作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2015年
6期
946-955
,共10页
徐富贤%张林%熊洪%朱永川%刘茂%蒋鹏%郭晓艺
徐富賢%張林%熊洪%硃永川%劉茂%蔣鵬%郭曉藝
서부현%장림%웅홍%주영천%류무%장붕%곽효예
杂交中稻%开花期%耐高温指数%库源结构%开花习性
雜交中稻%開花期%耐高溫指數%庫源結構%開花習性
잡교중도%개화기%내고온지수%고원결구%개화습성
Mid-season hybrid rice%Flowering stage%High temperature resistance index%Sink to source ratio%Flowering habit
2011—2013年,以50个杂交中稻组合为材料,通过大田分期播种与智能人工气候室控温,以使开花期遇高温伤害,研究了杂交组合开花期的耐高温特性与库源性状及开花习性的关系。结果表明,杂交组合间耐高温能力差异显著,鉴定出了开花期常温下结实率和耐高温指数均较高的组合10个,即绵香优576、蓉稻优415、香绿优727、绵优5240、川谷优202、川优6203、冈优169、内香优5828、川谷优7329、江优126。开花期耐高温能力与开花当时植株光合物质的供给水平有关,有效穗数越少的组合的穗粒数和粒叶比越高,即单位颖花的光合源占有量越少,以致开花期耐高温指数与粒叶比呈显著负相关;9:30—11:00时段开花比例和叶绿素含量分别与耐高温指数呈显著正相关。选用穗数型、花时早而集中的杂交组合和提高开花期叶绿素含量,是增强杂交水稻开花期耐高温能力的重要途经。
2011—2013年,以50箇雜交中稻組閤為材料,通過大田分期播種與智能人工氣候室控溫,以使開花期遇高溫傷害,研究瞭雜交組閤開花期的耐高溫特性與庫源性狀及開花習性的關繫。結果錶明,雜交組閤間耐高溫能力差異顯著,鑒定齣瞭開花期常溫下結實率和耐高溫指數均較高的組閤10箇,即綿香優576、蓉稻優415、香綠優727、綿優5240、川穀優202、川優6203、岡優169、內香優5828、川穀優7329、江優126。開花期耐高溫能力與開花噹時植株光閤物質的供給水平有關,有效穗數越少的組閤的穗粒數和粒葉比越高,即單位穎花的光閤源佔有量越少,以緻開花期耐高溫指數與粒葉比呈顯著負相關;9:30—11:00時段開花比例和葉綠素含量分彆與耐高溫指數呈顯著正相關。選用穗數型、花時早而集中的雜交組閤和提高開花期葉綠素含量,是增彊雜交水稻開花期耐高溫能力的重要途經。
2011—2013년,이50개잡교중도조합위재료,통과대전분기파충여지능인공기후실공온,이사개화기우고온상해,연구료잡교조합개화기적내고온특성여고원성상급개화습성적관계。결과표명,잡교조합간내고온능력차이현저,감정출료개화기상온하결실솔화내고온지수균교고적조합10개,즉면향우576、용도우415、향록우727、면우5240、천곡우202、천우6203、강우169、내향우5828、천곡우7329、강우126。개화기내고온능력여개화당시식주광합물질적공급수평유관,유효수수월소적조합적수립수화립협비월고,즉단위영화적광합원점유량월소,이치개화기내고온지수여립협비정현저부상관;9:30—11:00시단개화비례화협록소함량분별여내고온지수정현저정상관。선용수수형、화시조이집중적잡교조합화제고개화기협록소함량,시증강잡교수도개화기내고온능력적중요도경。
From 2011 to 2013, under the condition of high temperature injury during heading stage designed by applying different sowing dates in the field and controlling the temperature in intelligent artificial climate chamber, the relationship high temperature resistance index (HTRI) with sink to source ratio and flowering habit in mid-season hybrid rice was studied with 50 hybrid combinations as tested materials. By using variance, correlation and regression analyses, the results showed that there were significant differences in HTRI among hybrid combinations. Ten of the combinations were tested to show a higher levels of seed setting rate and HIRI during flowering stage, including Mianxiangyou 576, Rongdaoyou 415, Xianglüyou 727, Mianyou 5240, Chuanguyou 202, Chuanyou 6203, Gangyou 169, Neixiangyou 5828, Chuanguyou 7329, and Jiangyou 126. There existed a sig-nificant relation between HTRI and carbohydrate supply level during flowering stage. The smaller the number of effective panicles of hybrid combinations was, the higher the spikelets per panicle and grain-leaf ratio would be, namely, the less the occupancy of photosynthetic source per spikelets would be. As a consequence, significantly negative correlation were observed between HTRI and grain-leaf ratio during flowering stage. The flowering ratio from 9:30 to 11:00 and chlorophyll content of leaf had a significantly positive correlation with HTRI respectively. Choosing the hybrid combinations with a larger number of effective panicles and early intensive anthesis and raising the level of chlorophyll content of leaf are the vital ways to enhance HTRI during heading stage.