بهبود جذب عناصر غذایی پرمصرف و شاخص‌های کارایی نیتروژن کلزا (Brassica napus L.) با مصرف همزمان کود زیستی و شیمیایی نیتروژنه

1.Jahandideh, M., Barani Mutlaq, M., Dardipour, A., & Ghorbani Nasrabadi, R. (2018). The effect of humic acid on the availability of phosphorus fertilizer and some physiological traits of rapeseed. Journal of Water and Soil (Agricultural Science and Technology), 23(6), 884-873.

2.FAO. (2022). Food outlook, Biannual Report on Global Food Markets. Available in: https://openknowledge.fao.org/items/8631452d-c58c-4aa6-8bce-c5fe7bafa02c

3.Iran Agricultural Statistics. (2021). Ministry of Agriculture-Jahad, Planning and Economic Deputy, Information and Communication Technology Center.

4. Bakhsandeh, A. M., Hamdi Shangri, A., Qurina, M., & Fathi, Q. A. (2015). Investigating the effect of planting delay and nitrogen levels on seed yield, morphological traits and chlorophyll index of rapeseed (Brassica napus L.) in Ahvaz weather conditions. Iranian Journal of Plant Protection Science, 6, 69-75.
5. Dabighi, Kh., Fateh, A., & Ayneband, A. (2016). Effect of different green manure crops and nitrogen sources on grain yield, oil content and some qualitative traits of canola (Brassica napus) var. 401. Agronomy Journal (Pajouhesh & Sazandegi), 29(2), 137-154.
6. Fazli-Kakhki, S. F., Goldani, M., Soleimani Far, F., & Beykzadeh, N. (2022). Response of Two Rapeseed Cultivars (Brassica napus L.) in Terms of Growth Indices, Yield and Yield Components to Method of Nitrogen Fertilizer Application in Gonbad-e Qabus Plain. Journal of Crop Ecophysiology, 16(62), 255-270.
7. Chakherloo, M., Basharat, S., & Reza Vardinjad, V. (2019). Effect of nitrogen and salinity on irrigation water yield and productivity at different soil moisture levels. Applied Soil Research, 8(4), 116-130.

8.Li, J., Zhou, Y., Gu, H., Lu, Z., Cong, R., Li, X., & Lu, J. (2023). Synergistic effect of nitrogen and potassium on seed yield and nitrogen use efficiency in winter oilseed rape (Brassica napus L.). European Journal of Agronomy, 148, 126875.

9.Zhan, N., Xu, K., Ji, G., Yan, G., Chen, B., Wu, X., & Cai, G. (2023). Research Progress in High-Efficiency Utilization of Nitrogen in Rapeseed. International Journal of Molecular Sciences, 24(9), 7752.

10.Lou, H., Zhao, B., Peng, Y., El-Badri, A. M., Batool, M., Wang, C., & Zhou, G. (2023). Auxin plays a key role in nitrogen and plant density-modulated root growth and yield in different plant types of rapeseed. Field Crops Research, 302, 109066.

11. Hosseini, S. M. A., Taslimi, A., Karmi, Y. A., & Dastfal, A. (2019). The Effect of Nitrogen Biofertilizers on Yield and Yield Components of Two Wheat Cultivars (Chamran and Shiroodi). Iranian Journal of Soil and Water Research, 50(8), 1927-1936.

12.Ghanbari, M., Mokhtasi Bidgoli, A., Talebi Siah Saran, P., Pirani, H., & Karamniya, S. (2016). Evaluating the efficiency of Azotobacter in combination with Pseudomonas putida phosphate dissolving bacteria in soybean (Glycine max Merr.) under different irrigation regimes. Journal of Applied Research of Plant Ecophysiology, 13(52), 189-210.

13.Safari, M. R., Dadashi, M. R., Faraji, A., & Armin, M. (2023). Effect of biofertilizer and drought stress on quantitative and qualitative traits in some winter rapeseed (Brassica napus L.) cultivars. Romanian Agricultural Research, 40, 1563-1578.

14.Vejan, P., Abdullah, R., Khadiran, T., Ismail, S., & Nasrulhaq Boyce, A. (2016). Role of plant growth promoting rhizobacteria in agricultural sustainability - a review. Molocule, 21, 1-17.

15.Gholami, M., Kuchakzadeh, A., & Siadat, S. A. (2022). Evaluation the nutrient content of different rapeseed (Brassica napus L.) cultivars under the effect of Azotobacter and irrigation. Iranian Journal of Field Crop Science, 53(1), 27-38.

16.Novozamsky, I., Van Eck, R., Van Schouwenburg, J. C. H., & Walinga, I. (1974). Total nitrogen determination in plant material by means of the indophenol blue method. Netherlands Journal of Agricultural Science, 22, 3-5.

17.Emami, A. (1996). Plant analysis methods. Publication of Research Organization, Agricultural Extension Training, No. 982. Publications of Soil and Water Research Institute. 1, 126 p.

18.Peterson, J. R., Flanagan, J., & Shmact, K. T. (2002). PAM application method and electrolyte source effects on plot-scale runoff and erosion. Trans ASAE, 45(6), 1859-1867.

19.Bingham, I. J., Karley, AJ., White, P. J., Thomas, W. T. B., & Russell, J. R. (2012) Analysis of improvements in nitrogen use efficiency associated with 75 years of spring barley breeding. European Journal of Agronomy, 42, 49-58.

20.Kakabouki, I. P., Hela, D., Roussis, I., Papastylianou, P., Sentras, A. F., & Bilalis, D. J. (2018). Influence of fertilization and soil tillage on nitrogen uptake and utilization efficiency of quinoa crop (Chenopodium quinoa Wild.). Journal of Soil Science and Plant Nutrition, 18, 220-235.

21.Shakeri, A., Amini Dehaghi, M., Tabatabai, A., & Modares Sanavi, A. M. (2012). The effect of chemical and biological fertilizers on yield, yield components, oil percentage and protein content of sesame cultivars. Journal of Agricultural Science and Sustainable Production, 22,71-82.

22.Rastgo, B., Ebadi, A., & Permon, Q. (2013). Investigating the effect of nitrogen consumption on yield and composition of safflower seed reserves. Crop Physiology, 6(21), 85-102.

23.Pedraza, R. O., Bellone, C. H., Bellone, S. C. D., Sorte, P. M. F. B., & Teixira, K. R. D. S. (2009). Azospirillium inoculation and nitrogen fertilization effect on grain yield and on the diversity of endophytic bacteria in the phyllosphere of rice rainfed crop. Eourpean Journal of Soil Biology, 45, 36-43.

24.Sattarzadeh, E., Yarnia, M., Khalilvand Behrooznia, E., Mirshekari, B., & Rashidi, V. (2023). Investigation of the possibility of reducing the effects of low irrigation of lavender (Lavandula officinalis L.) using biofertilizers and phosphorus through changes in some morphological and biochemical characteristics. Environmental Stresses in Crop Sciences, 22, 44-52.

25.Bakhtiari, M., Ganjali, H. R., Mehraban, A., & Ebrahimi, A. (2016). Investigating the effects of nitrogen and phosphorus application on quantitative and qualitative yield of safflower in Sistan region. New Findings in Agriculture, 10, 241-253.

26. Pandiaraj, T., Selvaraj, S., & Ramu, N. (2015). Effects of crop residue management and nitrogen fertilizer on soil nitrogen and carbon content and productivity of wheat (Triticum aestivum L.) in two cropping systems. Journal of Agricultural Science and Technology, 17, 249-260.
27. Tawhidi Moghadam, H.R., Ghoshaqi, F., Zakari, A., & Hadi, H. (2008). Evaluation of Azospirillum and Azotobacter with nitrogen chemical fertilizer utilization on yield of fodder maize (Zea mays L.). Dynamic Agriculture, 5, 355-349.
28. Esitken, A., Yildiz, H. E., Ercisli, S., Donmez, M. F., Turan, M., & Gunes, A. (2010). Effect of plant growth promoting bacteria on yield, growth and nutrient content of organically grown strawberry. Scientia Horticulturae, 124, 62-66.
29. Nasrollahzadeh, A., & Ahmad, Gh. (2018). The effect of application using nitragin and nitroxin biofertilizers on reduce the use of nitrogen chemical fertilizer in sunflower cultivation (Helianthus annuus L.). Environment Conservation Journal, 19, 39-46.
30. Latifi, H., Khorram-Del, S., Nasiri-Mahlati, M., & Farzaneh Belgerdi, M. R. (2017). Effect of nitrogen fertilizer and plant density on seed yield and oil yield of sesame using a central composite design. Iranian Journal of Field Crops Research, 25(3), 125-140.

31.Ameri, A.A., Nasiri-Mahlati, M., & Rizvani-Moghadam, P. (2016). The effect of different amounts of nitrogen and density on the efficiency of nitrogen use, flower yield and effective ingredients of marigold. Iranian Agricultural Research Journal, 5(2), 315-325.

32.Schjoerring, J.K., Bock, J.G.H., Gammelvind, L., Jensen, C. R., & Mogensen, V.O. (1995). Nitrogen incorporation and remobilization in different shoot components of field-grown winter oilseed rape (Brassica napus L.) as affected by rate of nitrogen application and irrigation. Plant and Soil, 177, 255–264.