Weed dynamics and system productivity under rice-based cropping system

Adikant Pradhan; A. Thakur; S.C. Mukherjee

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Weed dynamics and system productivity under rice-based cropping system

机译：稻作制度下杂草的动态变化与系统生产力

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An experiment was carried out during 2008-09 and 2009-10 at Jagdalpur, Chhattisgarh to determine the influence of rice-based cropping system on the weed dynamics. The rice-fallow system had the higher density (1364 and 1435/m2) of Echinochloa colona,which was gradually reduced with increasing cropping intensity and the lowest density was under rice-garden pea system (20.0 - 20.9/m2). Increasing irrigation frequency increased the density of E. colona. In Rabi season, rice-wheat and rice-garden pea cropping systems were found highly infested with weeds as compared to rice-fallow, rice-chickpea and rice-summer maize systems. The highest rice equivalent yield was recorded under rice-chickpea (7.20-7.76 t/ha) cropping system.

机译：2008-09年和2009-10年在恰蒂斯加尔邦Jagdalpur进行了一项试验，以确定稻作系统对杂草动态的影响。稻-小食系统中E草的密度较高（1364和1435 / m2），随种植强度的增加而逐渐降低，而稻-豌豆-豌豆系统中密度最低（20.0-20.9 / m2）。增加灌溉频率增加了大肠杆菌的密度。在拉比季节，与稻米，稻鹰嘴豆和稻夏玉米系统相比，发现稻麦，水稻和豌豆豌豆种植系统受到杂草的严重侵害。稻鹰嘴豆（7.20-7.76 t / ha）种植系统下的最高水稻当量单产。

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《Indian Journal of Weed Science》 |2014年第3期|共5页
作者
Adikant Pradhan; A. Thakur; S.C. Mukherjee;
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正文语种 eng
中图分类植物保护;
关键词
Cropping system; System productivity; Weed density; Weed dynamics;

机译：种植系统;系统生产力;杂草密度;杂草动力学;

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1. CROP PRODUCTIVITY, WEED DYNAMICS AND ECONOMICS OF VARIOUS RICE-BASED CROPPING SYSTEMS IN MADHYA PRADESH [J] . Rajiv Dubey, R. S. Sharma, D. P. Dubey, International Journal of Agricultural and Statistical Sciences . 2011,第2期

机译：玛迪雅草原基于水稻的各种作物制种的作物生产力，杂草动力学和经济学
2. Weed dynamics and productivity of wheat in conventional and conservation rice-based cropping systems [J] . Farooq Muhammad, Nawaz Ahmad Soil & Tillage Research . 2014,第Null期

机译：常规和保护性水稻种植系统中小麦的杂草动态和生产力
3. Viable weed seed density and diversity in soil and crop productivity under conservation agriculture practices in rice-based cropping systems [J] . Nandan Rajiv, Singh Vikram, Kumar Virender, Crop Protection . 2020,第1期

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4. Integrated Nutrient Management for Sustaining Productivity and Fertility Dynamics under Rice-Based Cropping Systems [C] . Second International Conference on Sustainable Agriculture for Food, Energy and Industry Vol.2 Sep 8-13, 2002 Beijing, China . 2002

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5. Weed population dynamics in potato cropping systems as affected by rotation crop, cultivation, and primary tillage [D] . Ullrich, Silke Dorothee 2000

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6. Soil bacterial communities in three rice-based cropping systems differing in productivity [O] . Min Huang, Alin Tian, Jiana Chen, -1

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7. Soil bacterial communities in three rice-based cropping systems differing in productivity [O] . Min Huang, Alin Tian, Jiana Chen, 2020

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Weed dynamics and system productivity under rice-based cropping system

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