共查询到18条相似文献,搜索用时 62 毫秒
1.
2.
3.
4.
水稻强化栽培体系试验初报 总被引:1,自引:0,他引:1
水稻强化栽培体系 (SystemofRiceIntensification,SRI)系20世纪80年代由HenrideLaulanie神父在马达加斯加(Madagascar)提出的一种新的栽培方法 ,其主要技术要点为少株稀植短秧龄。根据袁隆平先生介绍的资料 ,我们于2002年开展相关试验 ,以探索SRI对提高水稻产量的可能性及在本地区的应用前景。一、材料与方法水稻强化栽培体系试验的种植密度设50cm×50cm(处理① )、37.5cm×37.5cm(处理② )、25cm×25cm(处理③ )三种处理 ,均为10天秧龄 ,以25cm×25cm、30天秧龄的常规栽培法为对照 ,随机排列 ,四次重复 ,试验小区面积为1.5m×7.5m=11.… 相似文献
5.
为筛选高产、抗病、再生力强和米质优的超级稻组合,选用5个超级稻组合,在梅仙镇下保村作再生稻简比试验,介绍了5个超级稻组合在尤溪县作再生稻的表现. 相似文献
6.
7.
8.
单季杂交水稻强化栽培高产技术试验初报 总被引:5,自引:0,他引:5
单季杂交稻强化栽培和常规栽培对比试验表明,强化栽培以管水为中心,通过旱耕,旱耙,小(中)苗稀植和湿润灌溉等农艺措施,改善土壤的通透性和理化性状,创造一个以水调气,以气增温,以温促肥的良性土壤环境,促进根系生长,增强根系活力.表现前期分蘖早,速度快,有效分蘖历期长,分蘖高峰出现早,个体生长优势与群体生长质量得以优化协调发展,有效穗和成穗率提高,后期植株的光合生产能力提高,有利于大穗的形成和结实率、穗重的提高,增产显著。总结了单季稻强化栽培的主要技术措施。 相似文献
9.
10.
11.
12.
烟后稻强化栽培(SRI)优势特点及关键技术 总被引:1,自引:0,他引:1
通过对烟后稻实施强化栽培(SR I)在生育期、产量、产量结构、分蘖动态、经济效益和生态效益等方面的差异分析,以及该稻作类型使用强化栽培有关技术的研究,确立了烟后稻实行SR I是一项省工、节本、增产增效的轻简型栽培方法,总结出一套以选用良种、培育壮秧、小苗移栽、单本稀植、好气灌溉、精确施肥、综合防治等技术为核心的超高产集成技术。 相似文献
13.
杂交水稻强化栽培穗粒结构特点研究 总被引:14,自引:0,他引:14
以3个杂交稻组合为材料,在大田条件下研究了杂交稻强化栽培的穗粒结构特点.结果表明,与常规栽培相比,杂交稻强化栽培单株个体发育充分,成穗率高;有效穗组成发生重大变化,主茎穗和一次分蘖穗在有效穗中的比重下降,二次分蘖穗比重提高;其主茎穗和各位、次分蘖穗的经济性状均优于常规栽培.强化栽培水稻不同来源有效穗对产量的贡献大小也与常规栽培有明显不同. 相似文献
14.
15.
16.
单季稻强化高产栽培方式对稻纵卷叶螟发生的影响 总被引:1,自引:0,他引:1
为实现精准施药和农药减量控害目标,笔者于2007~2008年对浙江省天台县单季稻强化与常规两种栽培方式稻纵卷叶螟发生情况进行观察比较。结果表明,强化区与常规区稻纵卷叶螟蛾峰消长基本一致,全年共3个峰次,但蛾量略有差异,四(2)代蛾量强化区较常规区高136%,五(3)代与六(4)代蛾量强化区较常规区低24.8%和8.0%,虫苞与虫量调查,6月中下旬三(1)代强化区较常规区分别高8.3%和100%,四(2)代强化区较常规区分别低38.7%和22.3%,五(3)代强化区较常规区分别低34.6%和34.5%。 相似文献
17.
Evaluation of management principles and performance of the System of Rice Intensification (SRI) in Bangladesh 总被引:1,自引:0,他引:1
Experiments were conducted at irrigated and rainfed lowland rice sites in Bangladesh to assess the performance of management practices that have become known as the System of Rice Intensification (SRI). At a research station, SRI management principles such as seedling age, plant spacing, application of organic manure, seedling densities, duration of planting, planting shape and time of planting were evaluated under SRI management as compared to previously established Best Management Practices (BMPs). In on-farm trials, SRI was compared with BMP on 40 farmers’ fields. Nutrient inputs and water management in BMP and SRI treatments were kept at comparable levels. Seedling age, ranging from just sprouted seed to 40-day-old seedlings, had no effect on grain yield in the winter season. In a plant spacing experiment subject to SRI, the highest and lowest grain yields of 7.82 and 5.41 t ha−1 were obtained with spacing of 25 cm × 15 cm (narrow) and 40 cm × 40 cm (wide), respectively. In SRI, seedling density (1–2 seedlings per hill), planting durations (≤15 min to 1–3 h after uprooting) or root placement (L-shape and J-shape) had no effect on grain yield. With regard to time of planting, the highest grain yields were observed with transplanting in the 3rd week of December, with no difference between SRI and BMP management systems. In on-farm trials, BMP gave significantly higher grain yield compared to SRI and farmers’ practice in a triple-cropped area, but grain yields were similar with SRI in a double and single-cropped area when spacing was narrow. The highest profit was obtained with BMP followed by SRI and farmers’ practice in the single-cropping area. Major findings from this study are that under comparable levels of net nutrient input and water management (i) well-implemented BMPs for rice are more efficient for producing high yields than SRI and (ii) there is no intrinsic yield advantage of SRI that could be caused by its individual crop management techniques or some unknown synergism of the different SRI practices proposed. 相似文献