Effects of Temperature Increase of Soil on Productive Tiller Percentage  and Yield of Rice in High Altitude Ecological Area

doi:10.3969/j.issn.1001-7216.2010.01.07

Abstract

Abstract: To study the effect of increased soil temperature on rice production, three treatments(ridge cultivation, warmwater irrigation by sunning water pool and conventional cultivation) were arranged in a field experiment. The soil daily average temperature difference under ridge cultivation and warmwater irrigation by sunning water pool was 2.94℃ and 0.57℃ higher than that under conventional cultivation in the period from rice transplanting to critical stage for productive tiller in highaltitude and cold area. The quantity and quality of rice tiller before critical stage for productive tiller as well as the influence of soil warming measures to rice tillering and yield components were studied in high altitude area. The results showed that compared to the conventional cultivation, the productive tiller percentage increased by 14.59 and 0.14 percent points under the ridge cultivation and warmwater irrigation, respectively for Lijing 10, and by 12.08 and 2.09 percent points for Dabaigu, respectively . The yield increased by 13.79% and 10.82% under the ridge cultivation and warmwater irrigation, respectively for Lijing 10, and by 1335% and 11.54% for Dabaigu, respectively . The soil warming measures was helpful in promoting rice growth, accelerating tillering, increasing the accumulation of dry matter, optimizing the population quality and increasing productive tiller percentage and yield.

Key words: rice, productive till percentage, high altitude, soil temperature, yield

摘要： 在高海拔寒冷稻作区，通过晒水池增温进行温水灌溉和垄作栽培提高土壤温度。垄作栽培、温水灌溉在移栽后到有效分蘖临界叶龄期的土壤日平均温差分别比常规栽培(对照)高2.94℃和0.57℃。通过调查有效分蘖临界叶龄期水稻的分蘖发生数量和质量，探讨增加土壤温度对水稻分蘖发生和产量及其构成因素的影响。结果表明，丽粳10号垄作栽培、温水灌溉成穗率比对照分别高14.59和0.14个百分点，大白谷分别高12.08和2.09个百分点。丽粳10号垄作栽培、温水灌溉的产量分别比对照高13.79%和10.82%，大白谷分别高13.35%和11.54%。土壤增温可促进高寒生态区水稻早发和干物质积累，增加有效分蘖，优化群体质量，提高成穗率和产量。

关键词: 水稻, 成穗率, 高海拔, 土壤温度, 产量

LI Jing-hong, LI Gang-hua，YANG Cong-dang,WANG Shao-hua,LIU Zheng-hui,WANG Qiang-sheng,DING Yan-feng. Effects of Temperature Increase of Soil on Productive Tiller Percentage and Yield of Rice in High Altitude Ecological Area[J]. Chinese Journal of Rice Science, DOI: 10.3969/j.issn.1001-7216.2010.01.07 .

李景蕻,李刚华,杨从党,王绍华,刘正辉,王强盛,丁艳锋,. 增加土壤温度对高海拔生态区水稻分蘖成穗及产量形成的影响
[J]. 中国水稻科学, DOI: 10.3969/j.issn.1001-7216.2010.01.07 .

References

[1]Sthapit B R, Witcombe J R. Inheritance of tolerance to chilling stress in rice during germination and plumule greening.Crop Sci, 1998, 38(3): 660665.

[2]戴陆园, 叶昌荣, 余腾琼, 等.水稻耐冷性研究: Ⅰ.稻冷害类型及耐冷性鉴定评价方法概述. 西南农业学报, 2002, 15(11)： 41-45.

[3]佐藤庚. 環境に対する水稲の生育反応: 第4報. 気温·地温が14C 同化産物の転流·分配に及ぼす影響. 日本作物学会紀事， 1974， 43: 410-415.

[4]松島省三，角田公正. 水稲収量の成立原理とその応用に関する作物学的研究： ⅩＬⅤ. 生育各期の気温の高低並びに較差の大小が水稲の生育、収量並びに収量構成要素に及ぼす影響．日本作物学会紀事， 1958， 26（4）： 243-244．

[5]亓来福.日本等国水稻低温冷害研究概况.气象, 1979 (3): 63-67.

[6]内岛立郎.低温条件与水稻空壳.气象科技资料, 1977（4）: 9-13.

[7]门宝辉, 刘庆华.井灌水稻防御冷水害试验研究综述.农业系统科学与综合研究, 2001, 17(1)： 73-76.

[8]王家先. 淠史杭灌区冷水灌田对水稻产量的影响.中国农村水利水电, 2000(4): 5-7.

[9]付强, 梁川, 杨广林.井灌水稻区晒水池内井水增温效果试验研究.四川大学学报：工程科学版, 2002, 34(4): 14-18.

[10]钱永德, 李金峰, 郑桂萍, 等.垄作栽培对寒地水稻根系生长的影响.中国水稻科学, 2005, 19(3): 238-242.

[11]王怡红.南方水稻垄作栽培高产形成的初步研究[D]. 扬州: 扬州大学, 2008: 5-8.

[12]章秀福, 王丹英, 邵国胜.垄畦栽培水稻的产量、品质效应及其生理生态基础.中国水稻科学, 2003, 17(4): 343-348.

[13]章秀福, 王丹英, 屈衍艳, 等.垄畦栽培水稻的植株形态与生理特性研究. 作物学报, 2005, 31(6): 742-748.

[14]程满金, 白明照, 申利刚.灌溉水温对高寒地区水稻的影响及增温措施.东北水利水电, 2000, 193(18): 19-21.

[15]Kang S Z，Cai H J，Zhong J H.Estimation of maize evapotranspiration under water deficits in a semiarid region. Agric Water Manage, 2000, 43: 1-14.

[16]Kang S Z，Liang Z S，Pan Y H，et al. Alternate furrow irrigation for maize production in an arid area. Agric Water Manage, 2000, 45: 267-274.

[17]凌启鸿.作物群体质量.上海: 上海科学技术出版社, 2000: 66.

[18]钟旭华, 彭少兵, Sheehy J. 水稻群体成穗率与干物质积累动态关系的模拟研究.中国水稻科学, 2001, 15(2): 10-13.

[19]袁奇, 于林惠, 石世杰, 等.机插秧每穴栽插苗数对水稻分蘖与成穗的影响.农业工程学报, 2007, 23(10): 121-125.

[20]王友贞, 袁先江, 许浒, 等.水稻旱作覆膜的增温保墒效果及其对生育性状影响研究.农业工程学报, 2002, 18(2): 29-31.

[21]俞爱英, 林贤青, 曾孝元.不同灌溉方式对水稻分蘖成穗规律及产量影响研究.灌溉排水学报, 2007, 26(1): 66-68.

[22]李景蕻, 李刚华, 丁艳锋, 等.精确定量栽培对高海拔寒冷生态区水稻株型及产量的影响.中国农业科学, 2009, 42(9): 3067-3077.

[23]张林青, 马爱京, 张亚洁.高产水稻生育前期叶面积指数和群体茎蘖组成及其关系的研究.安徽农业大学学报, 2004, 31(3): 320-324.

[24]祁玉良, 石守设, 鲁伟林, 等.不同栽植密度杂交稻分蘖成穗规律及其穗部性状研究.中国农学通报, 2006, 22(5): 177-181.

[25]陈惠哲, 朱德峰, 林贤青, 等.稀植条件下杂交稻分蘖成穗规律和穗粒结构研究.杂交水稻, 2004, 19(6): 51-54.

[26]廖学群, 隗溟, 朱自均.秧田秧苗分蘖结构对水稻生长发育的影响.西南农业大学学报:自然科学版, 2005, 27(1): 9-13.

[27]李冬霞, 隗溟, 廖学群.水稻不同节位和数量分蘖对经济产量的作用. 西南农业大学学报: 自然科学版, 2006, 28(3): 366-372.

[28]吴自明, 石庆华, 李木英, 等.移栽密度与施肥方法对优质早稻成穗率的影响. 江西农业大学学报, 2003, 25(2): 560-561.

[29]刘勇, 任焘, 夏仲炎.水稻分蘖成穗与产量组成关系分析.安徽农业技术师范学院学报, 1999, 13(3): 37-41.

[30]苏祖芳, 王辉斌, 杜永林, 等.水稻生育中期群体质量与产量形成关系的研究.中国农业科学, 1998, 31(5): 19-25.

[31]李金才, 魏凤珍. 中粳稻分蘖穗率与苗质、秧苗密度和群体质量关系的研究.安徽农业大学学报, 1997, 24(1): 30-36.

[32]徐家宽, 潘国璋, 王长大, 等. 略论提高水稻成穗率的意义和途径.中国稻米, 1996(4): 8-11.

[33]Jones O R, Stewar B A．Basin tillage. Soil Tillage Res, 1990, 18: 249-265.

Effects of Temperature Increase of Soil on Productive Tiller Percentage and Yield of Rice in High Altitude Ecological Area

增加土壤温度对高海拔生态区水稻分蘖成穗及产量形成的影响

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

[1]	GUO Zhan, ZHANG Yunbo. Research Progress in Physiological，Biochemical Responses of Rice to Drought Stress and Its Molecular Regulation [J]. Chinese Journal OF Rice Science, 2024, 38(4): 335-349.
[2]	WEI Huanhe, MA Weiyi, ZUO Boyuan, WANG Lulu, ZHU Wang, GENG Xiaoyu, ZHANG Xiang, MENG Tianyao, CHEN Yinglong, GAO Pinglei, XU Ke, HUO Zhongyang, DAI Qigen. Research Progress in the Effect of Salinity, Drought, and Their Combined Stresses on Rice Yield and Quality Formation [J]. Chinese Journal OF Rice Science, 2024, 38(4): 350-363.
[3]	XU Danjie, LIN Qiaoxia, LI Zhengkang, ZHUANG Xiaoqian, LING Yu, LAI Meiling, CHEN Xiaoting, LU Guodong. OsOPR10 Positively Regulates Rice Blast and Bacterial Blight Resistance [J]. Chinese Journal OF Rice Science, 2024, 38(4): 364-374.
[4]	CHEN Mingliang, ZENG Xihua, SHEN Yumin, LUO Shiyou, HU Lanxiang, XIONG Wentao, XIONG Huanjin, WU Xiaoyan, XIAO Yeqing. Typing of Inter-subspecific Fertility Loci and Fertility Locus Pattern of indica-japonica Hybrid Rice [J]. Chinese Journal OF Rice Science, 2024, 38(4): 386-396.
[5]	DING Zhengquan, PAN Yueyun, SHI Yang, HUANG Haixiang. Comprehensive Evaluation and Comparative Analysis of Jiahe Series Long-Grain japonica Rice with High Eating Quality Based on Gene Chip Technology [J]. Chinese Journal OF Rice Science, 2024, 38(4): 397-408.
[6]	HOU Xiaoqin, WANG Ying, YU Bei, FU Weimeng, FENG Baohua, SHEN Yichao, XIE Hangjun, WANG Huanran, XU Yongqiang, WU Zhihai, WANG Jianjun, TAO Longxing, FU Guanfu. Mechanisms Behind the Role of Potassium Fulvic Acid in Enhancing Salt Tolerance in Rice Seedlings [J]. Chinese Journal OF Rice Science, 2024, 38(4): 409-421.
[7]	LÜ Zhou, YI Binghuai, CHEN Pingping, ZHOU Wenxin, TANG Wenbang, YI Zhenxie. Effects of Nitrogen Application Rate and Transplanting Density on Yield Formation of Small Seed Hybrid Rice [J]. Chinese Journal OF Rice Science, 2024, 38(4): 422-436.
[8]	HU Jijie, HU Zhihua, ZHANG Junhua, CAO Xiaochuang, JIN Qianyu, ZHANG Zhiyuan, ZHU Lianfeng. Effects of Rhizosphere Saturated Dissolved Oxygen on Photosynthetic and Growth Characteristics of Rice at Tillering Stage [J]. Chinese Journal OF Rice Science, 2024, 38(4): 437-446.
[9]	WU Yue, LIANG Chengwei, ZHAO Chenfei, SUN Jian, MA Dianrong. Occurrence of Weedy Rice Disaster and Ecotype Evolution in Direct-Seeded Rice Fields [J]. Chinese Journal OF Rice Science, 2024, 38(4): 447-455.
[10]	LIU Fuxiang, ZHEN Haoyang, PENG Huan, ZHENG Liuchun, PENG Deliang, WEN Yanhua. Investigation and Species Identification of Cyst Nematode Disease on Rice in Guangdong Province [J]. Chinese Journal OF Rice Science, 2024, 38(4): 456-461.
[11]	CHEN Haotian, QIN Yuan, ZHONG Xiaohan, LIN Chenyu, QIN Jinghang, YANG Jianchang, ZHANG Weiyang. Research Progress on the Relationship Between Rice Root, Soil Properties and Methane Emissions in Paddy Fields [J]. Chinese Journal OF Rice Science, 2024, 38(3): 233-245.
[12]	MIAO Jun, RAN Jinhui, XU Mengbin, BO Liubing, WANG Ping, LIANG Guohua, ZHOU Yong. Overexpression of RGG2, a Heterotrimeric G Protein γ Subunit-Encoding Gene, Improves Drought Tolerance in Rice [J]. Chinese Journal OF Rice Science, 2024, 38(3): 246-255.
[13]	YIN Xiaoxiao, ZHANG Zhihan, YAN Xiulian, LIAO Rong, YANG Sijia, Beenish HASSAN, GUO Daiming, FAN Jing, ZHAO Zhixue, WANG Wenming. Signal Peptide Validation and Expression Analysis of Multiple Effectors from Ustilaginoidea virens [J]. Chinese Journal OF Rice Science, 2024, 38(3): 256-265.
[14]	ZHU Yujing, GUI Jinxin, GONG Chengyun, LUO Xinyang, SHI Jubin, ZHANG Haiqing, HE Jiwai. QTL Mapping for Tiller Angle in Rice by Genome-wide Association Analysis [J]. Chinese Journal OF Rice Science, 2024, 38(3): 266-276.
[15]	ZHAO Yiting, XIE Keran, GAO Ti, CUI Kehui. Effects of Drought Priming During Tillering Stage on Panicle Development and Yield Formation Under High Temperature During Panicle Initiation Stage in Rice [J]. Chinese Journal OF Rice Science, 2024, 38(3): 277-289.