مقایسه تاثیر گوگرد بر عملکرد و جذب عناصر کممصرف در دانههای روغنی و گیاهان علوفهای
الموضوعات :
ریحانه دهقان
1
,
علی اکبر کریمیان
2
,
سمیه قاسمی
3
,
ملیحه امینی
4
1 - دانشجوی دکتری تنوع زیستی و مدیریت اکوسیستم، پژوهشکده علوم محیطی، دانشگاه شهید بهشتی.
2 - دانشیار گروه مرتع و آبخیزداری، دانشکده منابع طبیعی و محیط زیست، دانشگاه یزد.
3 - دانشیار گروه علوم خاک، دانشکده منابع طبیعی و محیط زیست، دانشگاه یزد.
4 - دانشیار گروه علوم و مهندسی محیط زیست، دانشکده منابع طبیعی، دانشگاه جیرفت. *(مسوول مکاتبات)
تاريخ الإرسال : 02 الأحد , ربيع الثاني, 1440
تاريخ التأكيد : 08 الثلاثاء , شوال, 1440
تاريخ الإصدار : 02 الإثنين , ذو القعدة, 1444
الکلمات المفتاحية:
گوگرد,
گیاهان علوفه ای,
دانههای روغنی,
عناصر غذایی کم مصرف,
خاک قلیایی,
ملخص المقالة :
زمینه و هدف: امروزه به دلیل قیمت بالا و اثرات مخرب مصرف بی رویه کودهای شیمیایی بر محیط زیست و همچنین کمیت و کیفیت محصولات کشاورزی، استفاده از گوگرد به عنوان یک عنصر غذایی و عامل اسیدی کننده خاک بسیار مهم و ضروری است.روش بررسی: به منظور بررسی و مقایسه تاثیر کاربرد گوگرد بر عملکرد و قابلیت جذب عناصر غذایی توسط دانه های روغنی گلرنگ، کلزا، ذرت و گیاهان علوفه ای تاج خروس و سورگوم در یک خاک آهکی به صورت فاکتوریل در قالب طرح بلوک های تصادفی و در سه تکرار اجرا شد. فاکتورهای آزمایش شامل پودر گوگرد در دو سطح بدون مصرف گوگرد و مصرف 500 کیلوگرم در هکتار بود.یافته ها: نتایج پژوهش نشان داد کاربرد گوگرد سبب افزایش معنی دار وزن تر و خشک در همه گونه های گیاهی گردید و بیشترین افزایش در گونه های ذرت و سورگوم مشاهده شد. کاربرد گوگرد سبب معنی دار شدن جذب آهن و روی در ریشه و اندام هوایی تمامی گونه های گیاهی نیز گردید.بحث و نتیجه گیری: در بین دانه های روغنی، تاثیر کاربرد گوگرد بر ذرت و کلزا بیش از گلرنگ بود و گونه علوفه ای سورگوم نیز نسبت به تاج خروس عملکرد بهتری داشت.
المصادر:
Malekuti, M. J., 2000. Sustainable agriculture and increasing yield by optimizing fertilizer in Iran. Agricultural education publication. Karaj. Iran. (In Persian)
Karimizarchi, M., Aminuddin, H., Khanif, M. Y., Radziah, O., 2014. Elemental sulfur application effects on nutrient availability and sweet maize response (Zea mays) in a high pH soil of Malaysia. Malaysian Journal of Soil Science. Vol. 18, pp75-86.
Erdale, I., Tarakçıolu, C., 2000. Effect of different organic materials on growth and mineral composition of corn plant (Zea mays). Ondokuz Mayıs University Faculty of Agriculture. Journal of Agriculture Sciences. Vol. 15, No. 2, pp 80-85.
Salardini, AS., 1987. Soil Fertility. Tehran University Press. (In Persian)
Ghorbani Nasrabadi, R., Saleh Rastin, N., AliKhani Hossein, A., 2002. Effect of sulfur consumption with inoculum of Thiobacillus and Brady rhizobium on nitrogen fixation and growth parameters of soybean, Soil and Water Sciences, 16 , No 2; pp 170 - 178. (In Persian)
Schueneman, T. J., 2001. Characterization of sulfur sources in the EAA. Soil and Crop Science Society of Florida.Vol. 60, pp 49-52.
Hocking, P. J., Steer, B. T., 1983. Distribution of nitrogen during growth of sunflower (Helianthus annuus). Journal of Annals of Botany. Vol. 51, No 26, pp 787-799.
Ahmadi, M., 2010. Effect of zinc and nitrogen fertilizer rates on yield and yield components of oilseed rape (Brassica napus). World Applied Sciences Journal. Vol. 10, No 3, pp.298-303.
Mirzashahi, K., Pishdarfaradaneh, M., Nourgholipour, F., 2010. Effects different rates of nitrogen and sulphur application on canola yield in north of Khuzestan. Research Agriculture Science. Vol. 6. No 2, pp 107- 112.
Hawkesford, M. J., De Kok, L. J., 2007. Sulfur in plants an ecological perspective. Springer, UK.
Vidyalakshmi, R., Paranthaman, R., Bhagyaraj, R., 2009. Sulphur Oxidizing Bacteria and Pulse Nutrition - A Review. Agricultural Sciences. Vol. 5, pp 270-278.
Rashidi, N., Karimian, N., 1999. Effect of Sulfur and Zinc on Growth and Corn Chemical Composition in a Calcareous Soil, Abstract Sixth Iranian Soil Science Congress, Mashhad. (In Persian)
Mostafavi rad, M., Tahmasebi sarvestani, S. M., Modarse sanavi, V., Ghalavand, A., 2012. Evaluation of Some Agronomic Traits of Rapeseed (Brassica napus) as Affected by Different Sulphur Application Rates. Journal of Field Crops Research, Vol. 10. No3, pp 495-502. (In Persian)
Erdem, H., Torun, M. B., Erdem, N., Yazıcı, A., Tolay, I., Gunal, E., Özkutlu, F., 2016. Effects of different forms and doses of sulfur application on wheat. Turkish Journal of Agriculture - Food Science and Technology.Vol. 4, No. 11, pp 957-961.
, A., Gholami., A., 2015. Improved nutrient uptake and growth of maize in response to inoculation with Thiobacillus and Mycorrhiza on an alkaline soil. Journal of Communication in Soil Science and Plant Analysis, Vol. 46, No 17, pp 2111-2126.
Ehyayie, M., Behbahani Zadeh, A. S., 1993. Descriptions of methods for chemical analysis of soil. first volume. Journal of Soil and Water Research Institute. Agricultural Research and Education Organization, Ministry of Agriculture, Tehran. (In Persian)
Westerman, R. E. L., 1990. Soil testing and plant analysis. SSSA, Madison Wisconsin, USA.
Irshad, A. H., Fayaz-Ahmad, S., Sultan, P., 2011. Effect of Sulfur dioxide on the biochemical parameters of spinach (Spinacea oleracia). Journal of Sciences. Vol. 9, No 1. pp 24-27.
Besharati, H., Khosravi, H., Mostashari, M., Mirzashahi, K., Ghaderi, J., Zabihi, R., 2016, Evaluation of Effects of Thiobacillus, Sulfur and Phosphorous on Corn (Zea mays L.) Growth Indices in some Regions of Iran, Applied Soil Research, Vol. 4, No 1, pp 103-113. (In Persian)
Rosa, M. C., Muchovej, J. J., Alvarez, V. H., 1989. Temporal relations of phosphorus fractions in an oxisoil amended with phosphate and Thiobacillus thiooxidatons. Journal of Society of Agronomy. Vol . 53, pp 1096-1100.
Choghzardi, H. R., Mohammadi, G. H., Beheshti Al Agha, , 2013. Evaluation of Sulfur and Manure Effect on Corn Growth Characteristics (Crossed Cross 704) and Soil Acidity, Crop Researches, Vol 11, No 1 ; pp 162 – 170 . (In Persian)
Momen, A ., Pazaki, A., Audit, M. R., 2011. Investigating the effects of granular sulfur (bentonite) and compost on quantitative characteristics of Bam wheat in Semnan region, Physiology of Crops, Vol 3, No 9; pp 31 - 46. (In Persian)
Deluca, T. H., Skogley, E. O., Engle, R. E., 1989. Band-applied elemental sulfur to enhance the phytoavailability of phosphorus in alkaline calcareous soils. International Journal of Biolgy Fertilier.Soils. Vol, 7, pp 346-350.
Ziaian, A. S., The use of micronutrients in agriculture, agricultural education publishing. (In Persian)
Goodarzi, K., 2004. Effects of sulfur and compost on increasing the absorption of soil nutrients and wheat yield. New ways of feeding wheat. Researches. Wheat Self-Suwareness Project - Ministry of Agriculture Jihad. Tehran Iran. (In Persian)
Babaei, P., Golchin, A., Besharati, H ., Afzali, M., Effect of sulfur microbial fertilizer on nutrient uptake and soybean yield in field, Soil Research (Soil and Water Science), Vol. 26, No, 2A, pp 145 - 151. (In Persian)
Rahimiyan, Z., 2012. Effect of Sulfur and Thiobacillus With Organic Matter on quantitative and qualitative Traits of Canola. Crop Physiology. Vol 3. No 12, pp 19-27. (In Persian)
Moosavi, A. A., Mansouri, S., Zahedifar, M. 2015. Effect of soil water stress and nickel application on micronutrient status of canola grown on two calcareous soils .Journal of Plant Production Science. Vol, 18, pp 377-387.
McDonald, G. K., Mousavvi Nik, M., 2009. Increasing the supply of sulfur increases the grain zinc concentration in bread and durum wheat. UC Davis: The proceedings of the international plant nutrition colloquium XVI.
Orman, S., Hüseyin, O., 2012. Effects of sulfur and zinc applications on growth and nutrition of bread wheat in calcareous clay loam soil. African Journal of Biotechnology, Vol 1, No 13, pp 3080-3086.
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Malekuti, M. J., 2000. Sustainable agriculture and increasing yield by optimizing fertilizer in Iran. Agricultural education publication. Karaj. Iran. (In Persian)
Karimizarchi, M., Aminuddin, H., Khanif, M. Y., Radziah, O., 2014. Elemental sulfur application effects on nutrient availability and sweet maize response (Zea mays) in a high pH soil of Malaysia. Malaysian Journal of Soil Science. Vol. 18, pp75-86.
Erdale, I., Tarakçıolu, C., 2000. Effect of different organic materials on growth and mineral composition of corn plant (Zea mays). Ondokuz Mayıs University Faculty of Agriculture. Journal of Agriculture Sciences. Vol. 15, No. 2, pp 80-85.
Salardini, AS., 1987. Soil Fertility. Tehran University Press. (In Persian)
Ghorbani Nasrabadi, R., Saleh Rastin, N., AliKhani Hossein, A., 2002. Effect of sulfur consumption with inoculum of Thiobacillus and Brady rhizobium on nitrogen fixation and growth parameters of soybean, Soil and Water Sciences, 16 , No 2; pp 170 - 178. (In Persian)
Schueneman, T. J., 2001. Characterization of sulfur sources in the EAA. Soil and Crop Science Society of Florida.Vol. 60, pp 49-52.
Hocking, P. J., Steer, B. T., 1983. Distribution of nitrogen during growth of sunflower (Helianthus annuus). Journal of Annals of Botany. Vol. 51, No 26, pp 787-799.
Ahmadi, M., 2010. Effect of zinc and nitrogen fertilizer rates on yield and yield components of oilseed rape (Brassica napus). World Applied Sciences Journal. Vol. 10, No 3, pp.298-303.
Mirzashahi, K., Pishdarfaradaneh, M., Nourgholipour, F., 2010. Effects different rates of nitrogen and sulphur application on canola yield in north of Khuzestan. Research Agriculture Science. Vol. 6. No 2, pp 107- 112.
Hawkesford, M. J., De Kok, L. J., 2007. Sulfur in plants an ecological perspective. Springer, UK.
Vidyalakshmi, R., Paranthaman, R., Bhagyaraj, R., 2009. Sulphur Oxidizing Bacteria and Pulse Nutrition - A Review. Agricultural Sciences. Vol. 5, pp 270-278.
Rashidi, N., Karimian, N., 1999. Effect of Sulfur and Zinc on Growth and Corn Chemical Composition in a Calcareous Soil, Abstract Sixth Iranian Soil Science Congress, Mashhad. (In Persian)
Mostafavi rad, M., Tahmasebi sarvestani, S. M., Modarse sanavi, V., Ghalavand, A., 2012. Evaluation of Some Agronomic Traits of Rapeseed (Brassica napus) as Affected by Different Sulphur Application Rates. Journal of Field Crops Research, Vol. 10. No3, pp 495-502. (In Persian)
Erdem, H., Torun, M. B., Erdem, N., Yazıcı, A., Tolay, I., Gunal, E., Özkutlu, F., 2016. Effects of different forms and doses of sulfur application on wheat. Turkish Journal of Agriculture - Food Science and Technology.Vol. 4, No. 11, pp 957-961.
, A., Gholami., A., 2015. Improved nutrient uptake and growth of maize in response to inoculation with Thiobacillus and Mycorrhiza on an alkaline soil. Journal of Communication in Soil Science and Plant Analysis, Vol. 46, No 17, pp 2111-2126.
Ehyayie, M., Behbahani Zadeh, A. S., 1993. Descriptions of methods for chemical analysis of soil. first volume. Journal of Soil and Water Research Institute. Agricultural Research and Education Organization, Ministry of Agriculture, Tehran. (In Persian)
Westerman, R. E. L., 1990. Soil testing and plant analysis. SSSA, Madison Wisconsin, USA.
Irshad, A. H., Fayaz-Ahmad, S., Sultan, P., 2011. Effect of Sulfur dioxide on the biochemical parameters of spinach (Spinacea oleracia). Journal of Sciences. Vol. 9, No 1. pp 24-27.
Besharati, H., Khosravi, H., Mostashari, M., Mirzashahi, K., Ghaderi, J., Zabihi, R., 2016, Evaluation of Effects of Thiobacillus, Sulfur and Phosphorous on Corn (Zea mays L.) Growth Indices in some Regions of Iran, Applied Soil Research, Vol. 4, No 1, pp 103-113. (In Persian)
Rosa, M. C., Muchovej, J. J., Alvarez, V. H., 1989. Temporal relations of phosphorus fractions in an oxisoil amended with phosphate and Thiobacillus thiooxidatons. Journal of Society of Agronomy. Vol . 53, pp 1096-1100.
Choghzardi, H. R., Mohammadi, G. H., Beheshti Al Agha, , 2013. Evaluation of Sulfur and Manure Effect on Corn Growth Characteristics (Crossed Cross 704) and Soil Acidity, Crop Researches, Vol 11, No 1 ; pp 162 – 170 . (In Persian)
Momen, A ., Pazaki, A., Audit, M. R., 2011. Investigating the effects of granular sulfur (bentonite) and compost on quantitative characteristics of Bam wheat in Semnan region, Physiology of Crops, Vol 3, No 9; pp 31 - 46. (In Persian)
Deluca, T. H., Skogley, E. O., Engle, R. E., 1989. Band-applied elemental sulfur to enhance the phytoavailability of phosphorus in alkaline calcareous soils. International Journal of Biolgy Fertilier.Soils. Vol, 7, pp 346-350.
Ziaian, A. S., The use of micronutrients in agriculture, agricultural education publishing. (In Persian)
Goodarzi, K., 2004. Effects of sulfur and compost on increasing the absorption of soil nutrients and wheat yield. New ways of feeding wheat. Researches. Wheat Self-Suwareness Project - Ministry of Agriculture Jihad. Tehran Iran. (In Persian)
Babaei, P., Golchin, A., Besharati, H ., Afzali, M., Effect of sulfur microbial fertilizer on nutrient uptake and soybean yield in field, Soil Research (Soil and Water Science), Vol. 26, No, 2A, pp 145 - 151. (In Persian)
Rahimiyan, Z., 2012. Effect of Sulfur and Thiobacillus With Organic Matter on quantitative and qualitative Traits of Canola. Crop Physiology. Vol 3. No 12, pp 19-27. (In Persian)
Moosavi, A. A., Mansouri, S., Zahedifar, M. 2015. Effect of soil water stress and nickel application on micronutrient status of canola grown on two calcareous soils .Journal of Plant Production Science. Vol, 18, pp 377-387.
McDonald, G. K., Mousavvi Nik, M., 2009. Increasing the supply of sulfur increases the grain zinc concentration in bread and durum wheat. UC Davis: The proceedings of the international plant nutrition colloquium XVI.
Orman, S., Hüseyin, O., 2012. Effects of sulfur and zinc applications on growth and nutrition of bread wheat in calcareous clay loam soil. African Journal of Biotechnology, Vol 1, No 13, pp 3080-3086.
