欢迎访问作物学报,今天是

作物学报 ›› 2013, Vol. 39 ›› Issue (12): 2201-2210.doi: 10.3724/SP.J.1006.2013.02201

• 耕作栽培·生理生化 • 上一篇    下一篇

甬优系列杂交稻品种的超高产群体特征

韦还和2,姜元华2,赵可2,许俊伟2,张洪程1,2,*,戴其根1,2,霍中洋1,2,许轲1,2,魏海燕1,2,郑飞2   

  1. 1 扬州大学农业部长江流域稻作技术创新中心, 江苏扬州225009;2 扬州大学江苏省作物遗传生理重点实验室, 江苏扬州225009
  • 收稿日期:2013-05-02 修回日期:2013-07-25 出版日期:2013-12-12 网络出版日期:2013-09-29
  • 通讯作者: 张洪程,E-mail: hczhang@yzu.edu.cn
  • 基金资助:

    本研究由国家粮食丰产科技工程(2011BAD16B03),农业部超级稻专项(02318802013231)和江苏省农业三新工程项目(SXGC[2012]397)资助。

Characteristics of Super-high Yield Population in Yongyou Series of Hybrid Rice

WEI Huan-He2,JIANG Yuan-Hua2,ZHAO Ke2,XU Jun-Wei2,ZHANG Hong-Cheng1,2,*,DAI Qi-Gen1,2,HUO Zhong-Yang1,2,XU Ke1,2,WEI Hai-Yan1,2,ZHENG Fei2   

  1. 1 Innovation Center of Rice Cultivation Technology in Yangtze River Valley, Ministry of Agriculture, Yangzhou 225009, China; 2 Key Laboratory of Crop Genetics and Physiology of Jiangsu Province, Yangzhou University, Yangzhou 225009, China
  • Received:2013-05-02 Revised:2013-07-25 Published:2013-12-12 Published online:2013-09-29

摘要:

以籼粳杂交稻有代表性的品种甬优11、甬优12、甬优13、甬优15、甬优17为试材, 通过栽培措施的调控, 形成超高产(产量≥12.0 t hm-2)和高产(10.5 t hm-2 产量<12.0 t hm-2)群体。比较研究其特征表明, 与高产群体比,超高产群体的总颖花量极显著提高, 而结实率和千粒重略降低;平均每穗粒数极显著提高, 并且一、二次枝粳数以及粒数显著或极显著提高;拔节期的干物重略低, 但抽穗期和成熟期的干物重均显著或极显著提高;其有效分蘖临界叶龄期至拔节期的生长平稳, 无效分蘖发生少, 高峰苗低, 拔节期以后茎蘖数下降平缓, 成穗率、叶面积指数、光合势、干物质积累量等均较高;基部第1、第2、第3节间的茎秆粗度和茎壁厚度及基部第1、第2、第3节间的弯曲力矩、抗折力均显著或极显著提高, 且倒伏指数减小。

关键词: 亚种间杂交稻, 甬优系列, 超高产

Abstract:

A field experiment was conducted using the representative indica-japonica hybrid rice Yongyou 11, Yongyou 12, Yongyou 13, Yongyou 15, Yongyou 17 to compare between super-high and high yield populations formed by the regulation of cultivation measures. The results showed that the spikelets of the super-high yield population was higher than that of high yield population, with difference very significant, but the seed-setting rate and 1000-grain weight of the super-high yield population were lower than those of high yield population. The average spikeletsper panicle was significantly higher than that of high yield population, meanwhile the number of the primary and secondary branches and total grains were higher than those of high yield population, showing a significant or very significant difference. The dry matter accumulation of the super-high yield population was a little lower than that of the high yield population at the jointing stage, but higher at heading and maturity stages. From the critical leaf-age for productive tillers to jointing stage, the super-high yield population had a steady growth with less ineffective tillers and lower peak number of tillers after jointing stage, the super-high yield population had a steady decline in number of tillers and had higher productive tillers rate, leaf area index, photosynthetic potential and dry matter accumulation, compared with the high yield population. The super-high yield population had higher culm diameter and culm wall thickness in the basal first, second and third internodes, as well as higher bender moment and anti-broken strength, and lower lodging index than the high yield population.

Key words: Indica-japanica Inter-subspecific Hybrid Rice, Yongyou series, Super-high yield

[1]Zhang H-C(张洪程), Wu G-C(吴桂成), Wu W-G(吴文革), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu K(许轲), Gao H(高辉), Wei H-Y(魏海燕), Huang X-F(黄幸福), Gong J-L(龚金龙). The SOI model of quantitative cultivation of super-high yielding rice. Chin J Rice Sci (中国水稻科学), 2010, 43(13): 2645–2660 (in Chinese with English abstract)



[2]Wu G-C(吴桂成), Zhang H-C(张洪程), Qian Y-F(钱银飞), Li D-J(李德剑), Zhou Y-Y(周有炎), Xu J(徐军), Wu W-G(吴文革), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu K(许轲), Gao H(高辉), Xu Z-J(徐宗进), Qian Z-H(钱宗华), Sun J-Y(孙菊英), Zhao P-H(赵品恒). Rule of grain yield components from high yield to super high yield and the characters of super-high yielding japonica super rice. Sci Agric Sin (中国农业科学), 2010, 43(2): 266–276 (in Chinese with English abstract)



[3]Zhang H-C(张洪程), Zhao P-H(赵品恒), Sun J-Y(孙菊英), Wu G-C(吴桂成), Xu J(徐军), Duan-Mu Y-X(端木银熙), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu K(许轲), Wei H-Y(魏海燕). Population characteristics of super high yield formation of mechanical transplanted japonica hybrid rice. Trans CSAE (农业工程学报), 2012, 28(2): 39–44 (in Chinese with English abstract)



[4]Wu G-C(吴桂成), Zhang H-C(张洪程), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu k(许轲), Gao H(高辉), Wei H-Y(魏海燕), Sha A-Q(沙安勤), Xu Z-J(徐宗进), Qian Z-H(钱宗华), Sun J-Y(孙菊英). Characteristics of dry matter production and accumulation and super-high yield of japonica super rice in South China. Acta Agron Sin (作物学报), 2010, 36(11): 1921–1930 (in Chinese with English abstract)



[5]Zhang H-C(张洪程), Wu G-C(吴桂成), Li D-J(李德剑), Xiao Y-C(肖跃成), Gong J-L(龚金龙), Li J(李杰), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu k(许轲), Gao H(高辉), Wei H-Y(魏海燕), Sha A-Q(沙安勤), Zhou Y-Y(周有炎), Wang B-J(王宝金), Wu A-G(吴爱国). Population characteristics and formation mechanism for super-high-yielding hybrid japonica rice (13.5 t ha-1). Acta Agron Sin (作物学报), 2010, 36(9): 1547–1558 (in Chinese with English abstract)



[6]Li J(李杰), Zhang H-C(张洪程), Qian Y-F(钱银飞), Guo Z-H(郭振华), Chen Y(陈烨), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu K(许轲), Li D-J(李德剑), Hua Z-X(华正雄), Sha A-Q(沙安勤), Zhou Y-Y(周有炎), Liu G-L(刘国林). Growth characteristics of two super-high-yielding japonica hybrid rice combinations. Chin J Rice Sci (中国水稻科学), 2009, 23(2): 179–185 (in Chinese with English abstract)



[7]Xu J-X(徐建欣), Wang Y-Y(王云月), Yao Y(姚月), Liu Y-X(刘云霞), Tang M(汤淼). Indica-japonica differentiation and genetic variation of upland rice varieties from Yunnan Province. Chin Sci Bul (科学通报), 2012, 57(28/29): 2705–2714 (in Chinese)



[8]Yang Z-Y(杨振玉), Zhang Z-Y(张忠旭), Hua Z-T(华泽田), Zhang T-L(张铁龙), Gu Y-M(顾义明). Evaluation and utilization of usable and unusable heterosis in F1 hybrids between different types of indica and japonica rice subspecies. Chin J Rice Sci (中国水稻科学), 1991, 4(2): 49–55 (in Chinese with English abstract)



[9]Yuan L-P(袁隆平). Breeding strategies for development of intersubspecific hybrid rice. Hybrid Rice (杂交水稻), 1996, 16(2): 1–3 (in Chinese) 



[10]Li J-H(李继航), Xiang X-C(向珣朝), He L-B(何立斌), Li P(李平). Source-sink characteristics of intersubspecific F1 in rice. Chin J Rice Sci (中国水稻科学), 2006, 20(3): 301–305 (in Chinese with English abstract)



[11]Shen B(沈波), Wang X(王熹). Changes of root exudate of indica-japonica hybrid rice and its relation to leaf physiological traits. Chin J Rice Sci (中国水稻科学), 2000, 14(2): 122–124 (in Chinese with English abstract)



[12]Lin J-R(林建荣), Song X-W(宋昕蔚), Wu M-G(吴明国). Biological characteristics and heterosis utilization of four indica-japonica intermediate type restorer lines with wide compatibility. Chin J Rice Sci (中国水稻科学), 2012, 26(6): 656–662 (in Chinese with English abstract)



[13]Zhou Y-Y(周有炎), Sha A-Q(沙安勤), Fan B-G(樊宝贵), Wang J(王洁), Gong J-L(龚金龙), Long H-Y(龙厚元), Hu Y-J(胡雅杰), Ming Q-L(明庆龙), Liu G-L(刘国林), Luo X-C(罗学超), Zhu F-H(朱法海). The formation of super high-yield and the cultivation techniques of japonica hybrid Yongyou 8. Jiangsu Agric Sci (江苏农业科学), 2012, 40(2): 45–47 (in Chinese)



[14]Tong X-B(童相兵), Qian T-S(钱天寿), Liu R-J(刘荣杰), Ye C-L(叶传利), Hu Y-D(胡远党). Cultural techniques of Yongyou 12 yielding over 13.5 t/hm2. Hybrid Rice (杂交水稻), 2012, 27(6): 54–56 (in Chinese)



[15]Sun Y-F(孙永飞), Liang Y-M(梁尹明), Lou W-P(娄伟平). The possibility and technology of 1000 kg on the basis of 900 kg per 667 m2 of Yongyou 12. China Rice (中国稻米), 2012, 18(6): 32–34 (in Chinese)



[16]Dong X-B(董啸波), Huo Z-Y(霍中洋), Zhang H-C(张洪程), Li G-Y(李国业), Cao K-W(曹开蔚), Cheng F-H(程飞虎), Huang D-S(黄大山), Dai Q-G(戴其根), Xu K(许轲), Wei H-Y(魏海燕). The advantages and key technology of indica rice to japonica rice on the late double-harvest rice of the southern rice area. China Rice (中国稻米), 2012, 18(1): 25–28 (in Chinese)



[17]Li H-J(李红娇), Zhang H-J(张红娟), Li W-J(李伟娟), Xu Z-J(徐正进). Initial research on lodging resistance in super high-yielding japonica rice cultivars. North Rice (北方水稻), 2008, 1(38): 22–27 (in Chinese with English abstract)



[18]Du Y(杜永), Wang Y(王艳), Wang X-H(王学红), Sun N-L(孙乃立), Yang J-C(杨建昌). Comparisons of plant type, grain yield, and quality of different japonica rice cultivars in Huanghe-Huai River Area. Acta Agron Sin (作物学报), 2007, 33(7): 1079–1085 (in Chinese with English abstract)



[19]Li J(李杰), Zhang H-C(张洪程), Chang Y(常勇), Gong J-L(龚金龙), Guo Z-H(郭振华), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu K(许轲), Wei H-Y(魏海燕), Gao H(高辉). Characteristics of photosynthesis and matter production of rice with different planting methods under high-yielding cultivation condition. Acta Agron Sin (作物学报), 2011, 37(7): 1235–1248 (in Chinese with English abstract)



[20]Ling Q-H(凌启鸿). Quality of Crop Population (作物群体质量). Shanghai: Shanghai Scientific and Technical Publishers, 2000. pp 42–120 (in Chinese)



[21]Sheehy J E, Dionora M J A, Mitchell P L. Spikelet numbers, sink size and potential yield in rice. Field Crops Res, 2001, 71: 77–85



[22]Yang H-J(杨惠杰), Li Y-Z(李义珍), Yang R-C(杨仁崔), Jiang Z-W(姜照伟), Zheng J-S(郑景生). Dry matter production characteristics of super high yielding rice. Chin J Rice Sci (中国水稻科学), 2001, 15(4): 265–270 (in Chinese with English abstract)



[23]Liang Y-M(梁尹明), Sun Y-F(孙永飞), Chen J-H(陈金焕), Wu F-J(吴凤姣), Wang Q-J(王钦君), Liang G-H(梁桂华). The traits of Yongyou 12 yielding over 900 kg per 667 m2. China Rice (中国稻米), 2012, 18(5): 39–41 (in Chinese)



[24]Mohapatra P K, Sahu S K. Heterogeneity of primary branch development and spikelet survival in rice in relation to assimilates of primary branches. J Exp Bot, 1991, 42: 871–879



[25]Yang J-C(杨建昌), Du Y(杜永), Wu C-F(吴长付), Liu L-J(刘立军), Wang Z-Q(王志琴), Zhu Q-S(朱庆森). Growth and development characteristics of super-high-yielding mid-season japonica rice. Sci Agric Sin (中国农业科学), 2006, 39(7): 1336–1345 (in Chinese with English abstract)



[26]Liu J-F(刘建丰), Yuan L-P(袁隆平), Deng Q-Y(邓启云), Chen L-Y(陈立云), Cai Y-D(蔡义东). A study on characteristics of photosynthesis in super high-yielding hybrid rice. Sci Agric Sin (中国农业科学), 2005, 38(2): 258–264 (in Chinese with English abstract)



[27]Xu D-H(许德海), Wang X-Y(王晓燕), Ma R-R(马荣荣), Yu S-M(禹盛苗), Zhu L-F(朱练峰), Ou-Yang Y-N(欧阳由男), Jin Q-Y(金千瑜). Analysis on physiological properties of the heavy panicle type of indica-japonica inter-subspecific hybrid rice Yongyou 6. Sci Agric Sin (中国农业科学), 2010, 43(23): 4796–4804 (in Chinese with English abstract)



[28]Ma R-R(马荣荣), Xu D-H(许德海), Wang X-Y(王晓燕), Yu S-M(禹盛苗), Jin Q-Y(金千瑜), Ou-Yang Y-N(欧阳由男), Zhu L-F(朱练峰). Heterosis on plant morphology of Yongyou 6, an indica-japonica inter-subspecific super high-yielding hybrid rice. Chin J Rice Sci (中国水稻科学), 2007, 21(3): 281–286 (in Chinese with English abstract)



[29]Li J(李杰), Zhang H-C(张洪程), Gong J-L(龚金龙), Chang Y(常勇), Dai Q-G(戴齐根), Huo Z-Y(霍中洋), Xu K(许轲), Wei H-Y(魏海燕). Effects of different planting methods on the culm lodging resistance of super rice. Sci Agric Sin (中国农业科学), 2011, 44(11): 2234–2243 (in Chinese with English abstract)



[30]Sun X-C(孙旭初). Studies on the resistance of the culm of rice to lodging. Sci Agric Sin (中国农业科学), 1987, 20(4): 32–37 (in Chinese)



[31]Yang H-J(杨惠杰), Fang X-T(房贤涛), He H-R(何花榕), Xie Z-Q(谢祖钦). Relationship of characteristics of culm construction to lodging resistance and yield of Fujian-bred super-rice cultivars. Chin J Eco-Agric (中国生态农业学报), 2012, 20(7): 909–913 (in Chinese with English abstract)



[32]Zhang X-J(张喜娟), Li H-J(李红娇), Li W-J(李伟娟), Xu Z-J(徐正进), Chen W-F(陈温福), Zhang W-Z(张文忠), Wang J-Y(王嘉宇). The lodging resistance of erect panicle japonica rice in Northern China. Sci Agric Sin (中国农业科学), 2009, 42(7): 2305–2313 (in Chinese with English abstract)



[33]Cheng S-H(程式华), Zhai H-Q(翟虎渠). Comparison of some plant type components in super high-yielding hybrids of inter-subspecies rice. Acta Agron Sin (作物学报), 2000, 26(6): 713–718 (in Chinese with English abstract)

[1] 韦还和, 张徐彬, 葛佳琳, 孟天瑶, 陆钰, 李心月, 陶源, 丁恩浩, 陈英龙, 戴其根. 甬优籼粳杂交稻栽后地上部干物质积累动态与特征分析[J]. 作物学报, 2021, 47(3): 546-555.
[2] 周磊,刘秋员,田晋钰,朱梦华,程爽,车阳,王志杰,邢志鹏,胡雅杰,刘国栋,魏海燕,张洪程. 甬优系列籼粳杂交稻产量及氮素吸收利用的差异[J]. 作物学报, 2020, 46(5): 772-786.
[3] 韦还和,孟天瑶,李超,张洪程,戴其根,马荣荣,王晓燕,杨筠文. 水稻甬优12产量13.5 t hm-2以上超高产群体的氮素积累、分配与利用特征[J]. 作物学报, 2016, 42(09): 1363-1373.
[4] 韦还和,孟天瑶,李超,张洪程,戴其根,马荣荣,王晓燕,杨筠文. 水稻甬优12产量13.5 t hm-2以上超高产群体的磷素积累、分配与利用特征[J]. 作物学报, 2016, 42(06): 886-897.
[5] 孟天瑶,许俊伟,邵子彬,葛梦婕,张洪程,魏海燕,戴其根,霍中洋,许轲,郭保卫,荆培培. 甬优系列籼粳杂交稻氮肥群体最高生产力的优势及形成特征[J]. 作物学报, 2015, 41(11): 1711-1725.
[6] 姜元华,许轲,赵可,孙建军,韦还和,许俊伟,魏海燕,郭保卫,霍中洋,戴其根,张洪程*. 甬优系列籼粳杂交稻的冠层结构与光合特性[J]. 作物学报, 2015, 41(02): 286-296.
[7] 姜元华,许俊伟,赵可,韦还和,孙建军,张洪程*,戴其根,霍中洋,许轲,魏海燕,郭保卫. 甬优系列籼粳杂交稻根系形态与生理特征[J]. 作物学报, 2015, 41(01): 89-99.
[8] 韦还和,李超,张洪程,孙玉海,马荣荣,王晓燕,杨筠文,戴其根,霍中洋,许轲,魏海燕,郭保卫. 水稻甬优12不同产量群体的株型特征[J]. 作物学报, 2014, 40(12): 2160-2168.
[9] 王晓燕,韦还和,张洪程,孙健,张建民,李超,陆惠斌,杨筠文,马荣荣,许久夫,王珏,许跃进,孙玉海. 水稻甬优12产量13.5 t hm-2以上超高产群体的生育特征[J]. 作物学报, 2014, 40(12): 2149-2159.
[10] 胡雅杰,朱大伟,钱海军,曹伟伟,邢志鹏,张洪程,周有炎,陈厚存,汪洪洋,戴其根,霍中洋,许轲,魏海燕,郭保卫. 籼粳杂交稻甬优2640钵苗机插超高产群体若干特征探讨[J]. 作物学报, 2014, 40(11): 2016-2027.
[11] 韦还和,李超,张洪程,孙玉海,孟天瑶,杨筠文,马荣荣,王晓燕,戴其根,霍中洋,许轲,魏海燕. 水稻甬优12超高产群体分蘖特性及其与群体生产力的关系[J]. 作物学报, 2014, 40(10): 1819-1829.
[12] 许轲,张军,花劲,张洪程,周培建,程飞虎,黄大山,陈忠平,陈国梁,戴其根,霍中洋,魏海燕,高辉. 双季杂交晚粳稻超高产形成特征[J]. 作物学报, 2014, 40(04): 678-690.
[13] 汤永禄,李朝苏,吴春,吴晓丽,黄钢,何刚. 四川盆地单产9000 kg hm−2以上超高产小麦品种产量结构与干物质积累特点[J]. 作物学报, 2014, 40(01): 134-142.
[14] 王永军,杨今胜,袁翠平,柳京国,李登海,董树亭. 超高产夏玉米花粒期不同部位叶片衰老与抗氧化酶特性[J]. 作物学报, 2013, 39(12): 2183-2191.
[15] 许轲,郭保卫,张洪程,周兴涛,陈厚存,张军,陈京都,朱聪聪,李桂云,吴中华,戴其根,霍中洋,魏海燕,高辉,曹利强,李明银. 有序摆抛栽对超级稻超高产与光合生产力的影响及水稻超高产模式探索[J]. 作物学报, 2013, 39(09): 1652-1667.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!