Field Dissipation of Metamitron in Soil and Sugar Beet Crop

被引:0
作者
P. Janaki
S. Rathika
C. Chinnusamy
N. K. Prabhakaran
机构
[1] Tamil Nadu Agricultural University,Department of Agronomy
来源
Bulletin of Environmental Contamination and Toxicology | 2013年 / 90卷
关键词
Metamitron; Persistence; Sugar beet; HPLC analysis;
D O I
暂无
中图分类号
学科分类号
摘要
Bioaccumulation of herbicides in plant produce may cause ailing effect on animals and human beings through food chain contamination. Thus oblige the investigation of newer herbicide metamitron for its persistence and degradation in sugar beet crop and soil. Metamitron persist in plant up to 15 days while up to 30 days in soil. Its dissipation followed first order reaction kinetics. On day 90, metamitron was detected in the soil at 7.0 kg a.i. ha−1 treated plot only. It would be concluded that metamitron at 3.5 kg a.i. ha−1 can be safely applied to the sugar beet crop for weed control.
引用
收藏
页码:116 / 119
页数:3
相关论文
共 50 条
[31]   Annual broad leaved weed control in the British sugar beet crop [J].
Chambers, Pamela A. .
INTERNATIONAL SUGAR JOURNAL, 2022, 124 (1482) :388-392
[32]   YIELD AND SUGAR CONTENT OF SUGAR BEET DEPENDING ON DIFFERENT SOIL TILLAGE TECHNOLOGIES [J].
Ernst, David ;
Cerny, Ivan ;
Pacuta, Vladimir ;
Skopal, Jan ;
Vician, Tomas ;
Zapletalova, Alexandra ;
Rasovsky, Marek ;
Gazo, Jan ;
Sulik, Richard .
LISTY CUKROVARNICKE A REPARSKE, 2021, 137 (9-10) :319-324
[33]   Effects of interposing sugar beet on the nitrogen response of the following wheat crop [J].
SylvesterBradley, R ;
Shepherd, MA .
JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, 1997, 74 (03) :323-330
[34]   Researches regarding the crop technology at sugar beet growing in irrigation systems [J].
Ancuta, Puscas ;
Luca, E. ;
Hoban, Adriana ;
Suciu, Sanda .
BULLETIN OF THE UNIVERSITY OF AGRICULTURAL SCIENCES AND VETERINARY MEDICINE, VOL 63, 2006: HORTICULTURE, 2006, 63 :462-462
[35]   Crop protection in sugar beet cultivation in Germany - situation analysis 2018 [J].
Ladewig, Erwin ;
Buhre, Cord ;
Kenter, Christine ;
Stockfisch, Nicol ;
Varrelmann, Mark ;
Mahlein, Anne-Katrin .
SUGAR INDUSTRY-ZUCKERINDUSTRIE, 2018, 143 (12) :708-722
[36]   Sugar beet, a sustainability factor of arable crop stems in northern France [J].
Boizard, H. ;
Duval, R. ;
Lemaitre, T. ;
Machet, J. M. ;
Mary, B. ;
Beaudoin, N. ;
Cariolle, M. ;
Escriou, H. ;
Gosse, G. ;
Richard-Molard, M. ;
Boiffin, J. .
INTERNATIONAL SUGAR JOURNAL, 2012, 114 (1366) :711-714
[37]   Geometric and spectral recording of crop characteristics for phenotyping of sugar beet and wheat [J].
Bohnenkamp, David ;
Paulus, Stefan ;
Mahlein, Anne-Katrin .
SUGAR INDUSTRY-ZUCKERINDUSTRIE, 2020, 145 (01) :53-58
[38]   Cross-resistance profile of metamitron-resistant Chenopodium album L. biotypes from sugar beet [J].
Mechant, E. ;
Bulcke, R. .
JOURNAL OF PLANT DISEASES AND PROTECTION, 2006, :147-153
[39]   EFFECT OF SOIL LOOSENING DURING VEGETATION ON SOIL EROSION AND SUGAR BEET PRODUCTION [J].
Pulkrabek, Josef ;
Urban, Jaroslav ;
Dvorak, Petr ;
Beckova, Lucie .
LISTY CUKROVARNICKE A REPARSKE, 2019, 135 (5-6) :188-195
[40]   INFLUENCE OF SUGAR BEET AS PRE-CROP, CROP ROTATION AND WEATHER ON YIELD AND QUALITY OF SPRING BARLEY [J].
Vanova, Marie ;
Jirsa, Ondrej ;
Hledik, Pavel .
LISTY CUKROVARNICKE A REPARSKE, 2019, 135 (11) :353-357
12345