宁夏青铜峡灌区年退水量时间序列预测模型研究

针对宁夏青铜峡灌区年退水量预测问题,采用时间序列方法分析了灌区年退水量特性,建立了预测模型,结果发现青铜峡灌区年退水量在年际间相互关联,其时间序列是一个非白噪声非平稳时间序列,一阶差分序列是一个非白噪声平稳序列,建立了ARIMA年退水量时间序列模型,模型模拟的平均相对误差为5.66%,预测的相对误差在5%以内,精度较高,可以用于灌区退水量的预测。     

Measuring cotton water status using water-related vegetation indices at leaf and canopy levels

Drought is one of the major environmental threats in the world. In recent years, the damage from droughts to the environment and economies of some countries has been extensive, and drought monitoring has caused widespread concerns. Remote sensing has a proven ability to provide spatial and temporal measurements of surface properties, and it offers an opportunity for the quantitative assessment of drought indicators such as the vegetation water content at different levels. In this study, sites of cotton field in Shihezi, Xinjiang, Northwest China were sampled. Four classical water content parameters, namely the leaf equivalent water thickness (EWT leaf ), the fuel moisture content (FMC), the canopy equivalent water thickness (EWT canopy ) and vegetation water content (VWC) were evaluated against seven widely-used water-related vegetation indices, namely the NDII (normalized difference infrared index), NDWI 2130 (normalized difference water index), NDVI (normalized difference vegetation index), MSI (moisture stress index), SRWI (simple ratio water index), NDWI 1240 (normalized difference water index) and WI (water index), respectively. The results proved that the relationships between the water-related vegetation indices and EWT leaf were much better than that with FMC, and the relationships between vegetation indices and EWT canopy were better than that with VWC. Furthermore, comparing the significance of all seven water-related vegetation in- dices, WI and NDII proved to be the best candidates for EWT detecting at leaf and canopy levels, with R 2 of 0.262 and 0.306 for EWT leaf-WI and EWT canopy -NDII linear models, respectively. Besides, the prediction power of linear regression technique (LR) and artificial neural network (ANN) were compared using calibration and validation dataset, respectively. The results indicated that the performance of ANN as a predictive tool for water status measuring was as good as LR. The study should further our understanding of the relationships between water-related vegetation indices and water parameters.     

Integrated water risk early warning framework of the semi-arid transitional zone based on the water environmental carrying capacity (WECC)

Water risk early warning systems based on the water environmental carrying capacity (WECC) are powerful and effective tools to guarantee the sustainability of rivers. Existing work on the early warning of WECC has mainly concerned the comprehensive evaluation of the status quo and lacked a quantitative prejudgement and warning of future overload. In addition, existing quantitative methods for short-term early warning have rarely focused on the integrated change trends of the early warning indicators. Given the periodicity of the socioeconomic system, however, the water environmental system also follows a trend of cyclical fluctuations. Thus, it is meaningful to monitor and use this periodicity for the early warning of the WECC. In this study, we first adopted and improved the prosperity index method to develop an integrated water risk early warning framework. We also constructed a forecast model to qualitatively and quantitatively prejudge and warn about the development trends of the water environmental system. We selected the North Canal Basin (an essential connection among the Beijing- Tianjin-Hebei region) in China as a case study and predicted the WECC in 25 water environmental management units of the basin in 2018-2023. We found that the analysis of the prosperity index was helpful in predicting the WECC, to some extent. The result demonstrated that the early warning system provided reliable prediction (root mean square error of 0.0651 and mean absolute error of 0.1418), and the calculation results of the comprehensive early warning index (CEWI) conformed to the actual situation and related research in the river basin. From 2008 to 2023, the WECC of most water environmental management units in the basin had improved but with some spatial differences: the CEWI was generally poor in areas with many human disturbances, while it was relatively good in the upstream regions with higher forest and grass covers as well as in the downstream areas with larger water volume. Finally, through a sensitivity analysis of the indicators, we proposed specific management measures for the sustainability of the water environmental system in the North Canal Basin. Overall, the integrated water risk early warning framework could provide an appropriate method for the water environmental administration department to predict the WECC of the basin in the future. This framework could also assist in implementing corresponding management measures in advance, especially for the performance evaluation and the arrangement of key short-term tasks in the River Chief System in China.     

基于野外实测高光谱数据的干旱区耕作土壤含水量反演研究

利用2011年3月野外实地采集的不同含水量土壤的高光谱数据,研究了南疆地区耕作土壤草甸土含水量与高光谱反射率之间的定量关系,构建了一元线性回归与多元逐步回归的土壤含水量预测模型.结果表明,土壤含水量在380～ 1080 nm波段与反射率呈负相关关系;反射率经倒数(1/R)、对数(logR)、一阶微分(R’)变换后可提高其与含水量的相关性;以50个建模样本所建立模型的相关系数均达到极显著水平,所有模型通过对37验证样本进行预测,比较决定系数、均方根误差、相对误差后,表明多元逐步回归模型的预测能力要优于一元线性回归模型,从所有模型中优选出以698、702、703、746、747 nm波段反射率倒数(1/R)建立的多元逐步回归模型为最优模型,该模型实测值与预测值之间的R2为0.9199,RMSE为1.6026,RE为0.6517,可用于基于野外高光谱数据的土壤含水量的估测.     

小水电代燃料生态保护工程的水土保持效益研究

小水电代燃料生态保护工程是以生态效益为主的一项公益性工程,水土保持效益突出。本文将小水电代燃料生态保护工程的水土保持效益分为两类:一是保护森林,涵养水源的效益;二是减少土壤侵蚀的效益。并分别探讨了涵养水源、减少土壤侵蚀、减少土壤养分流失及减少水库泥沙淤积的效益量化计算方法,以山西省陵川县马圪当小水电代燃料试点工程为例进行了水土保持效益的实例计算。     

臭氧水对茄子根结线虫的防治效果评价

根结线虫是具有毁灭性危害的植物内生寄生虫,臭氧水漫灌土壤是较为理想的替代化学药剂的防治方法,但还未见在茄子上使用的报道。为了探究高浓度臭氧水漫灌处理土壤对茄子根结线虫的田间防治效果及对茄子生长的影响,本研究在茄子定植前对土壤进行连续2次臭氧水(9 mg/L)漫灌处理,并对漫灌处理前后和茄子整个生长期的根结线虫病害发生情况及茄子生长情况进行跟踪调查。结果表明,与对照相比,结果期和生长后期根结线虫数量分别下降91.67%和95.97%;幼苗期、结果期和生长后期的防治效果分别为100%、55.36%和65.52%;处理样本的株高显著提高。因此,高浓度臭氧水漫灌处理土壤对茄子根结线虫的防治效果较好且可减少农药使用量,对茄子生长安全,值得推广应用。     

城市再生水需水量预测的研究与应用

针对再生水在城市用水过程中日益重要的地位,探讨了采用改进的灰色模型对再生水回用于工业的需水预测方法以及采用定额法等方法对市政园林和景观水体的再生水需水量的预测方法。结合西安市城市规划,对2010年西安市再生水的可供水量相对于需求量的满足程度进行了实例分析,以求最大限度的发挥污水再生回用在节约资源和减少排放两个方面的重要作用。     

Photochemistry of vinclozolin in water and methanol–water solution

The photolysis of the fungicide vinclozolin in aqueous and methanol–water (50 + 50 by volume) solution has been examined. Irradiation at λ = 254 nm for 10 minutes resulted in <90% and ≤95% substrate transformation respectively. The dissipation of vinclozolin both in water and methanol + water was linear and the calculated half-lives were 1.01 and 2.0 min respectively. Irradiation (8 h) with UV light (λ ≥ 290 nm) resulted in 10% degradation of the chemical, which is of the same magnitude as that of the control (not irradiated). Irradiation (8 h) under artificial sunlight (Suntest) in the presence of commercially available humic acid (K-salt) resulted in 55% degradation of the chemical. Photolysis leads to the opening of the 2,4-oxazolidine-dione ring, forming 3,5-dichlorophenyl isocyanate and 3,5-dichloroaniline. In addition, dechlorination and elimination of the  CHCH₂ moiety takes place, and one or both the chlorine atoms are replaced by a methoxy group. © 1999 Society of Chemical Industry     

Mulberry leaf water extract inhibits bermudagrass and promotes wheat growth

Allelopathy has the potential to tackle the concerns associated with the indiscriminate use of synthetic herbicides. In search of a natural herbicide, the effects of mulberry (Morus alba) leaf water extracts on bermudagrass (Cynodon dactylon) and wheat (Triticum aestivum) were investigated. Four concentrations of extract (25, 50, 75, and 100%) were compared with a control (distilled water). The results revealed that the pregermination application of 100% mulberry leaf water extract resulted in the complete inhibition of bermudagrass and wheat germination. However, postemergence, two foliar sprays suppressed only the growth of bermudagrass and promoted wheat growth. The effect of the mulberry leaf water extract was concentration dependent. It is evident that the postemergence application of mulberry leaf water extract has the scope for use as natural herbicide for the control of bermudagrass and to promote the growth and yield of wheat.     

Efficacy and reduced fuel use for hot water weed control on pavements

Non‐chemical weed control on pavements needs more frequently repeated treatments than the application of glyphosate and often uses large amounts of fuel. To obtain effective hot water control with minimum energy consumption, an in‐depth study of efficacy‐influencing factors was performed. Three dose–response pot experiments were conducted outdoors to investigate the impact of growth stage (39, 60 and 81 day old), water temperature (78, 88 and 98°C), time of the day (2, 7 and 12 h after sunrise) and treatment interval (2, 3, 4 and 6 week intervals) on hot water sensitivity of seven weed species that are hard to control on pavements. Responses to hot water were quantified by weed coverage and total dry biomass. In general, hot water sensitivity was highest for species with large planophile leaves and lowest for grasses with small erectophile leaves. Most species were twofold to sixfold more sensitive to water at 98°C than at 78 and 88°C, particularly when treated at early growth stages. Among treatment intervals, treating at 3‐week intervals was up to twofold more effective and energy efficient than treating at 6‐week intervals. Sensitivity was about twofold lower in the morning than in the afternoon. For effective control of weeds, while using less fuel, it is recommended to apply hot water in the late afternoon, to operate at high water temperature (98°C) and to treat plants as young as possible at 3‐week intervals.     

Controlling Rumex obtusifolius by means of hot water

Hot‐water treatment of broad‐leaved dock (Rumex obtusifolius) was developed as an alternative to manual digging out in organic farming. During treatment, the top region of the root was heated so that the plants would die back. The aim of this study was to validate the efficacy of the hot‐water treatment of dock roots. The trials were carried out with a commercially available hot‐water high‐pressure cleaner and a rotating nozzle for water application. The target plant control rate assessed 12 weeks after treatment was set at >80%. The appraisal covered 1330 treated plants of varying size from four sites with three different soil texture classes. Parameters which influenced the control rate were water temperature, amount of water, soil moisture and soil texture. Additional parameters recorded were the amount of fuel oil consumption and working time requirements. A reassessment of the plants 1 year after treatment yielded information concerning the ground cover, the possible germination of new dock plants from buried seeds and the soil structure of the site treated. In order to achieve the target control rate of >80%, it is recommended that the temperature of the water leaving the equipment should exceed 80°C. The amount of water required depends on root size and soil moisture. On average, 131 plants per hour can be treated with no negative effects on regrowth or soil structure. Hot‐water treatment is the first functional control alternative to manual digging out R. obtusifolius for organic farming.     

电生功能水对保护地番茄叶霉病防治效果

弱酸性电生功能水处理保护地越冬番茄,每15 d喷洒一次,喷洒量80 mL/m2,连续处理3次。结果表明,电生功能水对番茄叶霉病防治效果达68.1%,喷洒条件相同的甲基硫菌灵和恶唑菌酮·氟硅唑的防治效果仅为30.4%,即电生功能水对番茄叶霉病的防治效果比混合农药高1倍以上。本研究结果为电生功能水作为绿色杀菌剂在农业上的应用提供了依据。     

Surface water seal application to minimize volatilization loss of methyl isothiocyanate from soil columns

BACKGROUND: Metam‐sodium (MS, sodium methyldithiocarbamate) has been identified as a promising alternative chemical to replace methyl bromide (MeBr) in soil preplant fumigation. One degradation product of MS in soil is the volatile gas methyl isothiocyanate (MITC) which controls soilborne pests. Inconsistent results associated with MS usage indicate that there is a need to determine cultural practices that increase pest control efficacy. Sealing the soil surface with water after MS application may be a sound method to reduce volatilization loss of MITC from soils and increase the contact time necessary for MITC to control pests. The objective of this research was to develop a preliminary soil surface water application amount that would potentially inhibit the off‐gassing rate of MITC. RESULTS: Off‐gassing rate was consistently reduced with increasing water seal application. The application of a 2.5–3.8 cm water seal provided significantly lower (71–74% reduction in MITC volatilization) total fumigant loss compared with no water seal. The most favorable reduction in MITC off‐gassing was observed in the 2.5 cm water seal. CONCLUSION: This suggests that volatilization of MITC‐generating compounds can be highly suppressed using adequate surface irrigation following chemical application in this soil type (sandy clay loam), based on preliminary bench‐scale soil column studies. Copyright © 2010 Society of Chemical Industry     

Integrated control of water hyacinth in Africa1

Water hyacinth, Eichhornia crassipes was first recorded in Africa (Egypt and South Africa) in the late 1800s. Since this time it has invaded streams, rivers, natural lakes and impoundments throughout the continent. Large mats of water hyacinth severely degrade aquatic ecosystems and limit all aspects of water resource utilization, threatening food security and economic development in a number of countries. The severity of these infestations is invariably exacerbated by eutrophication. Control options include manual removal, mechanical control, application of herbicides and biological control. Biological control offers a long‐term solution and excellent results have been achieved in a number of tropical large freshwater bodies, most notably Lake Victoria. However, in the more temperate regions of the continent and where extensive eutrophication exists, biological control is integrated with other control options. The successful control of water hyacinth relies on establishing an acceptable threshold population level for the weed, adopting a management philosophy that includes a top‐down approach within the infested catchment, intelligent use of herbicide, mechanical and biological control and a commitment to the reduction in nitrate and phosphate inputs into the aquatic ecosystem.     

Diazinon reduction and partitioning between water,sediment and vegetation in stormwater runoff mitigation through rice fields

BACKGROUND: Contamination of surface waters by pesticides is a concern in the United States and around the world. Innovative mitigation strategies are needed to remediate this potential environmental contaminant. One potential solution is to divert pesticide‐laden drainage or surface water through agricultural rice fields. With a hydroperiod, hydrosoil and hydrophyte (rice), these systems serve essentially as a type of constructed wetland. In both summer and fall experiments, diazinon‐amended water was diverted through two rice ponds at the University of Mississippi Field Station. Likewise, a non‐vegetated control pond was amended with diazinon‐laden water. Water, sediment and plant samples were taken spatially and temporally to determine the distribution of diazinon within systems. RESULTS: Outflow diazinon concentrations decreased significantly (P < 0.05) from inflow in both vegetated ponds for both preharvest and post‐harvest experiments. Although sorption to rice plants was minimal in the overall mass distribution of diazinon (1–3%), temporal data indicated that diazinon concentrations reached the outflow sediment of the non‐vegetated control twice as fast as in either vegetated (rice) system. In both vegetated systems, sediment diazinon concentrations decreased (77 and 100%) from inflow to outflow, while a decrease of <2% was noted in the non‐vegetated control. CONCLUSIONS: Diversion of pesticide‐contaminated water through rice fields demonstrated potential as a low‐cost, environmentally efficient mitigation practice. Studies on these systems are continuing to evaluate the optimal chemical retention time for rice field mitigation, as well as diazinon transfer to rice grain seeds that may be used as a food source. Published in 2009 by John Wiley & Sons, Ltd.     

GSPAC water movement in extremely dry area

Under an extremely arid condition,a PVC greenhouse was built on the top of Mogao Grottoes in gobi area.The results of 235-day constant extraction of condensed water on the greenhouse film and soil water content showed that 2.1 g/(m2·d) groundwater moved up and exported into the soil,and a phreatic water evaporation existed in the extreme dry area where the groundwater is buried deeper than 200 m.After a prolonged export,the soil water content in the greenhouse was not lower but obviously higher than the original control ones.According to the monitored parameters including relative humidity and absolute humidity of soil,and temperature outside and inside the greenhouse,it was found that there is the available condition and mechanism for the upward movement of groundwater,and also it can be sure that the exported water was not from the soil and atmosphere outside the greenhouse.Phreatic water,an important source for soil water,interacts with atmosphere moisture via soil respiration.Soil salinity also has important effects on soil water movement and spatial-temporal heterogeneity.The extremely dry climate,terrestrial heat and change of upper soil temperature are the fundamental driving forces of water transportation and phreatic water evaporation in the Groundwater-Soil-Plant-Atmosphere Continuum(GSPAC) system.     

鄂尔多斯市工业用水变化趋势和需水量预测研究

随着工业的快速发展,工业需水量与日俱增,工业需水量的预测已成为城市供水和水资源规划极其重要的部分.以鄂尔多斯市为研究对象,对工业用水变化规律和影响因素进行了分析,确定其未来的需水定额.采用定额法和增长比率法对鄂尔多斯市2010、2015和2020年工业需水量进行了预测研究,结果比较符合鄂尔多斯市的发展实际,对水资源决策...     

负水头供水盘埋设方式对番茄生长和水分利用率的影响

以番茄为材料,于温室内采用负水头供水盆栽装置进行试验,研究了供水盘不同埋设方式对番茄生长和水分利用率的影响,旨在为负水头灌溉技术应用于蔬菜栽培提供依据。试验设置3个处理,单盘倾角9°埋设于根系底部(处理Ⅰ)、单盘竖向埋设于根系一侧(处理Ⅱ)和双盘埋设于根系两侧(处理Ⅲ)。结果表明:处理Ⅱ控制的土壤含水量有利于控制植株长势、增加茎粗和叶片数量、降低番茄植株耗水量,显著提高水分利用率;处理Ⅱ分别与处理Ⅰ和Ⅲ相比,单株番茄增产12.70%和15.45%,节水18.14%和13.70%。结果表明,单盘竖向埋设于根系一侧为最佳供水盘埋设方式,可获得高产、节水的效果。     

喷灌冬小麦农田土壤水分分布特征及水量平衡

以传统地面灌溉(畦灌)为对照,分析了喷灌条件下,冬小麦农田土壤水分分布特征和水量平衡。结果表明:喷灌条件下土壤水分运动表现出明显的非饱和土壤水运动特征,地面灌溉条件下土壤水分运动具有饱和土壤水运动的特征。喷灌条件下灌溉水主要分布在土壤表层0~50 cm范围内,地面灌溉条件下灌溉水可达地表以下150 cm处。喷灌条件下,没有明显的土壤水分渗漏发生;地面灌溉条件下,土壤水分渗漏量占灌溉水量的10%左右。2003年和2004年试验期间,喷灌蒸散量分别为312.2 mm和324.4 mm,分别比地面灌溉蒸散量少13.1 mm和35.1mm。     

水分胁迫对线辣椒叶片渗透调节作用的影响

以线辣椒"2号"、"6号"、"L14"品系为材料,采用盆栽方法,于定植20 d(缓苗结束)后进行5个水分梯度的干旱胁迫处理,即土壤相对含水量分别为45%、55%、65%、75%、85%(CK),于处理20天后的开花坐果期间测定不同水分胁迫下叶片的脯氨酸含量、可溶性糖含量及细胞膜相对透性,分析土壤相对含水量对线辣椒叶片渗透调节物质的影响。结果表明,随着水分胁迫程度的加重,3个品系叶片内细胞膜相对透性、脯氨酸含量、可溶性糖含量均逐步上升,在土壤相对含水量为45%的处理下,2号、6号、L14的细胞膜透性分别为对照的1.38、1.47和1.35倍,脯氨酸含量分别为对照的2.00、1.47和2.00倍,可溶性糖含量分别为对照的1.67、1.35和3.70倍。说明线辣椒可以通过渗透调节作用来适应干旱逆境。L14在水分胁迫下细胞膜的结构和功能遭到破坏的程度较低,渗透调节和耐旱能力较强;6号品系对外界环境变化的适应与抵御能力相对较弱,2号品系居中。