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1.
To investigate the effects of irrigation regimes on assimilate remobilization, water use efficiency (WUE), relative water content (RWC), photosynthesis and yield of five wheat cultivars, a field experiment was conducted at Shiraz University during the 2008 and 2009 growing seasons. The experimental design was a randomized complete block and treatments were arranged as split-plot in three replicates. There were four levels of water regime including well-watered [irrigation based on 100% field capacity (FC)], excess watered (125% FC), mild drought (75% FC) and severe drought (50% FC) stress, and four bread wheat cultivars (Shiraz, Bahar, Pishtaz and Sistan) and a durum wheat (Yavaros). In all cultivars, progressed leaf senescence at 30 days after anthesis (DAA), was associated with a reduction in chlorophyll content. The reduction was more pronounced in Shiraz and Yavaros than Pishtaz and Sistan. With increasing temperature and remobilization of assimilate to grain, net photosynthesis and stomatal conductance were decreased significantly at 18 DAA compared with 8 DAA. Sistan and Pishtaz cultivars maintained higher RWC than sensitive cultivars of Shiraz and Yavaros under drought stress. The higher WUE in Pishtaz and Sistan was attributed to the effectiveness of a small amount of water in alleviating severe stress during the sensitive stages of growth. Under mild drought stress, controlled soil drying could enhance remobilization efficiency of assimilates in Pishtaz and Sistan and under severe drought, these cultivars had the highest grain yield compared with the other cultivars. Reduction of assimilates remobilization to the grain and 1000-grain weight, caused lower grain yield in Shiraz under severe drought. Overall, controlled soil drying in Sistan and Pishtaz might result in better mobilization of pre-stored assimilates to the grain in arid areas, where a rapid depletion of water resources is threatening crop production. 相似文献
2.
水氮互作对小麦土壤硝态氮运移及水、氮利用效率的影响 总被引:3,自引:1,他引:2
为给强筋小麦(Triticum aeativum L.)高产优质栽培的水、氮合理运筹提供理论依据,在高产地力条件下,选用强筋小麦品种济麦20,设置不施氮(N0)、施氮180 kg/hm2 (N1)、240 kg/hm2 (N2)3个施氮水平,每个施氮水平下设置不灌水(W0)、底墒水+拔节水+开花水(W1)、底墒水+冬水+拔节水+开花水(W2)、底墒水+冬水+拔节水+开花水+灌浆水(W3)4个灌水处理,每次灌水量均为60 mm,研究了水氮互作对麦田耗水量、土壤硝态氮运移、氮素利用效率和水分利用效率的影响。结果表明,(1)增加施氮量,开花期和成熟期0—140 cm各土层的土壤硝态氮含量显著升高;增加灌水时期,土壤硝态氮向深层的运移加剧,成熟期0—80 cm各土层的土壤硝态氮含量降低,120—140 cm土层的土壤硝态氮含量升高。N1W1处理在开花期0—60 cm土层的土壤硝态氮含量较高,成熟期土壤硝态氮向100—140 cm土层运移少,有利于植株对氮素的吸收。(2)随施氮量的增加,子粒产量先升高后降低,以N1最高。N1水平下,W1处理获得了较高的子粒产量、子粒氮素积累量、氮素利用效率、氮肥农学利用率和氮肥偏生产力;在此基础上增加冬水(W2),上述指标无显著变化;再增加灌浆水(W3),上述指标显著降低。(3)施氮提高了小麦对土壤水的利用能力,随施氮量增加,土壤供水量及其占总耗水量的比例显著升高。N1水平下,W1处理获得了最高的水分利用效率;再增加灌水时期,水分利用效率显著降低,开花至成熟阶段的耗水模系数显著升高,灌水量占总耗水量的比例升高,降水量和土壤供水量占总耗水量的比例降低。本试验条件下,施氮为180 kg/hm2,灌底墒水+拔节水+开花水3水的N1W1处理,是兼顾高产、高效的水氮运筹模式。 相似文献
3.
灌水量和时期对高产小麦氮素积累、分配和转运及土壤硝态氮含量的影响 总被引:11,自引:2,他引:9
在每公顷产9000 kg小麦的高产条件下,以济麦22为试验材料,设置全生育期不灌水(W0)、底墒水(W1)、底墒水+拔节水(W2)、底墒水+拔节水+开花水(W3)、底墒水+开花水 (W4) 5个灌溉处理,每次灌水60 mm,研究了灌水量和时期对高产小麦氮素积累、分配和转运及土壤硝态氮含量的影响。结果表明:1)与不灌水处理(W0)相比较,灌水处理显著增加了小麦植株氮素积累量、子粒氮素积累量和开花后营养器官氮素向子粒的转移量;随着灌水量的增加,成熟期小麦植株氮素积累量、开花后营养器官积累的氮素向小麦子粒转移量和转移率均呈现先增加后降低的趋势,以W2处理最高。2)随着小麦生育进程的推进,0—200 cm土层土壤硝态氮含量先降低后回升再降低,在拔节期最低。成熟期,W0处理0—40 cm土层的土壤硝态氮含量显著高于灌水处理;随灌水量的增加,100—160 cm土层土壤硝态氮含量增加,W2处理显著低于W3和W4处理;160—200 cm土层的土壤硝态氮含量无显著差异。3)随灌水量的增加,氮素吸收效率、氮素收获指数和氮肥生产效率先增加后降低,W2处理最高;而氮素利用效率则呈逐渐降低趋势,其中W0处理的氮素利用效率显著高于其他处理,W2、W3、W4处理间无显著差异。在本试验条件下,综合考虑氮素利用、子粒产量和土壤中硝态氮的淋溶,底墒水和拔节水各灌60 mm的W2为最佳处理,可供生产中参考。 相似文献
4.
通过设置不同灌溉处理来研究灌溉次数和时期对黄淮海地区冬小麦产量、籽粒品质和水氮利用的影响。结果表明:浇足底墒基础上拔节期灌一水不仅可获得较高的产量并提高水氮利用效率,减低硝态氮淋失风险,而且可获得较好的物理品质(硬度指数、容重)和蛋白质品质(粗蛋白、湿面筋和沉淀值)及最优的粉质仪质量指数、拉伸仪参数和降落数值。在此基础上增加冻水、开花水、灌浆水等处理的产量增加不显著,各项品质指标没有明显改善,水分利用效率降低,而且显著增加硝态氮淋失风险;因而黄淮海地区最优的节水灌溉模式是浇足底墒基础上拔节至挑旗期灌溉一水。 相似文献
5.
Field experiments were conducted to investigate the effects of irrigation regimes and N levels on assimilate remobilization of two barley cultivars (Yousefsix-rowed and Nimrouztwo-rowed) in 2011 and 2012. There were three levels of water regimes (full irrigation (I100), 75% and 50% of I100: I75 and I50, respectively) in 2011. Rain-fed treatment (I0) was included in 2012. Three N levels (0, 60, and 120 kg ha?1) were used. Grain yield and assimilate remobilization decreased by severe water stress (I0), however, the reduction of them were intensified by N fertilizer application. The N remobilization was negatively affected by N fertilization and water stress. The two-rowed showed higher N remobilization (10.7%) and contribution of N remobilized to N content of grain (5.8%) than the six-rowed. The two-rowed cultivar showed significantly higher assimilate remobilization and grain yield than the six-rowed under I50 (26.3% and 6.5%, respectively) and I0 (48.7% and 17.1%, respectively), while the six-rowed had similar or higher performances in terms of these traits under I100 and I75. This study showed that optimizing irrigation and N rates (decrease N level with increasing water stress) and selection of the suitable cultivars (Nimrouztwo-rowed) might increase assimilate remobilization and consequently grain yield under drought stress conditions. 相似文献
6.
Mohammad Taghi Feyzbakhsh Behnam Kamkar Hassan Mokhtarpour Mohammad Esmaeil Asadi 《Archives of Agronomy and Soil Science》2013,59(11):1581-1592
A 2-year field experiment (2012–2013) was conducted to evaluate the yield and water use efficiency (WUE) response of maize (Zea mays L.) to different soil water managements at different sowing dates. The experiment included three sowing dates (22 June, 6 July and 21 July) and four irrigation regimes based on maximum allowable depletion (MAD) of the total available soil water (TAW). The irrigation treatments were marked by I1 to I3 as 40%, 60% and 80% MAD of TAW, respectively, and with no irrigation. The results showed that grain yield reduced when planting was delayed in both years, ranging from 6105 to 4577 kg ha?1 in 2012 and from 7079 to 5380 kg ha?1 in 2013. However, WUE increased when planting was delayed from 22 June until 21 July. Also the highest grain yield was observed in the first irrigation treatment (MAD = 40%) in both years, and the highest WUE was obtained in the second irrigation treatment (MAD = 60%) with 1.64 and 1.61 (kg m?3) in 2012 and 2013, respectively. These findings suggest that delay in planting date and the use of MAD = 60% treatment in Mediterranean-type region such as Golestan, Iran, can be useful in saving water that is highly important in such regions. 相似文献
7.
云南蔗区播期与水氮耦合对甘蔗产量和糖分影响 总被引:3,自引:1,他引:2
播期调控和水氮优化管理是提高作物产量和品质的有效措施。德宏是云南甘蔗主产区之一,属于典型的湿润蔗区,然而播期和水氮管理对该区甘蔗生产的耦合效应尚不明确。该文基于云南德宏蔗区瑞丽甘蔗试验站的大田分期播种试验数据评估了APSIM-Sugar(Agricultural Production Systems sIMulator-Sugar)模型的适应性,并应用验证后的模型进行了播期和水氮耦合对甘蔗大田生产影响的情景模拟,通过比较不同耦合方式下的蔗茎产量、蔗茎含糖量、水分和氮肥利用效率等指标差异,分析了云南德宏蔗区雨养和灌溉条件下的最优播期和水氮管理耦合方案。结果表明:APSIM-Sugar模型能够较准确的模拟云南德宏蔗区甘蔗代表品种(ROC22和YZ0551)在典型播期下的蔗茎产量和含糖量变化趋势,模拟相对均方根误差在10%以内,决定系数R~2大于0.9。播期调控和水氮优化能够为德宏蔗区的甘蔗生产提供积极影响,雨养条件下采用春植或冬植有利于甘蔗稳产和水氮高效利用,灌溉条件下采用秋植或春植有利于甘蔗高产和水氮高效利用。云南德宏等湿润蔗区旱地甘蔗推荐种植模式为,春植蔗2月下旬播种,冬植蔗12月下旬播种,施用纯氮60 kg/hm~2,可获得95~100t/hm~2的蔗茎产量(含糖量大于19%)。水浇地甘蔗推荐种植模式为,春植蔗2月下旬播种,施用纯氮120 kg/hm~2,配合伸长期灌水360 mm,可获得近120 t/hm~2的蔗茎产量(含糖量大于17%);秋植蔗10月下旬播种,施用纯氮180 kg/hm~2,配合分蘖期和伸长期灌水720 mm,可获得近170 t/hm~2的蔗茎产量(含糖量大于18%)。研究结果可为在云南湿润蔗区进行甘蔗生产的播期调控和水氮优化提供依据,为甘蔗高产高效种植管理决策提供参考。 相似文献
8.
播期和水氮互作对滴灌施肥春玉米生长和水氮利用的影响 总被引:1,自引:1,他引:0
9.
为探究春玉米(Zea mays L.)干物质积累和产量对播期调控下水热变化的响应,在河北科技师范学院试验基地,于2017—2020 年进行了4年的播期试验,以京农科728和MC812为材料,分析了播期(5月1日、5月10日、5月20日、5月30日)引起的春玉米干物质积累量、产量构成因素、产量以及水分利用率的变化。结果表明,受温度与降水影响,春玉米干物质积累量在生育前、中期随播期的推迟而下降,而灌浆后期至成熟期以5月30日播种春玉米干物质积累量最多。春玉米干物质积累动态符合Logistic模型,5月30日播种春玉米干物质积累的总持续时间和快增期持续时间均最长。有效穗数、穗粗、轴粗、穗行数和出籽率不受温度与降水的影响,但穗粒数、千粒重、穗长、行粒数受其影响显著,各指标随播期延迟先下降再上升,并以5月20日播种的春玉米最低。产量与千粒重呈显著正相关,5月30日播种的春玉米产量最高。另外,随播期的推迟,总耗水量减少,水分利用效率提高。综上可知,合理安排播期,重视降雨对春玉米生长发育及产量形成的影响,是冀东地区春玉米获得高产的重要措施。本研究为冀东地区春玉米播期选择提供了理论依据和技术支持。 相似文献
10.
不同播期对紫云英生长及物质养分积累的影响 总被引:4,自引:0,他引:4
在大田试验条件下,设置了自2009年9月25日—11月6日共7个播种时期,研究不同播期对紫云英生长、产量及养分吸收的影响。试验结果表明,紫云英的密度、株高、单株复叶数、表观叶面积和单株重均随播期推迟而下降。鲜草产量随播期推迟显著降低,9月25日播种的鲜草产量最高,达31833 kg/hm2,种子产量则以10月2日播种的最高,为227 kg/hm2。地上部N、P、K、Cu含量均随播期推迟呈下降趋势,10月30日之后播种处理的Fe、Mn含量则显著增加,而不同播期对Ca、Mg、Zn含量无影响。各养分积累量均随播期推迟而下降。研究表明,播期显著影响紫云英生长及物质养分积累,本试验条件下宜在9月下旬至10月上旬期间播种。 相似文献
11.
In an effort to improve phosphorus (P) fertilizer efficiency on alkaline calcareous soils, the effect of period of pre-incubation of single superphosphate along with poultry litter and its time of application on phosphorous efficiency and yield of wheat was studied in a net house pot experiment. The results showed that application of 3–21 days pre-incubated single super phosphate + poultry litter resulted in higher phosphorous fertilizer efficiency and produced significantly higher dry matter yield of wheat at vegetative stage of growth. At maturity, however, maximum grain yield and highest phosphorous fertilizer efficiency was recorded for seven-days pre-incubation treatment only as compared to the recommended method of single super phosphate alone application at sowing. Application of pre-incubated single super phosphate + poultry litter at first irrigation also produced grain yield equivalent to single super phosphate applied alone at sowing. Under field conditions, top-dressing pre-incubated 22 and 44 kg phosphorous (as single super phosphate) along with 1 ton of poultry litter ha?1 at first irrigation improved phosphorous uptake by 16.4 and 18.7%, phosphorous fertilizer efficiency by 65 and 58% and the grain yield of wheat by 13.4 and 12.5%, respectively as compared to phosphorous alone application at the same time. 相似文献
12.
造墒与播后镇压对小麦冬前耗水和生长发育的影响 总被引:4,自引:0,他引:4
为明确造墒和播后镇压对小麦冬前耗水和群体与个体特征及产量的影响,为确定播后镇压技术和提高小麦水分利用效率提供依据,分别于2013—2014年和2014—2015年小麦生长季在河北省衡水市选用当地小麦品种‘衡4399’,分9月15日(I9.15)、9月20日(I9.20)、9月25日(I9.25)和9月30日(I9.30)4期造墒,以不造墒为对照(CK),每期处理又设每延米0 kg(G0)、95 kg(G95)和120 kg(G120)3个水平镇压的冬小麦田间试验。冬前对土壤水分和小麦幼苗生长情况进行动态监测,翌年成熟期考察产量性状并测产。结果表明,播种时土壤水分含量高,冬前阶段农田蒸散量也高。同一造墒不同镇压处理比较,I9.30处理以G95田间蒸散量最低,其他处理均以G120蒸散量最低,处理间差异显著。对苗情的影响,同一造墒不同镇压比较,苗期单株生物量、叶面积、群体总茎数以G120与G95处理较高,以G0处理较低,处理间显著水平不同;同一镇压不同造墒处理间比较,不造墒的CK总茎数显著减少,产量显著较低,且年际变化不稳定。造墒与镇压对穗数影响较大,其中造墒处理穗数显著高于CK,镇压处理对穗数的影响表现一致:G120G95G0。以上处理对产量与对穗数的影响一致:造墒处理间产量差异水平不同,但以CK最低;镇压处理间产量差异不显著,但以G0最低。造墒和镇压对产量的交互作用不显著。综上可见,墒情适宜是小麦播后镇压的基础,镇压又是提墒壮苗的保障。河北地区小麦造墒水提前到9月20—25日,播种后采用95 kg×m~(-1)镇压器便于田间操作且镇压效果较好。 相似文献
13.
基于APSIM模型分析播期和水氮耦合对油葵产量的影响 总被引:4,自引:3,他引:1
播期调控和补充灌溉是保障北方农牧交错带油葵稳产和增产的有效措施,然而播期和水氮管理对油葵产量的耦合效应尚不明确。该文基于农牧交错带武川试验站2 a分期播种试验数据评估了APSIM-Sunflower模型的适应性,应用验证后的APSIM模型分析了播期和水氮耦合对油葵产量的影响。研究结果表明:油葵生育期模拟值与实测值均方根误差(RMSE)小于2.4 d,地上部干物质量和产量模拟的归一化均方根误差(NRMSE)分别为21.9%和5.5%,表明APSIM模型能够有效模拟油葵的生育期、地上部干物质量和产量。在有补充灌溉条件时,仅灌一水时在现蕾期补灌油葵产量最高,灌两水时在现蕾和灌浆期补灌产量最高。油葵最佳施氮量随着灌溉量的增加而上升;干旱年无灌溉、灌一水、灌两水和灌三水时最佳施氮量分别为40、60、60和70 kg/hm~2,正常年分别为50、70、80和90 kg/hm~2,湿润年分别为50、80、80和90 kg/hm~2。在湿润年和正常年时雨养、灌一水和灌两水条件下播期在5月中旬较其他播期产量分别高6.9%和11.6%,9.3%和12.0%,9.3%和16.4%,灌一水的产量变异系数分别低41.9%和8.9%;灌两水的产量变异系数分别低38.5%和12.5%;灌三水条件下播期在5月上旬时产量最高。干旱年时早播可降低产量年际间变异,但调控播期对提高产量作用较小。研究结果可为北方农牧交错带油葵生产播期和水氮管理提供参考。 相似文献
14.
典型高温年分期播种冬小麦生育及产量性状差异性分析 总被引:1,自引:0,他引:1
在2016/2017年度自然高温年景下进行冬小麦分期播种实验,以适期晚播以来冬小麦多年平均播期(10月10日)为对照,设早播10d(E10)、迟播10d(L10)、迟播20d(L20)处理。通过方差分析、卡方检验、最小显著性差异和Logistic方程模拟等方法,对分期播种冬小麦发育期、生长量及产量因素等进行差异性分析,探究冬小麦在全球气候变暖背景下的适播期及其生长发育和产量性状变化规律。结果表明:不同播期处理的冬小麦冬前各发育期差异较大,越冬后随着气温升高,各播期冬小麦发育进程趋于一致;随着播期推迟,冬前积温递减趋势明显,冬小麦株高、绿叶面积和植株密度等生长要素均呈明显降低或减小趋势,冬小麦结实小穗数和不孕小穗数亦呈极显著减少趋势,各播期穗粒数则差异不显著;不同播期冬小麦千粒重差异极显著,其中早播10d处理极显著低于对照,迟播冬小麦处理与对照差异不显著;对照处理冬小麦产量最高;不同播期处理冬小麦灌浆过程均符合Logistic生长规律,对照籽粒渐增期持续时间长于其它处理,利于冬小麦增加籽粒“库容”,籽粒快增期灌浆速率快,利于提高粒重;随着播期的推迟,灌浆速率和持续时间的变化无明显规律,对照处理冬小麦灌浆过程相对稳定。 相似文献
15.
Min Huang Jiana Chen Fangbo Cao Ligeng Jiang Guofu Deng 《Archives of Agronomy and Soil Science》2016,62(5):725-743
Field experiments were conducted in 2013 and 2014 to compare grain yield, yield attributes and physiological N-use efficiency between two super-hybrid rice cultivars: (1) with the potential of high harvest index and physiological N-use efficiency (Guiliangyou 2) and (2) a representative super-hybrid rice cultivar (Y-liangyou 1). No significant difference in grain yield was observed between Guiliangyou 2 and Y-liangyou 1, whereas there were obvious differences in yield attributes between the two cultivars. Compared with Y-liangyou 1, Guiliangyou 2 had 8–10% lower biomass production but 14–18% higher harvest index. Consequently, physiological N-use efficiency was 18–20% higher in Guiliangyou 2 than in Y-liangyou 1. The higher harvest index in Guiliangyou 2 was mainly attributed to enhanced remobilization of stored reserves in the growing grain than in Y-liangyou 1. Larger panicle neck diameter and thinner leaves were partially responsible for the enhanced remobilization of stored reserves in Guiliangyou 2 as compared to Y-liangyou 1. Our results suggest that Guiliangyou 2 is a unique super-hybrid rice cultivar that achieves high grain yield by increasing harvest index and N-use efficiency. 相似文献
16.
河套灌区不同育苗期和大棚温度对水稻生长的影响模拟 总被引:1,自引:0,他引:1
为确定宁夏河套灌区水稻适宜育秧和移栽期的综合气象指标,利用中卫市1996-2003年对宁粳16号水稻品种观测的资料,采用CERES-Rice模型对遗传参数进行本地化调试。模拟水稻产量、结实粒数、播种-开花和全生育期日数,并利用宁夏灌区10个市(县)资料验证模型的区域模拟能力。设置不同育秧日数和棚内气温,模拟二者对水稻产量、单位面积结实粒数和生育进程的单独和综合影响,以确定适宜移栽期的综合气象指标。结果表明:模型对水稻产量、结实粒数、播种-开花和全生育期日数模拟能力较好,产量和结实粒数的模拟最大误差分别为2.93%和3.47%,一致性指数分别达0.98和0.92;播种-开花日数模拟误差大多在3d以内,一致性指数为0.77。假定本田期的气象条件、施肥、灌溉等措施均不变,设置不同育秧温度和育秧日数,模拟发现育秧日数26~30d比18~24d时水稻产量高,结实粒数多。32℃下育秧的水稻产量和结实粒数最高,播种-开花和全生育期日数相对较短。同时改变育秧日数和育秧棚内气温,在育秧期较短时育秧温度升高将提高产量,增加结实粒数。而在育秧期较长时,育秧温度升高造成产量下降,结实粒数减少。32℃下育秧20d时水稻产量最高,结实最多,播种-开花和全生育期日数相对较短。育秧日数相同时,播种-开花和全生育期日数随育秧温度的升高而缩短;育秧温度相同时,播种-开花和全生育期日数随育秧期的延长而缩短。不同育秧温度下的最适育秧日数可作为预测河套灌区各地水稻适宜移栽期的综合农业气象指标,为细化水稻适宜移栽期的农业气象指标提供了新途径。 相似文献
17.
播种期对南方秋播糯玉米主要品质成分的影响 总被引:6,自引:0,他引:6
以鲜食型糯玉米品种香白糯为材料,于2004年秋在广州地区进行了分期播种试验,研究播种期对鲜食糯玉米籽粒灌浆期间主要品质成分及其变化规律的影响.结果表明,播种期没有明显改变糯玉米灌浆期间籽粒中主要品质成分的变化趋势,但对主要品质成分的含量影响很大.早播糯玉米灌浆期籽粒中可溶性蛋白、粗蛋白、脂肪、淀粉的平均含量分别比晚播的高0.87mg/g和2.68、1.0、4.96个百分点;其累积量分别比晚播的高0.74mg/粒、9.67mg/粒、2.3mg/粒和25.52mg/粒.早播糯玉米籽粒的含水量每天以1.37%的速率减少,其脱水速率高于晚播玉米籽粒的0.44个百分点.因此,南方(广州地区)秋播鲜食糯玉米的播种时间以适当早播(9月中上旬以前)、尽量推迟采收为宜. 相似文献
18.
在大田条件下,研究了花后灌水对高油玉米碳氮积累和运转的影响。结果表明,花后灌水降低了高油玉米叶、茎、鞘等营养器官贮藏物质、氮紊的再运转量和再运转率以及贮藏物质、氮素的总运转量和总运转率,花后籽粒吸收氮素量和光合同化物输入籽粒量表现为不灌水〉灌一水〉灌三水。花后籽粒吸收氮素量对籽粒氨素的贡献率则与营养器官贮藏氮素转移的贡献率相反,即灌三水处理值表现最高,花后籽粒吸收氮素量和光合同化物对籽粒的贡献率远大于营养器官贮藏氮素和同化物转移的贡献率。高油玉米籽粒、蛋白质、淀粉和油产量以花后灌一水最高,灌三水时降低;随灌水次数增加籽粒油分含量增加,蛋白质含量下降。 相似文献
19.
采用微喷灌水肥一体化灌溉方式研究磷钾肥减施及追施时间对小麦生长发育、水分利用效率及品质的影响。结果表明:磷钾肥减施对小麦拔节期总茎数和分蘖数影响显著,生育期灌3水(越冬水+拔节水+灌浆水)和灌4水(越冬水+拔节水+开花水+灌浆水)的P_(底+拔)K(磷肥50%底施+50%拔节期追施)最高,且可以提高花后干物质的积累能力,增加籽粒中来自开花后干物质的比例,成熟期籽粒分配量最高。与传统栽培模式及微喷灌常量施肥相比,生育期灌水3次(越冬水+拔节水+灌浆水),灌水量1 500 m3/hm2,磷钾肥减施30%且磷肥50%底施+50%拔节期追施与常量施肥高产处理差异不显著,产量构成因子中穗数和穗粒数没有显著变化,千粒重有增加趋势,品质指标较当地传统栽培模式有所提高。因此,在山西省干旱缺水条件下,利用微喷灌水肥一体化技术生育期灌水3次(越冬水+拔节水+灌浆水),灌水量1 500 m3/hm2,氮肥70%底施+30%拔节期追施、钾肥减30%全部底施、磷肥减30%且50%底施+50%拔节期追施可以实现节水节肥稳产提质。 相似文献
20.
基于APSIM模型的灌溉降低冬小麦产量风险研究 总被引:10,自引:5,他引:5
华北平原是我国冬小麦主产区,干旱是影响该地区冬小麦产量稳定的最主要的灾害之一。进行产量风险评估以及如何通过灌溉降低干旱产量风险对于该地区冬小麦稳产高产具有重要的现实意义。该文利用澳大利亚的APSIM农业生产系统模拟模型,以华北平原北京和山东禹城为例,分析了不同降水年型条件下冬小麦的产量风险;通过不同灌溉方案的设计和模拟,分析了不同的灌溉方案在各种年型条件下对降低冬小麦产量风险的作用。结果表明:北京和禹城地区冬小麦生育期内绝大部分年份降水不能满足作物的需水,严重缺水年型出现的频率均在30%左右,两地该年型的平均产量仅为2 445和2 466 kg/hm2,产量风险较高。灌溉对于降低产量风险具有明显的作用,但需根据不同的缺水年型选择适宜的灌溉方案。在兼顾冬小麦稳产高产和提高水分利用效率的前提下,严重和中度缺水年型进行3次补充灌溉,分别为底墒水、拔节水和开花水,而在轻度缺水年型条件下,底墒水和拔节水两次灌溉即可大大降低干旱带来的产量风险,灌水定额为50~70 mm,且随缺水程度的降低和灌溉次数的增加,可以适当减小灌水定额。 相似文献