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1.
采用盆栽试验的方法,研究了秋末冬初不同灌水量下限\[分别占田间持水量(FC)的80%、70%、60%、50%\]对高羊茅绿期及抗寒性生理指标的影响.结果表明:在冬季低温条件下,80%和70%FC灌水处理使高羊茅叶片相对含水量、保护酶(SOD、POD和CAT)活性、叶绿素、可溶性糖和游离脯氨酸含量维持在较高水平,丙二醛含量和电解质外渗率降低,高羊茅的抗寒性增强.80%FC灌水处理分别较70%、60%和50%FC处理的草坪草绿期延长4、22和28 d,到达枯黄休眠的时间最晚,完成返青的时间最早.综合考虑节水和提高水分利用效率等多种因素,70%FC灌水处理为高羊茅秋末冬初季节最佳的灌水下限.  相似文献   

2.
水杨酸对不同灌水下限青花菜生理特性及产量品质的影响   总被引:1,自引:0,他引:1  
以青花菜为试材,采用大田试验研究了0.15mmol/L水杨酸(SA)对不同灌水下限(75%、60%和45%土壤相对含水量)青花菜生理特性及产量品质的影响。结果显示:(1)随灌水下限的降低,青花菜叶片相对含水量、水势及叶绿素含量均呈下降趋势,而其叶片电解质渗透率以及游离脯氨酸(Pro)、丙二醛(MDA)、可溶性蛋白(Pr)含量逐渐升高;青花菜的花球重及维生素C含量(Vc)随灌水下限的降低而降低,相反硝酸盐含量及可溶性固形物含量随之升高。(2)叶面喷施0.15mmol/L SA显著提高了青花菜叶片相对含水量、水势、渗透调节物质含量、产量及品质,且降低了膜脂过氧化产物MDA含量,其中以45%灌水下限处理效果最为显著,60%灌水下限处理次之,75%灌水下限处理最小。研究认为,适宜浓度外源SA通过改善青花菜叶片水分生理状况,提高叶片渗透调节物质含量,降低质膜透性来增强其对干旱胁迫的抗性,且以60%灌水下限配合叶面喷施0.15mmol/L SA处理较佳。  相似文献   

3.
陆文娟  李伏生  农梦玲 《生态学报》2014,34(18):5257-5265
为探讨分根区交替灌溉(AI)条件下作物生理响应和水分利用情况,在不同水肥条件下,以常规灌溉为对照,研究了分根区交替灌溉(AI)对玉米总干物质量、水分利用和生理指标的影响以及这些指标在恢复正常灌水后的恢复补偿能力,以期为玉米实施分根区交替灌溉提供科学依据。盆栽试验包括2种氮磷(NP)肥水平,2种灌溉方式和不同亏水水平,即拔节前期至中期(18d)进行正常灌水(70%—80%θf,θf是田间持水量)、轻度亏水(60%—70%θf)和中度亏水(50%—60%θf),拔节前期至中期处理后拔节中期至抽雄期(18d)进行正常灌水(70%—80%θf)和轻度亏水(60%—70%θf)。结果表明:与常规灌溉相比,拔节前期至抽雄期AI不显著影响玉米叶片叶绿素、类胡萝卜素、可溶性糖和脯氨酸含量,总干物质量和水分利用效率;与正常灌水相比,拔节前期至抽雄期轻度亏水也不显著影响上述指标;拔节前期至中期中度亏水降低玉米叶绿素含量和总干物质量,提高可溶性糖和脯氨酸含量,但是该处理在拔节中期至抽雄期恢复正常灌水后这些指标均恢复到一直正常灌水的水平。此外,施肥水平对各项指标的影响也不显著。因此,轻度亏水、低肥和拔节前期至抽雄期分根区交替灌溉结合可以节约灌水量和施肥量。  相似文献   

4.
不同水分梯度下楸树苗期生长及光合特征比较   总被引:1,自引:0,他引:1  
以1a生楸树根插苗为试验材料, 设置95%—100%FC、85%—90%FC、70%—75%FC、50%—55%FC等不同梯度的土壤含水量, 对生长旺季的光合特征及生长量进行测量, 研究苗期楸树对不同土壤水分含量的生长及光合特征响应。结果显示: 高土壤含水量(≧85%FC)和低土壤含水量(≦75%)地径和苗高生长量差异显著(P<0.05), 随着土壤含水量逐渐下降, 地径和苗高生长量、根重、茎重及根干比均呈下降趋势。光合特征比较发现, 上午净光合速率显著高于下午, 净光合速率的日变化主要直接受制于气孔因素; 85%—90%FC处理叶片的净光合日总量最大, 50%—55%FC处理叶片的净光合日总量最小。在所有光强梯度下, 高土壤水分含量处理(≧85%FC)的叶片净光合速率均明显较高, 尤其是85%—90%FC处理, 光利用能力和光合潜力都具有较大优势。从生长和光合特征综合分析结果可以看出, 四种处理中85%—90%FC处理最有优势和潜力, 是楸树苗期生长最为适宜的土壤含水量。  相似文献   

5.
分析植物个体短期水分利用效率(WUEp)对CO2浓度(Ca)和土壤含水量(SWC)的响应,可提高对气候变化下个体生存策略的认识。本研究以侧柏幼树为对象,在模拟气候箱中进行培养试验,设400(C400)、600(C600)和800 μmol·mol-1CO2(C800)浓度处理和35%~45%田间持水量(FC)、50%~60%FC、60%~70%FC、70%~80%FC、95%~100%FC土壤含水量处理,共15个处理。WUEpCa和SWC的响应用包裹式茎流计、称重法结合静态同化箱测定。结果表明: 个体日间(0.12~1.87 mol·h-1)和夜间蒸腾速率(0.01~0.16 mol·h-1)均在C400×70%~80%FC时达到最大值,个体日间净光合速率(2.12~22.10 mmol·h-1)在C800×70%~80%FC时达到最大值,而个体夜间呼吸速率(0.84~4.41 mmol·h-1)随SWC的增加而增加,随Ca的增加而减小,在C400×95%~100%FC时达到最大值。WUEp(5.37~24.35 mmol·mol-1)在C800×50%~60%FC时达到最大值,表明高Ca和干旱条件下,植物个体可通过生理可塑性调整,利用较少的水分固定更多的碳;此外,当个体间形态特征差异较小时,叶片瞬时水分利用效率可以较好地指示WUEP的变化。  相似文献   

6.
 以强筋型小麦(Triticum aestivum)品种‘豫麦34号’为材料,采用盆栽方法研究了土壤水分对氮素同化酶活性及籽粒品质的影响。结果表明:旗叶硝酸还原酶(NR)活性于花后呈下降趋势,且土壤含水量为田间持水量(FC)60%的处理活性最强,其次为40%FC,活性最低的是80%FC。旗叶和籽粒中谷氨酰胺合成酶(GS)活性于开花15 d前均呈下降趋势,15 d后均为上升趋势,各水分处理间酶活性大小关系是:80%FC>60%FC>40%FC。各水分处理间旗叶和籽粒谷氨酸合成酶(GOGAT)活性的大小关系同GS。60%FC籽粒产量及品质最优,80%FC产量次之,40%FC产量最低;40%FC品质次之,80%FC品质最低。不同水分处理下籽粒蛋白质含量与叶片NR、GS 和籽粒GOGAT活性均呈正相关,与旗叶GOGAT活性呈负相关。且40%FC和80%FC下籽粒蛋白质含量只与旗叶GS活性相关性达显著水平, 60%FC下蛋白质含量则与旗叶NR和籽粒GS活性均达显著相关,与旗叶GS活性达极显著相关。  相似文献   

7.
高羊茅对高温的生理生态响应   总被引:2,自引:0,他引:2  
徐胜  何兴元  陈玮  李建龙 《应用生态学报》2007,18(10):2219-2226
分析了昼/夜38℃/30℃高温下2种高羊茅草坪草(凌志和交战Ⅱ)与狗牙根叶片的相对含水量、叶绿素含量、细胞膜脂过氧化、抗氧化系统以及光合作用等生理生态指标的变化.结果表明:随高温时间的延长,2种高羊茅的相对含水量、叶绿素含量、净光合速率和最大光能转化效率均呈降低趋势,而且凌志高羊茅的平均降幅小于交战Ⅱ高羊茅.经过9d的高温处理,凌志高羊茅叶片超氧化物歧化酶、过氧化物酶和过氧化氢酶的平均活性比交战Ⅱ高羊茅分别高19.7%、17.9%和17.7%,而凌志和交战Ⅱ高羊茅的净光合速率分别下降了60.7%和81.9%.与交战Ⅱ高羊茅相比,凌志高羊茅具有更高的光化学转换功能,有利于减轻高温对光合器官的损伤,使其保持较高的净光合速率.在整个高温处理过程中,狗牙根的各项生理生态指标随时间变化的差异不显著.狗牙根、凌志高羊茅和交战Ⅱ高羊茅对高温胁迫的适应能力由强到弱.  相似文献   

8.
以高产大果型西红柿品种中研988为材料,采用分根培养的方法,研究了控制性分根交替灌溉(APRI)条件下,不同氮素形态(硝态氮、铵态氮)对番茄生长、产量及果实品质的影响.结果表明: 同一灌溉方式或下限处理下,铵态氮对番茄植株前期生长有利,而硝态氮促进番茄植株后期生长,并促进果实产量增加.在APRI同一灌水下限下,硝态氮处理可提高果实维生素C含量及糖酸比,提高营养品质.同一氮素形态供应下,APRI番茄的株高和叶面积均小于正常灌溉(CK),但灌水下限为60%田间持水量(θf)的APRI处理番茄茎粗在生长后期有所增加.在同一氮素形态下,与CK相比,APRI各处理的产量均下降,其中灌水下限在40%θf的APRI处理产量下降了22.4%~26.3%;而灌水下限在60% θf的APRI处理仅下降了5.3%~5.4%,下降幅度相对较小,而品质显著提高,并具有明显的节水效果.因此,控制灌水下限在60%θf、供应硝态氮的APRI处理为番茄高产、优质、节水的最佳处理.
  相似文献   

9.
在沈阳地区日光温室试验的基础上,利用番茄生长模型DSSAT-CROPGRO-Tomato模拟了不同灌水水平条件下温室番茄的生长发育和产量形成过程,并确定了参数估计和模型验证的最优方案.试验设4个处理,全育期的灌水上限均为计划湿润层田间持水率,灌水下限分别为计划湿润层田间持水率的50%(W1)、60%(W2)、70%(W3)和80%(CK).利用DSSAT-GLUE参数估计模块得到遗传参数的不同估计结果,通过对比分析番茄物候期、冠层高度、地上干物质量、鲜果产量、叶面积指数(LAI)、土壤含水率的模拟值与实测值之间的差异,来确定该模型模拟精度.结果表明: 番茄遗传参数--最优条件下最终果实负载所需光热时间(PODUR)的估计值具有较大变异性,变异系数为11.5%,将CROPGRO-Tomato模型应用于不同地区日光温室时,应对此参数进行充分估计,否则会影响其模拟精度.在模型应用过程中,应选用充分灌水处理的观测数据进行遗传参数估计,可以提高模型的模拟精度.此时的绝对相对误差和标准均方根误差值分别为8.7%和10.5%.对作物LAI和土壤含水率动态模拟结果可以看出,灌水水平越高,模型模拟精度越高.留一交叉验证法的总体模拟误差在10.5%~12.5%.说明DSSAT-CROPGRO-Tomato模型可以较为准确地模拟沈阳日光温室不同灌水水平条件下番茄生长发育和产量形成过程.  相似文献   

10.
土壤水分对不同专用小麦后期光合特性及产量的影响   总被引:40,自引:8,他引:32  
采用盆栽方法,研究了土壤水分对专用小麦生育后期光合特性及产量的影响.结果表明,强筋小麦豫麦34旗叶叶绿素计读数(SPAD值)、PSⅡ活性(Fv/Fo)和PSⅡ最大光能转换效率(Fv/Fm)在土壤相对含水量60%(FC)的条件下最高,光化学猝灭系数(qP)、非光化学猝灭系数(qN)、有效电子传递速率(ETR)和传递的量子产率(Φ2)在80%FC下最高;高产小麦豫麦49旗叶SPAD值、qP、qN、ETR均以80%FC下最高,Fv/Fo、Fv/Fm和φ2受土壤水分影响不大;弱筋小麦豫麦0,除qN在80%FC下最低外,其余光合特性参数均以80%FC的条件下最高.豫麦34产量和蛋白质含量均以60%FC最高,且产量达极显著差异;豫麦49和豫麦0籽粒蛋白质含量以40%FC最高,籽粒产量以80%FC最高,且豫麦49产质差异均达显著水平,而豫麦0的产量差异达极显著水平.  相似文献   

11.
Fertilization has a great impact on GHG emissions and crop nutrient requirements play an important role on the sustainability of cropping systems. In the case of bioenergy production, low concentration of nutrients in the biomass is also required for specific conversion processes (e.g. combustion). In this work, we investigated the influence of soil texture, irrigation and nitrogen fertilization rate on nitrogen, phosphorus and potassium concentrations and uptakes in Miscanthus × giganteus when harvested at two different times: early (autumn) and late (winter). Our results confirmed winter harvest to significantly reduce nutrient removals by as much as 80% compared to autumn. On the other hand, a few attempts have been made to investigate the role of soil texture and irrigation on nutrients in miscanthus biomass, particularly in the Mediterranean. We observed an effect of soil mainly on nutrient concentrations. Similarly, irrigation led to higher nutrient concentrations, while its effect on nutrient uptakes was less straightforward. Overall, the observed differences in miscanthus nutrient uptakes as determined by the crop management (i.e. irrigation and nitrogen fertilization) were highlighted for autumn harvest only, while uptakes in all treatments were lowered to similar values when winter harvest was performed. This study stressed the importance of the time of harvest on nutrient removals regardless of the other management options. Further investigation on the environmental and economic issues should be addressed to support decisions on higher yields‐higher nutrient requirements (early harvest) vs. lower yields‐lower nutrient requirements (late harvest).  相似文献   

12.
于2013—2014和2014—2015年两个小麦生长季进行田间试验,供试品种为‘济麦22’,设置5个处理,分别为W0(全生育期不灌水)、W1(越冬期不灌水,拔节期和开花期分别补灌至0~40 cm土层土壤相对含水量为65%和70%)、W2(越冬期、拔节期和开花期分别补灌至土壤相对含水量为70%、65%和70%)、W3(越冬期、拔节期和开花期分别补灌至土壤相对含水量为75%、65%和70%)和W4(越冬期、拔节期和开花期均定量灌溉60 mm),研究越冬期测墒补灌对小麦耗水特性和光合有效辐射截获利用的影响.结果表明: 总灌水量及其占总耗水量的比例为W4>W3>W2>W1>W0;土壤贮水消耗量占总耗水量的比例为W0>W1、W2>W3、W4;总耗水量和开花至成熟期的耗水量均为W4>W2、W3>W1>W0.两生长季小麦开花后冠层光合有效辐射(PAR)截获率为W4>W2、W3>W1>W0,而花后冠层PAR反射率各处理间的表现与之相反.灌水处理中干物质净积累量为W4处理最高,W1处理最低.两生长季小麦越冬期0~40 cm土层土壤相对含水量补灌至70%的W2处理籽粒产量仅低于定量灌溉的W4处理,水分利用效率和灌溉效益最高,是本试验条件下节水高产的最优处理.  相似文献   

13.
In Argentina, the climatic pattern of the olive production areas is characterised by a marked water deficit during winter and spring months. A field experiment was carried out to evaluate the effect of water availability during the pre‐flowering–flowering period on vegetative, reproductive and yield responses of olive trees grown in central Argentina. From the end of autumn to mid‐spring, four irrigation treatments were imposed to olive trees (Olea europaea, cv. Arbequina and Manzanilla) at 0, 25, 50 and 75% estimated crop evapotranspiration (ETc). Also, a control treatment was kept at 100% ETc for the entire year. For the first crop year evaluated, water deficit applied at early June, approximately 4 months prior to bloom, reduced the vegetative shoot growth and delayed the flowering time, resulting in shortening of the fruit maturation period and, ultimately, decreased fructification. Trees irrigated with high (75% of ETc) and full (100% of ETc) winter‐spring water supply presented significantly higher values of flower density, fruit density and final fruit yield which resulted in water productivity (kg fruits mm?1 of irrigation/ha) enhancements of about 500% (cv. Arbequina) and 330% (cv. Manzanilla) with respect to those obtained from the corresponding unirrigated treatments. Differences between treatments in oil content and composition were primarily attributed to variations in fruit maturity. Differences in fatty acid composition were stronger in cv. Arbequina where a gradual increase in oleic acid content was registered in parallel to the increase in irrigation water supply. From a practical stand point, results obtained from most of the analysed parameters were quite similar for both T75 and T100 treatments. Thus, the possible convenience of irrigation at T75% ETc should be considered since it may warrant profitable olive production while saving a considerably quantity of irrigation water in the olive production area in central Argentina.  相似文献   

14.
调亏灌溉对冬小麦耗水特性和水分利用效率的影响   总被引:12,自引:2,他引:10  
以高产中筋冬小麦品种济麦22为材料,在山东兖州小孟镇史王村进行田间试验,研究了调亏灌溉对冬小麦耗水特性和水分利用效率的影响.结果表明:在全生育期降水228 mm条件下,W1(土壤相对含水量:播种期80%+拔节期70%+开花期70%)和W4(土壤相对含水量:播种期90%+拔节期85%+开花期85%)处理总耗水量高于W0(土壤相对含水量:播种期80%+拔节期65%+开花期65%)、W2(土壤相对含水量:播种期80%+拔节期80%+开花期80%)和W3(土壤相对含水量:播种期90%+拔节期80%+开花期80%)处理,W1和W4处理间无显著差异;W1处理增加了0~200 cm土层土壤贮水消耗量,降低了小麦拔节至开花期的耗水模系数,提高了开花至成熟期的耗水模系数;W4处理在开花至成熟期、拔节至开花期的耗水量和耗水模系数均较大.调亏灌溉条件下,W0处理水分利用效率较高,但产量最低;随灌溉量增加,其他处理水分利用效率呈先增加后降低的趋势.耗水量最高的W1和W4处理产量也最高,W1处理灌溉水利用效率和灌溉效益均高于W4处理,为本试验条件下高产节水的最佳处理.  相似文献   

15.
水肥耦合对冬小麦不同生育期质膜透性的影响   总被引:6,自引:0,他引:6  
在田间条件下研究水肥耦合对冬小麦各生育期叶片质膜相对透性的影响。试验结果表明:冬小麦叶片质膜相对透性与生育时期有关,总的趋势表现为冬前低,开春稍升;拔节期大幅降低,灌浆期逐渐增加,成熟期最大。冬灌前各处理质膜透性无差异。冬灌后,补水处理的质膜透性普遍降低,其中以高氮冬灌处理质膜透性的降幅最大,并随时间后移至拔节初期表现出明显的水肥正交互作用;而未补水处理的质膜透性均较高。拔节期施氮春灌处理对维持质膜稳定性有利,而不施氮春灌处理在起初有一定负效应,但随时间后移至灌浆初期表现为正效应。从灌浆期灌水前看,冬灌和春灌对维持质膜稳定性都有一定的正效应,大部分施肥补充灌溉处理较未补充灌溉处理质膜相对透性降低。灌浆期灌水的效果比较复杂,但后期同时追施氮肥和灌水处理质膜相对透性较低。  相似文献   

16.
于2010-2012年度冬小麦生长季,选用高产冬小麦品种济麦22,采用测墒补灌方式,设置40 m(T40)、60 m(T60)和80 m(T80)3种带长的微喷带灌溉处理,研究不同带长微喷带灌溉对土壤水分分布及冬小麦耗水特性和产量的影响.结果表明: 拔节期和开花期采用微喷带补灌,随微喷带带长缩短,灌溉水在土壤中的水平分布均匀系数显著增加.拔节期补灌,T40和T60处理在距畦首0~40 m范围内各小麦行间的0~200 cm土层土壤含水量均无显著差异;T80处理在距畦首38~40 m、58~60 m和78~80 m处各小麦行间的0~200 cm各土层土壤含水量变化规律一致,均表现为随距微喷带的距离增加而减小.T40处理的小麦在拔节至开花期间和开花至成熟期间分别对40~60 cm和20~80 cm土层土壤贮水的消耗量显著高于T60和T80处理,而对深层土壤贮水消耗量和总土壤贮水消耗量、开花期补灌水量、总灌水量和总耗水量显著低于T60和T80处理.随微喷带带长缩短,小麦籽粒产量、产量水分利用效率显著升高,而流量降低,在灌水量一定的情况下,单位时间内的有效灌溉面积减小.综合考虑小麦籽粒产量、水分利用效率和流量,40和60 m是本试验条件下的适宜微喷带带长.  相似文献   

17.
A drought event can cause entire crops to fail or yield loss. In order to study the effects of continuous drought on photosynthetic characteristics, yield, and water use efficiency (WUE) of winter wheat (Triticum aestivum L.), the winter wheat variety “Aikang 58” was selected as test material with controlling the water of the pot-planted winter wheat under a mobile rainout shelter. Based on foot planting and safe wintering, winter wheat was evaluated under different drought conditions, including light, moderate and severe drought at the jointing (B), heading (C), and filling (G) stages. The soil water content was controlled in a range of 60% to 70%, 50% to 60%, and 40% to 50% of the field capacity, respectively. In the experiment, there were 9 single-stage droughts, 3 three-stage droughts, and 1 test control (totaling 13 trials). The results are as follows: Under a single-stage drought, the change of net photosynthetic rate (Pn) and stomatal conductance (Gs) have similar trends, and they both decrease significantly with the severity of the drought. Under three-stage continuous droughts, the change curve of Gs shows a constant downward trend; the change curve of Pn showed a “valley shape,” and the minimum value of Pn appeared at the heading stage. All droughts will reduce the yield of winter wheat. Under the three-stage continuous drought conditions, except for light drought, moderate drought and severe drought will cause significant yield reduction, mainly due to lack of water at the jointing and heading stages. Continuous drought will reduce the WUE, and the difference will reach a significant level under moderate and severe drought. The present results suggested that when water resources are scarce, it is a better irrigation model to save water and achieve high grain yield by applying appropriate water stress (60%–70% FC) during the critical growth period of winter wheat.  相似文献   

18.
于2012—2014年两个冬小麦生长季,在大田条件下设置:全生育期不灌水(W0)处理,当地定量节水灌溉(拔节期和开花期均灌水60 mm,W1)处理,依据0~20 cm (W2)、0~40 cm (W3)、0~60 cm (W4)和0~140 cm (W5)土层土壤含水量测墒补灌处理,于拔节期和开花期补灌至土壤相对含水量为田间持水量的65%和70%,研究依据不同土层土壤含水量测墒补灌对冬小麦耗水特性、光合速率和籽粒产量的影响.结果表明:各处理拔节期灌水量为W1、W4>W3>W2、W5,开花期灌水量和总灌水量均为W5>W1、W4>W3>W2,W3总耗水量显著高于W2处理,与W1、W4和W5处理无显著差异.W3土壤贮水消耗量高于W1、W4和W5处理,其中,W3在拔节至开花阶段和开花至成熟阶段对40~140 cm和60~140 cm土层土壤贮水消耗量均显著高于其余灌水处理.灌浆中期W3处理小麦旗叶光合速率、蒸腾速率和水分利用效率最高,W1和W4处理次之,W0处理最低.W3处理两个生长季的籽粒产量分别为9077和9260 kg·hm-2,水分利用效率分别为20.7和20.9 kg·hm-2·mm-1,均显著高于其余处理,灌溉水生产效率最高.综合考虑灌水量、籽粒产量和水分利用效率,小麦拔节期和开花期适宜进行测墒补灌的土层深度为0~40 cm.  相似文献   

19.
Maize being sub-tropical crop is sensitive to water deficit during the early growth stages; particularly clay-rich soil, due to the compaction of the soil. It is well-documented that potential sub-surface drip irrigation (SDI) (Full irrigation; SDIFull (100% field capacity (FC)), Deficit irrigation; SDIDeficit (70% FC)) improves water use efficiency, which leads to increased crop productivity; since it has a constraint that SDI excludes soil air around the root-zone during irrigation events, which alter the root function and crop performance. Additionally, in clayrich soils, the root system of plants generally suffers the limitation of oxygen, particularly the temporal hypoxia, and occasionally from root anoxia; while SDI system accomplishes with the aerating stream of irrigation in the rhizosphere could provide oxygen root environment. The oxygen can be introduced into the irrigation stream of SDI through two ways: the venturi principle, or by using solutions of hydrogen peroxide through the air injection system. Therefore, the application of hydrogen peroxide (H2O2; HP) can mitigate the adverse effect of soil compactness and also lead to improving the growth, yield and yield attributes of maize in clay-rich soil. Considering the burning issue, a field study was conducted in consecutive two seasons of 2017 and 2018; where hybrid maize was cultivated as a second crop, to evaluate the effect of liquid-injection of H2O2 (HP) into the irrigation stream of SDI on the performance of maize in a clay-rich soil field of Adana, Turkey. When soil water content decreased in 50% of available water, irrigation was performed. The amount of water applied to reach the soil water content to the field capacity is SDIFull (100% FC) and 70% FC of this water is SDIDeficit (70% FC). In the irrigation program, hydrogen peroxide (HP) was applied at intervals of 7 days on average according to available water with and without HP: SDIFull (100% FC) + 0 ppm HP with full SDI irrigation; SDIFull (100% FC) + 250 ppm HP with deficit SDI irrigation; SDIDeficit (70% FC) + 0 ppm HP, SDIDeficit (70% FC) + 250 ppm HP and SDIDeficit (70% FC) + 500 ppm HP. Deficit irrigation (SDIDeficit (70% FC)) program was started from tasseling stage and continued up to the physiological maturity stage with sub-soil drip irrigation. H2O2 was applied 3 times during the growing season. Two years’ results revealed that the liquid-injection of H2O2 into the irrigation stream of SDI improved the growth and yield-related attributes and grain yield of maize. Based on the obtained results, during the extreme climatic condition in the year 2017, SDIFull (100% FC) + 250 ppm HP was more effective than SDIFull (100% FC) + 0 ppm HP on all traits for relative to full irrigation. While, during the favourable climatic condition in the 2018 season, SDIFull (100% FC) + 250 ppm HP was more effective than full irrigation with SDIFull (100% FC) + 0 ppm HP for the grain yield, grains, and SPAD value. Accordingly, the most effective treatment was SDIFull (100% FC) + 250 ppm HP, as it gave the highest growth and yield-related attributes and grain yield of maize followed by SDIDeficit (70% FC) + 250 ppm HP. Therefore, SDIFull with 250 ppm H2O2 using as liquid-injection may be recommended to mitigate the adverse effect of soil compactness particularly water-deficit stress in clay-rich soil for the sustainability of maize production.  相似文献   

20.
有限供水下冬小麦全程耗水特征定量研究   总被引:5,自引:1,他引:4  
张兴娟  薛绪掌  郭文忠  李亮  王志敏 《生态学报》2014,34(10):2567-2580
为明确冬小麦不同水分条件下全生育过程日耗水及阶段耗水特征,在北京地区利用蒸渗仪系统连续监测了几种灌溉处理(W4:起身水+孕穗水+开花水+灌浆水;W2:拔节水+开花水;W1:拔节水;W0:无灌水)耗水动态变化。结果表明:冬小麦全生育期的耗水动态可分为3个阶段:(1)播种至11月底的冬前阶段,这个阶段日耗水量波动明显,一般低于3 mm/d;(2)12月上旬至来年2月底的冬季阶段,这个阶段日耗水量低于0.4 mm/d,且波动很小;(3)3月初小麦返青至收获的春后生长阶段,这个阶段日耗水量总体上是一个先升高后降低的过程,但波动很大,每次灌水都会引起1个日耗水高峰的出现。耗水日变化呈单峰或双峰曲线,高峰出现在正午前后,高峰值因灌水处理而有明显差异,灌水多则耗水峰值显著升高,而夜间耗水量及其在不同处理间差异均很小。拔节至成熟期是冬小麦耗水的主要时期,该期耗水占总耗水60%以上。减少灌溉会增加土壤贮水消耗,但降低了总耗水量。综合比较表明,在有限灌溉下,拔节水和开花水组合是高产和高水分效率相统一的灌溉模式。  相似文献   

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