超级稻“三定”栽培法研究 Ⅱ.不同施肥量对超级杂交稻产量及生长生理特性的影响

2004—2005年在长沙（28°13′N）采用低肥（N 135kg/hm2、P 29.7kg/hm2、K 112.1kg/hm2）、中肥（N 180kg/hm2、P 39.6kg/hm2、K 149.4kg/hm2）、高肥（N 225kg/hm2、P 49.5kg/hm2、K 186.8kg/hm2）3种施肥水平，对超级杂交稻两优293和准两优527的产量及生长生理特性进行了比较研究。结果表明：在试验范围内不同施肥量处理间超级稻产量及有效穗、每穗粒数、结实率等产量构成差异不显著，2年平均产量以中肥处理最高，其中准两优527为9.03t/hm2，两优293为7.28t/hm2；不同年际间超级稻产量及有效穗、每穗粒数、结实率等产量构成差异显著；超级杂交稻准两优527和两优293的适宜氮肥用量为150~180kg/hm2。与准两优527比较，两优293茎秆粗壮，根系发达、根系活力强、分蘖力强、但分蘖成穗率不高，而准两优527前中期生长平稳，分蘖成穗率高，抽穗后光合产物积累多和运转率高，有利于高产形成，但不抗倒伏，生产上应适量减少氮肥施用量。     

黎榆A繁殖母本有效穗和结实率与产量的关系

繁殖田母本有效穗和结实率是影响产量的主要因素。通过对10个不同父母本栽插行比的分析结果表明：黎榆A繁殖产量以父母本栽插行比为2：18最高，达292．09kg/667m^2。增加有效穗对于增产的效应要比增加结实率大；有效穗与产量，结实率与产量的偏相关系数均呈正相关，且有效穗与产量的相关达显著水平，多元回归方程为：y-155.6283 4.8660x 0.2342x2.     

玉米穗腐病导致产量损失的品种和气候因素分析

1986～1990年的研究结果发现,在玉米穗腐病流行年份,抗病和感病玉米自交系的严量损失分别比常年高21％和35％。在气候因素中,日照时数对发病和产量损失影响较大。同一气候条件下感病系比抗病系产量损失大52％～82％。感病品种因穗腐病造成的玉水产量损失比不利的气候因素更为严重。     

中间砧对“茂谷橘橙”树体和果实品质的影响

以蕉柑、芦柑和改良橙作为茂谷橘橙的中间砧，对各中间砧组合的亲和性、树体及枝梢生长表现、产量和果实品质等进行比较研究，结果表明，3种中间砧与接穗的亲和性无显著差异，均表现为亲和力强；改良橙作中间砧的冠径，春梢、夏梢、秋梢的生长量和早期产量均显著地低于蕉柑、芦柑的。高接5年后，3种中间砧对产量的影响无显著差异。3种中间砧对茂谷橘橙果实外观品质和内部品质的影响都不明显。     

Effect of soil matric potential on tomato yield and water use under drip irrigation condition

Field experiment was carried out to investigate the effect of soil matric potential (SMP) on tomato yield, evapotranspiration (ET), water use efficiency (WUE) and irrigation water use efficiency (IWUE) under drip irrigation condition in North China Plain. The experiment included five treatments, which controlled SMP at 0.2 m depth immediately under drip emitter higher than −10 (S1), −20 (S2), −30 (S3), −40 (S4) and −50 kPa (S5), respectively, after tomato plant establishment. The results showed that different SMP affected irrigation amount and tomato ET. Irrigation amount decreased from 185 mm (S1) to 83.6 mm (S5) in 2004, and from 165 mm (S1) to 109 mm (S5) in 2005, respectively. The ET decreased from 270 mm (S1) to 202 mm (S5) in both years. However, it was found that SMP did not affect the tomato yield significantly, for the range of SMP investigated. Both WUE and IWUE increased as SMP decreased. The maximum WUE (253 and 217 kg/ha mm) and IWUE (620 and 406 kg/ha mm) were for S5 in 2 years, whereas the minimum WUE (178 and 155 kg/ha mm) and IWUE 261 and 259 kg/ha mm) were for S1 in 2004 and 2005. Based on the above results, therefore, it is recommended that if the tomatoes are well irrigated (SMP is higher than −20 kPa) during establishment, controlling SMP higher than −50 kPa at 0.2 m depth immediately under drip emitter can be used as an indicator for drip irrigation scheduling during following period of tomato growth in North China Plain.     

Is partial root-zone drying an effective irrigation technique to improve water use efficiency and fruit quality in field-grown wine grapes under semiarid conditions?

We investigated the effects of partial root-zone drying (PRD) applied at different periods on leaf water relations, vegetative development, fruit yield, must and wine quality in wine grapes (Vitis vinifera L. cv. Monastrell) during a 3-year field experiment in order to determine the importance of the timing of PRD application on physiological and agronomical vine response under semiarid conditions. Two irrigation treatments were applied: conventional drip irrigation (CI) and PRD. Both treatments received the same annual water quantity. Each year the PRD treatment was applied at different periods of the growth cycle. In 1999 PRD was applied from veraison to harvest (end July–early September); in 2000 from fruit set to harvest (mid June–early September); and in 2001 PRD from budburst to harvest (mid April–early September). Leaf water relations and gas exchange during the experimental period were not significantly affected by PRD treatment. In 1999 and 2000 there was no significant treatment effect on vegetative development, yield or fruit quality. However, in 2001 (when PRD was applied from budburst to harvest), reproductive and vegetative development was clearly altered in PRD vines. Fruit set percentage and vegetative development (shoot length, pruning weight and primary and lateral leaf area) were significantly increased in PRD vines compared to CI. This resulted in both higher yield (kg per vine) (43%) and water use efficiency (40%) compared to CI vines. Berry number per cluster and cluster weight were also significantly increased in PRD vines. Notwithstanding higher yield in PRD vines and a similar berry size, the must and wine quality was not significantly altered, indicating a higher synthesis and accumulation of photoassimilates and metabolites in the berries of PRD vines. We conclude that there was an positive effect on vegetative and reproductive growth when long-term PRD was applied from the beginning of growing season (budburst), suggesting that early onset of PRD is desirable to intensify PRD response under these semiarid conditions. Nevertheless from these results we need to further investigate the long- and short-term effects of PRD, with moderate water amounts, on vegetative and reproductive development such as flowering and fruit set processes in wine grapes.     

中国现有葡萄品种叶片形态评价与分析

以中国农业科学院郑州果树研究所葡萄资源圃中保存的342个葡萄品种的成熟叶片为试材,采用度量性状与非度量性状相结合的调查方法,研究了供试葡萄品种的叶宽等9个度量性状和叶片形状等8个非度量性状,以期为进一步建立葡萄种质资源叶片性状数据库奠定基础。结果表明:现有栽培葡萄品种的叶片形状主要为楔形和五角形;9个度量性状具有明显的变异性,且与长度有关的度量性状变异系数均大于16.51%;主成分分析表明与长度有关的度量性状为第一主成分,与角度有关的为第二主成分,与比值有关的为第三主成分,累计贡献率达到77.186%。     

增加光照及其与改变源库互作对大豆产量构成因素的影响

生殖生长期间的光照强度是决定大豆产量的关键环境因素.在美国麻省和中国黑龙江两地,通过在不同时期,对不同密度的大豆群体进行增加光照和改变源库处理,研究了两地产量及产量构成因素对增加光照光变化的反应.结果表明,不同时期增加光照光处理的增产效果不同,开花初期和结荚初期增加光照最为明显,花期增加光照增加单株荚粒数,而结荚初期增加光照增加百粒重.鼓粒期增加光照处理,百粒重不同品种在不同密度条件下增产不显著,说明鼓粒期后的光照条件对大豆产量及百粒重的调节有限.在不同的光照条件下,源库在产量形成中的作用不同.在自然光照条件下,剪叶处理产量下降幅度较去荚大,即源在产量形成中更加重要些,而在花期的增加光照处理条件下,库也成为影响产量的重要因子,可见,光照条件在源库关系中起着显著的协调作用.     

Development and evaluation of pyramiding lines carrying early or late heading QTLs in the indica rice cultivar ‘IR64’

The heading date is an important trait for determining regional and climatic adaptability in rice. To expand the adaptability of the indica rice cultivar ‘IR64’, we pyramided multiple early or late heading quantitative trait locus (QTLs) in the ‘IR64’ genetic background by crossing previously developed near-isogenic lines (NILs) with a single QTL for early or late heading. The effects of pyramiding QTLs were observed in three different climatic zones of the Philippines, Madagascar, and Japan. The early heading pyramiding lines (PYLs) headed 6.2 to 12.8 days earlier than ‘IR64’ while the late heading PYLs headed 18.8 to 27.1 days later than ‘IR64’. The PYLs tended to produce low grain yield compared to ‘IR64’. The low yield was not improved by combining SPIKE, which is a QTL that increases the number of spikelets per panicle. Conversely, ‘IR64-PYL(7+10)’ carrying Hd5 and Hd1 headed earlier, produced more tillers, and more panicles per m² than ‘IR64’, and mitigated the yield decrease in early heading. These results suggest that the effects of pyramided QTLs on heading date were consistent across various environments and PYLs could be used to enhance the adaptation of ‘IR64’ in other rice growing environments.     

减氮下不同肥料配施对麦玉复种体系作物氮素积累分配及产量的影响

为探索陕西关中地区冬小麦-夏玉米复种体系氮肥减量增效潜力,构建适宜的作物养分管理体系,于2018-2019年采用田间试验研究了减氮并配施不同肥料对麦玉复种体系作物生长状况、植株氮素积累分配、作物产量以氮素利用效率的影响。试验设置5个处理：常规施氮（225 kg·hm^-2,N₁₀₀）;减氮20%（180 kg·hm^-2 ,N₈₀）;减氮配施生物炭（180 kg·hm^-2,生物炭22 500 kg·hm^-2,N₈₀+BC）;减氮配施缓释肥（180 kg·hm^-2,尿素∶缓释肥=1∶1,N₈₀+S）;减氮配施微生物菌肥（180 kg·hm^-2,微生物菌肥3 600 kg·hm^-2 ,N₈₀+BF）。结果表明：减氮及其配施不同肥料对夏玉米大喇叭口期后株高、干物质和氮素积累没有显著影响;而N₈₀+BF促进了夏玉米氮素向籽粒中的分配;N₈₀+BC提高了夏玉米产量和收获指数,且较N₈₀处理分别显著提高8.3%和20.1%;减氮下三种配施处理均能提高夏玉米氮农学利用率和氮肥偏生产力,且以N₈₀+BC处理表现最佳,较N₁₀₀分别显著提高43.3%和29.0%,较N₈₀分别显著提高45.8%和8.3% ;N₈₀+BC和N₈₀+BF还能显著提高夏玉米氮肥表观表观回收率,二者较N₁₀₀显著增加18.1%和10.7% ,较N₈₀处理显著增加26.9%和19.0%。与N₈₀相比,N₈₀+BF有效提高了冬小麦扬花期和成熟期分蘖数、茎蘖成穗率以及成熟期干物质和氮素积累量,并能显著提高冬小麦穗数和产量,增幅分别为13.7%和16.2%。减氮下3种配施处理均能提高冬小麦氮农学利用率、氮肥偏生产力和氮素利用率,其中氮农学利用率和氮肥偏生产力在N₈₀+BF处理表现最佳,较N₁₀₀分别显著提高了31.2%和28.4%,较N₈₀分别显著提高了33.7%和16.2%,氮素利用率在N₈₀+S处理表现最佳。综上所述,减氮及其配施处理中,180 kg·hm^-2配施生物炭（22 500 kg·hm^-2）和180 kg·hm^-2配施微生物菌肥(3 600 kg·hm^-2)更有利于作物生长,促进氮素积累与分配,提高作物产量和氮素利用效率,实现关中地区麦玉复种体系氮肥管理的“减量增效”。