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Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh

Year 2023, , 57 - 67, 23.05.2023
https://doi.org/10.5152/AUAF.2023.23112

Abstract

The sowing of wheat can be delayed in Bangladesh because of the late harvesting of previous crops. Under late-sown conditions, heat stress results in poor development of wheat, which may be avoided by seed priming techniques. The purpose of this study was to assess the effectiveness of several seed priming methods for boosting wheat growth and yield when sown late. In this regard, from December 2019 to March 2020, a field investigation was carried out at the Agronomy Field Laboratory of Bangladesh Agricultural University. The experiment comprised three factors, Factor A: wheat variety namely, BARI Gom-27 and BARI Gom-33; Factor B: sowing dates such as 01 December 2019, 15 December 2019, and 30 December 2019; Factor C: Method of seed priming namely, control (no priming), priming with 20,000 ppm calcium chloride and priming with 20,000 ppm potassium chloride. With three replications, the experiment was set up using a split–split plot design. Research revealed that seed priming was generally effective in promoting plant growth, spikes number m−2, grains spike−1, thousand-grain weight, and grain yield. Both potassium chloride and calcium chloride performed significantly similar. As BARI Gom-33 is more resistant to heat stress, it outperformed BARI Gom-27 in terms of spike length and grains spike−1. However, BARI Gom-27 and BARI Gom-33 performed quite similarly and wheat yield decreased
gradually with the delay of sowing due to temperature stress. A clear advantage of seed priming was found in increasing grain yield at all sowing dates. Therefore, it is recommended to sow wheat by 15 November following seed priming and in case of delay sowing seed priming is a must to mitigate the temperature stress to some extent.

References

  • Ahmed, S., Alam, M. J., Awan, T. H., & Islam, A. K. M. M. (2019). Herbicidal weed control in drill sown spring wheat under Bangladesh condition. Fundamental and Applied Agriculture, 4(2), 839–848. [CrossRef]
  • Akram, H. M., Ali, A., Nadeem, M. A., & Iqbal, M. S. (2007). Yield and yield components of rice varieties as affected by transplanting dates. Pakistan Journal of Agricultural Science, 45(2), 105–111. Ali, H., Iqbal, N., Shahzad, A. N., Sarwar, N., Ahmad, S., & Mehmood, A. (2013). Seed priming improves irrigation water use efficiency, yield and yield components of late-sown wheat under limited water conditions. Turkish Journal of Agriculture, 37, 534–544. [CrossRef]
  • Anwar, M. P., Ahmed, M. K., Islam, A. K. M. M., Hossain, M. D., & Uddin, F. M. J. (2020). Improvement of weed competitiveness and yield performance of dry direct seeded rice through seed priming. Turkish Journal of Weed Science, 23(1), 15–23.
  • Anwar, M. P., Jahan, R., Rahman, M. R., Islam, A. K. M. M., & Uddin, F. M. J. (2021a). Seed priming for increased seed germination and enhanced seedling vigor of winter rice. IOP Conference Series: Earth and Environmental Science, 756(1), 012047. [CrossRef]
  • Anwar, M. P., Khalid, M.A.I., Islam, A.K.M.M., Yeasmin, S., Ahmed, S., Hadifa, A., Ismail, I. A., Hossain, A., & Sabagh, A. E. (2021b). Potentiality of different seed priming agents to mitigate cold stress of winter rice seedlings. PHYTON-International Journal of Experimental Botany, 90(5), 1491–1506. [CrossRef]
  • Anwar, M. P., Juraimi, A. S., Puteh, A., Selamat, A., Rahman, M. M., & Samedani, B. (2012). Seed priming influences weed competitiveness and productivity of aerobic rice. Acta Agriculturae Scandinavica, Section B — Soil & Plant Science, 62(6), 499–509. [CrossRef]
  • Arun, M. N., Hebbar, S.S., Bhanuprakash, B., Senthivel, T. A. K., Nair, A. K., Padmavathi, G., Pandey, P. & Singh, A. (2021). Seed Priming: The Way Forward to Mitigate Abiotic Stress in Crops. In M. Hasanuzzaman, & K. Nahar (Eds.), Plant Stress Physiology - Perspectives in Agriculture. Intech Open. [CrossRef]
  • Ashraf, M., & Foolad, M. R. (2005). Pre-sowing seed treatment-a shotgun approach to improve germination, plant growth, and crop yield under saline and non-saline conditions. Advances in Agronomy, 88, 223–271. [CrossRef]
  • Basra, S. M. A., Farooq, M., & Tabassum, R. (2005). Physiological and biochemical aspects of seed vigor enhancement treatments in fine rice (Oryza sativa L.). Seed Science and Technology, 33(3), 623–628. [CrossRef]
  • BBS (Bangladesh Bureau of Statistics) (2021). Statistical yearbook of Bangladesh (pp. 39–42). Statistics Division, Ministry of Planning, Government of the People’s Republic of Bangladesh.
  • Braun, H. J., Atlin, G., & Payene, T. (2010). Multi-location testing as a tool to identify plant response to global climate change. Climate Change and Crop Production, 1, 115–138. [CrossRef]
  • Du, L. V., & Tuong, T. P. (2002). Enhancing the performance of dry-seeded rice: Effects of seed priming, seedling rate, and time of seeding. Direct Seeding, 241–256.
  • Farooq, M., Basra, S. M. A., Ahmad, N., & Murtaza, G. (2009a). Enhancing the performance of transplanted course rice by seed priming. Paddy and Water Environment, 7(1), 55–63. CrossRef]
  • Farooq, M., Basra, S. M. A., & Hafeez, K. (2006b). Seed invigoration by osmohardening in coarse and fine rice. Seed Science and Technology, 34(1), 181–187. [CrossRef]
  • Farooq, M., Basra, S. M. A., Khalid, M., Tabassum, R., & Mahmood, T. (2006a). Nutrient homeostasis, reserves metabolism and seedling vigor as affected by seed priming in coarse rice. Canadian Journal of Botany, 84(8), 1196–1202. [CrossRef]
  • Farooq, M., Basra, S. M. A., & Khan, M. B. (2007). Seed priming improves growth of nursery seedlings and yield of transplanted rice. Archives of Agronomy and Soil Science, 53(3), 315–326. [CrossRef]
  • Farooq, M., Basra, S. M. A., Rehman, H., & Saleem, B. A. (2008). Seed priming enhances the performance of late sown wheat (Triticum aestivum L.) by improving the chilling tolerance. Journal of Agronomy and Crop Science, 194(1), 55–60. [CrossRef]
  • Farooq, M., Basra, S. M. A., & Ur-Rehman, H. U. (2009b). Seed priming enhances emergence, yield and quality of direct-seeded rice. International Rice Research Notes, 31(2), 42–44. [CrossRef]
  • Farooq, M., Bramley, H., Palta, J. A., & Siddique, K. H. M. (2011). Heat stress in wheat during reproductive and grain filling phases. Critical Reviews in Plant Sciences, 30(6), 491–507. [CrossRef]
  • Harris, D., Joshi, A., Khan, P. A., Gothkar, P., & Sodhi, P. S. (1999). On-farm seed priming in semiarid agriculture development and evaluation in maize, rice and chickpea in India using participatory methods. Experimental Agriculture, 35(1), 15–29. [CrossRef]
  • Islam, N., Ahmed, S. M., Razzaque, M. A., Sufian, A., & Hossain, M. A. (1993). A study on the effect of seedling dates on the yield of wheat varieties. Bangladesh Journal of Agricultural Research, 18(1), 102–107.
  • Jahan, M. A. H. S., Hossain, A., & Hoque, M. A. (2021). Evaluation of economically viable and environmentally friendly weed control methods for wheat (Triticum aestivum L.). Gesunde Pflanz., 73, 209–218. [CrossRef]
  • Kamrozzaman, M. M., Khan, M. A. H., Ahmed, S., & Sultana, N. (2016). Growth and yield of wheat at different dates of sowing under Charland ecosystem of Bangladesh. Journal of the Bangladesh Agricultural University, 14(2), 147–154. [CrossRef]
  • Karim, Z., Hussain, S. G., & Ahmed, M. (1999). Assessing impacts of climate variations on food grain production in Bangladesh. Water, Air, and Soil Pollution, 92, 53–62. [CrossRef]
  • Mahajan, G., Sarlach, R. S., Japinder, S., & Gill, M. S. (2011). Seed priming effects on germination, growth and yield of dry direct-seeded rice. Journal of Crop Improvement, 25(4), 409–417. [CrossRef]
  • Matsushima, K. I., & Sakagami, J. I. (2013). Effects of seed hydropriming on germination and seedling vigor during emergence of rice under different soil moisture conditions. American Journal of Plant Sciences, 04(8), 1584–1593. [CrossRef]
  • Mim, T. F., Anwar, M. P., Ahmed, M., Sriti, N., Moni, E. H., Hasan, A. K., & Yeasmin, S. (2021). Competence of different priming agents for increasing seed germination, seedling growth and vigor of wheat. Fundamental and Applied Agriculture, 6(4), 444–459. [CrossRef]
  • Modarresi, M., Mohammadi, V., Zali, A., & Mardi, M. (2010). Response of wheat yield and yield related traits to high temperature. Cereal Research Communications, 38(1), 23–31. [CrossRef]
  • Nawaz, A., Farooq, M., Sardar, A., Alam, S., & Wahid, A. (2013). Differential response of wheat cultivars to terminal heat stress. International Journal of Agricultural Biology, 15, 1354–1358.
  • Ortiz, R., Sayre, K. D., Govaerts, B., Gupta, R., Subbarao, G. V., Ban, T., Hodson, D., Dixon, J. M., Iván Ortiz-Monasterio, J., & Reynolds, M. (2008). Climate change: Can wheat beat the heat? Agriculture, Ecosystems and Environment, 126(1–2), 46–58. [CrossRef]
  • Patanè, C., Cavallaro, V., & Cosentino., S. L. (2009). Germination and radicle growth in unprimed and primed seed of sweet sorghum as affected by reduced water potential in NaCl at different temperatures. Industrial Crops and Products, 30(1), 1–8. [CrossRef]
  • Qasim, M., Qamer, M., Fariduallah, & Alam, M. (2008). Sowing dates effect on yield and yield components of different wheat varieties. Journal of Agricultural Research, 46(2), 135–140.
  • Ramamurthy, V., Venugopalan, M. V., Parhad, V. N., & Prasad, J. (2015). Effect of seed priming on emergence and yield of late sown wheat (Triticum aestivum L.) on Typic Haplusterts of Central India. Indian Journal of Agricultural Research, 49(3), 245. [CrossRef]
  • Reynolds, M. P., Nagarajan, S., Razzaque, M. A., & Ageeb, O. A. A. (2001). Breeding for adaptation to environmental factors: Heat tolerance. In M. P. Reynolds, J. I. Ortiz-Monasterio & A. McNab (Eds.). Application of physiology in wheat breeding (pp. 124–135). Cimmyt.
  • Shabi, T. H., Islam, A. K. M. M., Hasan, A. K., Juraimi, A. S., & Anwar, M. P. (2018). Differential weed suppression ability in selected wheat varieties of Bangladesh. Acta Scientifica Malaysia, 2(2), 01–07. [CrossRef]
  • Suryakant, S. S., Pahuja, & Verma, S. S. (2000). Productivity of late sown wheat (Triticum aestivum) as influenced by different seed priming treatments. Haryana Journal of Agronomy, 16(1,2), 35–39.
  • Tahir, M., Ali, A., Nadeem, M. A., Hussain, A., & Khalid, F. (2009). Effect of different sowing dates on growth and yield of wheat varieties in district Jhang, Pakistan. Pakistan Journal of Life and Social Science, 7(7), 66–69.
  • Toklu, F., Baloch, F. S., Karaköy, T., & Özkan, H. (2015). Effects of different priming applications on seed germination and some agro morphological characteristics of bread wheat (Triticum aestivum L.). Turkish Journal of Agriculture, 39, 1005–1013. [CrossRef]
  • Trnka, M., Dubrovský, M., Semerádová, D., & Žalud, Z. (2004). Projections of uncertainties in climate change scenarios into expected winter wheat yields. Theoretical and Applied Climatology, 77(3–4), 229–249. [CrossRef]
  • Wahid, A., Noreen, A., Basra, S. M. A., Gelani, S., & Farooq, M. (2008). Priming induced metabolic changes in sunflower achenes improve germination and seedling growth. Botanical Studies, 49, 343–350.
  • Wiegand, C. L., & Cuellar, J. A. (1981) Duration of grain filling and kernel weight of wheat as affected by temperature. Crop Science, 21(1), 95–101. [CrossRef]
  • Yadav, P. V., Kumari, M., & Ahmed, Z. (2011). Seed priming mediated germination improvement and tolerance to subsequent exposure to cold and salt stress in capsicum. Research Journal of Seed Science, 4(3), 125–136. [CrossRef]

Bangladeş’te Geç Ekim Koşullarında Yazlık Buğday Verimliliğinin Tohum Ön İşlemesi Yoluyla Artırılması

Year 2023, , 57 - 67, 23.05.2023
https://doi.org/10.5152/AUAF.2023.23112

Abstract

Bangladeş’te önceki ürünlerin geç hasat edilmesi nedeniyle buğday ekimi geciktirilebilmektedir. Geç ekim koşullarında, sıcaklık stresi buğdayın zayıf gelişmesine neden olur ve bu durum tohum ön işleme teknikleri kullanılarak önlenebilmektedir. Bu çalışmanın amacı, geç ekim yapıldığında tohum ön işleme yöntemlerinin buğday büyümesini ve verimini artırmada etkinliğini değerlendirmektir. Bu amaçla, araştırmamız Aralık 2019’dan Mart 2020’ye kadar, Bangladeş Tarım Üniversitesi Zirai Araştırma arazilerinde gerçekleştirilmiştir. Araştırma, Faktör A - BARI Gom-27 ve BARI Gom-33 olmak üzere iki farklı buğday çeşidi; Faktör B - 01 Aralık 2019, 15 Aralık 2019 ve 30 Aralık 2019 olmak üzere üç farklı ekim tarihi; ve Faktör C - kontrol grubu (ön işlem yapılmamış tohumlar), 20000 ppm CaCl2 ve 20000 ppm KCl ile ön işlem yapılmış tohumlar olmak üzere üç faktörden oluşmuştur. Deneme bölünen bölünmüş parseller deneme desenine göre üç tekerrürlü olarak kurulmuştur. Araştırma, tohum öncesi işlemenin bitki büyümesini, metrekaredeki başak sayısını, başaktaki tane sayısını, bin tane ağırlığı ve tane verimini artırmada genel olarak etkili olduğunu göstermiştir. Hem KCl hem de CaCl2 ön işleme uygulamaları, önemli ölçüde benzer bir performans sergilemiştir. BARI Gom-33 çeşidi, sıcaklık stresi ile mücadele konusunda daha dirençli olduğu için, başak uzunluğu ve başaktaki tane sayısı açısından BARI Gom-27’den daha iyi sonuçlar göstermiştir. Ancak, BARI Gom-27 ve BARI Gom-33 çeşitlerinde ekim geciktikçe benzer sonuçlar göstererek sıcaklık stresi nedeniyle buğday verimi azalmıştır. Tüm ekim tarihlerinde tane
verimini artırmada tohum öncesi işlemin önemi açık bir şekilde görülmüştür. Bu nedenle, tohum ön işlemesi yapıldıktan sonra buğdayın 15 Kasım’a kadar ekilmesi önerilir ve ekimin gecikmesi durumunda, sıcaklık stresini bir dereceye kadar azaltmak için tohum ön işlemesi şarttır.

References

  • Ahmed, S., Alam, M. J., Awan, T. H., & Islam, A. K. M. M. (2019). Herbicidal weed control in drill sown spring wheat under Bangladesh condition. Fundamental and Applied Agriculture, 4(2), 839–848. [CrossRef]
  • Akram, H. M., Ali, A., Nadeem, M. A., & Iqbal, M. S. (2007). Yield and yield components of rice varieties as affected by transplanting dates. Pakistan Journal of Agricultural Science, 45(2), 105–111. Ali, H., Iqbal, N., Shahzad, A. N., Sarwar, N., Ahmad, S., & Mehmood, A. (2013). Seed priming improves irrigation water use efficiency, yield and yield components of late-sown wheat under limited water conditions. Turkish Journal of Agriculture, 37, 534–544. [CrossRef]
  • Anwar, M. P., Ahmed, M. K., Islam, A. K. M. M., Hossain, M. D., & Uddin, F. M. J. (2020). Improvement of weed competitiveness and yield performance of dry direct seeded rice through seed priming. Turkish Journal of Weed Science, 23(1), 15–23.
  • Anwar, M. P., Jahan, R., Rahman, M. R., Islam, A. K. M. M., & Uddin, F. M. J. (2021a). Seed priming for increased seed germination and enhanced seedling vigor of winter rice. IOP Conference Series: Earth and Environmental Science, 756(1), 012047. [CrossRef]
  • Anwar, M. P., Khalid, M.A.I., Islam, A.K.M.M., Yeasmin, S., Ahmed, S., Hadifa, A., Ismail, I. A., Hossain, A., & Sabagh, A. E. (2021b). Potentiality of different seed priming agents to mitigate cold stress of winter rice seedlings. PHYTON-International Journal of Experimental Botany, 90(5), 1491–1506. [CrossRef]
  • Anwar, M. P., Juraimi, A. S., Puteh, A., Selamat, A., Rahman, M. M., & Samedani, B. (2012). Seed priming influences weed competitiveness and productivity of aerobic rice. Acta Agriculturae Scandinavica, Section B — Soil & Plant Science, 62(6), 499–509. [CrossRef]
  • Arun, M. N., Hebbar, S.S., Bhanuprakash, B., Senthivel, T. A. K., Nair, A. K., Padmavathi, G., Pandey, P. & Singh, A. (2021). Seed Priming: The Way Forward to Mitigate Abiotic Stress in Crops. In M. Hasanuzzaman, & K. Nahar (Eds.), Plant Stress Physiology - Perspectives in Agriculture. Intech Open. [CrossRef]
  • Ashraf, M., & Foolad, M. R. (2005). Pre-sowing seed treatment-a shotgun approach to improve germination, plant growth, and crop yield under saline and non-saline conditions. Advances in Agronomy, 88, 223–271. [CrossRef]
  • Basra, S. M. A., Farooq, M., & Tabassum, R. (2005). Physiological and biochemical aspects of seed vigor enhancement treatments in fine rice (Oryza sativa L.). Seed Science and Technology, 33(3), 623–628. [CrossRef]
  • BBS (Bangladesh Bureau of Statistics) (2021). Statistical yearbook of Bangladesh (pp. 39–42). Statistics Division, Ministry of Planning, Government of the People’s Republic of Bangladesh.
  • Braun, H. J., Atlin, G., & Payene, T. (2010). Multi-location testing as a tool to identify plant response to global climate change. Climate Change and Crop Production, 1, 115–138. [CrossRef]
  • Du, L. V., & Tuong, T. P. (2002). Enhancing the performance of dry-seeded rice: Effects of seed priming, seedling rate, and time of seeding. Direct Seeding, 241–256.
  • Farooq, M., Basra, S. M. A., Ahmad, N., & Murtaza, G. (2009a). Enhancing the performance of transplanted course rice by seed priming. Paddy and Water Environment, 7(1), 55–63. CrossRef]
  • Farooq, M., Basra, S. M. A., & Hafeez, K. (2006b). Seed invigoration by osmohardening in coarse and fine rice. Seed Science and Technology, 34(1), 181–187. [CrossRef]
  • Farooq, M., Basra, S. M. A., Khalid, M., Tabassum, R., & Mahmood, T. (2006a). Nutrient homeostasis, reserves metabolism and seedling vigor as affected by seed priming in coarse rice. Canadian Journal of Botany, 84(8), 1196–1202. [CrossRef]
  • Farooq, M., Basra, S. M. A., & Khan, M. B. (2007). Seed priming improves growth of nursery seedlings and yield of transplanted rice. Archives of Agronomy and Soil Science, 53(3), 315–326. [CrossRef]
  • Farooq, M., Basra, S. M. A., Rehman, H., & Saleem, B. A. (2008). Seed priming enhances the performance of late sown wheat (Triticum aestivum L.) by improving the chilling tolerance. Journal of Agronomy and Crop Science, 194(1), 55–60. [CrossRef]
  • Farooq, M., Basra, S. M. A., & Ur-Rehman, H. U. (2009b). Seed priming enhances emergence, yield and quality of direct-seeded rice. International Rice Research Notes, 31(2), 42–44. [CrossRef]
  • Farooq, M., Bramley, H., Palta, J. A., & Siddique, K. H. M. (2011). Heat stress in wheat during reproductive and grain filling phases. Critical Reviews in Plant Sciences, 30(6), 491–507. [CrossRef]
  • Harris, D., Joshi, A., Khan, P. A., Gothkar, P., & Sodhi, P. S. (1999). On-farm seed priming in semiarid agriculture development and evaluation in maize, rice and chickpea in India using participatory methods. Experimental Agriculture, 35(1), 15–29. [CrossRef]
  • Islam, N., Ahmed, S. M., Razzaque, M. A., Sufian, A., & Hossain, M. A. (1993). A study on the effect of seedling dates on the yield of wheat varieties. Bangladesh Journal of Agricultural Research, 18(1), 102–107.
  • Jahan, M. A. H. S., Hossain, A., & Hoque, M. A. (2021). Evaluation of economically viable and environmentally friendly weed control methods for wheat (Triticum aestivum L.). Gesunde Pflanz., 73, 209–218. [CrossRef]
  • Kamrozzaman, M. M., Khan, M. A. H., Ahmed, S., & Sultana, N. (2016). Growth and yield of wheat at different dates of sowing under Charland ecosystem of Bangladesh. Journal of the Bangladesh Agricultural University, 14(2), 147–154. [CrossRef]
  • Karim, Z., Hussain, S. G., & Ahmed, M. (1999). Assessing impacts of climate variations on food grain production in Bangladesh. Water, Air, and Soil Pollution, 92, 53–62. [CrossRef]
  • Mahajan, G., Sarlach, R. S., Japinder, S., & Gill, M. S. (2011). Seed priming effects on germination, growth and yield of dry direct-seeded rice. Journal of Crop Improvement, 25(4), 409–417. [CrossRef]
  • Matsushima, K. I., & Sakagami, J. I. (2013). Effects of seed hydropriming on germination and seedling vigor during emergence of rice under different soil moisture conditions. American Journal of Plant Sciences, 04(8), 1584–1593. [CrossRef]
  • Mim, T. F., Anwar, M. P., Ahmed, M., Sriti, N., Moni, E. H., Hasan, A. K., & Yeasmin, S. (2021). Competence of different priming agents for increasing seed germination, seedling growth and vigor of wheat. Fundamental and Applied Agriculture, 6(4), 444–459. [CrossRef]
  • Modarresi, M., Mohammadi, V., Zali, A., & Mardi, M. (2010). Response of wheat yield and yield related traits to high temperature. Cereal Research Communications, 38(1), 23–31. [CrossRef]
  • Nawaz, A., Farooq, M., Sardar, A., Alam, S., & Wahid, A. (2013). Differential response of wheat cultivars to terminal heat stress. International Journal of Agricultural Biology, 15, 1354–1358.
  • Ortiz, R., Sayre, K. D., Govaerts, B., Gupta, R., Subbarao, G. V., Ban, T., Hodson, D., Dixon, J. M., Iván Ortiz-Monasterio, J., & Reynolds, M. (2008). Climate change: Can wheat beat the heat? Agriculture, Ecosystems and Environment, 126(1–2), 46–58. [CrossRef]
  • Patanè, C., Cavallaro, V., & Cosentino., S. L. (2009). Germination and radicle growth in unprimed and primed seed of sweet sorghum as affected by reduced water potential in NaCl at different temperatures. Industrial Crops and Products, 30(1), 1–8. [CrossRef]
  • Qasim, M., Qamer, M., Fariduallah, & Alam, M. (2008). Sowing dates effect on yield and yield components of different wheat varieties. Journal of Agricultural Research, 46(2), 135–140.
  • Ramamurthy, V., Venugopalan, M. V., Parhad, V. N., & Prasad, J. (2015). Effect of seed priming on emergence and yield of late sown wheat (Triticum aestivum L.) on Typic Haplusterts of Central India. Indian Journal of Agricultural Research, 49(3), 245. [CrossRef]
  • Reynolds, M. P., Nagarajan, S., Razzaque, M. A., & Ageeb, O. A. A. (2001). Breeding for adaptation to environmental factors: Heat tolerance. In M. P. Reynolds, J. I. Ortiz-Monasterio & A. McNab (Eds.). Application of physiology in wheat breeding (pp. 124–135). Cimmyt.
  • Shabi, T. H., Islam, A. K. M. M., Hasan, A. K., Juraimi, A. S., & Anwar, M. P. (2018). Differential weed suppression ability in selected wheat varieties of Bangladesh. Acta Scientifica Malaysia, 2(2), 01–07. [CrossRef]
  • Suryakant, S. S., Pahuja, & Verma, S. S. (2000). Productivity of late sown wheat (Triticum aestivum) as influenced by different seed priming treatments. Haryana Journal of Agronomy, 16(1,2), 35–39.
  • Tahir, M., Ali, A., Nadeem, M. A., Hussain, A., & Khalid, F. (2009). Effect of different sowing dates on growth and yield of wheat varieties in district Jhang, Pakistan. Pakistan Journal of Life and Social Science, 7(7), 66–69.
  • Toklu, F., Baloch, F. S., Karaköy, T., & Özkan, H. (2015). Effects of different priming applications on seed germination and some agro morphological characteristics of bread wheat (Triticum aestivum L.). Turkish Journal of Agriculture, 39, 1005–1013. [CrossRef]
  • Trnka, M., Dubrovský, M., Semerádová, D., & Žalud, Z. (2004). Projections of uncertainties in climate change scenarios into expected winter wheat yields. Theoretical and Applied Climatology, 77(3–4), 229–249. [CrossRef]
  • Wahid, A., Noreen, A., Basra, S. M. A., Gelani, S., & Farooq, M. (2008). Priming induced metabolic changes in sunflower achenes improve germination and seedling growth. Botanical Studies, 49, 343–350.
  • Wiegand, C. L., & Cuellar, J. A. (1981) Duration of grain filling and kernel weight of wheat as affected by temperature. Crop Science, 21(1), 95–101. [CrossRef]
  • Yadav, P. V., Kumari, M., & Ahmed, Z. (2011). Seed priming mediated germination improvement and tolerance to subsequent exposure to cold and salt stress in capsicum. Research Journal of Seed Science, 4(3), 125–136. [CrossRef]
There are 42 citations in total.

Details

Primary Language English
Journal Section ARAŞTIRMALAR
Authors

Md. Asadujjaman1 This is me 0009-0003-2365-0890

Md. Parvez Anwar This is me 0000-0002-6853-9382

Akbar Hossaın This is me 0000-0003-0264-2712

Sinthia Afsana Kheya This is me 0000-0001-8659-1777

Ahmed Khairul Hasan This is me 0000-0001-6762-9098

Sabina Yeasmın This is me 0000-0001-8410-2589

A. K. M. Mominul Islam This is me 0000-0002-9902-0639

Publication Date May 23, 2023
Published in Issue Year 2023

Cite

APA Asadujjaman1, M., Anwar, M. P., Hossaın, A., Kheya, S. A., et al. (2023). Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh. Atatürk Üniversitesi Ziraat Fakültesi Dergisi, 54(2), 57-67. https://doi.org/10.5152/AUAF.2023.23112
AMA Asadujjaman1 M, Anwar MP, Hossaın A, Kheya SA, Hasan AK, Yeasmın S, Islam AKMM. Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh. Atatürk Üniversitesi Ziraat Fakültesi Dergisi. May 2023;54(2):57-67. doi:10.5152/AUAF.2023.23112
Chicago Asadujjaman1, Md., Md. Parvez Anwar, Akbar Hossaın, Sinthia Afsana Kheya, Ahmed Khairul Hasan, Sabina Yeasmın, and A. K. M. Mominul Islam. “Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh”. Atatürk Üniversitesi Ziraat Fakültesi Dergisi 54, no. 2 (May 2023): 57-67. https://doi.org/10.5152/AUAF.2023.23112.
EndNote Asadujjaman1 M, Anwar MP, Hossaın A, Kheya SA, Hasan AK, Yeasmın S, Islam AKMM (May 1, 2023) Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh. Atatürk Üniversitesi Ziraat Fakültesi Dergisi 54 2 57–67.
IEEE M. Asadujjaman1, M. P. Anwar, A. Hossaın, S. A. Kheya, A. K. Hasan, S. Yeasmın, and A. K. M. M. Islam, “Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh”, Atatürk Üniversitesi Ziraat Fakültesi Dergisi, vol. 54, no. 2, pp. 57–67, 2023, doi: 10.5152/AUAF.2023.23112.
ISNAD Asadujjaman1, Md. et al. “Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh”. Atatürk Üniversitesi Ziraat Fakültesi Dergisi 54/2 (May 2023), 57-67. https://doi.org/10.5152/AUAF.2023.23112.
JAMA Asadujjaman1 M, Anwar MP, Hossaın A, Kheya SA, Hasan AK, Yeasmın S, Islam AKMM. Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh. Atatürk Üniversitesi Ziraat Fakültesi Dergisi. 2023;54:57–67.
MLA Asadujjaman1, Md. et al. “Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh”. Atatürk Üniversitesi Ziraat Fakültesi Dergisi, vol. 54, no. 2, 2023, pp. 57-67, doi:10.5152/AUAF.2023.23112.
Vancouver Asadujjaman1 M, Anwar MP, Hossaın A, Kheya SA, Hasan AK, Yeasmın S, Islam AKMM. Augmenting Spring Wheat Productivity Through Seed Priming Under Late-Sown Condition in Bangladesh. Atatürk Üniversitesi Ziraat Fakültesi Dergisi. 2023;54(2):57-6.

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