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Weed control in non-glyphosate resistant cotton with glyphosate using a hooded band sprayer

By: Ahmet Tansel Serim, Ünal Asav, Süleyman Gürdal Türkseven, Bariş Özgür Koçtürk, Mehmet Demirci

Key Words: Clethodim, cotton, hooded field sprayer, glyphosate, tepraloxydim, weed.

Int. J. Biosci. 17(1), 106-118, July 2020.

DOI: http://dx.doi.org/10.12692/ijb/17.1.106-118

Certification: ijb 2020 0008 [Generate Certificate]

Abstract

Conventional crop production systems are employed in cotton fields in Turkey, and weeds have a significant importance in this system because they cause severe yield and quality losses. Because there is no new wide spectrum herbicide in cotton, the researcher has been compelled to find new application techniques to use available herbicides. Glyphosate is one of the most effective herbicides available due to its broad spectrum, ability to reduce the demand for soil herbicides, and potency in the production of genetically modified crops. The use of glyphosate to control broadleaf and grass weeds in non-genetically modified crops is only possible with a hooded field sprayer. This study was conducted across two sites in Aydın and İzmir, Turkey, in 2015 and 2016 to determine the efficacy and safety of the combined hooded field sprayer (CHFS) designed to simultaneously apply selective and total herbicides to different areas of cotton. Glyphosate was applied with clethodim at 1.44 + 0.145 and 1.44 + 0.116 kg ai ha−1, respectively, or with tepraloxydim at 1.44 + 0.05 and 1.44 + 0.04 kg ai ha−1, respectively, over between-row areas + intra row areas simultaneously using the CHFS. Clethodim at 0.145 kg ai ha−1 and tepraloxydim at 0.05 kg ai ha−1 were also applied using the third boom of the CHFS, conventional system. All the weeds in the experimental fields were perfectly controlled by CHFS, except purple nutsedge, which was controlled with glyphosate (62.5% to 88.75%), but not with clethodim or tepraloxydim (≤35%). Shikimate levels in the cotton leaves showed that the seedlings were exposed to the glyphosate at various rates, but these exposures did not cause any significant injury in cotton.

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Weed control in non-glyphosate resistant cotton with glyphosate using a hooded band sprayer

Anonymous. 2019. Standard herbicide test methods for weeds.  [Accessed December 14, 2019].

https://www.tarimorman.gov.tr/TAGEM/Belgeler/yayin/Yabanc%C4%B1%20Ot%20Standart%20%C4%B0la%C3%A7%20Deneme%20Metotlar%C4%B1.pdf.

Bariuan JV, Reddy KN, Wills GD. 1999. Glyphosate injury, rainfastness, absorption, and translocation in purple nutsedge (Cyperus rotundus). Weed Technology 13, 112-119.

https://doi:10.1017/S0890037X00045000

Benbrook CM. 2016. Trends in glyphosate herbicide use in the United States and globally. Environmental Sciences Europe 28, 3.

https://doi:10.1186/s12302-016-0070-0

Bridges DC, Chandler JM. 1987. Influence of johnsongrass (Sorghum halepense) density and period of competition on cotton yield. Weed Science 35, 63-67.

https://doi:10.1017/S0043174500026795

Buchanan GA, Burns ER. 1970. Influence of weed competition on cotton. Weed Science 18, 149-154.

Carballido J, Rodríguez-Lizana A, Agüera J, Pérez-Ruiz M. 2013. Field sprayer for inter- and intra-row weed control: Performance and labor savings. Spanish Journal of Agricultural Research 11, 642-651.

https://doi:10.5424/sjar/2013113-3812

Dill GM, Cajacob CA, Padgette SR. 2008.  Glyphosate-resistant crops: adoption, use and future considerations. Pest Management and Science 64, 326–331.

Doğan MN, Boz Ö. 2004. The concept of reduced herbicide rates for the control of johnsongrass (Sorghum halepense (L.) Pers.) in cotton during the critical period for weed control. Journal of Plant Diseases and Protection 112, 71-79.

Doğan MN, Boz OO, Unay A. 2008. The effect of glyphosate on weeds in cotton – Importance of glyphosate resistance under field conditions in Turkey. Journal of Plant Diseases and Protection 21, 45-50.

Ellis J, Griffin J. 2002. Soybean (Glycine max) and cotton (Gossypium hirsutum) response to simulated drift of glyphosate and glufosinate. Weed Technology 16, 580-586.

https://doi:10.1614/0890-037X(2002)016[0580:SGMACG]2.0.CO;2

Etheredge LMJr, Griffin JL, Boudreaux JM. 2010. Nutsedge (Cyperus spp.) control programs in sugarcane. Journal of the American Society of Sugarcane Technology 30, 67-80.

Fennimore SA, Umeda K. 2003. Weed control in glyphosate-tolerant lettuce (Lactuca sativa). Weed Technology 17, 738-746.

https://doi:10.1614/wt02-141

Foster HC, Sperry BP, Reynolds DB, Kruger GR, Claussen S. 2018. Reducing herbicide particle drift: Effect of hooded sprayer and spray quality. Weed Technology 32, 1-8.

https://doi:10.1017/wet.2018.84

Griffin JL, Clay PA, Miller DK, Grymes CF, Hanks JE. 2012. Bermudagrass control in sugarcane with glyphosate and a hooded sprayer. Journal American Society of Sugar Cane Technologists 32, 38-50.

Hanks J, Beck J. 1998. Sensor-controlled hooded sprayer for row crops. Weed Technology 12, 308-314.

https://doi:10.1017/S0890037X00043864

Henry WB, Shaner DL, West MS. 2007. Shikimate accumulation in sunflower, wheat, and proso millet after glyphosate application. Weed Science 55, 1-5.

https://doi:10.1614/WS-06-065.1

Hoss N, Al-Khatib K, Peterson D, Loughin T. 2003. Efficacy of glyphosate, glufosinate, and imazethapyr on selected weed species. Weed Science 51, 110-117.

https://doi:10.1614/0043-1745(2003)051[0110:EOGGAI]2.0.CO;2

Ivany JA. 2002. Banded herbicides and cultivation for weed control in potatoes (Solanum tuberosum L.). Canadian Journal of Plant Science 82, 617-620.

Johnson DB, Norsworthy JK. 2014. Johnsongrass (Sorghum halepense) management as influenced by herbicide selection and application timing. Weed Technology 28, 142-150.

https://doi:10.1614/WT-D-13-00100.1

Keeling JW, Verett KS, Ree JD, Dotray PA. 2011. Cotton (Gossypium hirsutum) tolerance to propazine applied pre and post emergence. Weed Technology 25, 178-182.

https://doi:10.1614/WT-D-10-00110.1

Koger CH, Price AJ, Reddy KN. 2005. Weed control and cotton response to combinations of glyphosate and trifloxysulfuron.  Weed Technology 19, 113-121.

https://doi:10.1614/WT-03-273R

Krausz RF, Kapusta G, Matthews JI. 1996. Control of annual weeds with glyphosate. Weed Technology 10, 957-962.

Ma X, Wu H, Jiang W, Ma Y, Ma Y. 2015. Interference between redroot pigweed (Amaranthus retroflexus L.) and cotton (Gossypium hirsutum L.): Growth analysis. PloS One 10, e0130475.

https://doi:10.1371/journal.pone.0130475

Main DC, Sanderson KR, Fillmore SAE, Ivany JA. 2013. Comparison of synthetic and organic herbicides applied banded for weed control in carrots (Daucus carota L.). Canadian Journal of Plant Science 93, 857-861.

https://doi.org/10.4141/cjps2013-052

Miller DK, Downer RG, Leonard BR, Holman EM, Kelly ST. 2009. Response of nonglyphosate-resistant cotton to reduced rates of glyphosate. Weed Science 52, 178-182.

https://doi:10.1614/P2002-089

Nordby A, Skuterud R. 1975. The effects of boom height, working pressure and wind speed on spray drift. Weed Research 14, 385-395.

https://doi:10.1111/j.1365-3180.1974.tb01080.x

Oliver DP, Anderson JS, Davis A, Lewis S, Brodie J, Kookana R. 2014. Banded applications are highly effective in minimising herbicide migration from furrow-irrigated sugar cane. Science of the Total Environment 466-467, 841-848.

https://doi.org/10.1016/j.scitotenv.2013.07.117

Osuch A, Przygodziński P, Rybacki P, Osuch E, Kowalik I, Piechnik L, Przygodziński A, Herkowiak M. 2020. Analysis of the effectiveness of shielded band spraying in weed control in field crops. Agronomy Journal 10, 475.

https://doi.org/10.3390/agronomy10040475

Pala F, Mennan H. 2018. Current state of weed management and problematic weeds in cotton fields of Diyarbakir. Ege Üniversitesi Ziraat Fakültesi Dergisi 55, 111-117 (in Turkish with an abstract in English).

https://doi: 10.20289/zfdergi.330081

Peterson DA. 2003. Evaluation of weed control and economic benefit of a light-activated sprayer in cotton. PhD thesis, Texas Tech University, USA, p. 21-54.

PPPT. 2019. Plant Protection Products in Turkey. [Accessed December 14, 2019].

https://bku.tarim.gov.tr/

Rosales-Robles E, Chandler JM, Senseman SA, Prostko EP. 1999. Integrated johnsongrass management in cotton with reduced rates of clethodim and cultivation. The Journal of Cotton Science 3, 27-34.

Schuster CL, Shoup DE, Al-Khatib K. 2007. Response of common lambsquarters (Chenopodium album) to glyphosate as affected by growth stage. Weed Science 55, 147-151.

https://doi:10.1614/WS-06-130.1

Serim AT, Dursun E, Kocturk BO, Asav U. 2016. Weed control in maize fields using banded herbicide application. VII International Scientific Agriculture Symposium. Book of Abstracts p 690.

Serim AT, Asav Ü, Türkseven SG, Dursun E. 2018. Banded herbicide application in a conventional sunflower production system. Turkish Journal of Agriculture and Forestry 42, 354-363.

https://doi:10.3906/tar-1712-95

Sikkema PH, Shropshire C, Hamill AS, Weaver SE, Cavers PB. 2004. Response of common lambsquarters (Chenopodium album) to glyphosate application timing and rate in glyphosate-resistant corn. Weed Technology 18, 908-916.

https://doi:10.1614/WT-03-061R1

SPSS. 2004. SPSS for Windows. SPSS Inc., Chicago, Illinois, USA.

Statista. 2019. Cotton production by country worldwide. [Accessed December 14, 2019].

https://www.statista.com/statistics/2630.55/cotton-production-worldwide-by-top-countries/

Thomas W, Burke I, Robinson B, Pline-Srnić W, Edmisten KL, Wells R, Wilcut JW. 2005. Yield and physiological response of nontransgenic cotton to simulated glyphosate drift. Weed Technology 19, 35-42.

https://doi:10.1614/WT-03-194R

Umeda K, Hicks TV. 2001. Timing of glyphosate application for weed control in glyphosate tolerant lettuce. Vegetable Report. [Accessed December 14, 2019].

https://repository.arizona.edu/bitstream/handle/10150/214925/az1252-5h2001.pdf?sequence=1&isAllowed=y.

USDA. 2019. Cotton: World Markets and Trade. [Accessed December 14, 2019]

https://apps.fas.usda.gov/psdonline/circulars/cotton.pdf.

Vasilakoglou I, Dhima K, Eleftherohorinos I. 2005. Allelopathic potential of bermudagrass and johnsongrass and their interference with cotton and corn. Agronomy Journal 97, 303-313.

https://doi:10.2134/agronj2005.0303

Wilcut JW, York AC, Jordan DL. 1995. Weed management systems for oil seed crops. Cap. 10. In: Handbook of Weed Management Systems. ISBN: 0-8247-9547-4. Marcel Dekker, Inc. New York, USA.

Ahmet Tansel Serim, Ünal Asav, Süleyman Gürdal Türkseven, Bariş Özgür Koçtürk, Mehmet Demirci.
Weed control in non-glyphosate resistant cotton with glyphosate using a hooded band sprayer.
Int. J. Biosci. 17(1), 106-118, July 2020.
https://innspub.net/ijb/weed-control-non-glyphosate-resistant-cotton-glyphosate-using-hooded-band-sprayer/
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