农业科学与技术(英文版)
農業科學與技術(英文版)
농업과학여기술(영문판)
AGRICULTURAL SCIENCE & TECHNOLOGY
2014年
1期
21-27
,共7页
徐富贤%张林%熊洪%朱永川%刘茂%郭晓艺
徐富賢%張林%熊洪%硃永川%劉茂%郭曉藝
서부현%장림%웅홍%주영천%류무%곽효예
杂交中稻%耐旱性%植株性状
雜交中稻%耐旱性%植株性狀
잡교중도%내한성%식주성상
Hybrid rice%Drought tolerance%Plant traits
[目的]研究杂交中稻组合的耐旱性与植株地上部性状的关系,以期为抗旱水稻品种的选育提供理论和实践依据。[方法]2011年以30个杂交中稻组合为材料进行大田试验,设置3个不同处理:分蘖期干旱、穗分化期干旱和对照(全生育期保持浅水层),测定水稻的主要农艺性状,并计算各品种的抗旱指数。2012年以16个杂交中稻组合为材料,进行钵栽试验,设置干旱和对照两个处理,并测定水稻的主要农艺性状,并计算各品种的抗旱指数。[结果]分蘖期干旱土壤含水量达近60%,穗分化期干旱土壤含水量达近80%时,均极显著降低水稻产量。大穗和发根力强的组合,穗分化期抗旱能力强;干旱处理下产量越高的组合抗旱能力越强。分蘖期抗旱指数与穗分化期的抗旱指数无相关性。在水种条件下,千粒重较低的组合抗旱能力较强;在受旱条件下,千粒重低和产量高的组合抗旱能力强。[结论]筛选出了较强抗旱能力组合有:D优6511、泰优99、内5优317、内香优18号、宜香优7633、天优华占、II优615、内香5306、川谷优7329、内香7539,可供生产上作为抗旱栽培的优选品种。
[目的]研究雜交中稻組閤的耐旱性與植株地上部性狀的關繫,以期為抗旱水稻品種的選育提供理論和實踐依據。[方法]2011年以30箇雜交中稻組閤為材料進行大田試驗,設置3箇不同處理:分蘗期榦旱、穗分化期榦旱和對照(全生育期保持淺水層),測定水稻的主要農藝性狀,併計算各品種的抗旱指數。2012年以16箇雜交中稻組閤為材料,進行缽栽試驗,設置榦旱和對照兩箇處理,併測定水稻的主要農藝性狀,併計算各品種的抗旱指數。[結果]分蘗期榦旱土壤含水量達近60%,穗分化期榦旱土壤含水量達近80%時,均極顯著降低水稻產量。大穗和髮根力彊的組閤,穗分化期抗旱能力彊;榦旱處理下產量越高的組閤抗旱能力越彊。分蘗期抗旱指數與穗分化期的抗旱指數無相關性。在水種條件下,韆粒重較低的組閤抗旱能力較彊;在受旱條件下,韆粒重低和產量高的組閤抗旱能力彊。[結論]篩選齣瞭較彊抗旱能力組閤有:D優6511、泰優99、內5優317、內香優18號、宜香優7633、天優華佔、II優615、內香5306、川穀優7329、內香7539,可供生產上作為抗旱栽培的優選品種。
[목적]연구잡교중도조합적내한성여식주지상부성상적관계,이기위항한수도품충적선육제공이론화실천의거。[방법]2011년이30개잡교중도조합위재료진행대전시험,설치3개불동처리:분얼기간한、수분화기간한화대조(전생육기보지천수층),측정수도적주요농예성상,병계산각품충적항한지수。2012년이16개잡교중도조합위재료,진행발재시험,설치간한화대조량개처리,병측정수도적주요농예성상,병계산각품충적항한지수。[결과]분얼기간한토양함수량체근60%,수분화기간한토양함수량체근80%시,균겁현저강저수도산량。대수화발근력강적조합,수분화기항한능력강;간한처리하산량월고적조합항한능력월강。분얼기항한지수여수분화기적항한지수무상관성。재수충조건하,천립중교저적조합항한능력교강;재수한조건하,천립중저화산량고적조합항한능력강。[결론]사선출료교강항한능력조합유:D우6511、태우99、내5우317、내향우18호、의향우7633、천우화점、II우615、내향5306、천곡우7329、내향7539,가공생산상작위항한재배적우선품충。
[Objective] This study aimed to investigate the correlations between the drought tolerance and plant traits of hybrid rice, so as to provide theoretical basis for the breeding of drought-tolerant rice varieties. [Method] In the field experiment in 2011, 30 hybrid rice cultivars were grown under three different conditions: drought at til ering stage, drought at panicle initiation stage and control (keeping shal ow wa-ter during the whole growth period). Then, the main plant traits were measured, and the related drought tolerance indices were calculated. In 2012, 16 hybrid rice culti-vars were grown in pots under drought and normal water conditions respectively. And their main plant traits were measured, and the related drought tolerance indices were also calculated. [Result] The water content in soil under drought stress at til ering stage was nearly 60%, and that under drought stress at panicle initiation stage was 80%. Such low water content significantly reduced the rice yield. The cultivars with large panicle and great root growth potential had strong drought toler-ance at panicle initiation stage. Under drought stress, the cultivars with higher yield had stronger tolerance to drought. The drought tolerance indices at til ering stage had no correlations with those at panicle initiation stage. Under normal water condi-tions, the cultivars with smal er 1 000-grain weight had stronger tolerance to drought . Under drought stress , the cultivars with smal er 1 000-grain weight and higher grain yield had stronger tolerance to drought. [Conclusion] Among al the rice cultivars tested in the present study, D You 6511, Taiyou 99, Nei 5 You 317, Neixiangyou 18, Yixiangyou 7633, Tianyouhuazhan, II You 615, Neixiang 5306, Chuanguyou 7329 and Neixiang 7539 exhibited better tolerance to drought, and thus can be promoted in production.