Modeling daily soil water dynamics during vertical drainage using the incoming flow concept   总被引：1，自引：0，他引：1  

Ayman A. Suleiman   《CATENA》2008,73(3):312-320

Crop management models require simulation of daily soil water dynamics. The objective of this study was to develop a model to simulate the daily soil water dynamics during vertical drainage with reasonable accuracy using the incoming flow concept. The execution of this model, which has been developed based on the conservation of mass law, consists of two steps. First, calculating the potential daily change of soil water content (Δθp) for each soil layer in the profile assuming each one receives no water from the above layer. Then, calculating the actual daily change of soil water (Δθa) for each soil layer in the profile by adjusting Δθp using the incoming water flow, which can be defined as the amount of drainage water that reaches a layer in a soil profile from the above layer. The model was compared with the Suleiman and Ritchie [Suleiman, A.A., Ritchie, J.T., 2004. Modifications to the DSSAT vertical drainage model for more accurate soil water dynamics estimation. Soil Sci. 169 (11), 745–757] vertical drainage model (SRVDM) and HYDRUS-1D for diverse soils and was tested using drainage experimental data of a Eutric Regosol in Bekkevoort, Belgium and a sandy soil in Georgia, U.S. The difference in Δθp between the new model and HYDRUS-1D for diverse soils ranged from − 0.01 to 0.016 m³ m^− 3 for the first day and from − 0.005 to − 0.025 m³ m^− 3 for the second day while the difference in Δθp between the SRVDM and HYDRUS-1D for these soils ranged from 0.014 to 0.062 m³ m^− 3 for the first day and from − 0.01 to 0.026 m³ m^− 3 for the second day. The relative maximum absolute errors in Δθa between the new model and HYDRUS-1D was 10% while the relative maximum absolute errors in Δθa between the SRVDM and HYDRUS-1D was 112%. In the experiments, the root mean square difference of the soil water content for the new model was lower than that for the SRVDM at the different soil depths. These results indicated that the new model outperformed the SRVDM in simulating Δθp and Δθa for diverse soil. It can be concluded that the new model was robust and reasonably accurate for diverse soils at different soil depths. The implementation of such model will improve the accuracy and applicability of regional soil water dynamics simulation and will reduce considerably the computational time and the required inputs.  相似文献   

Modeling the impact of alternative drainage practices in the northern Corn-belt with DRAINMOD-NII     

W. Luo  M. Youssef  I. Song 《Agricultural Water Management》2010,97(3):389-398

The hydrologic and water quality impacts of subsurface drainage design and management practices are being investigated through field and simulation studies throughout the northern Corn-belt. Six years of data from an ongoing field study in south central Minnesota (Sands et al., 2008) were used to support a modeling effort with DRAINMOD-NII to investigate: (1) the performance of the model in a region where soils are subject to seasonal freeze-thaw and (2) the long-term hydrologic and water quality characteristics of conventional and alternative subsurface drainage practices. Post-calibration model prediction and efficiency were deemed satisfactory using standard model performance criteria. Prediction errors were primarily associated with early spring snowmelt hydrology and were attributed to the methods used for simulating snow accumulation and melting processes, in addition to potential sublimation effects on ET estimates. Long-term simulations with DRAINMOD-NII indicated that drainage design and/or management practices proposed as alternatives to conventional design may offer opportunities to reduce nitrate (NO₃)-nitrogen losses without significantly decreasing (and in some cases, increasing) crop yields for a Webster silty clay loam soil at Waseca, Minnesota. The simulation study indicated that both shallow drainage and controlled drainage may reduce annual drainage discharge and NO₃-nitrogen losses by 20-30%, while impacting crop yields from −3% (yield decrease) to 2%, depending on lateral drain spacing. The practice of increasing drainage intensity (decreasing drain spacing) beyond recommended values appears to not significantly affect crop yield but may substantially increase drainage discharge and nitrate-nitrogen losses to surface waters.  相似文献   

Changes in spatial and temporal variability of SAR affected by shallow groundwater management of an irrigated field, California     

P.J. Shouse  T.H. Skaggs  R.W.O. Soppe 《Agricultural Water Management》2010,97(5):673-680

In the irrigated western U.S. disposal of drainage water has become a significant economic and environmental liability. Development of irrigation water management practices that reduce drainage water volumes is essential. One strategy combines restricted drainage outflow (by plugging the drains) with deficit irrigation to maximize shallow groundwater consumption by crops, thus reducing drainage that needs disposal. This approach is not without potential pitfalls; upward movement of groundwater in response to crop water uptake may increase salt and sodium concentrations in the root zone. The purposes for this study were: to observe changes in the spatial and temporal distributions of SAR (sodium adsorption ratio) and salt in a field managed to minimize drainage discharge; to determine if in situ drainage reduction strategy affects SAR distribution in the soil profile; and to identify soil or management factors that can help explain field wide variability. We measured SAR, soil salinity (EC_1:1) and soil texture over 3 years in a 60-ha irrigated field on the west side of the San Joaquin Valley, California. At the time we started our measurements, the field was beginning to be managed according to a shallow groundwater/drainage reduction strategy. Soil salinity and SAR were found to be highly correlated in the field. The observed spatial and temporal variability in SAR was largely a product of soil textural variations within the field and their associated variations in apparent leaching fraction. During the 3-year study period, the percentage of the field in which the lower profile (90-180 cm) depth averaged SAR was above 10, increased from 20 to 40%. Since salinity was increasing concomitantly with SAR, and because the soil contained gypsum, sodium hazard was not expected to become a limiting factor for long term shallow groundwater management by drain control. It is anticipated that the technology will be viable for future seasons.  相似文献   

Soil chemical and biochemical properties of a salt-marsh alluvial Spanish area after long-term reclamation   总被引：2，自引：0，他引：2  

Vito Armando Laudicina  Maria Dolores Hurtado  Luigi Badalucco  Antonio Delgado  Eristanna Palazzolo  Michele Panno 《Biology and Fertility of Soils》2009,45(7):691-700

Marisma, one of the largest salt-marsh alluvial areas in SW Spain, has been reclaimed since 1970 by artificial drainage and amendment with phosphogypsum (PG) so as to reduce Na⁺ saturation. Within the reclaimed area, two 250- × 20-m plots were treated as follows: (1) amendment with 25 Mg/ha of PG every 2 to 3 years between 1979 and 2003 (plot PY); (2) like PY but PG treatment stopped after 1997 (plot DR). A contiguous virgin Marisma salt-marsh plot (MV), neither drained nor amended, was the control. In MV, soil microbial biomass C, most enzyme activities and total organic C content were much greater than in PY and DR soils, despite the salinity stress. The decrease in soil organic matter content in PY and DR soils was likely due to cotton-cropping practices, which favoured the organic C mineralisation and nutrients removal by crops. Microbial activity of MV soil, probably stimulated by the rhizodepositions of the natural vegetation, did not suffer from the osmotic effect due to the raising of soil solution ionic strength. Microbial quotient could be ranked as MV > PY > DR, whereas the metabolic quotient had an opposite trend. Thus, both quotients suggested that the interruption of PG amendment was not favouring microbial activity. Principal component analysis clearly identified the chemical and biochemical soil properties mostly affected by the reclamation and also indicated the longer PG amendment in PY plot. Stepwise discriminant analysis identified two physiologically different types of soil microflora, one less active present in the MV virgin soil and another more active present in the reclaimed PY and DR soils.  相似文献   

天津大沽排水河沉积物典型持久性有机污染物的分布特征与来源解析   总被引：3，自引：0，他引：3  

郝智能  胡鹏  于泳  李法松  孙红文 《农业环境科学学报》2011,30(10)

分别使用气相色谱质谱仪和气相色谱仪对2010年5月采集的天津市大沽排水河8个沉积物样的16种多环芳烃(PAHs)和7种有机氯农药(OCPs)进行了调查,结果表明,沉积物中PAHs的总含量范围为370～5607ng·g-1,平均浓度为2041ng·g-1,OCPs的总含量范围为42.2～680ng·g-1,平均浓度为222ng·g-1。对其组成特征及来源进行了分析,结果表明,沉积物中PAHs主要以3～4环为主,5～6环较少,沉积物中PAHs主要来自化石燃料的燃烧或交通源贡献,以及少量石油产品的输入。滴滴涕(DDT)及其代谢产物的含量明显低于林丹类物质(HCHs),HCHs有新的输入,DDT没有新的输入,其降解方式主要是厌氧降解。  相似文献   

云南省鮡科鱼类的分布格局研究     

黄自豪  赵琼英  唐向芝 《安徽农业科学》2017,45(34):101-105,111

在综述了近年来鮡科鱼类相关文献的基础上,对鮡科鱼类在云南省的地理和水系分布进行了总结,并分析了其分布特点。  相似文献   

Mesenteric lymph drainage alleviates spleen injury in hemorrhagic shock rats     

LIU Hua  XING Li-qiang  ZHAO Zi-gang  NIU Chun-yu 《园艺学报》2013,29(8):1496-1501

AIM：To observe the effects of post-shock mesenteric lymph (PSML) drainage on histopathology, apoptosis, cell cycle and proliferation of the spleen in rats with hemorrhagic shock. METHODS：Eighteen Wistar rats were randomly divided into sham, shock and shock+drainage groups (n=6 in each group). The hemorrhagic shock model was established in the shock and shock+drainage groups. Fluid resuscitation for 30 min was performed 1.5 h after hypotension, and PSML was drained in the rats in shock+drainage group from 1 h after hypotension to 3 h after resuscitation finished. The fixed spleen tissue was harvested from each rat for histological observation with HE staining. The apoptosis of splenocytes was observed by Hoechst 33258 staining. The expression of Bcl-2 and Bax proteins was detected by immunohistochemical staining. The cell cycle and the expression of p53 protein were measured by flow cytometry, and the proliferation index (PI) was calculated. RESULTS：Compared with sham group, splenic tissue injury appeared in the shocked rats. The apoptotic cells and the expression of Bax and p53 in shock group were increased, while Bcl-2 expression was decreased. The percentage of G2/M cells in shock group was decreased. Compared with shock group, the splenic tissue damage in shock+drainage group was significantly attenuated. Moreover, the number of apoptotic cells, the percentage of G0/G1 cells, and the expression of Bax and p53 were obviously decreased, and the G2/M cells, Bcl-2 protein expression and PI were significantly increased in shock+drainage group. CONCLUSION: PSML drainage alleviates splenic injury in hemorrhagic shock rats, which may be related to reducing the apoptosis of splenocytes.  相似文献   

Role of hydrogen sulfide in alleviation of liver injury by mesenteric lymph drainage in hemorrhagic shock rats     

HAN Bo  ZHANG Li-min  CHEN Li-feng  ZHAO Zi-gang  LI Shu-guang  NIU Chun-yu 《园艺学报》2013,29(7):1307-1312

AIM：To investigate the role of hydrogen sulfide (H2S) in alleviation of liver injury by mesenteric lymph drainage in hemorrhagic shock rats. METHODS：A hemorrhagic shock model was established in male Wistar rats. DL-propargylglycine (PPG), an inhibitor of cystathionine γ-lyase (CSE) which is a synthase of H2S, or sodium hydrosulfide (NaHS), a donor of H2S, was administered to the hemorrhagic shock rats with mesenteric lymph drainage. The rats were randomly divided into sham, shock, shock+drainage, shock+drainage+PPG (45 mg/kg, ip, 0.5 h before hemorrhage) and shock+drainage+NaHS (28 μmol/kg, ip, 0.5 h before hemorrhage) groups. Fluid resuscitation was performed 1 h after hypotension, and then mesenteric lymph was drained in the rats of shock+drainage, shock+drainage+PPG and shock+drainage+NaHS groups for 3 h. The hepatic histomorphology was observed. The biochemical indexes of hepatic function in plasma, and H2S, CSE, Toll-like receptor 4 (TLR4), interleukin (IL)-10, IL-12 and tumor necrosis factor α (TNF-α) in hepatic homogenate were also examined. RESULTS：The levels of aspartate aminotransferase (AST), alanine aminotransferase (ALT) and total bile acid (TBA) in plasma, and H2S, CSE, TLR4, IL-10, IL-12 and TNF-α in hepatic homogenate in shock group were significantly higher than those in sham group. Mesenteric lymph drainage obviously reduced these indexes in shock rats, except for TLR4. PPG further decreased these indexes except for CSE, while NaHS increased these indexes except for TBA and CSE. Morphological observation showed that liver injury appeared in the rats from shock and shock+drainage+NaHS groups, and there was nearly normal hepatic structure in the rats from sham, shock+drainage and shock+drainage+PPG groups. CONCLUSION：The mechanism of mesenteric lymph drainage alleviating liver injury in hemorrhagic shock rats is related to reducing the production of H2S and alleviating the H2S-mediated inflammation.  相似文献   

稻田高产节水灌溉方式的研究   总被引：11，自引：0，他引：11  

司徒淞  张薇 《中国水稻科学》1991,5(3):127-132

 1984～1988年在中国水稻研究所实验场排水与其它农业措施相结合，采用节水灌溉措施和高产灌溉制度，综合考虑对田面水、土壤水、地下水和雨水的统一管理利用和合理调节控制，通过大田、小区、测坑试验和生产实践，提出了适合当地条件的节水高产灌排方式、地下水埋深度和排水量。这种水综合运用，既可节约灌溉用水量，减少灌水次数，还可降低排涝水量，减轻排涝能耗费用。  相似文献   

Improvement of paddy field drainage for mechanization   总被引：1，自引：1，他引：1  

Toshio?TabuchiEmail author 《Paddy and Water Environment》2004,2(1):5-10

In Japan, land consolidation and drainage improvement for farm mechanization in paddy fields began during the 1960 s. It was not easy to use big machines in the muddy conditions caused by the clayey soil and heavy rainfall during the harvesting period. A number of investigations were carried out by many researchers, and factors relating to drainage were clarified. Not only surface drainage but also underdrainage was planned. However, drainage was not always sufficient, because the clayey surface soil was impermeable to ponding water. It became clear that underdrainage for a clayey paddy field for the harvest is quite different from underdrainage for an ordinary field. Field and soil characteristics, as well as water conditions, should be examined carefully before planning drainage improvement for farm mechanization.Dr. Toshio Tabuchi is an honorable member of the Japanese Society of Irrigation, Drainage and Reclamation Engineering (JSIDRE), a former Professor of the University of Tokyo, and a former President of JSIDRE  相似文献