ارتباط فنولوژی و صفات فیزیولوژیک با عملکرد دانه کلزا در خراسان شمالی
الموضوعات : اکوفیزیولوژی گیاهان زراعیعباس فروغی 1 , عباس بیابانی 2 , علی راحمی کاریزکی 3 , قربانعلی رسام 4
1 - دانشجوی دوره دکتری فیزیولوژی گیاهان زراعی، دانشگاه گنبد کاووس، گنبد کاووس، ایران
2 - دانشیار گروه تولیدات گیاهی، دانشگاه گنبد کاووس، گنبد کاووس، ایران
3 - استادیار گروه تولیدات گیاهی، اعضای هیأت علمی دانشکده کشاورزی و منابع طبیعی دانشگاه گنبد کاووس
4 - استادیارگروه زراعت، مجتمع آموزش عالی شیروان، شیروان، ایران
الکلمات المفتاحية: عملکرد, تجزیه علیت, رگرسیون گام به گام, همبستگی, سرعت پر شدن دانه,
ملخص المقالة :
مهم ترین صفات فنولوژیک و فیزیولوژیک مؤثر بر افزایش عملکرد کلزا با اجرای آزمایشی در سال 1394-1393 در قالب طرح بلوکهای کامل تصادفی در چهار تکرار روی 20 رقم کلزا در مزرعه تحقیقاتی مجتمع آموزش عالی شیروان واقع در خراسان شمالی تعیین شدند. نتایج تجزیه واریانس نشان داد که بین ارقام برای کلیه صفات از لحاظ آماری تفاوت معنیدار وجود داشت. بیشترین عملکرد دانه با 513/56 گرم در متر مربع به رقم هیبرید تراویتا تعلق داشت که با ارقام کودیاک، L72، SW102 و بیلبائو تفاوت معنیدار نداشت. کمترین عملکرد به رقم شیرالی با 344/41 گرم در متر مربع به دست آمد که با ارقام زرفام و ساریگل نیز تفاوت معنیداری نداشت. بین عملکرد دانه و عملکرد بیولوژیک، تعداد خورجین در بوته، تعداد دانه در خورجین، وزن دانه، شاخص برداشت، تعداد روزهای تا ساقهدهی، تا شروع گلدهی، تا پایان گلدهی، تا شروع تشکیل غلاف، تا پایان تشکیل غلاف و تا رسیدگی فیزیولوژیک، همچنین شروع پر شدن دانه، سرعت پر شدن دانه و ارتفاع بوته همبستگی مثبت و معنیدار و بین عملکرد و دوره پر شدن دانه، تعداد روزهای تا سبز شدن و تا مرحله رزت همبستگی منفی و معنی دار وجود داشت. بر اساس رگرسیون گام به گام، عملکرد دانه بهعنوان متغیر وابسته و بقیه صفات بهعنوان متغیرهای مستقل وارد مدل گردیدند. اثرات مستقیم و مثبت شاخص برداشت و عملکرد بیولوژیک و همچنین اثر غیر مستقیم مثبت عملکرد بیولوژیک روی تعداد خورجین در بوته، و اثر غیر مستقیم مثبت تعداد خورجین در بوته روی شاخص برداشت نشان داد که این صفات از اجزای قابل اعتماد برای انتخاب ژنوتیپهای با عملکرد بالا به شمار می روند. نتایج تجزیه ضرایب مسیر برای وزن و تعداد دانه در واحد سطح نشان داد که وزن و تعداد دانه اجزای مهمی در تعیین عملکرد دانه هستند که البته تأثیر تعداد دانه در واحد سطح بزرگتر است. سرعت پر شدن دانه در تعیین وزن دانه از دوام پر شدن دانه مؤثرتر بود. تجزیه رگرسیون نیز نشان داد که بهازای یک درجه سلسیوس افزایش دما در دوره پر شدن دانه، طول این دوره 1/54 روز کاهش و سرعت پر شدن دانه به میزان 0/007 میلیگرم بر دانه در روز افزایش پیدا میکند. به ازای افزایش هر روز دوام پر شدن دانه، سرعت پر شدن دانه بهمیزان 0/004 میلیگرم بر دانه در روز کاهش یافت. بهطورکلی از نظر سرعت و دوام پر شدن دانه بین 20 رقم کلزای مورد مطالعه، تنوع ژنتیکی وجود داشت.
Abuzeid, A.E., and S.J. Wilcokson. 1989. Effect of sowing date, plant density and year on growth and yield of Brussels sprouts (Brassica oleracea). Journal of Agricultural Science. 112: 359-375.
Algan, N., and H. Aygün. 2001. Correlation between yield and yield components in some winter rape genotypes in Turkish. The Journal of Ege University Agricultural Faculty. 38 (1): 9-15.
Allen, E.J., and D.G. Morgan. 1992. A quantitative analysis of the effects of nitrogen on the growth, development and yield of oilseed rape. Journal of Agricultural Science. 78: 315 – 324.
Angadi, S.V., H.W. Cutforth, P.R. Miller, B.G. McConkey, M.H. Entz, A. Brandt, and K.M. Olkmar. 2000. Response of three brassica species to high temperature stress during reproductive growth. Canadian Journal of Plant Science. 80: 693-701.
Anil, K., D.P. Singh, Y.P. Yadav, S. Bikram, A. Kumar, and B. Singh. 1998. Association between morphophysiological parameters and seed yield in Brassica genotypes. Cruciferae Newsletter. 20: 69- 70.
Basalma, D. 2008. The correlation and path analysis of yield and yield components of different winter rapeseed (Brassica napus ssp. oleifera L.) cultivars. Research Journal of Agriculture and Biological Sciences. 4: 120-125.
Berry, M.P., and J.H. Spink. 2006. A physiological analysis of oilseed rape yield, past and future (review). Journal of Agricultural Science, Cambridge. 199: 381-392.
Bradaran, R., A. Majidi, F. Darvish, and M. Azizi. 2006. Investigation of correlation and path analysis between yield and components in rapeseed (Brassica napus L.). Agriculture Science Journal. 4: 811-819. (In Persian).
Bruckner, P.L., and R.C. Frohberg. 1987. Rate and duration of grain fill in spring wheat. Crop Science.27: 451–455.
Çalışkan, M.E., A. Mert, M. Mert, and N. İşler. 1998. Important agronomic characters of some rapeseed cultivars and effects of these characters on yield formation in Hatay ecological conditions. Journal of Agricultural Faculty MKU. 3(2): 127-142.
Campbe, D.C., and Z.P. Kondra. 1997. Growth pattern analysis of three rapeseed cultivars. Canadian Journal of Plant Science. 57: 707-712.
Darroch, B.A., and R.J. Baker. 1990. Grain filling in three spring wheat genotypes: Statistical analysis. Crop Science. 30: 525–529.
Diepenbrock, W. 2000. Yield analysis of winter oilseed rape (Brassica napus L.): A Review. Field Crops Research. 67: 35-49.
Egli, D.B. 2004. Seed-fi ll duration and yield of grain crops. Advances in Agronomy. 83: 243–279.
Egli, D.B. 2006. The role of seed in the determination of yield of grain crops. Australian Journal of Agricultural Research. 57: 1237–1247.
Evans, L.T., and I.F. Wardlaw. 1976. Aspects of the comparatiative physiology of grain yield in cereals. Advances in Agronomy. 28: 301-359.
Evans, L.T., and R.A. Fischer. 1999. Yield potential: Its definition, measurement, and significance. Crop Science. 39: 1544-1551.
FAO. 2014 Stat database. Available online at: http://faostat3.fao.org/faostat-gateway/go/to/download/Q/QC/E.
Faraji, A. 2010. Flower formation and pod/flower ratio in oilseed rape (Brassica napus L.) affected by assimilates supply around flowering. International Journal of Plant Production. 4: 271-280.
Faraji, A. 2014. Seed weight in oilseed rape as a function of assimilate supply and source-sink ratio during seed filling period. International Journal of Plant Production. 8: 255-270.
Hashemi, Z., A. Golparvar, and M. Rasoli. 2008. Correlation, regression and path analysis of yield and components in rape seed cultivars. Agricultural Research. 4: 412-419.
Hey, R.K.M., and A.J. Walker. 1989. An introduction to physiology of crop yield. Longman Group, London.
Hosseinzadeh, K., H. Irannejad, A. Hejazi, GH. Akbari, and A. Zand. 1998. Correlation between traits and path coefficient analysis for seed yield of eight rapeseed cultivars (Brassica napus L.). Agriculture Reaserch: Soil, Water and Plant in Agriculture. 8: 195-207.
Jeromela, A.M., R. Marinkovic, A. Mijic, M. Jankulovska, and Z. Zdunic. 2007. Interrelationship between oil yield and other quantitative traits in rapeseed (Brassica napus L.). Journal Central European Agriculture. 8: 165-170.
Johnson, R.A., and D.W. Wichern. 2007. Applied multivariate statistical analysis. Springer, New Jersy.
Kandil, A.A., S.I. Mahandes, and N.M. Mahrous. 1995. Genotypic and phenotypic variability, heritability and interrelationships of some characters in oilseed rape (Brassica napus L.). Plant Breeding Abstracts. 65(9).
Khan, F.A., S. Ali, A. Shakeel, A. Saeed, and G. Abbas. 2006. Correlation analysis of some quantitative characters in Brassica napus L. Journal of Agricultural Research. 44: 7-14.
Kozak, M., J. Bocianowski, S. Sawkojc, and A. Wnuk. 2010. Call for more graphical elements in statistical teaching and consultancy. Biometric Letter. 47: 57-68.
Mendham, N.J., and R.K. Scott. 1975. The limiting effect of plant size at inflorescence initation on subsequent growth and yield of oil seed rape (B. napus L.). Journal of Agricultural science, Cambridge. 84: 487-502.
Morrison, M.J., and D.W. Stewart. 2002. Heat stress during flowering in summer Brassica. Crop Science.42: 797-803.
Ozer, H., and E. Oral. 1999. Relationships between yield and yield components on currently improved spring rapeseed cultivars. Turkish Journal of Agriculture and Forestly. 23: 603-607.
Pahlavani, M.H., G. Saeidi, and A.F. Mirlohi. 2007. Genetic analysis of seed yield and oil content in safflower using F1 and F2 progenies of diallel crosses. International Journal of Plant Production. 1: 129-140.
Richards, R.A. 2000. Selectable traits to increase crop photosynthesis and yield of grain crops. Journal of Exprimental Botany. 51: 447-458.
Rodi, D., S. Rahmanpour, and F. Javidfar. 2003. Rapseed agronomy. The part of oilseed reaserch. 53p. (In Persian).
Santiveri, F., C. Royo, and I. Romagosa. 2002. Patterns of grain fi lling of spring and winter hexaploid triticales. European Journal of Agronomy. 16: 219–230.
Sayed, H.I., and A.M. Gadallah. 1983. Variation in dry matter and grain filling characteristics in wheat cultivars. Field Crops Research. 7: 61-71.
Sharafi, Y., M.M. Majidi, M. Jafarzadeh, and A. Mirlohi. 2015. Multivariate analysis of genetic variation in winter rapeseed (Brassica napus L.) cultivars. Journal of Agrcultural Science and Technology. 17: 1319-1331.
Sylvester-Bradley, R., and R.J. Makepeace. 1984. A code for stages of development in oilseed rape (Brassica napus L.). Aspects of Applied Biology. 6: 398-419.
Tang, Z.L., J.N. Li, X.K. Zhang, L. Chen, and R. Wang. 1997. Genetic variation of yellow seeded rapeseed lines (Brassica napus L.) from different genetic source. Plant Breeding. 116(5): 471-474.
Thurling, N. 1974. Morphophysilogical determinates of yield in rapeseed (Brassica compestris and Brassica napus). II. Yield components. Australian Journal of Agricultural Research. 25: 711-721.
van Sanford, D.A. 1985. Variation in kernel growth characters among soft red winter wheats. Crop Science. 25: 626-630.
Wych, R.D., R.L. Mc Graw, and D.D. Stuthman. 1982. Genotypes x year interaction for length and rate of grain filling in oats. Crop Science. 22: 1025-1028.
_||_Abuzeid, A.E., and S.J. Wilcokson. 1989. Effect of sowing date, plant density and year on growth and yield of Brussels sprouts (Brassica oleracea). Journal of Agricultural Science. 112: 359-375.
Algan, N., and H. Aygün. 2001. Correlation between yield and yield components in some winter rape genotypes in Turkish. The Journal of Ege University Agricultural Faculty. 38 (1): 9-15.
Allen, E.J., and D.G. Morgan. 1992. A quantitative analysis of the effects of nitrogen on the growth, development and yield of oilseed rape. Journal of Agricultural Science. 78: 315 – 324.
Angadi, S.V., H.W. Cutforth, P.R. Miller, B.G. McConkey, M.H. Entz, A. Brandt, and K.M. Olkmar. 2000. Response of three brassica species to high temperature stress during reproductive growth. Canadian Journal of Plant Science. 80: 693-701.
Anil, K., D.P. Singh, Y.P. Yadav, S. Bikram, A. Kumar, and B. Singh. 1998. Association between morphophysiological parameters and seed yield in Brassica genotypes. Cruciferae Newsletter. 20: 69- 70.
Basalma, D. 2008. The correlation and path analysis of yield and yield components of different winter rapeseed (Brassica napus ssp. oleifera L.) cultivars. Research Journal of Agriculture and Biological Sciences. 4: 120-125.
Berry, M.P., and J.H. Spink. 2006. A physiological analysis of oilseed rape yield, past and future (review). Journal of Agricultural Science, Cambridge. 199: 381-392.
Bradaran, R., A. Majidi, F. Darvish, and M. Azizi. 2006. Investigation of correlation and path analysis between yield and components in rapeseed (Brassica napus L.). Agriculture Science Journal. 4: 811-819. (In Persian).
Bruckner, P.L., and R.C. Frohberg. 1987. Rate and duration of grain fill in spring wheat. Crop Science.27: 451–455.
Çalışkan, M.E., A. Mert, M. Mert, and N. İşler. 1998. Important agronomic characters of some rapeseed cultivars and effects of these characters on yield formation in Hatay ecological conditions. Journal of Agricultural Faculty MKU. 3(2): 127-142.
Campbe, D.C., and Z.P. Kondra. 1997. Growth pattern analysis of three rapeseed cultivars. Canadian Journal of Plant Science. 57: 707-712.
Darroch, B.A., and R.J. Baker. 1990. Grain filling in three spring wheat genotypes: Statistical analysis. Crop Science. 30: 525–529.
Diepenbrock, W. 2000. Yield analysis of winter oilseed rape (Brassica napus L.): A Review. Field Crops Research. 67: 35-49.
Egli, D.B. 2004. Seed-fi ll duration and yield of grain crops. Advances in Agronomy. 83: 243–279.
Egli, D.B. 2006. The role of seed in the determination of yield of grain crops. Australian Journal of Agricultural Research. 57: 1237–1247.
Evans, L.T., and I.F. Wardlaw. 1976. Aspects of the comparatiative physiology of grain yield in cereals. Advances in Agronomy. 28: 301-359.
Evans, L.T., and R.A. Fischer. 1999. Yield potential: Its definition, measurement, and significance. Crop Science. 39: 1544-1551.
FAO. 2014 Stat database. Available online at: http://faostat3.fao.org/faostat-gateway/go/to/download/Q/QC/E.
Faraji, A. 2010. Flower formation and pod/flower ratio in oilseed rape (Brassica napus L.) affected by assimilates supply around flowering. International Journal of Plant Production. 4: 271-280.
Faraji, A. 2014. Seed weight in oilseed rape as a function of assimilate supply and source-sink ratio during seed filling period. International Journal of Plant Production. 8: 255-270.
Hashemi, Z., A. Golparvar, and M. Rasoli. 2008. Correlation, regression and path analysis of yield and components in rape seed cultivars. Agricultural Research. 4: 412-419.
Hey, R.K.M., and A.J. Walker. 1989. An introduction to physiology of crop yield. Longman Group, London.
Hosseinzadeh, K., H. Irannejad, A. Hejazi, GH. Akbari, and A. Zand. 1998. Correlation between traits and path coefficient analysis for seed yield of eight rapeseed cultivars (Brassica napus L.). Agriculture Reaserch: Soil, Water and Plant in Agriculture. 8: 195-207.
Jeromela, A.M., R. Marinkovic, A. Mijic, M. Jankulovska, and Z. Zdunic. 2007. Interrelationship between oil yield and other quantitative traits in rapeseed (Brassica napus L.). Journal Central European Agriculture. 8: 165-170.
Johnson, R.A., and D.W. Wichern. 2007. Applied multivariate statistical analysis. Springer, New Jersy.
Kandil, A.A., S.I. Mahandes, and N.M. Mahrous. 1995. Genotypic and phenotypic variability, heritability and interrelationships of some characters in oilseed rape (Brassica napus L.). Plant Breeding Abstracts. 65(9).
Khan, F.A., S. Ali, A. Shakeel, A. Saeed, and G. Abbas. 2006. Correlation analysis of some quantitative characters in Brassica napus L. Journal of Agricultural Research. 44: 7-14.
Kozak, M., J. Bocianowski, S. Sawkojc, and A. Wnuk. 2010. Call for more graphical elements in statistical teaching and consultancy. Biometric Letter. 47: 57-68.
Mendham, N.J., and R.K. Scott. 1975. The limiting effect of plant size at inflorescence initation on subsequent growth and yield of oil seed rape (B. napus L.). Journal of Agricultural science, Cambridge. 84: 487-502.
Morrison, M.J., and D.W. Stewart. 2002. Heat stress during flowering in summer Brassica. Crop Science.42: 797-803.
Ozer, H., and E. Oral. 1999. Relationships between yield and yield components on currently improved spring rapeseed cultivars. Turkish Journal of Agriculture and Forestly. 23: 603-607.
Pahlavani, M.H., G. Saeidi, and A.F. Mirlohi. 2007. Genetic analysis of seed yield and oil content in safflower using F1 and F2 progenies of diallel crosses. International Journal of Plant Production. 1: 129-140.
Richards, R.A. 2000. Selectable traits to increase crop photosynthesis and yield of grain crops. Journal of Exprimental Botany. 51: 447-458.
Rodi, D., S. Rahmanpour, and F. Javidfar. 2003. Rapseed agronomy. The part of oilseed reaserch. 53p. (In Persian).
Santiveri, F., C. Royo, and I. Romagosa. 2002. Patterns of grain fi lling of spring and winter hexaploid triticales. European Journal of Agronomy. 16: 219–230.
Sayed, H.I., and A.M. Gadallah. 1983. Variation in dry matter and grain filling characteristics in wheat cultivars. Field Crops Research. 7: 61-71.
Sharafi, Y., M.M. Majidi, M. Jafarzadeh, and A. Mirlohi. 2015. Multivariate analysis of genetic variation in winter rapeseed (Brassica napus L.) cultivars. Journal of Agrcultural Science and Technology. 17: 1319-1331.
Sylvester-Bradley, R., and R.J. Makepeace. 1984. A code for stages of development in oilseed rape (Brassica napus L.). Aspects of Applied Biology. 6: 398-419.
Tang, Z.L., J.N. Li, X.K. Zhang, L. Chen, and R. Wang. 1997. Genetic variation of yellow seeded rapeseed lines (Brassica napus L.) from different genetic source. Plant Breeding. 116(5): 471-474.
Thurling, N. 1974. Morphophysilogical determinates of yield in rapeseed (Brassica compestris and Brassica napus). II. Yield components. Australian Journal of Agricultural Research. 25: 711-721.
van Sanford, D.A. 1985. Variation in kernel growth characters among soft red winter wheats. Crop Science. 25: 626-630.
Wych, R.D., R.L. Mc Graw, and D.D. Stuthman. 1982. Genotypes x year interaction for length and rate of grain filling in oats. Crop Science. 22: 1025-1028.
