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1.
河北衡水地区干旱缺水,淡水资源严重不足。水资源日益缺乏与粮食需求日益增多之间的矛盾尖锐。利用微咸水资源将成为缓解水资源危机的重要举措。本文在国土资源部地下水科学与工程试验基地小麦微咸水灌溉试验为基础,对试验区作物种植整个生长过程中土壤含盐量和水分状况随时间的变化研究,探讨了微咸水灌溉对小麦产量的影响。结果表明:土壤水盐动态呈受灌溉和降雨影响的短期波动和受季节更替影响的长期波动;作物产量与灌水矿化度、灌水量、土壤初始含盐量和含水量等因素相关。在缺乏淡水的情况下,可以考虑使用3g/l左右的微咸水灌溉,而且不会引起小麦产量的显著下降。 相似文献
2.
微咸水灌溉对冬小麦产量及农艺性状的影响 总被引:3,自引:0,他引:3
《节水灌溉》2017,(9)
为了研究天津地区微咸水灌溉对冬小麦农艺性状及产量的影响,布置了5个不同矿化度微咸水(1、2、3、4、5 g/L)及淡水(CK)的田间灌溉试验,试验通过冬小麦耗水规律进行微咸水灌溉调控。研究结果表明:不同盐浓度微咸水对冬小麦农艺性状均有影响,总体上呈现出,小麦株高、叶面积随微咸水矿化度的增高而减小的趋势,其中4与5 g/L的微咸水灌溉下影响显著,小麦株高减少17.68%、23.84%,叶面积减小29.12%、36.31%。;微咸水矿化度的增高,使耗水强度呈现出变弱趋势,但在1与2 g/L盐水胁迫下,使得土壤渗透势提高,促进作物根系对土壤水分的吸收,并且在一定的盐胁迫下,使得干物质向小麦籽粒中转移,从而提高了小麦产量。用矿化度3 g/L以上的微咸水在灌溉冬小麦过程中,主要根层出现土壤盐分积累现象,但配合种植夏玉米,淡水压盐,土壤中含盐量明显下降,对冬小麦种植影响较小。 相似文献
3.
微咸水灌溉对冬小麦光合特征及产量的影响 总被引:5,自引:2,他引:3
【目的】寻求合理的微咸水利用方式以及揭示微咸水灌溉下作物生理生长响应机理。【方法】在黄河三角洲地区的典型引黄灌区开展了冬小麦微咸水灌溉试验,研究了微咸水灌溉对冬小麦光合特性、干物质及产量的影响。【结果】与淡水灌溉相比,采用矿化度3 g/L微咸水灌溉时,拔节期、灌浆期灌2水和拔节期灌1水均会导致气孔导度和蒸腾速率的下降,但是对净光合速率的影响却不显著,微咸水灌溉在降低蒸腾速率的同时维持着较高的净光合速率,叶片水分利用效率提高了2.8%~43.2%;微咸水灌溉抑制了冬小麦的株高和干物质积累,淡水-微咸水组合灌溉虽然导致产量降低3%~13%,但节约淡水资源50%~67%;相同灌溉水质下,与灌浆期不灌水相比,灌水有利于籽粒的灌浆,提高了千粒质量,实现冬小麦增产11.2%~11.4%。【结论】因此,淡水-微咸水-微咸水的灌溉模式用于该地区冬小麦田间灌溉是可行的。 相似文献
4.
微咸水-淡水交替灌溉对玉米生长指标及产量的影响 总被引:1,自引:0,他引:1
以隆平206玉米品种为载体进行了温室避雨盆栽试验,试验设计"咸-淡-淡"、"淡-咸-淡"和"淡-淡-咸"3种交替灌溉模式,即分别在壮苗期、拔节期、抽雄—乳熟期3个阶段灌溉微咸水,微咸水矿化度设计为1、3和5 g/L,监测生长生理和产量指标。结果表明,任一时期灌溉矿化度1 g/L微咸水对玉米株高、叶面积、SPAD和产量影响不明显;随微咸水矿化度的增加,玉米受抑制作用增强;微咸水灌溉后壮苗期玉米株高、叶面积、SPAD受影响显著,由于玉米前期补偿生长能力强,随生长推进,壮苗期微咸水灌溉处理与CK间差异逐渐减小,玉米株高、叶面积、SPAD受抑制最显著的为拔节期微咸水灌溉处理,其次是壮苗期,抽雄—乳熟期最小;对玉米产量影响最大的是抽雄—乳熟期微咸水灌溉处理,其次是拔节期,壮苗期影响最小,故生殖生长阶段不宜采用微咸水灌溉;滨海农区可根据淡水、微咸水资源的时空分布特征设计交替灌溉制度,利用淡水灌溉的补偿效应确保玉米产量。 相似文献
5.
咸淡水交替灌溉对滨海垦区夏玉米生理生长的影响 总被引:5,自引:0,他引:5
我国东部滨海地区拥有大量滩涂和微咸水资源,但土壤含盐量高、淡水资源缺乏,探究合理的咸淡水交替灌溉方法,可以促进滨海垦区土地资源的高效利用。选取江苏省滨海垦区典型土壤,使用3种不同矿化度(1、3、5g/L)的微咸水在夏玉米3个不同生育期(壮苗期、拔节抽雄期、灌浆成熟期)进行咸淡交替灌溉(“咸淡淡”、“淡咸淡”、“淡淡咸”)盆栽试验。结果表明,微咸水灌溉后土壤上层积盐明显,夏玉米叶片的净光合速率(Pn)、气孔导度(Gs)减小,胞间CO2浓度(Ci)由于气孔限制而减小,但随着矿化度的增大,非气孔限制引起Ci增大。微咸水灌溉后夏玉米叶片中过氧化氢(H2O2)和丙二醛(MDA)含量增加,同时伴随着超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)酶活性的增强。高矿化度咸淡水交替灌溉抑制了玉米的生长和生产,拔节抽雄期夏玉米耗水量大幅增加,导致微咸水灌溉量增加,盐分胁迫最强烈,致使”淡咸淡”的灌溉方式表现最差。夏玉米在灌浆成熟期的抗性增强,此时微咸水灌溉对各生理指标影响较弱。在滨海垦区进行夏玉米种植,可在壮苗期采用较低矿化度的微咸水进行灌溉,而较高矿化度的微咸水仅适合在灌浆成熟期进行。 相似文献
6.
咸淡水交替灌溉对冬小麦生长及产量的影响 总被引:1,自引:0,他引:1
《灌溉排水学报》2019,(11)
【目的】探究不同咸淡水交替灌溉方式对冬小麦生长及产量的影响,并通过通径分析在高产的基础上选择适宜冬小麦的咸淡水交替灌溉方式。【方法】采用避雨测坑试验,灌溉咸水矿化度设为1、3、5 g/L NaCl,以全生育期灌溉淡水(0.12 g/L NaCl)为对照(CK),分别在冬小麦的拔节—抽穗期、抽穗—开花期、灌浆期设置咸-淡-淡(BFF)、淡-咸-淡(FBF)和淡-淡-咸(FFB)3种咸淡水交替灌溉方式,研究了冬小麦生长指标、产量及其构成因子。【结果】BFF处理对冬小麦生长及产量具有较大的抑制作用,其次是FBF处理,FFB处理影响最小。在相同的咸淡水交替灌溉处理下,微咸水矿化度越大,对冬小麦生长及产量抑制作用越大;通径分析表明对冬小麦产量形成直接影响最大的性状是穗粒数,决策系数为0.697 0,其次是秸秆质量、千粒质量和穗数,决策系数分别为0.377 5、0.322 8和0.286 6,株高和单株地上干物质累积质量对冬小麦产量影响较小。【结论】在灌浆期采用较低矿化度微咸水灌溉对冬小麦穗粒数、秸秆质量、千粒质量和穗数影响不明显,从而对产量影响较小,因此在冬小麦拔节—开花期采取淡水灌溉并于灌浆期转换为3 g/L微咸水灌溉,可保证较高产量并实现微咸水资源的合理利用。 相似文献
7.
微咸水-淡水交替灌溉对夏玉米光合日变化的影响 总被引:4,自引:2,他引:2
【目的】探究微咸水-淡水交替灌溉对夏玉米不同生育期内光合日变化的影响。【方法】以全生育期灌溉淡水处理(0.08 g/L Na Cl)为对照(CK),采用3种不同矿化度(1、3、5 g/L Na Cl)微咸水和淡水在夏玉米的3个不同生育期内(壮苗期、拔节抽雄期、灌浆成熟期)进行避雨盆栽交替灌溉试验。【结果】壮苗期及灌浆成熟期微咸水灌溉处理和CK的净光合速率(Pn)日变化均呈双峰曲线,壮苗期峰值出现在12:00和16:00,灌浆成熟期峰值提前至10:00和14:00。拔节抽雄期灌溉微咸水处理的Pn日变化呈单峰曲线,峰值提前至10:00。微咸水灌溉均引起夏玉米Pn和蒸腾速率(Tr)不同程度减小,导致水分利用效率(WUE)减小,玉米光合能力下降。壮苗期灌溉1 g/L微咸水和灌浆成熟期灌溉微咸水导致气孔导度(Gs)减小和胞间CO2摩尔分数(Ci)减小,通过气孔原因造成玉米光合作用减弱,而壮苗期灌溉3 g/L和5 g/L微咸水和拔节抽雄期灌溉微咸水导致Gs减小和Ci增大,通过非气孔原因导致玉米光合作用减弱。【结论】拔节抽雄期灌溉微咸水对夏玉米光合日变化影响最显著,壮苗期次之,灌浆成熟期最小,因此,微咸水-淡水交替灌溉制度应在夏玉米拔节抽雄期灌溉淡水,可在灌浆成熟期灌溉微咸水。 相似文献
8.
微咸水灌溉对盐碱地土壤水盐分布与冬小麦产量的影响 总被引:1,自引:0,他引:1
《中国农村水利水电》2019,(8)
为探求冬小麦科学合理的微咸水灌溉模式,2015-2017年在山东省沾化区开展了冬小麦微咸水灌溉试验。基于大田试验,采用淡水和矿化度为3.0 g/L的微咸水,设计了四种不同的灌溉方案(T1:80 mm淡水+80 mm淡水+80mm淡水; T2:80 mm淡水+80 mm淡水; T3:80 mm淡水+80 mm微咸水+80 mm微咸水; T4:80 mm淡水+80 mm微咸水),研究了微咸水灌溉对盐碱地土壤水盐分布与冬小麦产量的影响。结果表明:①灌三水方案的土壤含水率可达到12.5%~19.9%,而灌两水方案仅达到10.8%~13.6%,在相同水量灌溉下,T3处理可以确保生育后期适宜的土壤水分;土壤盐分最终盈亏情况为T1T3T2T4,表明除淡水灌溉外,T3处理在补充土壤水分的同时,盐分积累较少。②灌三水比灌两水增产10%~25%,T3比T1处理减产0.03%~7.82%,表明三水灌溉要优于两水灌溉,微咸水灌溉下冬小麦略有减产。③综合节水及产量两方面,冬小麦采用T3处理方式进行灌溉为该区域的较优选择。 相似文献
9.
微咸水连续灌溉对冬小麦产量和土壤理化性质的影响 总被引:1,自引:0,他引:1
为了合理开发和利用黄淮海平原浅层地下微咸水,2003~2005年在中科院河北南皮生态实验站连续以3g/L的微咸水对冬小麦进行田间灌溉试验,分析了微咸水灌溉对土壤含盐量、土壤溶液盐分含量、电导率以及冬小麦产量的长期影响,为建立华北地区冬小麦微咸水灌溉的合理灌溉制度和微咸水的合理利用提供理论依据。结果表明,连续利用3g/L的微咸水灌溉,会造成土壤表层盐分的累积,尤其在降水量偏少的年度会使作物受到盐分胁迫。微咸水灌溉比旱作增产,灌溉三次比灌溉两次产量高,降水量偏少的年份应尽量避免连续用微咸水进行灌溉。 相似文献
10.
微咸水灌溉对土壤EC值及冬小麦产量的影响 总被引:2,自引:1,他引:1
通过测坑试验,在"咸淡淡"、"淡咸淡"、"淡淡咸"3种微咸水-淡水交替灌溉方式和1、3、5 g/L三种微咸水矿化度水平条件下,监测并分析了各生育期灌水前后及生育期结束后土壤0~20、20~40、40~60 cm土层EC值,测定并分析了冬小麦产量及其构成因子。结果表明,整个生育期内,各层土壤EC值呈波动周期性变化趋势;微咸水-淡水交替灌溉方式主要影响土壤盐分的垂直分布,盐灌越靠前,盐分聚集层越深;灌水矿化度主要影响土壤总体EC值,随灌水矿化度增加,土壤总EC值变大。冬小麦产量和产量构成因子随灌水矿化度升高而呈减小的趋势,冬小麦的产量构成因子及产量在"咸淡淡"与"淡淡咸"2种轮灌方式下差异性显著,表现为"咸淡淡""淡淡咸"。 相似文献
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12.
D. P. Sharma K. V. G. K. Rao K. N. Singh P. S. Kumbhare R. J. Oosterbaan 《Irrigation Science》1994,15(1):25-33
In arid and semi-arid regions, effluent from sub-surface drainage systems is often saline and during the dry season its disposal poses an environmental problem. A field experiment was conducted from 1989 to 1992 using saline drainage water (EC=10.5–15.0 dS/m) together with fresh canal water (EC=0.4 dS/m) for irrigation during the dry winter season. The aim was to find if crop production would still be feasible and soil salinity would not be increased unacceptably by this practice. The experimental crops were a winter crop, wheat, and pearl-millet and sorghum, the rainy season crops, grown on a sandy loam soil. All crops were given a pre-plant irrigation with fresh canal water. Subsequently, the wheat crop was irrigated four times with different sequences of saline drainage water and canal water. The rainy season crops received no further irrigation as they were rainfed. Taking the wheat yield obtained with fresh canal water as the potential value (100%), the mean relative yield of wheat irrigated with only saline drainage water was 74%. Substitution of canal water at first post-plant irrigation and applying thereafter only saline drainage water, increased the yield to 84%. Cyclic irrigations with canal and drainage water in different treatments resulted in yields of 88% to 94% of the potential. Pearl-millet and sorghum yields decreased significantly where 3 or 4 post-plant irrigations were applied with saline drainage water to previous wheat crop, but cyclic irrigations did not cause yield reduction. The high salinity and sodicity of the drainage water increased the soil salinity and sodicity in the soil profile during the winter season, but these hazards were eliminated by the sub-surface drainage system during the ensuing monsoon periods. The results obtained provide a promising option for the use of poor quality drainage water in conjunction with fresh canal water without undue yield reduction and soil degradation. This will save the scarce canal water, reduce the drainage water disposal needs and associated environmental problems. 相似文献
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14.
【目的】目前针对灌溉冬小麦产量与水分利用效率影响因素的研究大多集中于某一特定区域,研究结果零散,针对上述问题,揭示宏观尺度下灌溉冬小麦产量和水分利用效率的影响因素。【方法】综合已发表的田间试验数据,采用Meta分析方法得出灌溉在不同地区的增产效应和水分效应,在异质性检验的基础上,通过Meta亚组分析探究灌溉定额、降雨量和平均气温等对冬小麦产量和水分利用效率的影响机制。【结果】与生育期不灌溉相比,灌溉使冬小麦总体增产39.34%,水分利用效率提高3.39%;增产率随灌溉定额的增加而增大,增幅最终趋于稳定,水分利用效率随灌溉定额的增加呈先增加后减少的趋势,当灌溉定额>240 mm时,冬小麦相对水分利用效率变化率显著降低11.29%;随着生育期平均温度上升,灌溉冬小麦增产效应显著提高,生育期均温>9℃时,冬小麦增产率高达45.81%;生育期降雨量对灌溉冬小麦产量影响显著,生育期降雨量处于干旱年份时灌溉增产效应最明显,增产率为72.48%。【结论】灌溉定额为60~120 mm更有利于提高冬小麦产量和水分利用效率。 相似文献
15.
In order to study the effects of drip irrigation with saline water on waxy maize, three years of field experiments were carried out in 2007-2009 in North China Plain. Five treatments with average salinity of irrigation water, 1.7, 4.0, 6.3, 8.6, and 10.9 dS/m were designed. Results indicated that the irrigation water with salinity <10.9 dS/m did not affect the emergence of waxy maize. As salinity of irrigation water increased, seedling biomass decreased, and the plant height, fresh and dry weight of waxy maize in the thinning time decreased by 2% for every 1 dS/m increase in salinity of irrigated water. The decreasing rate of the fresh ear yield for every 1 dS/m increase in salinity of irrigation water was about 0.4-3.3%. Irrigation water use efficiency (IWUE) increased with the increase in salinity of irrigation water when salinity was <10.9 dS/m. Precipitation during the growing period significantly lightened the negative impacts of irrigation-water salinity on the growth and yield. Soil salinity in depth of 0-120 cm increased in the beginning of irrigation with saline water, while it was relatively stable in the subsequent year when salinity of irrigation water was not higher than 4.0 dS/m and the soil matric potential (SMP) at 0.2 m directly underneath the drip emitter was controlled above −20 kPa. 相似文献
16.
Wenjun Ma Zhenqiang Mao Zhenrong Yu M. E. F. van Mensvoort P. M. Driessen 《Irrigation and Drainage Systems》2008,22(1):3-18
Drought and fresh water shortage are in the way of sustainable agriculture development in the North China Plain. The scarcity
of fresh water forces farmers to use shallow saline ground water, which helps to overcome drought and increase crop yields
but also increases the risk of soil salinization. This paper describes salt regimes and crop responses to saline irrigation
water based on field experiments conducted from October 1997 to September 2005. It was found that use of saline water causes
the ECe of the topsoil (0–100 cm, Cv: 0.196∼0.330) to be higher and more variable than the subsoil (100–180 cm, Cv: 0.133∼0.219).
The salt load rapidly increased, notably in the upper 80 cm and especially during the season of October 1999 to June 2000.
It was concluded that the maximum soil depth to which the soil was leached during the wet season was about 150 cm. The relative
yields of winter wheat could be ranked Fresh Sufficient (FS, 100%) > Fresh Limited (FL, 91.80%) > Saline Sufficient (SS, 91.63%)
> Saline Limited (SL, 88.28%) > Control (C, 69.58%) and for maize FS (100%) > FL (96.37%) > SS (93.05%) > SL (90.04%)> C (89.81%).
The best irrigation regime was Saline Limited for winter wheat and maize, provided rainfall is sufficient. The experiments
confirm that saline irrigation water appears to be economically attractive to farmers in the short term and ecological hazards
can still be controlled with proper leaching. 相似文献
17.
咸水淡水轮灌模式及施肥量对玉米生长和土壤盐分的影响 总被引:5,自引:1,他引:4
试验设置6种不同的灌溉模式,分别为淡-淡-淡-淡、咸-淡-淡-淡、淡-淡-咸-淡、淡-咸-咸-淡、咸-淡-咸-淡和咸-咸-淡-淡,并以淡水灌溉作为对照(CK),咸水灌溉采用矿化度为3 g/L的微咸水,结合灌溉模式设置2个施肥水平,研究了不同咸淡轮灌模式及施肥量对玉米生长及土壤盐分累积的影响。结果表明,不同咸淡轮灌模式及施肥量对玉米生育指标和籽粒的品质指标影响显著,增加施肥量可促进玉米生长发育,提高产量;微咸水灌溉可提高玉米籽粒品质,但影响玉米生长发育、降低玉米产量,特别是灌溉2轮咸水的处理,株高和叶面积受到的影响较大,产量降低较明显;咸水灌溉次数越多、施肥量越大,土壤盐分累积程度越明显。因此,采用咸-淡-淡-淡的组合灌溉顺序配合560 kg/hm~2的施肥方式为该试验的最优方案。 相似文献
18.
基于作物生长模型的冬小麦灌溉方案研究 总被引:1,自引:0,他引:1
利用作物生长模拟模型(PS123),以黄淮海平原曲周砂壤土种植的冬小麦为例,对2 280个不同淡水灌溉方案和2 055个微咸水灌溉方案进行了模拟研究,分析了不同灌溉方案对作物生产力、水分利用效率的影响。结果表明,曲周地区多年冬小麦平均生产潜力为11.27 t/hm2,冬小麦最高生产潜力的最小需水量为240 mm,与目前节水灌溉试验相吻合;通过灌溉方案模拟,提出了在冬小麦生育期淡水灌溉1到4次,获得高产的最佳灌溉方案;在灌溉4次的冬小麦生产体系中,建议冬前用淡水灌溉,返青后可以考虑1~2次微咸水灌。 相似文献