ZHANGYuezhong,SUNJiying,TIANLei,et al.Effects of Different Belt Types of Belt Compound Planting on the Growth and Development of Soybean and Maize in the Southern Foothills of the Great Khingan Mountains[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(11):46-51.[doi:10.11942/j.issn1002-2767.2023.11.0046]
大兴安岭南麓带状复合种植带型对大豆玉米生长的影响
- Title:
- Effects of Different Belt Types of Belt Compound Planting on the Growth and Development of Soybean and Maize in the Southern Foothills of the Great Khingan Mountains
- 文章编号:
- 8
- Keywords:
- soybean; maize; belt type; growth and development; economic performance
- 文献标志码:
- A
- 摘要:
- 为探究不同带状种植模式下大豆玉米生长、产量特性及经济效益,通过设置4种带型S2M2、S4M4、S4M2、S6M4及单种玉米(M)、大豆(S)6个处理对不同种植带型的大豆玉米生育进程、农艺性状、产量、土地当量比(LER)及经济效益进行分析。结果表明,带状种植条件下的大豆生育期有延迟现象,与单种大豆相比生育期延迟2~3d;通过主成分分析可知,玉米边际效应优势最大的S2M2带型,玉米穗部性状因子得分最高,为1.22,单种玉米因子得分最低,仅为-2.27;带状复合种植条件下大豆的百粒重在20.17~22.87g之间,而单种大豆百粒重仅为19.94g;4种带型设置的LER均大于1,其中S4M2带型的LER最大,为1.38;与单种玉米相比,S4M4带型纯收益最高,增收246.95元 ·hm -2,增收率为1.60%,与单种大豆相比增收11822.07元 ·hm -2,增收率为101.90%。带状复合种植条件下的整体经济效益大于单种,通过土地当量比、经济效益及下一年轮作等整体分析,S4M4带型适用于种植面积大、机械化程度高的大兴安岭南麓地区。
- Abstract:
- In order to explore the growth, yield characteristics and economic benefits of soybean corn under different belt planting modes.The growth process, agronomic traits, yield, equivalent ratio and economic benefits of soybean and maize with different planting belt types were analyzed by setting four belt types S2M2, S4M4, S4M2, S6M4 and six treatments of single maize (M) and soybean (S).The results showed that the growth period of soybean under the condition of strip planting was delayed, which was 23 days later than that of clear soybean. According to the principal component analysis, the factor score of ear traits of S2M2 type maize with the largest marginal effect advantage was 1.22, and the factor score of clearcut maize was only-2.27; The 100seed weight of soybean under the condition of strip compound planting was between 20.17 and 22.87 g, while the 100seed weight of clear soybean was only 19.94 g. The LER of the four belt types was greater than 1, and the maximum LER of the S4M2 belt type was 1.38. Compared with single corn, the 3net income of S4M4 belt increased by 246.95 yuan·ha-1, with an increase rate of 1.60%, and 11 822.07 yuan·ha-1,〗 with an increase rate of 101.90%.The overall economic benefit under the condition of belt compound planting was greater than that of seed clearing. Through the overall analysis of equivalence ratio, economic benefit and rotation in the next year, the S4M4 belt type is suitable for the northeast region with large planting area and high mechanization.
参考文献/References:
[1]张雅,文启宇.中美贸易摩擦下中国大豆产业发展现状与对策研究[J].农业经济,2022(11):128-130.[2]周艳丽.大豆玉米带状复合种植技术的应用研究[J].种子科技,2022,40(23):40-42.[3]中共中央国务院关于做好二〇二二年全面推进乡村振兴重点工作的意见[N].人民日报,2022-02-23(001).[4]DUJB,HANTF,GAIJY,etal.Maize-soybeanstripintercropping:achievedabalancebetweenhighproductivityandsustainability[J].JournalofIntegrativeAgriculture,2018,17(4):747-754.[5]杨文钰,杨峰.发展玉豆带状复合种植,保障国家粮食安全[J].中国农业科学,2019,52(21):3748-3750.[6]HUSSAINS,IQBALN,BRESTICM,etal.Changesinmorphology,chlorophyllfluorescenceperformanceandrubiscoactivityofsoybeaninresponsetofoliarapplicationofionictitaniumundernormallightandshadeenvironment[J].ScienceoftheTotalEnvironment,2019,658:626-637.[7]任永福,陈国鹏,蒲甜,等.玉米-大豆带状种植中套作高光效玉米窄行位叶光穂合特性对弱光胁迫的响应[J].作物学报,2019,45:728-739.[8]谭国波,边少锋,刘武仁,等.浅析玉米宽窄行耕作栽培技术[J].玉米科学,2002,10(2):80-83.[9]李猛,陈现平,张建,等.不同密度与行距配置对紧凑型玉米产量效应的研究[J].中国农学通报,2009,25(8):132-136.[10]肖特,崔阔澍,黄文娟,等.带状套作模式中土壤有机质和全氮的空间分布规律:以玉米大豆为例[J].西南农业学报,2022,35(8):1770-1775.[11]王贝贝,廖敦平,范元芳,等.玉米大豆套作窄行距对作物竞争效应及物质分配的影响[J].中国油料作物学报,2020,42(5):734-742.[12]刘姗姗,庞婷,袁晓婷,等.种间距对不同结瘤特性套作大豆根瘤生长及固氮潜力的影响[J].作物学报,2023,49(3):833-844.[13]刘鑫.玉豆带状间作系统光能分布、截获与利用研究[D].成都:四川农业大学,2016.[14]杨欢,周颖,陈平,等.玉米-豆科作物带状间套作对养分吸收利用及产量优势的影响[J].作物学报,2022,48(6):1476-1487.[15]杨峰,娄莹,廖敦平,等.玉米-大豆带状套作行距配置对作物生物量、根系形态及产量的影响[J].作物学报,2015,41(4):642-650.[16]雍太文,刘小明,宋春,等.种植方式对玉米-大豆套作体系中作物产量、养分吸收和种间竞争的影响[J].中国生态农业学报,2015,23(6):659-667.[17]李雪,张霞,陈国鹏,等.西南地区玉米-大豆带状套作成本及综合效益分析[J].中国油料作物学报,2023,45(2):427-436.[18]蔡承智,高军,陈阜.土地当量比(LER)的计算校正探讨[J].耕作与栽培,2003(5):18-20.[19]曹鹏鹏,田艺心,高凤菊,等.玉米-大豆间作不同带距和行距对两作物生长及产量的影响[J].山东农业科学,2018,50(7):78-81,87.[20]程彬,刘卫国,王莉,等.种植密度对玉米-大豆带状间作下大豆光合、产量及茎秆抗倒的影响[J].中国农业科学,2021,54(19):4084-4096.[21]邓榆川,刘卫国,袁小琴,等.套作大豆苗期茎秆纤维素合成代谢与抗倒性的关系[J].应用生态学报,2016,27(2):469-476.[22]邹俊林,刘卫国,袁晋,等.套作大豆苗期茎秆木质素合成与抗倒性的关系[J].作物学报,2015,41(7):1098-1104.[23]强森.玉米大豆间作条件下大豆冠层特性和养分积累规律研究[D].沈阳:沈阳农业大学,2018.[24]黄其椿,李初英,吴建明,等.不同遮光处理对菜用大豆产量的影响[J].大豆科学,2012,31(1):81-84,91.[25]蔡昆争,骆世明.不同生育期遮光对水稻生长发育和产量形成的影响[J].应用生态学报,1999(2):66-69.[26]刘贤赵,康绍忠.番茄不同生育阶段遮荫对光合作用与产量的影响[J].园艺学报,2002(5):427-432.[27]张晓娜,陈平,杜青,等.玉米/大豆、玉米/花生间作对作物氮素吸收及结瘤固氮的影响[J].中国生态农业学报,2019,27(8):1183-1194.[28]张晓娜.不同氮水平下玉米-大豆、玉米-花生带状复合种植茎叶器官对产量形成的响应机理研究[D].成都:四川农业大学,2019.[29]龚万灼,吴雨珊,雍太文,等.玉米-大豆带状套作中荫蔽及光照恢复对大豆生长特性与产量的影响[J].中国油料作物学报,2015,37(4):475-480.[30]曹曼君,王婧瑜,崔悦,等.不同玉米大豆间作行比对大豆光合特性及产量的影响[J].大豆科学,2023,42(1):48-54.[31]王小春,杨文钰.玉米-大豆带状间套作全程机械化迈上新台阶[J].大豆科技,2012(6):48-50.[32]阮维斌,王敬国,张福锁.连作障碍因素对大豆养分吸收和固氮作用的影响[J].生态学报,2003(1):22-29.[33]吴海燕,远方,陈立杰,等.大豆胞囊线虫病与大豆抗胞囊线虫机制的研究[J].大豆科学,2001,20(4):285-289.[34]靳学慧,辛惠普,郑雯,等.长期轮作和连作对土壤中大豆胞囊线虫数量的影响[J].中国油料作物学报,2006(2):189-193.[35]王光宇,胡永年,赵仁渠.4种多元多熟种植栽培技术的经济评价[J].安徽农业科学,2001,29(1):26-27.
相似文献/References:
[1]王静.西昌地区玉米自交系苗期耐低磷特性鉴定[J].黑龙江农业科学,2013,(02):5.
WANG Jing.Identification of Resistance to Low-phosphorus Characteristics of Maize Inbred Lines at Seedling Stage in Xichang Area[J].HEILONGJIANG AGRICULTURAL SCIENCES,2013,(11):5.
[2]石凤梅,马立功.黑龙江省玉米大斑病菌小种生理分化的研究[J].黑龙江农业科学,2013,(02):63.
SHI Feng-mei,MA Li-gong.Study on Physiological Race Differentiation of Exserohilum turcicum in Heilongjiang Province[J].HEILONGJIANG AGRICULTURAL SCIENCES,2013,(11):63.
[3]吕静,韩莉梅,张所有.超氧化物歧化酶模拟物(SODM)对大豆保护酶系统的影响[J].黑龙江农业科学,2013,(01):23.
LYUJing,HANLi-mei,ZHANGSuo-you.EffectsofSuperoxideDismutaseMimics(SODM)onSoybeanProtectiveEnzymeSystem[J].HEILONGJIANG AGRICULTURAL SCIENCES,2013,(11):23.
[4]孙广全,焦少杰,王黎明,等.乌克兰玉米自交系芽期耐旱性鉴定[J].黑龙江农业科学,2014,(11):4.
SUN Guang-quan,JIAO Shao-jie,WANG Li-ming,et al.Drought Tolerance Identification of Ukrainian Maize Inbred Lines at Bud Stage[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):4.
[5]马延华,孙德全,李绥艳,等.玉米自交系灌浆期抗倒性评价及抗倒性状的相关分析[J].黑龙江农业科学,2014,(07):5.
MA Yan-hua,SUN De-quan,LI Sui-yan,et al.Evaluation of Lodging Resistance and Correlation Analysis of Lodging Resistance Characters for Maizenbred Lines During Grain filling Period[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):5.
[6]吴俊彦,于晓光.黑河地区灾后补种大豆品种筛选试验[J].黑龙江农业科学,2014,(07):13.
WU Jun yan,YU Xiao guang.Soybean Varieties Screening Test for Reseeding in Heihe Region after Disaster[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):13.
[7]安咏梅,王家军,李进荣,等.大豆抗胞囊线虫的分子标记研究[J].黑龙江农业科学,2014,(07):15.
AN Yong mei,WANG Jia jun,LI Jin rong,et al.Molecular Marker Assisted Selection on Soybean Resistant to Soybean Cyst Nematode[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):15.
[8]杨耿斌,刘兴焱,王立春,等.黑龙江早熟地区深松对玉米产量及土壤状态的影响[J].黑龙江农业科学,2014,(07):23.
YANG Geng-bin,LIU Xing-yan,WANG Li-chun,et al.Effect of Subsoiling on Maize Yield and Soil Characteristics in Earlymaturing District of Heilongjiang Province[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):23.
[9]王宇先.寒地半干旱地区膜上精播技术对玉米生长发育的影响[J].黑龙江农业科学,2014,(07):29.
WANG Yu-xian.Effect of Planting in Mulching Film on the Growth and Development of Maize Plant in Cold and Semi Arid Area[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):29.
[10]刘志华,盖兆雪,李晓梅,等.秸秆还田对玉米产量形成及土壤肥力的影响[J].黑龙江农业科学,2014,(07):42.
LIU Zhi-hua,GAI Zhao-xue,LI Xiao-mei,et al.Effect of Straw Return on Maize Yield Components and Soil Fertility[J].HEILONGJIANG AGRICULTURAL SCIENCES,2014,(11):42.
[11]蒋 雨,张玉山,刘宜新,等.大豆和玉米应用中草药狼毒苦参碱拌种剂试验效果[J].黑龙江农业科学,2009,(06):74.[doi:10.11942/j.isn1002-2767.2009.06.0074]
JIANGYu,ZHANGYu-shan,LIU Yi-xin,et al.Effect of Seed Dressing Agent on Soybean and Maize Applying ChineseMedicine Euphorbia fisheriana Sophora flavescens Matrine[J].HEILONGJIANG AGRICULTURAL SCIENCES,2009,(11):74.[doi:10.11942/j.isn1002-2767.2009.06.0074]
[12]盖志佳,赵文军,刘婧琦,等.美国俄亥俄州保护性耕作体系情况与黑龙江省农业持续发展建议[J].黑龙江农业科学,2017,(08):125.[doi:10.11942/j.issn1002-2767.2017.08.0125]
GAI Zhi-jia,ZHAO Wen-jun,LIU Jing-qi,et al.Situation Analysis of Conservation Tillage System in Ohio,USA and Suggestion of Sustainable Agricultural Development of Heilongjiang Province[J].HEILONGJIANG AGRICULTURAL SCIENCES,2017,(11):125.[doi:10.11942/j.issn1002-2767.2017.08.0125]
[13]张树权,柴永山,龚士琛,等.南北美地区农业发展和科技进步对黑龙江省农业科研与生产的启示[J].黑龙江农业科学,2019,(04):125.[doi:10.11942/j.issn10022767.2019.04.0125]
[J].HEILONGJIANG AGRICULTURAL SCIENCES,2019,(11):125.[doi:10.11942/j.issn10022767.2019.04.0125]
[14]周航.新沂市大豆玉米带状复合种植效益与技术推广[J].黑龙江农业科学,2023,(02):125.[doi:10.11942/j.issn1002-2767.2023.02.0125]
ZHOU Hang.Technology Promotion and Benefit of Zonal Compound Planting Pattern of Soybean and Maize in Xinyi City[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(11):125.[doi:10.11942/j.issn1002-2767.2023.02.0125]
[15]王自杰,杨晓贺,邱磊,等.刈号微量元素水溶肥对大豆和玉米农艺性状及产量的影响[J].黑龙江农业科学,2023,(07):30.[doi:10.11942/j.issn1002-2767.2023.07.0030]
WANG Zijie,YANG Xiaohe,QIU Lei,et al.Effects of Yihao Trace Element Water-Soluble Fertilizer on Agronomic Characters and Yield of Soybean and Maize[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(11):30.[doi:10.11942/j.issn1002-2767.2023.07.0030]
[16]万丽.山西省大豆玉米带状复合种植技术实践及改进措施[J].黑龙江农业科学,2023,(08):130.[doi:10.11942/j.issn1002-2767.2023.08.0130]
WAN Li.Practice and Improvement Measures of the Belt Compound Planting Technology of Soybean and Maize in Shanxi Province[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(11):130.[doi:10.11942/j.issn1002-2767.2023.08.0130]
备注/Memo
收稿日期:2023-02-27