|本期目录/Table of Contents|

[1]刘昆,李婷婷,李思宇,等.机械化栽培方式对水稻产量影响的研究进展[J].江苏农业科学,2019,47(24):1-5.
 Liu Kun,et al.Research progress on effects of mechanized cultivation methods on rice yield[J].Jiangsu Agricultural Sciences,2019,47(24):1-5.
点击复制

机械化栽培方式对水稻产量影响的研究进展(PDF)
分享到:

《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:
第47卷
期数:
2019年第24期
页码:
1-5
栏目:
专论与综述
出版日期:
2020-02-20

文章信息/Info

Title:
Research progress on effects of mechanized cultivation methods on rice yield
作者:
刘昆 李婷婷 李思宇 朱安 汪浩 黄健 刘立军
扬州大学/江苏省作物遗传生理重点实验室/江苏省作物栽培生理重点实验室/江苏省粮食作物现代产业技术协同创新中心,江苏扬州 225009
Author(s):
Liu Kunet al
关键词:
水稻机械直播机械插秧机械抛秧产量
Keywords:
-
分类号:
S511.04
DOI:
-
文献标志码:
A
摘要:
水稻是我国最重要的粮食作物,机械化、轻简化栽培是水稻生产发展的重要方向。本文综述了国内外水稻机械化、轻简化栽培发展概况,重点阐述了机械直播、机械插秧和机械抛秧等机械化栽培方式的技术特点及其对水稻产量的影响,提出了未来加强我国水稻机械化、轻简化栽培的研究重点,以期为水稻高产高效栽培提供理论依据。
Abstract:
-

参考文献/References:

[1]Peng S B,Tang Q Y,Zou Y B. Current status and challenges of rice production in China[J]. Plant Production Science,2009,12(1):3-8.
[2]Rashid M H,Alam M M,Khan M H,et al. Productivity and resource use of direct-(drum)-seeded and transplanted rice in puddled soils in rice-rice and rice-wheat ecosystems[J]. Field Crops Research,2009,113(3):274-281.
[3]Huang M,Zou Y B,Jiang P,et al. Yield component differences between direct-seeded and transplanted super hybrid rice[J]. Plant Production Science,2011,14(4):331-338.
[4]Li Y. The status and prospects of rice production mechanization in China[C]// Toriyama K,Heong K,Hardy B. Rice is life:scientific perspectives for the 21st century. Los Banos:International Rice Research Institute,2005:238-239.
[5]Farooq M,Siddique K H M,Rehman H,et al. Rice direct seeding:experiences,challenges and opportunities[J]. Soil & Tillage Research,2011,111(2):87-98.
[6]Tenni D,Martin M,Barberis E,et al. Total As and As speciation in Italian rice as related to producing areas and paddy soils properties[J]. Journal of Agricultural and Food Chemistry,2017,65(17):3443-3452.
[7]李耀明,徐立章,向忠平,等. 日本水稻种植机械化技术的最新研究进展[J]. 农业工程学报,2005,21(11):182-185.
[8]Chauhan B S,Mahajan G,Sardana V,et al. Chapter six. Productivity and sustainability of the rice-wheat cropping system in the indo-gangetic plains of the indian subcontinent:problems,opportunities,and strategies[J]. Advances in Agronomy,2012,117:315-369.
[9]梁宝忠,赵永亮,赵金英,等. 水稻直播机设计与试验[J]. 农业机械学报,2012,43(增刊1):63-66.
[10]Guo N,Hu J T,Wang H. Intelligent operation control system for rice transplanter based on GPS navigation[J]. Transactions of the Chinese Society for Agricultural Machinery,2013,44(1):200-204.
[11]钱孟波,俞高红,蒋晨骁,等. 非圆齿轮水稻钵苗抛秧机构运动机理与参数优化[J]. 农业机械学报,2014,45(6):64-69.
[12]Chen B,Tojo S,Watanabe K. Machine vision-based guidance system for automatic rice transplanters[J]. Applied Engineering in Agriculture,2003,19(1):91-97.
[13]Wang J Z,Wang X J,Xu M G,et al. Crop yield and soil organic matter after long-term straw return to soil in China[J]. Nutrient Cycling in Agroecosystems,2015,102(3):371-381.
[14]Xing Z P,Hu Y J,Qian H J et al. Comparison of yield traits in rice among three mechanized planting methods in a rice-wheat rotation system[J]. Journal of Integrative Agriculture,2017,16(7):1451-1466.
[15]张洪程,龚金龙. 中国水稻种植机械化高产农艺研究现状及发展探讨[J]. 中国农业科学,2014,47(7):1273-1289.
[16]Wang W Q,Peng S B,Liu H Y,et al. The possibility of replacing puddled transplanted flooded rice with dry seeded rice in Central China:a review[J]. Field Crops Research,2017,214:310-320.
[17]Nadir S,Xiong H B,Zhu Q,et al. Weedy rice in sustainable rice production:a review[J]. Agronomy for Sustainable Development,2017,37:46.
[18]Tao Y,Chen Q,Peng S B,et al. Lower global warming potential and higher yield of wet direct-seeded rice in Central China[J]. Agronomy for Sustainable Development,2016,36:24.
[19]贾维强,谭雪明,李木英,等. 不同机械直播穴距与播种量对早稻产量形成的影响[J]. 江西农业大学学报,2017,39(1):9-17.
[20]雷小龙,刘利,刘波,等. 机械化种植对杂交籼稻F优498产量构成与株型特征的影响[J]. 作物学报,2014,40(4):719-730.
[21]Matloob A,Khaliq A,Tanveer A,et al. Weed dynamics as influenced by tillage system,sowing time and weed competition duration in dry-seeded rice[J]. Crop Protection,2015,71:25-38.
[22]Ahmed S,Salim M,Chauhan B S. Effect of weed management and seed rate on crop growth under direct dry seeded rice systems in Bangladesh[J]. PLoS One,2014,9(7):e101919.
[23]Chauhan B S,Singh V P,Kumar A,et al. Relations of rice seeding rates to crop and weed growth in aerobic rice[J]. Field Crops Research,2011,121(1):105-115.
[24]Walia U S,Gill G,Walia S S,et al. Production of direct seeded rice(Oryza sativa)under differential plant densities and herbicides in central plains of Punjab[J]. Journal of Crop & Weed,2011,7(2):1-5.
[25]Bashir M U,Akbar N,Iqbal A,et al. Effect of different sowing dates on yield and yield components of direct seeded coarse rice(Oryza sativa L.)[J]. Pakistan Journal of Agricultural Sciences,2010,47(4):361-365.
[26]Satapathy B S,Pun K B,Singh T,et al. Influence of dates of sowing on growth and yield of direct wet sown early ahu rice(Oryza sativa L.)varieties under flood prone lowland ecosystem of Asom[J]. New Zealand Journal of Agricultural Research,2016,37(1):30-35.
[27]Akbar N,Iqbal A,Khan H Z,et al. Effect of different sowing dates on the yield and yield components of direct seeded fine rice (Oryza sativa L.)[J]. Journal of Plant Breeding and Crop Science,2010,2(10):312-315.
[28]Srivastava P,Sarma R S,Sahay R,et al. Evaluation of photothermic indexing in early,normal and late sowing dates in different rice genotypes[J]. Journal of Pharmacognosy and Phytochemistry,2018,7(2):3049-3056.
[29]Chauhan B S. Weed ecology and weed management strategies for dry-seeded rice in Asia[J]. Weed Technology,2012,26(1):1-13.
[30]Chauhan B S,Ngoc S T,Duong D,et al. Effect of pretilachlor on weedy rice and other weeds in wet-seeded rice cultivation in South Vietnam[J]. Plant Production Science,2015,17(4):315-320.
[31]Iwuagwu C C,Umechuruba C I,Nwogbaga A C,et al. Effect of planting date,spacing and seeding methods on disease development and yield components of rice(Oryza sativa L.)in southeastern Nigeria[J]. Journal of Agricultural Science and Technology,2017,7(2):100-113.
[32]Nakano H,Hattori I,Sato K,et al. Early planting and early nitrogen application increase stem total digestible nutrient concentration and yield of forage rice in southwestern Japan[J]. Plant Production Science,2011,14(2):169-176.
[33]Wang D,Chen S,Wang Z,et al. Optimizing hill seeding density for high-yielding hybrid rice in a single rice cropping system in South China[J]. PLoS One,2014,9(10):e109417.
[34]Hayashi S,Kamoshita A,Yamagishi J. Effect of planting density on grain yield and water productivity of rice (Oryza sativa L.) grown in flooded and non-flooded fields in Japan[J]. Plant Production Science,2006,9(3):298-311.
[35]Mahajan G,Sarlach R S,Japinder S,et al. Seed priming effects on germination,growth and yield of dry direct-seeded rice[J]. Journal of Crop Improvement,2011,25(4):409-417.
[36]Rahman M,Ali J,Masood M. Seed priming and trichoderma application:a method for improving seedling establishment and yield of dry direct seeded boro(winter)rice in Bangladesh[J]. Universal Journal of Agricultural Research,2015,3(2):59-67.
[37]Won J G,Hirahara Y,Yoshida T,et al. Selection of rice lines using SPGP seedling method for direct seeding[J]. Plant Production Science,2008,1(4):280-285.
[38]Liu H Y,Hussain S,Zheng M M,et al. Dry direct-seeded rice as an alternative to transplanted-flooded rice in Central China[J]. Agronomy for Sustainable Development,2015,35(1):285-294.
[39]Mahajan G,Kaur G,Chauhan B S. Seeding rate and genotype effects on weeds and yield of dry-seeded rice[J]. Crop Protection,2017,96:68-76.
[40]Chauhan B S. Effect of tillage systems,seeding rates,and herbicides on weed growth and grain yield in dry-seeded rice systems in the Philippines[J]. Crop Protection,2013,54:244-250.
[41]Sun L M,Hussain S,Liu H Y,et al. Implications of low sowing rate for hybrid rice varieties under dry direct-seeded rice system in Central China[J]. Field Crops Research,2015,175:87-95.
[42]Chauhan B S,Opea J. Weed management and grain yield of rice sown at low seeding rates in mechanized dry-seeded systems[J]. Field Crops Research,2013,141:9-15.
[43]董立强,王术,高光杰,等. 直播条件下行距对不同穗型粳稻产量及倒伏性状的影响[J]. 华北农学报,2017,32(4):169-175.
[44]Akhgari H,Kaviani B. Assessment of direct seeded and transplanting methods of rice cultivars in the northern part of Iran[J]. African Journal of Agricultural Research,2011,6(31):6492-6498.
[45]Kristensen L,Olsen J,Weiner J. Crop density,sowing pattern,and nitrogen fertilization effects on weed suppression and yield in spring wheat[J]. Weed Science,2008,56(1):97-102.
[46]Ameen A,Aslam Z,Zaman Q U,et al. Performance of different cultivars in direct seeded rice(Oryza sativa L.)with various seeding densities[J]. American Journal of Plant Sciences,2014,5(21):3119-3128.
[47]朱聪聪,张洪程,郭保卫,等. 钵苗机插密度对不同类型水稻产量及光合物质生产特性的影响[J]. 作物学报,2014,40(1):122-133.
[48]Li X C,Zhong Q Y,Li Y X,et al. Triacontanol reduces transplanting shock in machine-transplanted rice by improving the growth and antioxidant systems[J]. Frontiers in Plant Science,2016,7:872.
[49]张祖建,王君,郎有忠,等. 机插稻超秧龄秧苗的生长特点研究[J]. 作物学报,2008,34(2):297-304.
[50]霍中洋,魏海燕,张洪程,等. 穗肥运筹对不同秧龄机插超级稻宁粳1号产量及群体质量的影响[J]. 作物学报,2012,38(8):1460-1470.
[51]沈建辉,邵文娟,张祖建,等. 苗床落谷密度、施肥量和秧龄对机插稻苗质及大田产量的影响[J]. 作物学报,2006,32(3):402-409.
[52]Huang M,Yang C,Ji Q,et al. Tillering responses of rice to plant density and nitrogen rate in a subtropical environment of southern China[J]. Field Crops Research,2013,149(2):187-192.
[53]Zhang B L,Yamagishi J. Response of spikelet number per panicle in rice cultivars to three transplanting densities[J]. Plant Production Science,2010,13(3):279-288.
[54]许俊伟,孟天瑶,荆培培,等. 机插密度对不同类型水稻抗倒伏能力及产量的影响[J]. 作物学报,2015,41(11):1767-1776.
[55]Aggarwal N,Singh A. Crop performance,nutrient uptake vis-a-vis weed suppressive ability of mechanically transplanted rice (Oryza saliva) as influenced by age of seedlings and planting density[J]. Indian Journal of Agronomy,2015,60(2):255-260.
[56]Liu Q H,Zhou X B,Li J L,et al. Effects of seedling age and cultivation density on agronomic characteristics and grain yield of mechanically transplanted rice[J]. Scientific Reports,2017,7:14072.
[57]李应洪,王海月,吕腾飞,等. 不同秧龄下机插方式与密度对杂交稻光合生产及产量的影响[J]. 中国水稻科学,2017,31(3):265-277.
[58]Lampayan R M,Faronilo J E,Tuong T P,et al. Effects of seedbed management and delayed transplanting of rice seedlings on crop performance,grain yield,and water productivity[J]. Field Crops Research,2015,183:303-314.
[59]Mishra A,Salokhe V M. Seedling characteristics and the early growth of transplanted rice under different water regimes[J]. Experimental Agriculture,2008,44(3):365-383.
[60]Singh S R,Singh S B. Effect of age of seedlings,N-levels and time of application on growth and yield of rice under irrigated condition[J]. Oryza,1999,36(4):351-354.
[61]Jalota S K,Singh K B,Chahal G B S,et al. Integrated effect of transplanting date,cultivar and irrigation on yield,water saving and water productivity of rice (Oryza sativa L.) in Indian Punjab:field and simulation study[J]. Agricultural Water Management,2009,96(7):1096-1104.
[62]Brar S K,Mahal S S,Brar A S,et al. Transplanting time and seedling age affect water productivity,rice yield and quality in north-west India[J]. Agricultural Water Management,2012,115:217-222.
[63]Adhikari B,Mehera B,Haefele S M. Impact of rice nursery nutrient management,seeding density and seedling age on yield and yield attributes[J]. American Journal of Plant Sciences,2013,4(12):146-155.
[64]Sarwar N,Ali H,Maqsood M,et al. Influence of nursery management and seedling age on growth and economic performance of fine rice[J]. Journal of Plant Nutrition,2014,37(8):1287-1303.
[65]Mishra A,Salokhe V M. Seedling characteristics and the early growth of transplanted rice under different water regimes[J]. Experimental Agriculture,2008,44(3):365-383.
[66]Kewat M L,Agrawal S B,Agrawal K K,et al. Effect of divergent plant spacings and age of seedlings on yield and economics of hybrid rice(Oryza sativa)[J]. Indian Journal of Agronomy,2002,47(3):367-371.
[67]Huang M,Shan S L,Xie X B,et al. Why high grain yield can be achieved in single seedling machine-transplanted hybrid rice under dense planting conditions?[J]. Journal of Integrative Agriculture,2018,17(6):1299-1306.
[68]郭保卫,朱聪聪,朱大伟,等. 钵苗机插密度对不同类型水稻齐穗期株型及冠层微环境的影响[J]. 生态学杂志,2015,34(1):9-17.
[69]胡雅杰,曹伟伟,钱海军,等. 钵苗机插密度对不同穗型水稻品种产量、株型和抗倒伏能力的影响[J]. 作物学报,2015,41(5):743-757.
[70]胡雅杰,邢志鹏,龚金龙,等. 钵苗机插水稻群体动态特征及高产形成机制的探讨[J]. 中国农业科学,2014,47(5):865-879.
[71]胡雅杰,钱海军,曹伟伟,等. 机插方式和密度对不同穗型水稻品种产量及其构成的影响[J]. 中国水稻科学,2016,30(5):493-506.
[72]Krishna A,Biradar Patil N K. Influence of seedling age and spacing on seed yield and quality of short duration rice under system of rice intensification cultivation[J]. Karnataka Journal of Agricultural Sciences,2010,22(1):53-55.
[73]Singh S,Kumar V,Sagar V,et al. Effect of age of seedling and plant spacing on yield and attributing traits of rice varieties under SRI method of rice cultivation[J]. Journal of Pharmacognosy and Phytochemistry,2017,6(Special Issue 1 ):798-801
[74]张洪程,戴其根,霍中洋,等. 中国抛秧稻作技术体系及其特征[J]. 中国农业科学,2008,41(1):43-52.
[75]Huang M,Ibrahim M D,Xia B,et al. Significance,progress and prospects for research in simplified cultivation technologies for rice in China[J]. The Journal of Agricultural Science,2011,149(4):487-496.
[76]李超,陈恺林,刘洋,等. 增苗节氮对早稻抛秧群体生物学特性及产量的影响[J]. 中国生态农业学报,2014,22(7):774-781.
[77]Tian G L,Gao L M,Kong Y L,et al. Improving rice population productivity by reducing nitrogen rate and increasing plant density[J]. PLoS One,2017,12(8):e0182310.
[78]Awan T H,Cruz P C S,Chauhan B S. Growth analysis and biomass partitioning of Cyperus iria in response to rice planting density and nitrogen rate[J]. Crop Protection,2015,74:92-102.
[79]Lin X Q,Zhu D F,Chen H Z,et al. Effects of plant density and nitrogen application rate on grain yield and nitrogen uptake of super hybrid rice[J]. Rice Science,2009,16(2):138-142.
[80]Harrell D L,Blanche S B. Tillage,seeding,and nitrogen rate effects on rice density,yield,and yield components of two rice cultivars[J]. Agronomy Journal,2010,102(2):592-597.

相似文献/References:

[1]马旭俊,刘春娟,吕世博,等.绿色荧光蛋白基因在水稻遗传转化中的应用[J].江苏农业科学,2013,41(04):35.
[2]李岳峰,居立海,张来运,等.水分胁迫下丛枝菌根对水稻/绿豆间作系统 作物生长和氮磷吸收的影响[J].江苏农业科学,2013,41(04):58.
[3]崔月峰,孙国才,王桂艳,等.不同施氮水平和前氮后移措施对水稻产量 及氮素利用率的影响[J].江苏农业科学,2013,41(04):66.
[4]张其蓉,宋发菊,田进山,等.长江中下游稻区水稻区域试验品种抗稻瘟病鉴定与评价[J].江苏农业科学,2013,41(04):92.
[5]王麒,张小明,卞景阳,等.不同插秧密度对黑龙江省第二积温带水稻产量及产量构成的影响[J].江苏农业科学,2013,41(05):60.
 Wang Qi,et al.Effect of different transplanting density on yield and yield component of rice in second temperature zone of Heilongjiang Province[J].Jiangsu Agricultural Sciences,2013,41(24):60.
[6]张国良,张森林,丁秀文,等.基质厚度和含水量对水稻育秧的影响[J].江苏农业科学,2013,41(05):62.
 Zhang Guoliang,et al.Effects of substrate thickness and water content on growth of rice seedlings[J].Jiangsu Agricultural Sciences,2013,41(24):62.
[7]赵忠宝,朱清海.稻-蟹-鳅生态系统的能值分析[J].江苏农业科学,2013,41(05):349.
 Zhao Zhongbao,et al.Emergy analysis of paddy-crab-loach ecosystem[J].Jiangsu Agricultural Sciences,2013,41(24):349.
[8]杨红福,姚克兵,束兆林,等.甲氧基丙烯酸酯类杀菌剂对水稻恶苗病的田间药效[J].江苏农业科学,2014,42(12):166.
 Yang Hongfu,et al.Field efficacy of strobilurin fungicides against rice bakanae disease[J].Jiangsu Agricultural Sciences,2014,42(24):166.
[9]唐成,陈露,安敏敏,等.稻瘟病诱导水稻幼苗叶片氧化还原系统的特征谱变化[J].江苏农业科学,2014,42(12):141.
 Tang Cheng,et al.Characteristic spectral changes of redox homeostasis system in rice seedling leaves induced by rice blast[J].Jiangsu Agricultural Sciences,2014,42(24):141.
[10]万云龙.优质水稻—春甘蓝轮作高效栽培模式[J].江苏农业科学,2014,42(12):90.
 Wan Yunlong.Efficient cultivation mode of high quality rice-spring cabbage rotation[J].Jiangsu Agricultural Sciences,2014,42(24):90.

备注/Memo

备注/Memo:
收稿日期:2018-12-11
基金项目:国家重点研发计划(编号:2016YFD0300502、2017YFD0301206);江苏高校优势学科建设工程资助项目。
作者简介:刘昆(1993—),男,江苏徐州人,硕士研究生,主要从事水稻栽培生理研究。E-mail:940057576@qq.com。
通信作者:刘立军,博士,教授,博士生导师,主要从事作物栽培生理的教学与科学研究。E-mail:ljliu@yzu.edu.cn。
更新日期/Last Update: 2019-12-20