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Chlorophyll a fluorescence of common cocklebur (Xanthium strumarium L.) in response to Lumax herbicide with and without almond oil | ||
Journal of Plant Physiology and Breeding | ||
دوره 12، شماره 1، مرداد 2022، صفحه 29-38 اصل مقاله (469.77 K) | ||
نوع مقاله: Research Paper | ||
شناسه دیجیتال (DOI): 10.22034/jppb.2022.14789 | ||
نویسندگان | ||
Sirous Hassannejad* 1؛ Soheila Porheidar Ghafarbi2؛ Elham Abbasvand1 | ||
1Department of Plant Eco-Physiology, University of Tabriz, Tabriz, Iran | ||
2Dryland Agricultural Research Institute, Agricultural Research, Education and Extension Organization (AREEO), Maragheh, Iran | ||
چکیده | ||
Chlorophyll a fluorescence measurement is a useful tool for studying the herbicides' effects with different modes of action on the photosynthetic apparatus. In this research, the chlorophyll a fluorescence response of common cocklebur (Xanthium strumarium L.) plants was studied two days after the sole application of different doses of the Lumax herbicide (s-metolachlor + mesotrione + terbuthylazine), and combined with the almond oil. The quantum yield of energy dissipation (F0/Fm) and minimum fluorescence (F0) values of the plants treated with the 100% herbicide dose increased significantly from 0.16 to 0.25 and 296 to 391, respectively, two days after treatment. These changes in PSII resulted in the reduction of the maximum quantum yield of PSII (Fv/Fm) and the PSII function index (PIABS). Moreover, the application of high doses of the herbicide decreased the variable fluorescence (Fv), the maximum fluorescence (Fm), the size of the plastoquinone pool on the reducing side of photosystem II (Area), the maximum efficiency of water-splitting complex on the donor side of the photosystem II (Fv/F0), the energy needed for the closure of reaction centers (Sm), and the intermediate redox state of quinone A in the period from F0 to Fm. Our study revealed that the use of almond oil with the Lumax herbicide caused further reduction of the chlorophyll a fluorescence parameters in common cocklebur. The correlation between dry weight taken 28 days after the herbicide application and Fv/Fm measured two days after the herbicide application showed that assessing the chlorophyll a fluorescence parameters can speed up the rate of herbicide performance evaluation up to 12 times. The steeper slope of the regression line for herbicide with almond oil compared to the herbicide alone showed that almond oil could be a proper adjuvant to increase the herbicide efficiency. | ||
کلیدواژهها | ||
almond oil؛ common cocklebur؛ herbicide؛ photosynthetic apparatus؛ regression | ||
مراجع | ||
Abbasvand E, Hassannejad S, Zehtab Salmasi S, and Alizadeh Salteh S, 2019. Effects of seed priming with salicylic acid on chlorophyll a fluorescence parameters of basil (Ocimum basilicum L.) infested by field dodder (Cuscuta campestris Yunk.). Journal of Plant Physiology and Breeding 9(2): 11-18.
Anorvey VY, Asiedu EK, and Dapaah HK, 2018. Growth and yield of maize as influenced by using Lumax 537.5 SE for weed control in the transitional agro-ecological zone of Ghana. International Journal of Plant and Soil Science 21: 1-11.
Bosza, RC and Oliver LR, 1993. Shoot interference and root interference of common cocklebur (Xanthium strumarium) and soybean (Glycine max). Weed Science 41: 34-47.
Cabanne F, 2000. Increased efficacy of clodinafop-propargyl by terpineols and synergistic action with esterified fatty acids. Weed Research 40: 181-189.
Cobb AH and Reade JPH, 2010. Herbicides and Plant Physiology. 2nd Edition. Wiley-Blackwell, West Sussex, UK.
Cornish A, Battersby NS, and Watkinson RJ, 1993. Environmental fate of mineral, vegetable and transesterified vegetable oils. Journal of Pesticide Science 37: 173-178.
Dayan FE and Zaccaro MLDM, 2012. Chlorophyll fluorescence as a marker for herbicide mechanisms of action. Pesticide Biochemistry and Physiology 102: 189-197.
Guidi L, Lo Piccolo E, and Landi M, 2019. Chlorophyll fluorescence, photoinhibition and abiotic stress: does it make any difference the fact to be a C3 or C4 species? Frontiers in Plant Science 10: 1-11.
Gutierrez Y, Ott D, and Scherber C, 2020. Direct and indirect effects of plant diversity and phenoxy herbicide application on the development and reproduction of a polyphagous herbivore. Scientific Reports 10: 1-11.
Hassannejad S and Porheidar Ghafarbi S, 2018. Assessment of some chlorophyll a fluorescence parameters of different corn cultivars in response to clodinafop-propagrgyl herbicide and salicylic acid. Journal of Plant Physiology and Breeding 8(1): 47-57.
Hassannejad S, Lotfi R, Porheidar Ghafarbi S, Oukarroum A, Abbasi A, Kalaji HM, and Rastogi A, 2020a. Early identification of herbicide modes of action by the use of chlorophyll fluorescence measurements. Plants 9: 1-10.
Hassannejad S, Porheidar Ghafarbi S, and Lotfi R, 2020b. How photosynthetic light phase of spiny cocklebur (Xanthium spinosum L.) changes during times after herbicide application? Journal of Plant Physiology and Breeding 10(1): 61-70.
Hassannejad S, Porheidar Ghafarbi S, and Lotfi R, 2020c. The effect of nicosulfuron and bentazon on photosynthetic performance of common cocklebur (Xanthium strumarium L.). Environmental and Sustainability Indicator 6: 1-6.
Hussain Z, Marwat KB, Cardina J, and Khan JA, 2014. Xanthium strumarium L. impact on corn yield and yield components. Turkish Journal of Agricultural Forest 38: 39-46. Izadi-Darbandi E and Alaverdi A, 2015. Optimizing sulfosulfuron and sulfosulfuron plus metsulfuronmethyl activity when tankmixed with vegetable oil to control wild barley (Hordeum spontaneum Koch.). Journal of Agricultural Science and Technology 17: 1769-1780.
Juneau P, Dewez D, Matsui S, Kim SG, and Popovic R, 2001. Evaluation of different algal species sensitivity to mercury and metolachlor by PAM-fluorometry. Chemosphere 45: 589-598.
Kalaji HM, Bosa K, Kos´cielniak J, and Zuk-Gołaszewska K, 2011. Effects of salt stress on photosystem II efficiency and CO2 assimilation of two Syrian barley landraces. Environmental and Experimental Botany 73: 64-72.
Kalaji HM, Goltsev V, Zuk-Golaszewska K, Zivcak M, and Brestic M, 2017. Chlorophyll Fluorescence: Understanding Crop Performance - Basics and Applications. CRC Press, Taylor and Francis Group, USA, pp. 237.
Kalaji HM, Rastogi A, Zivcak M, Brestic M, Daszkowska-Golec A, Sitko K, Alsharafa KY, Lotfi R, Stypinski P, Samborska IA, and Center MD, 2018. Prompt chlorophyll fluorescence as a tool for crop phenotyping: an example of barley landraces exposed to various abiotic stress factors. Photosynthetica 56: 953-961.
Kumar K, Dahms H, Lee J, Kim H, Lee W, and Shin K, 2014. Algal photosynthetic responses to toxic metals and herbicides assessed by chlorophyll a fluorescence. Ecotoxicol Environ Safety 104: 51-71.
Kumar D, Singh H, Raj Sh, and Soni V, 2020. Chlorophyll a fluorescence kinetics of mung bean (Vigna radiata L.) grown under artificial continuous light. Biochemistry and Biophysics Reports 24: 1-7.
Matzrafi M, Gerson O, Rubin B, and Peleg Z, 2017. Different mutations endowing resistance to acetyl-COA carboxylase inhibitors results in changes in ecological fitness of Lolium rigidum populations. Frontiers in Plant Science 8: 1-9.
Norsworthy JK and Oliveira MJ, 2007. Light and temperature requirements for common cocklebur (Xanthium strumarium) germination during after-ripening under field conditions. Weed Science 55: 227-234.
Rastgoo M, Kargar M, and Assadolahi H. 2020. Vegetable oil characteristics enhance the phytotoxicity of pinoxaden and haloxyfop-R-methyl on littleseed canarygrass Phalaris minor Retz. Journal of Crop Protection 9(4): 711-720.
Zanatta CB, Benevenuto RF, Nodari RO, and Agapito-Tenfen SZ, 2020. Stacked genetically modified soybean harboring herbicide resistance and insecticide rCry1Ac shows strong defense and redox homeostasis disturbance after glyphosate-based herbicide application. Environmental Sciences Europe 32: 1-17.
Zhang CJ, Lim SH, Kim JW, Nah G, Fischer A, and Kim DS, 2016. Leaf chlorophyll fluorescence discriminates herbicide resistance in Echinochloa species. Weed Research 56: 424-433. | ||
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