اثر فاصله ردیف کاشت و مصرف علفکشها بر کنترل علفهای هرز، رنگیزههای فتوسنتزی و عملکرد دانه و روغن کلزا (Brassica napus L.)
الموضوعات : اکوفیزیولوژی گیاهان زراعیمرتضی نورعلی زاده اطاقسرا 1 , علی نخزری مقدم 2 , ابراهیم غلامعلیپور علمداری 3 , مهدی ملاشاهی 4 , ولیالله رامئه 5
1 - دانشجوی دکتری دانشگاه گنبد و محقق بخش تحقیقات گیاهپزشکی مرکز تحقیقات و اموزش کشاورزی و منابع طبیعی مازندران
2 - استادیار گروه تولیدات گیاهی، دانشکده کشاورزی و منابع طبیعی دانشگاه گنبدکاووس، گنبدکاووس، ایران
3 - استادیار گروه تولیدات گیاهی، دانشکده کشاورزی و منابع طبیعی دانشگاه گنبدکاووس، گنبدکاووس، ایران
4 - استادیار گروه تولیدات گیاهی، دانشکده کشاورزی و منابع طبیعی دانشگاه گنبدکاووس، گنبدکاووس، ایران
5 - دانشیار بخش تحقیقات علوم زراعی و باغی مرکز تحقیقات و آموزش کشاورزی و منابع طبیعی مازندران، سازمان تحقیقات، آموزش و ترویج کشاورزی، ساری، ایران
الکلمات المفتاحية: آرایش کاشت, کلروفیل, پاراکوات, کاروتنوئید, ترفلان,
ملخص المقالة :
کلزا یکی از مهمترین گیاهان دانه روغنی محسوب میشود. علفهای هرز از جمله مهمترین عوامل محدودکننده تولید کلزا هستند که کمیت و کیفیت محصول را تحت تأثیر قرار میدهند. به منظور بررسی تأثیر فاصله ردیف و مصرف علفکشها بر رنگیزههای فتوسنتزی و عملکرد کلزا، آزمایشی به صورت فاکتوریل در قالب طرح بلوکهای کامل تصادفی با سه تکرار در سال زراعی 97-1396 در ایستگاه تحقیقات بایعکلای شهرستان نکا اجرا شد. عوامل مورد بررسی شامل آرایش کاشت در دو سطح یک و دو ردیفه و کنترل علف های هرز در 7 سطح شامل علفکش تریفلورالین (ترفلان EC48%) 5/2 لیتر در هکتار قبل از کاشت و مخلوط با خاک، کوئینمراک + متازاکلر (بوتیزان استار SC41.6%) به میزان 5/2 لیتر در هکتار پیشرویشی، ترکیب تریفلورالین 5/2 لیتر در هکتار با کوئینمراک + متازاکلر 5/2 لیتر در هکتار، کلوپیرالید (لونترل SL30%) 1 لیتر در هکتار + هالوکسیفوپآرمتیل (گالانت سوپر EC10.8%) 8/0 لیتر در هکتار در مرحله 2 تا 4 برگی علفهای هرز، پاراکوات (گراماکسون SL20%) 2 لیتر در هکتار در مرحله 4 تا 6 برگی علفهای هرز و تیمار وجین و عدم کنترل علفهای هرز بودند. نتایج نشان داد که با تغییر در آرایش کاشت و استفاده از ترکیب تریفلورالین با کوئینمراک + متازاکلر و یا پاراکوات به صورت هدایت شده در کشت دو ردیفه، محتوای کلروفیل کلزا بهترتیب به میزان 06/38 و 11/34 درصد نسبت به شاهد افزایش یافتند. همچنین، زیست توده علفهای هرز بهترتیب 16/87 و 97/94 درصد کاهش و عملکرد دانه نیز به میزان 4/73 و 79/76 درصد افزایش یافت که خود موجب افزایش عملکرد روغن نیز گردید.به این ترتیب با اصلاح الگوی کاشت کلزا میتوان با استفاده از علفکشهای پاراکوات بهصورت هدایت شده و یا ترکیب علفکش تریفلورالین با کوئینمراک+متازاکلر علاوه بر کنترل علفهای هرز، موجب افزایش عملکرد شد.
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· Deligios, P., G. Carboni, R. Farci, S. Solinas, and L. Ledda. 2018. Low-input herbicide management: Effects on rapeseed production and profitability. Sustainability. 10(7): 2258-2274.
· Esperanza, M., M. Seoane, C. Rioboo, C. Herrero, and A. Cid. 2016. Early alterations on photosynthesis - related parameters in Chlamydomonas reinhardtii cells exposed to atrazine: A multiple approach study. Science of the Total Environment. 554: 237-245.
· Fayez, K.A., D.E. Mohamed Radwan, A.K. Mohamed, and M.A. Abdelrahman. 2011. Herbicides and salicylic acid applications caused alterations in total amino acids and proline contents of peanut cultivars. Journal of Environmental Studies. 6: 55-61.
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· Pritchard, F.M., H.A. Eagles, R.M. Norton, P.A. Salisbury, and M. Nicolas. 2000. Environmental effects on seed composition of Victorian canola. Australian Journal of Journal Experimental Agriculture. 40: 679-685.
· Rao, V.S. 2006. Principles of weed science. Science Publisher. USA. p. 555.
· Sandral, G.H., B.S. Dear, J.E. Pratley, and B.R. Cullis. 1997. Herbicide dose response rate response curve in subterranean clover determined by a bio assay. Australian Journal of Experimental Agriculture. 37: 67-74.
· Siripornadulsil, S., S. Traina, D.S. Verma, and R.T. Sayre. 2002. Molecular mechanisms of proline – mediated tolerance to toxic heavy metals in transgenic microalgae. Plant Cell. 14: 2837-2847.
· Tavassoli, A., T. Mousavi, A. Piri, and M. Babaian. 2018. Effect of plant density and weed control on yield and yield components of canola (Brassica napus L.). Agricultural Ecology. 1(1): 94-106. (In Persian).
· Telesinski, A., J. Nowak, B. Smolik, A. Dubowska, and N. Skrzyiec. 2008. Effect of soil salinity on activity of antioxidant enzymes and content of ascorbic acid and phenols in bean plants. Journal Elemental. 13: 401-409.
· Valiollahpor, R., S.A. Mirsadati, H. Salehian, R. Khakzad, S. Mafi, and M. Nouralizadeh. 2013.Effect of dose and timing of paraquat herbicide application on wild melon weed control in soybean farming. Plant Protection. 27(2): 200-207. (In Persian).
· Velicka, R., R. Pupaliene, L.M. Butkeviene, R. Kosteckas, Z. Kriauciuniene, and S. Kosteckiene. 2018. Weed density in the spring rape crops sown at different dates. Zemdirbyste Agricultural. 105(1): 21–26.
· Vercampt, H., L. Koleva, A. Vassilev, J. Vangronsveld, and A. Cuypers. 2017. Short-term phytotoxicity in Brassica napus L. in response to pre-emergently applied metazachlor: A microcosm study. Environmental Toxicology, Chemistry. 36: 59–70.
· Vercampt, H., L. Koleva, A. Vassilev, N. Horemans, G. Biermans, J. Vangronsveld, and A. Cuypers. 2016. The functional role of the photosynthetic apparatus in the recovery of Brassica napus plants from pre-emergent metazachlor exposure. Journal of Plant Physiology. 99(105): 196–197.
· Yousefi, A.R., M. Oveisi, and J.L. Gonzalez-Andujar. 2014. Prediction of annual weed seed emergence in garlic (Allium sativum L.) using soil thermal time. Horticulture Science. 168: 189-192.
· Zarco-Tejada, P.J., J.R. Miller, G.H. Mohammad, T.L. Noland, and P.H. Sampson. 2000. Chlorophyll fluorescence effects on vegetation apparent reflectance. Remote Sensing of Environment. 74: 596-608.
Zare, M., F. Bazrafshan, and K. Mostafavi. 2012. Competition of rapeseed (Brassica napus L.) cultivars with weeds. African Journal of Biotechnology. 11: 1378–1385.
· Ahmadi, A., P. Ehsanzadeh, and F. Jabbari F. 2015. Introduction to plant physiology. Tehran University Press. 653 pp. (In Persian).
· Anonymous. 2017 a. Food and Agriculture Organization of the United Nation (FAO). 2017. http://www.fao.org/faostat/en/#data/QC.
· Anonymous. 2017 b. Directions for rapeseed cultivation in different countries of the country. Seed and Plant Improvement Research Institute. 19 pp. (In Persian).
· Anonymous. 2019. Paraquat information center on behalf of Syngenta crop protection AG. Use plant protection products safely.https://paraquat.com/en/facts/mode-action-how-herbicides-work.
· Arnon, A.N. 1967. Method of extraction of chlorophyll in the plants. Agronomy Journal. 23: 112-126.
· Ashraf, M. 2004. Some important physiological criteria for salt tolerance in plants. Flora. 199: 361-376.
· Ashraf, M., and M.C. Neilly. 2004. Salinity tolerance in Brassica oilseeds. Critical Reviews in Plant Sciences. 23(2): 157-174.
· Bates, L.S., R.P. Waldren, and I.V. Tevre. 1973. Rapid determination of free proline for water- stress studies. Plant Soil. 39: 205- 207.
· Behdarvandi, B., and A. Modhej. 2007. Integrated weed management (chemical and mechanical control) in canola (Brassica napus L.) in Khozestan condition. Journal of Agricultural Science. 13(1): 163-169. (In Persian).
· Bijanzadeh, E., R. Naderi, and A. Behpoori. 2010. Interrelationships between oilseed rape yield and weeds population under herbicides application. Australian Journal of Crop Science. 4(3): 155-162.
· Blackshaw, R.E., D. Lemerle, R. Mialer, and K.R. Young. R. 2002. Influence of wild radish on yield and quality of canola. Weed Science. 50: 344-349.
· Borger, C., A. Hashem, and S. Pathan. 2010. Manipulating crop row orientation to suppress weeds and increase crop yield. Weed Science. 58:174–178.
· Chesworth, J.C., M.E. Donkin, and M.T. Brownb. 2004. The interactive effects of the antifouling herbicides Irgarol 1051 and Diuron on the seagrass Zostera marina L., Aquatic Toxicology. 66: 293–305.
· Cook, S.K., M. Ballingall, R. Stobart, T. Doring, P. Berry, and D. Ginsburg. 2015. New approaches to weed control in oilseed rape. HGCA project report 530. HGCA Warwick. https://cereals.ahdb.org.uk/media/624236/pr530-final-project-report.pdf.
· Deligios, P., G. Carboni, R. Farci, S. Solinas, and L. Ledda. 2018. Low-input herbicide management: Effects on rapeseed production and profitability. Sustainability. 10(7): 2258-2274.
· Esperanza, M., M. Seoane, C. Rioboo, C. Herrero, and A. Cid. 2016. Early alterations on photosynthesis - related parameters in Chlamydomonas reinhardtii cells exposed to atrazine: A multiple approach study. Science of the Total Environment. 554: 237-245.
· Fayez, K.A., D.E. Mohamed Radwan, A.K. Mohamed, and M.A. Abdelrahman. 2011. Herbicides and salicylic acid applications caused alterations in total amino acids and proline contents of peanut cultivars. Journal of Environmental Studies. 6: 55-61.
· Felton, W.L., B.M. Haigh, and S. Harden. 2004. Comparing weed competition in chickpea, fababean, canola and wheat. In: Proceedings 14th Australian Weeds Conference. Weed Society of New South Wales, Wagga wagga, NSW. 304-307.· Harre, N.T., H. Nie, Y. Jiang, and B.G. Young. 2018. Differential antioxidant enzyme activity in rapid-response glyphosate-resistant Ambrosia trifida. Pest Manageent Science. 74: 2125–2132.
· Jin, Z.L., F. Zhang, Z.I. Ahmed, M. Rasheed, M.S. Naeem, Q.F. Ye, and W.J. Zhou. 2010. Differential morphological and physiological responses of two oilseed Brassica species to a new herbicide ZJ0273 used in rapeseed fields. Pesticide Biochemistry and Physiology. 98: 1–8.
· Mitkov, A., N. Neshev, M. Yanev, and T. Tonev. 2017. Possibilities for chemical weed control at oil seed rape. Scientific Papers. Series A. Agronomy. LX: 320-325.
· Mohammadi, M., and M. Chakerolhosini. 2006. The most appropriate seed rate and row spacing for canola in subtropical dry conditions. 9th Congress of Agriculture and Plant Breeding. Karaj, Iran. (In Persian).
· Nouralizadeh, M., S. Mozafari, and A. Shafiee. 2013. Investigation of the combination of herbicides in rapeseed fields with emphasis on weed control of Brasicaceae weeds in Mazandaran. The 2nd National Conference on New Opportunities in Oily Oil Production. November 2013. Bojnurd. (In Persian).
· Omrani, M., A. Ahmadi, and M. Rostami. 2017. Evaluation of the effect of chemical management of weeds on proline content and peroxidase activity of Allium stipitatum. National Conference on Modern Research in Agricultural, Environmental and Natural Resources Engineering. Karaj, Iran. (In Persian).
· Palmer, J., Dunphy, E. J., and Reese, P. 2013. Managing drought-stressed soybeans in the southeast. North Carolina Cooperative Extension Service. https://coolbean.info/ pdf/soybean_research/library/grain_production/Managing%20Drought-Stressed% 20Soybeans%20in%20the%20Southeast.· Pavlovic, D., P. Mitrovic, D. Marisavljevic, A. Marjanovic- Jeromela, and A. Anđelkovic. 2015. The effect of weeds on the yield and quality parameters of rapeseed. Proceedings of Sixth International Scientific Agricultural Symposium Agrosym 2015, p. 914-918.
· Pritchard, F.M., H.A. Eagles, R.M. Norton, P.A. Salisbury, and M. Nicolas. 2000. Environmental effects on seed composition of Victorian canola. Australian Journal of Journal Experimental Agriculture. 40: 679-685.
· Rao, V.S. 2006. Principles of weed science. Science Publisher. USA. p. 555.
· Sandral, G.H., B.S. Dear, J.E. Pratley, and B.R. Cullis. 1997. Herbicide dose response rate response curve in subterranean clover determined by a bio assay. Australian Journal of Experimental Agriculture. 37: 67-74.
· Siripornadulsil, S., S. Traina, D.S. Verma, and R.T. Sayre. 2002. Molecular mechanisms of proline – mediated tolerance to toxic heavy metals in transgenic microalgae. Plant Cell. 14: 2837-2847.
· Tavassoli, A., T. Mousavi, A. Piri, and M. Babaian. 2018. Effect of plant density and weed control on yield and yield components of canola (Brassica napus L.). Agricultural Ecology. 1(1): 94-106. (In Persian).
· Telesinski, A., J. Nowak, B. Smolik, A. Dubowska, and N. Skrzyiec. 2008. Effect of soil salinity on activity of antioxidant enzymes and content of ascorbic acid and phenols in bean plants. Journal Elemental. 13: 401-409.
· Valiollahpor, R., S.A. Mirsadati, H. Salehian, R. Khakzad, S. Mafi, and M. Nouralizadeh. 2013.Effect of dose and timing of paraquat herbicide application on wild melon weed control in soybean farming. Plant Protection. 27(2): 200-207. (In Persian).
· Velicka, R., R. Pupaliene, L.M. Butkeviene, R. Kosteckas, Z. Kriauciuniene, and S. Kosteckiene. 2018. Weed density in the spring rape crops sown at different dates. Zemdirbyste Agricultural. 105(1): 21–26.
· Vercampt, H., L. Koleva, A. Vassilev, J. Vangronsveld, and A. Cuypers. 2017. Short-term phytotoxicity in Brassica napus L. in response to pre-emergently applied metazachlor: A microcosm study. Environmental Toxicology, Chemistry. 36: 59–70.
· Vercampt, H., L. Koleva, A. Vassilev, N. Horemans, G. Biermans, J. Vangronsveld, and A. Cuypers. 2016. The functional role of the photosynthetic apparatus in the recovery of Brassica napus plants from pre-emergent metazachlor exposure. Journal of Plant Physiology. 99(105): 196–197.
· Yousefi, A.R., M. Oveisi, and J.L. Gonzalez-Andujar. 2014. Prediction of annual weed seed emergence in garlic (Allium sativum L.) using soil thermal time. Horticulture Science. 168: 189-192.
· Zarco-Tejada, P.J., J.R. Miller, G.H. Mohammad, T.L. Noland, and P.H. Sampson. 2000. Chlorophyll fluorescence effects on vegetation apparent reflectance. Remote Sensing of Environment. 74: 596-608.
Zare, M., F. Bazrafshan, and K. Mostafavi. 2012. Competition of rapeseed (Brassica napus L.) cultivars with weeds. African Journal of Biotechnology. 11: 1378–1385.
