Resistance status and physiological activity test of Spenochlea zeylanica and Ludwigia octovalvis in paddy field to 2,4-D and metsulfuron-methyl herbicides
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Abstract. Rahmadi R, Sriyani N, Yusnita, Pujisiswanto H, Hapsoro D. 2021. Resistance status and physiological activity test of Spenochlea zeylanica and Ludwigia octovalvis in paddy field to 2,4-D and metsulfuron-methyl herbicides. Biodiversitas 22: 2829-2838. Spenochlea zeylanica and Ludwigia octovalvis are dominant in Trimurjo paddy fields in Central Lampung Regency, Lampung, Indonesia and difficult to control with 2,4-Dichlorophenoxyacetic acid (2,4-D) and metsulfuron-methyl herbicides that had been used for more than 12 years. This study aims to determine the resistance status of S. zeylanica and L. octovalvis and physiological activity in resistance and susceptible of both weeds species exposed to 2,4-D and metsulfuron-methyl herbicides. The study was conducted from August to December 2019 in the Greenhouse Botanical Garden of Sumatra Institute of Technology. The study used a split-plot design, the origin of weed species as the main plot and herbicide dose as the subplot. S. zeylanica exposed has low-level resistance to 2,4-D and metsulfuron-methyl herbicides with resistance Index (RI) of 2.19 and 2.87, respectively. L. octovalvis exposed was still classified as susceptible to 2,4-D and metsulfuron-methyl herbicides with RI of 1.00 and 1.59, respectively. The physiological activities (carbon assimilation, stomatal conductance, and transpiration rate) of S. zeylanica resistant to 2,4-D and metsulfuron-methyl herbicides is higher than S. zeylanica susceptible 2,4-D and metsulfuron-methyl herbicides
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References
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Silva DRO, Vargas L, Agostinetto D, Santos FM. 2017. Photosynthetic performance of glyphosate resistant and glyphosate susceptible hairy fleanvane under light intensity. Planta Daninha 35 : 3–8. DOI: 10.1590/s0100-83582017350100087.
Xu Z, Zhang C, Zhang X, Liu C, Wu Z, Yang Z, Zhou K, Yang X, Li F. 2013. Transcriptome profiling reveals auxin and cytokinin regulating somatic embryogenesis in different sister lines of cotton cultivar CCRI24. Journal of Integrative Plant Biology 55: 631-642. DOI: 10.1111/jipb.12073.
Yuan X, Guo P, Qi X, Ning N, Wang H, Wang H, Wang X, Yang Y. 2013. Safety of herbicide Sigma Broad on Radix Isatidis (Isatis indigotica Fort.) seedlings and their photosynthetic physiological responses. Pesticide Biochemistry and Physiology 106 : 45-50. DOI: 10.1016/j.pestbp.2013.04.002.
Zhou QY, Liu WP, Zhang YS, Liu KK. 2007. Action mechanisms of acetolactate synthase-inhibiting herbicides. Pesticide Biochemistry and Physiology 89 : 89–96. DOI: 10.1016/j.pestbp.2007.04.004.
Aviles-Arnaut H, Delano-Frier JP. 2012. Characterization of the tomato prosystemin promoter: organ-specific expression, hormone specificity and methyl jasmonate responsiveness by deletion analysis in transgenic tobacco plants. Journal of Integrative Plant Biology 54 : 15-32. DOI: 10.1111/j.1744-7909.2011.01084.x.
Banga RS, Yadav A. 2004. Effect of fenoxaprop and sulfosulfuron alone and as tank mixture against complex flora of weeds in wheat. Indian Journal of Weed Science 36 : 163-65.
Bernards ML, Crespo RJ, Kruger GR, Gaussoin R, Tranel PJ. 2012. A waterhemp (Amaranthus tuberculatus) population resistant to 2,4-D. Weed Science 60 : 379-384. DOI: 10.2307/23264203.
Caballero JR, Menendez J, Bordonaba JG, Salas M, Alcantara R, Torra J. 2016. Unravelling the resistance mechanisms to 2,4-D (2,4-dichlorophenoxyacetic acid) in corn poppy (Papaver rhoeas). Pesticide Biochemistry and Physiology 133 : 67-72. DOI: 10.1016/j.pestbp.2016.03.002.
Chinalia FA, Regali-Seleghin MH, Correa EM. 2007. 2,4-D toxicity: cause, effect and control. Terrestrial and Aquatic Environmental Toxicology 1(2) : 24-33.
Christoffoleti PJ, Figueiredo MRAD, Peres LEP, Nissen S, Gaines T. 2015. Auxinic herbicides, mechanisms of action, and weed resistance: A look into recent plant science advances. Scientia Agricola 72(4) – 356-362. DOI: 10.1590/0103-9016-2014-0360.
Costa LOD, Rizzardi MA. 2014. Resistance of Raphanus raphanistrum to the herbicide metsulfuron-methyl. Planta Daninha 3(2) : 181-187. DOI: 10.1590/S0100-83582014000100020.
Crespo RJ, Wingeyer AB, Kruger GR, Riggins CW, Tranel PJ, Bernards ML. 2017. Multiple-herbicide resistance in a 2,4-D-resistant waterhemp (Amaranthus tuberculatus) population from Nebraska. Weed Science 65 : 743-754. DOI: 10.1017/wsc.2017.39.
Dusenge ME, Duarte AG, Way DA. 2019. Plant carbon metabolism and climate change: elevated CO2 and temperature impacts on photosynthesis, photorespiration and respiration. New Phytologist 221 : 32?49. DOI: 10.1111/nph.15283.
Figueiredo MR, Leibhart LJ, Reicher ZJ, Tranel PJ, Nissen SJ, Westra P, Jugalam M. 2018. Metabolism of 2,4-dichlorophenoxyacetic acid contributes to resistance in a common waterhemp (Amaranthus tuberculatus) Population. Pest Management Science 74(10) : 2356?2362. DOI: 10.1002/ps.4811.
Ginting KA, Purba E, Ginting J. 2015. Identification of paraquat herbicide resistance in maize fields in the tigabinanga sub-district, karo district. Jurnal Agroteknologi 3(2) : 679-686. [Indonesian]
Guntoro D, Fitri TY. 2013. The herbicide activity of a mixture of cyhalofop - butyl and penoxulam active ingredients against several types of lowland rice weeds. Buletin Agrohorti 1(1) : 140–148. [Indonesian]
Hall L, Beckie H, Wolf TM. 2014. How Herbicide Work : Biology to Application. Alberta Agriculture and Rular Development, Canada.
Heap I. 2020. The International Survey of Herbicide Resistant Weeds. http://www.weedscience.com.
Indonesian Directorate of Fertilizers and Pesticides. 2016. Agricultural and Forestry Pesticides. Directorate of Agricultural Facilities and Infrastructure. Indonesia. [Indonesian]
Kurniati H. 2018. The efficacy of sodium bispiribak on the growth of weeds, crops and lowland rice yields (Oryza sativa L.). [Undergraduate Thesis]. University of Lampung, Bandar Lampung. [Indonesian]
Lu H, Yu Q, Han H, Owen MJ, Powles SB. 2019. Metribuzin resistance in a wild radish (Raphanus aphanistrum) population via both psbA gene mutation and enhanced metabolism. Journal of Agricultural Food Chemistry 67(5) : 1353–1359. DOI: 10.1021/acs.jafc.8b05974.
McCullough PE, McElroy JS, Yu J, Zhang H, Miller TB, Chen S, Johnston CR, Czarnota MA. 2016. ALS-Resistant Spotted Spurge (Chamaesyce maculata) Confirmed in Georgia. Weed Science 64(2) : 216-222. DOI: 10.1614/WS-D-15-00142.1.
Messinger SM, Buckley TN, Mott KA. 2006. Evidence for involvement of photosynthetic processes in the stomatal response to CO2. Plant Physiology 140 : 771?778. DOI: 10.1104/pp.105.073676.
Nascentes RF, Carbonari CA, Simões PS, Brunelli MC, Velini ED, Duke SO. 2017. Low doses of glyphosate enhance growth, CO2 assimilation, stomatal conductance and transpiration in sugarcane and eucalyptus. Pest Management Science 74(5) : 1197–1205. DOI: 10.1002/ps.4606.
Prakoso GE. 2018. The study of resistance of several types of rice field weeds to metsulfuron- methyl and 2,4-d herbicides. [Thesis]. University of Lampung, Bandar Lampung. [Indonesian]
Rodrigues OL, Galvão JCC, Ferreira EA, Silva DV, Santos MV, Ferreira LR, Pereira RC, Felipe RS. 2014. Physiologic characteristics of corn and Urochloa brizantha (Hochst. ex A. Rich.) R.D. Webster in intercropping cultivation. Chilean Journal of Agricultural Research 74(3) : 257-262. DOI: 10.4067/S0718-58392014000300002.
Singh G, Singh VP. 2005. Compatibility of clodinafop-propargyl and fenoxaprop-p-ethyl against with carfentrazone-ethyl and metsulfuronmethyl and 2,4-D. Indian Journal of Weed Science 37 : 1-5.
Singh RK, Verma SK, Prasad SK, Singh SB. 2015. Effect of metsulfuron-methyl against broad leaf weeds in wheat (Triticum aestivum L. emend. Fiori and Paol.). Journal Crop and Weed 11 : 161-166.
Song Y. 2014. Insight into the mode of action of 2,4-dichlorophenoxyacetic acid (2,4-D) as an herbicide. Journal of Integrative Plant Biology 56(2) : 106–113. DOI: 10.1111/jipb.12131.
Sureshkumar R., Reddy YA, Ravichandran S. 2016. Effect of weeds and their management in transplanted rice – a review. Impact Journal 4(11) : 165-180.
Tcherkez G, Limami AM. 2019. Net photosynthetic CO2 assimilation: more than just CO2 and O2 reduction cycles. New Phytologist 2 : 520-529. DOI: 10.1111/nph.15828.
Tomlin CDS. 2010. A World Compendium The e-Pesticide Manual. British Crop Protection Council (BCPC), England.
Usui Y, Kasubuchi T. 2011. Effects of herbicide application on carbon dioxide, dissolved oxygen, pH, and RpH in paddy-field ponded water. Soil Science and Plant Nutrition 57 : 1–6. DOI: 10.1080/00380768.2010.541868.
Silva DRO, Vargas L, Agostinetto D, Santos FM. 2017. Photosynthetic performance of glyphosate resistant and glyphosate susceptible hairy fleanvane under light intensity. Planta Daninha 35 : 3–8. DOI: 10.1590/s0100-83582017350100087.
Xu Z, Zhang C, Zhang X, Liu C, Wu Z, Yang Z, Zhou K, Yang X, Li F. 2013. Transcriptome profiling reveals auxin and cytokinin regulating somatic embryogenesis in different sister lines of cotton cultivar CCRI24. Journal of Integrative Plant Biology 55: 631-642. DOI: 10.1111/jipb.12073.
Yuan X, Guo P, Qi X, Ning N, Wang H, Wang H, Wang X, Yang Y. 2013. Safety of herbicide Sigma Broad on Radix Isatidis (Isatis indigotica Fort.) seedlings and their photosynthetic physiological responses. Pesticide Biochemistry and Physiology 106 : 45-50. DOI: 10.1016/j.pestbp.2013.04.002.
Zhou QY, Liu WP, Zhang YS, Liu KK. 2007. Action mechanisms of acetolactate synthase-inhibiting herbicides. Pesticide Biochemistry and Physiology 89 : 89–96. DOI: 10.1016/j.pestbp.2007.04.004.
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