Growth of Continuous Cropping Soybean on Sandy Loam and Control Measure(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:

2011年05期

Page:

883-885

Research Field:

Publishing date:

Info

Title:

Growth of Continuous Cropping Soybean on Sandy Loam and Control Measure

Author(s):

GUO Rui¹; CHEN Long¹; 2; LI Jian-dong¹; ZHANG Mei-ling³; WANG Guo-jiao¹; SUN Bei¹; HU Ji-ning⁴; ZHANG Jun⁵

1.Agricultural College of Shenyang Agricultural University，Shenyang 110161，Liaoning;?

2.Panjin Meteorological Bureau，Panjin 124011，Liaoning；?

3.Dawa Meteorological Bureau，Dawa 124200，Liaoning;

4.The Milu Deer Center of Ecological Test in Beijing，Beijing;?

5.The Spread Center of Haicheng Agricultural Technology，Haicheng 114200，Liaoning,China

Keywords:

Continuous cropping soybean; Sandy loam; Growth; Regulate and control

PACS:

S565.1

DOI:

10.11861/j.issn.1000-9841.2011.05.0883

Abstract:

The growth of continuous cropping soybean and control measurements in sandy loam were studied in this experiment.Compared with normal planting，the plant height，plant dry weight and yield of continuous cropping soybean reduced 1.86%，56.54% and 20.99%，respectively.Both microelement fertilizer treatment(MFT)and using superior mutant soybean(USMS)could alleviate continuous cropping barriers.The plant dry weight and yield of MFT increased by 108.96% and 114.76%;the plant height，plant dry weight and yield of USMS increased by 7.80%，47.67% and 67.53%，respectively，compared with common continuous cropping soybean.

References:

[1]汪立刚，沈阿林，孙克刚，等.大豆连作障碍及调控技术研究进展[J].土壤肥料,2001(5):3-6.(Wang L G，Shen A L，Sun K G，et al.Proopess on soybean continuous cropping barrier and regulation technology[J].Soil Fertilizer,2001(5):3-6.)

[2]刘忠堂，何志鸿，祖伟，等.重迎茬对大豆产量影响及机理的研究[J].大豆科学，2001，20(2):157.(Liu Z T，He Z H，Zu W，et al.Effect and mechanism of continuous and alternate cropping on soybean yield[J].Soybean Science，2001，20(2):157.)

[3]李国桢，杨兆英，王守义，等.抗大豆孢囊线虫病育种的进展[J].大豆通报，1993(2):29-31.(Li G Z，Yang Z Y，Wang S Y，et al.Advance on soybean breeding for resistance to soybean cyst nematode[J].Soybean Bulletin，1993(2):29-31.)

[4]刘佩印.黑龙江省大豆重迎茬问题的研究概况[J].黑龙江农业科学，2001(3):31-34.(Liu P Y.A survey of continuous and alternate cropping soybean in Heilongjiang province[J].Heilongjiang Agricultural Sciences，2001(3):31-34.)

[5]许艳丽.耕作措施对重迎茬大豆产量的影响[J].大豆通报，1999(2):14-15.(Xu Y L.Effect of tillage measures on yield of continuous and alternate cropping soybean[J].Soybean Bulletin，1999(2):14-15.)

[6]韩晓增，许艳丽.大豆重迎茬减产控制与主要病虫害防治技术[M].北京:科学技术出版社,1999:17-34.(Han X Z，Xu Y L.Techniques on controlling yield reduction，pest and diseases management of continuous and alternate cropping soybean[M].Beijing:Science and Technique Press，1999:17-34.)

[7]李才.缓解大豆重迎茬危害综合应用技术[J].大豆通报，1999(3):18-20.(Li C.Comprehensive techniques to alleviate the damages caused by continuous and alternate cropping soybean[J].Soybean Bulletin，1999(3):18-20.)

[8]何志鸿，刘忠堂，胡立成，等.大豆重迎茬减产的主要原因及农艺对策[J].大豆通报，1998(3):4-5.(He Z H，Liu Z T，Hu L C，et al.Main yield reduction reasons of continuous and alternate cropping soybean and agronomic countermeasures[J].Soybean Bulletin，1998(3):4-5.)

[9]李春杰，许艳丽，王喜斌，等.追肥方式对连作大豆生长发育和产量的影响[J].大豆科学，2008，27(6):106-109.(Li C J，Xu Y L，Wang X B，et al.Effect of top dressing fertilizer patterns on growth and yield of continuous cropping soybean[J].Soybean Science，2008，27(6):106-109.)

Memo

Memo:

-

Common functions