under natural conditions. This paper builds on those results and uses regional soil data in the same watershed to investigate the impact of MS geology, weathering intensity, land use, and climate on salt and Se storage in and flux from soils on the natural landscape, irrigated agriculture fields, areas undergoing urban development, and wetlands. The size of salinity and Se reservoirs in the MS soils is quantified. Flux calculations show that during modern weathering, natural landscapes cycle salt and Se; however, little of it is released for transport to the Uncompahgre River (10% of the annual salinity and 6% of the annual Se river loads). When irrigated, salinity and Se loads from the MS soil increase (26% and 57% of the river load, respectively), causing the river to be out of compliance with Federal and State Se standards. During 100 years of irrigation, seven times more Se has been removed from agricultural soil than what was lost from natural landscapes during the entire period of pedogenesis. Under more arid conditions, even less salt and Se are expected to be transported from the natural landscape. However, if wetter climates prevail, transport could increase dramatically due to storage of soluble phases in the non-irrigated soil. These results are critical input for water-resource and land-use managers who must decide whether or not the salinity and Se in a watershed can be managed, what sustainable mitigation strategies are possible, and what landscapes should be targeted. The broader implications include providing a reliable approach for quantifying nonpoint-source contamination from MS and other rock units elsewhere that weather under similar conditions and, together with results from our companion paper, address the complex interplay of geology, weathering, climate, and land use on contaminant cycling in the arid Southwest. 相似文献
10.
Sang-Hwan Lee Wonhyun Ji Hun-Jae Yang Se-Yeong Kang Dae Moon Kang 《Environmental Earth Sciences》2017,76(20):720
The environmental issues associated with mining have damaged the industry’s substantial global economic value. In particular, the mining industry has a negative legacy of contaminated land. The effective reclamation of contaminated soil is therefore required before former mining land can be further developed for residential and commercial purposes. The objective of this study was to technically evaluate the feasibility of reclamation techniques for agricultural soils contaminated with toxic elements (As, Cd, Cu, Pb, and Zn) associated with metal mining. The reclamation methods investigated were covering without stabilization, covering with stabilization, and exchange with stabilization. The thickness of the soil layer used in covering and exchange was in the range of 30–50 cm. Limestone, furnace slag, and a mixture of limestone and furnace slag were applied as soil amendments. After reclamation, the contamination level in surface tillage soils and crops was monitored regularly. Four years of monitoring data revealed that surface soil contamination levels could be maintained at acceptable levels, although at some sites, the metal levels in crops exceeded legislative limits. Soil reclamation at former mining sites in Korea has not yet been perfected, but the results of this study show that there is potential for safe agricultural operations on large sites in a cost-effective manner, as long as the appropriate control of surface soil contamination and adequate agronomic management is undertaken. 相似文献
11.
Hydro-salinity balance and mobilization in oasis irrigation areas at two different scales 总被引:1,自引:0,他引:1
Decades of intensive irrigation of farmlands in the oasis irrigated areas of Xinjiang, Northwest China has caused secondary
salinization of vast areas of land since the mid-1980s. Based on the systematic analysis of the monitoring data of hydrology,
soil, irrigation and salinity at two different scales in the case of Weigan River Plain Oasis in Xinjiang Province, algorithms
derived from hydrosalinity balance principle were developed to estimate the salt mobilization and characteristics; salt and
water mobilization and distribution were closely examined both in catchment scale and in field scale. The critical ratio of
drainage to irrigation of Weigan River Plain Oasis was estimated to be 9.19%. Furthermore, analysis of the relationship between
the two different scaling issues was illustrated. Finally, corresponding countermeasures for secondary soil salinization were
proposed according to the different developmental stages and salinization status of water and soil resources.The findings
of this paper is helpful in controlling the local hydrology, in limiting or diminishing salinization trends, as well as in
providing academic and instructive meaning for the sustainable development of agriculture in oasis irrigation areas. 相似文献
12.
Irrigated agriculture is a clear source of non-point pollution by salts and nitrogen species. The impact of such pollution should be quantified according to specific cases. The case of the Malfarás creek basin, a sprinkler irrigation district located in the semiarid Ebro valley in northeast Spain, has been evaluated. The main crops in the district were corn, barley and alfalfa, occupying 93 % of the irrigated area. The fate of water, salts and nutrients was evaluated by a daily water balance developed at a field scale for the natural year 2010. The yearly data of the whole set of 101 irrigated fields plus the non-irrigated area compared to the measured drainage produced a basin water balance with a low degree of error. The basin consumed 90 % of the total water input of which 68 % was used for crop evapotranspiration and the rest was lost due to non-productive uses. 16 % of the incoming water left the irrigation area as drainage water. The irrigated area was responsible for 87 % of the drainage. The average volume of drained water was 152 mm year?1 for the whole basin area. The irrigated area drained 183 mm year?1. The basin exported 473 kg of salt per hectare during 2010. This value was the lowest of the sprinkler irrigation areas in the Ebro valley, mainly due to the lower soil salinity. All the crops except barley received a nitrogen surplus of 10–50 % above their needs. The extra nitrogen entered the water cycle increasing the nitrate concentration in the aquifer water (150 mg L?1) and drainage water (98 mg L?1). In 2010 the mass of nitrogen exported by drainage was 49 kg per irrigated hectare. This value is too high for this type of irrigation system and implies that 17 % of nitrogen applied as a fertilizer was lost to drainage water. The key to decreasing the nitrogen leaching and pollution that it causes could be appropriate time-controlled fertigation along with better irrigation scheduling. 相似文献
13.
活化灌溉水对土壤理化性质和作物生长影响途径剖析 总被引:4,自引:0,他引:4
随着水资源短缺问题日益突出,提高我国农业水资源生产效率成为现代灌溉农业的重要研究内容。活化灌溉水技术为挖掘灌溉水的生理生产潜力、提高灌溉水在农业生态系统中的综合功效,提供了新的途径。在综合分析国内外有关活化水理化性质变化特征、活化灌溉水对土壤物质传输与转化、活化灌溉水促进作物生长等方面研究进展的基础上,根据土壤物理、作物生理和物质传输动力学基本理论,剖析了活化灌溉水对土壤物质传输、土壤物质转化、根系吸水吸养、作物产量形成的可能影响途径,并提出了未来重点研究的基础科学和应用技术问题,为科学合理利用活化灌溉水技术提供参考。 相似文献
14.
Effects of Activated Irrigation Water on Soil Physicochemical Properties and Crop Growth and Analysis of the Probable Pathway 总被引:2,自引:0,他引:2
Quanjiu Wang Yan Sun Songrui Ning Jihong Zhang Beibei Zhou Lijun Su Yuyang Shan 《地球科学进展》2019,34(6):660-670
With the problem of shortage of water resources becoming increasingly prominent, the improvement of production efficiency of agricultural water resources in China has become an important research content of modern irrigated agriculture. The technology of activated irrigation water provides a new way to excavate the physiological production potential of irrigation water and improve the comprehensive efficacy of irrigation water in agro-ecosystems. In this study, the research progress of the variable characteristics of physicochemical properties of activated irrigation water, the transport and transformation of soil material by activated irrigation water, and the promotion of crop growth by activated irrigation water were comprehensively analyzed. On this basis, according to the basic theories of soil physics, crop physiology, and material transport dynamics, the effects of activated irrigation water on soil material transport, soil material transformation, water and nutrition uptake by root, and crop yield formation and the probable pathway were analyzed. The key problems of basic science and applied technology in the future research are put forward to provide reference for the scientific and reasonable utilization of activated irrigation water technology. 相似文献
15.
Fast population growth and rapid industrialization, on one hand, and lack of sewerage network and poor living condition, on
the other, have led to the deterioration of surface and ground water quality in the city of Addis Ababa. The urban wastewater
is discharged largely into streams that drain the city. Only less than 3% join the wastewater treatment facilities. Due to
sporadic rainfall that causes shortage in groundwater recharge, managed aquifer recharge (MAR) experiment was tested on soil
column collected from Akaki Well Field which is located in the southern part of the city using water from the Big Akaki River
that crosses the same well field and effluent from Kaliti Wastewater Treatment Plant. Water quality analysis for 17 different
parameters was done for both the inflow and outflow water samples and soils were tested for electrical conductivity and cation
exchange capacity. The results indicate improved water quality as a result of higher attenuation/filtration capacity of the
vadose zone in the well field due to the presence of vertisols. The main geochemical processes that have acted in the soil
column could be cation exchange, dissolution, precipitation, oxidation, nitrification, die off etc. that are responsible for
the effectiveness of vadose zone for MAR. 相似文献
16.
依据引黄水在北大港水库蓄存期水质咸化的事实以及传质理论,定性地分析了引黄水水质咸化的主要原因,包括盐碱土传质作用、蒸发浓缩作用以及风的扰动加速传质作用等.在北大港水库旁修建了一个模拟试验水池,进行了现场模拟试验研究.依据水量平衡和氯离子总量平衡的原理,分别定量地计算了传质作用和蒸发浓缩作用对水质咸化影响的比重.结果表明,在模拟水池蓄水后的30 d内,传质作用对水质咸化影响的比重有随时间增加而增长的趋势;30 d后,传质作用对水质咸化影响的比重稳定在80%,蒸发浓缩作用对水质咸化影响的比重稳定在20%,说明导致水质咸化的最主要因素是盐碱土传质作用. 相似文献
17.
主要介绍招远市金矿矿坑外排废水水质、利用现状及金矿洗选废水对环境的污染问题。多年监测结果表明,招远市金矿矿坑水二次污染程度较轻,外排水水质全部符合农田灌溉和选矿用水的水质标准,部分还可作生活饮用水利用;区内金矿选矿废水中,氰化废水CN、Cu严重超标,浮选外排废水虽实现了达标排放,但总硬度、矿化度、Ca^2+及硫酸盐等成分含量普遍较高,对地下水仍有一定的污染作用。现场浸染试验结果反映出废水排放后在自然环境下的自然降解过程较短,对地下水影响局限于较小的范围内。 相似文献
18.
19.
棉花是我国西北内陆干旱地区主要的农作物,研究干旱区棉花的水分利用来源对合理制定灌溉制度、实现农业节水灌溉和保证作物稳产高产具有重要意义.在新疆生产建设兵团炮台土壤改良试验站,基于水文监测和氢氧稳定同位素方法分析膜下滴灌棉田土壤水中氢氧同位素的动态变化特征,确定棉花不同生育期及灌溉后的水分利用来源,并应用多水源混合模型(IsoSource模型)定量计算了棉花对不同深度土壤水的利用率.研究结果表明:棉花在蕾期、花期、铃期和吐絮期主要的水分利用来源及利用率分别为0~30 cm(78.2%)、30~60 cm(31.9%)、60~110 cm(32%)、110~220 cm(47.3%),整个生育期内水分利用来源存在由浅变深的规律.膜下滴灌后,棉花调整其水分利用来源,显著增加了0~30 cm浅层土壤水的利用率.综合试验结果表明低额高频的灌溉制度可以提高棉花对灌溉水的利用率. 相似文献
20.
The role played by supply chain actors in the rapid development of groundwater-based irrigated agriculture is analyzed. Agricultural groundwater use has increased tremendously in the past 50 years, leading to the decline of water tables. Groundwater use has enabled intensification of existing farming systems and ensured economic growth. This “groundwater economy” has been growing rapidly due to the initiative of farmers and the involvement of a wide range of supply chain actors, including suppliers of equipment, inputs retailers, and distributors of irrigated agricultural products. In North Africa, the actors in irrigated production chains often operate at the margin of public policies and are usually described as “informal”, “unstructured”, and as participating in “groundwater anarchy”. This paper underlines the crucial role of supply chain actors in the development of groundwater irrigation, a role largely ignored by public policies and rarely studied. The analysis is based on three case studies in Morocco, Tunisia and Algeria, and focuses on the horticultural sub-sector, in particular on onions and tomatoes, which are irrigated high value crops. The study demonstrates that although supply chain actors are catalyzers of the expansion of groundwater irrigation, they could also become actors in adaptation to the declining water tables. Through their informal activities, they help reduce market risks, facilitate credit and access to subsidies, and disseminate innovation. The interest associated with making these actors visible to agricultural institutions is discussed, along with methods of getting them involved in the management of the resource on which they depend. 相似文献