- Abbasi Seyahjani, E., Yarnia, M., Farhvash, F., Khorshidi Benam, M.B., & Asadi Rahmani, H. (2017). Influence of Rhizobium, Pseudomonas and Fungi mycorrhiza on some traits of red beans (Phaseolus vulgaris ) under drought stress. Journal of Agricultural Science and Sustainable Production, 27(1), 85-102. (In Persian with English abstract). https://doi.org/20.1001.1.24764310.1396.27.1.6.6
- Abdelaziz, M.E., Pokluda R., & Abdelwahab, M.M. (2007). Influence of compost, microorganisms and NPK fertilizer upon growth, chemical composition and essential oil production of Rosmarinus officinalis L. Notulae Botanicae Horti Agrobotanici Cluy-Napoca, 35(1), 86-90. https://doi.org/10.15835/nbha351261
- Abrishamchi, P., Ganjeali1, A., & Sakeni, H. (2012). Evaluation of morphological traits, proline content and antioxidant enzymes activity in chickpea genotypes (Cicer arietinum ) under drought stress. Iranian Journal of Pulses Research, 3(2), 17-30. (In Persian with English abstract). https://doi.org/10.22067/ijpr.v1391i2.24695
- Akhavan, S., Shabanpour, M., & Esfahani, M. (2012). Soil compaction and texture effects on the growth of roots and shoots of wheat. Journal of Water and Soil, 26(3), 727-735. (In Persian with English abstract). https://doi.org/22067/jsw.v0i0.14941
- Amani, N., Sohrabi, Y., & Heidari, G. (2016). Yield and some physiological characteristics in maize by application of bio and chemical fertilizers under drought levels. Journal of Agricultural Science and Sustainable Production, 27(2), 65-83. (In Persian with English abstract)
- Amiri Farsani, F., Chorom, M., & Enayatizamir, N. (2013). Effect of biofertilizerand chemical fertilizer on wheat yield under two soil types in experimental greenhouse. Soil and Water, 27(2), 441-451. (In Persian with English abstract). https://doi.org/22067/jsw.v0i0.24589
- Berta, G., Sampo, S., Gamalero, E., Massa, N., & Lemanceau, P. (2005). Suppression of Rhizoctonia root-rot of tomato by Glomus mossae BEG12 and Pseudomonas fluorescens A6RI is associated with their effect on the pathogen growth and on the root morphogenesis. European Journal of Plant Pathology, 111(3), 279–288. https://doi.org/100/s10658-004-4585-7
- Amooaghaie, R., Mostajeran, A., & Emtiazi, G. (2002). The effect of strain and concentration of Azospirillum brasilense bacterium on growth and development of root in wheat cultivars. Iranian Journal of Agricultural Science, 33(2), 222-231. (In Persian with English abstract)
- Askary, M., Mostajeran, A., & Amooaghaei, R. (2009). Influence of the co-inoculation Azospirillum brasilense and Rhizobum meliloti plus 2,4-D on grain yield and N P K content of Triticum aestivum (cv. Baccros and mahdavi). American-Eurasian Journal of Agriculture and Environment Science, 5(3), 296-307.
- Banerjee, M., Yesmin, R.L., & Vessey, J.L. (2006). Plant-growth- promoting rhizobacteria as biofertilizers and biopesticides, p. 137-181. In: Handbook of microbial biofertilizers. M.K. Rai, (Ed.) Food Production Press, U.S.A.
- Bauhus, J., & Messier, C. (1999). Evaluation of fine root length and diameter measurements obtained using RHIZO image analysis. Agronomy Journal, 19(1), 142–147. https://doi.org/2134/agronj1999.00021962009100010022x
- Boveiri Dehsheikh, A., Mahmoodi Sourestani, M., Zolfaghari, M., & Enayatizamir, N. (2017). The effect of plant growth promoting Rhizobacteria, chemical fertilizer and humic acid on morpho-physiological characteristics of basil (Ocimum basilicum thyrsiflorum). Journal of Agricultural Science and Sustainable Production, 26(4), 129-142. (In Persian with English abstract)
- Caird, M.A., Richards, J.H., & Donovan, L.A. (2007). Night time stomatal conductance and transpiration in C3 and C4 Plant Physiology, 143(1), 4–10. https://doi.org/10.1104/pp.106.092940
- Cakmakci, R., Erat, M., Erdoman, U.G., & Donmez, M.F. (2007). The influence of PGPR on growth parameters, antioxidant and pentose phosphate oxidative cycle enzymes in wheat and spinach plants. Journal of Plant Nutrition and Soil Science, 170(2), 288-295. https://doi.org/10.1002/jpln.200625105
- EL-Ghadban, E.A.E., Ghallab, A.M., & Abdelwahab, A.F. (2002). Effect of organic fertilizer and biofertilization on growth, yield and chemical composition of Marjoram plants under newly reclaimed soil conditions. Journal of Agricultural Chemistry and Biotechnology, 28(9), 6957-6973. https://doi.org/21608/jacb.2003.252955
- Eshghizadeh, H.R., Kafi, M., Nazami, A., & Khoshgoftarmanesh, A.H. (2012). Studies on the role of root morphology attribution in salt tolerance of blue-pani grass (Panicum antidotale ) using artificial neural networks (ANN). Research on Crops, 13(2), 534-544.
- Eydizadeh, K., Mahdavi Damghani, A., Sabahi, H., & Soufizadeh, S. (2010). Effect of integrated application of biofertilizer and chemical fertilizer on growth of maize (Zea mays ) in Shushtar. Journal of Agroecology, 2(2), 292-301. (In Persian with English abstract). https://doi.org/10.22067/jag.v2i2.7636
- Feiziasl, V., Fotovat, A., Astaraeiand, A., & Lakzyan, A. (2014). Effects of nitrogen fertilizer rates and application time on root characteristics of dryland wheat genotypes. Iranain Journal of Dryland Agriculture, 2(1), 41-59. (In Persian with English abstract). https://doi.org/22092/idaj.2014.100555
- Ganjeali, A., & Kafi, M. (2007). Genotypic differences for allometric relationships between root and shoot characteristics chickpea (Cicer arietinum). Pakistan Journal of Botany, 39(5), 1523-1531.
- Glick, B.R., Penrose, D., & Wenbo, M. (2001). Bacterial promotion of plant growth. Biotechnology Advance, 19(2), 135-138. https://doi.org/1016/S0734-9750(00)00065-3
- Gupta, G., Parihar, S.S., Ahirwar, N.K., Snehi, S.K., & Singh, V. (2015). Plant growth promoting rhizobacteria (PGPR): Current and future prospects for development of sustainable agriculture. Journal of Microbial and Biochemical Technology, 7(2), 96-102. https://doi.org/10.4172/1948-5948.1000188
- Hajabbasi, M.A. (2001). Tillage effects on soil compactness and wheat root morphology. Journal of Agricultural Science and Technology, 3, 67-77.
- Hasanabadi, T., Ardakani, M.R., Rejali, F., Paknejad, F., Eftekhari, S.A., & Zargari, K. (2010). Response of barley root characters to co-inoculation with Azospirillum lipoferum and Pseudomonas flouresence under different levels of nitrogen. American-Eurasian Journal of Agriculture and Environmental Science, 9(2), 156-162.
- Huang, B.R., Taylor, H.M., & Mcmichael, B.L. (1991). Growth and development of seminal and crown roots of wheat seedlings as affected by temperature. Environmental and Experimental Botany, 31(4), 471-477. https://doi.org/10.1016/0098-8472(91)90046-Q
- Jiriaie, M., Fateh, E., & Aynehband, A. (2014). The consequences of single and integrated application of mycorrhiza and Azospirillum inoculants on yield and yield components of warm region wheat cultivars (Triticum spp.). Journal of Agroecology, 6(3), 520-528. (In Persian with English abstract). https://doi.org/ 22067/jag.v6i3.21770
- Karthikeyan, B., Jaleel, C.A., Gopi, R., & Delveekasundarm, M. (2007). Alterations in seedling vigour and antioxidant enzyme activities in Catharanthus roseus under seed priming with native Journal of Zhejiang University Science, 8(7), 453-457. https://doi.org/10.1631/jzus.2007.B0453
- Khalvati, M.A., Mozafar, A., & Schmidhalter, V. (2005). Quantification of water uptake by arbuscular mycorrhizal hyphae and its significance for leaf growth water relations and gas exchange of barley subjected to drought stress. Plant Biology Stuttgart, 7(6), 706-712. https://doi.org/1055/s-2005-872893
- Khazaei, H.R., Riahinia, S., & Eshghizadeh, H.R. (2014). Effect of water stress on root distribution and extension of different triticale genotypes. Iranian Journal of Field Crops Research, 12(3), 417-426. (In Persian with English abstract). https://doi.org/22067/gsc.v12i3.42217
- Kennedy, I.R., Choudhury, A.T.M., & Kecskes, M.L. (2004). Non-symbiotic bacterial diazothrophs in crop-farming systems: can their potential for plant growth promoting be better expoited?. Soil Biology and Biochemistry, 1229-1244. https://doi.org/1016/j.soilbio.2004.04.006
- Lovelli, S., Pernio, M., Di Tommaso, T., Biochicchio, R., & Amato, M. (2012). Specific root length and diameter of hydroponically-grown tomato plants under salinity. Journal of Agronomy, 11(4), 101-106. https://doi.org/3923/ja.2012.101.106
- Lucy, M., Reed, E., & Glick, B.R. (2004). Applications of free living plant growth-promoting rhizobacteria. Soil Science, 86, 1-25. https://doi.org/10.1023/B:ANTO.0000024903.10757.6e
- Mahanta, D., Rai, R.K., Mishra, S.D., Raja, A., Purakayastha, T.J., & Varghese, E. (2014). Influence of phosphorus and biofertilizers on soybean and wheat root growth and properties. Field Crops Research, 166, 1–9. https://doi.org/10.1016/j.fcr.2014.06.016
- Mahfouz, S.A, & Sharaf-Eldin, M.A. (2007). Effect of mineral vs. biofertilizer on growth, yield, and essential oil content of fennel (Foeniculum vulgare Mill). International Agrophysics, 21(4), 361-366. https://doi.org/1055/s-2007-987419
- Mandal, K.G., Hati, K.M., Misra, A.K., Ghosh, P.K., & Bandyopadhyay, K.K. (2003). Root density and water use efficiency of wheat as affected by irrigation and nutrient management. Journal of Agricultural Physics, 3(1 & 2), 49-55.
- Mirzashahi, K., Asadi Rahmani, H., Khavazi, K., & Afshari, M. (2013). The effect of two biofertilizer on irrigated wheat in north of Khozestan. Soil and Water Science, 27(2), 159-168. (In Persian with English abstract). https://doi.org/22092/ijsr.2013.126241
- Mostajeran, A., Amooaghaei R., & Emtiazi, G. (2004). The effect of Azospirillum brasilense and pH of irrigation water on yield, protein content and sedimentation rate of protein in different wheat cultivars. Iranian Journal of Biology, 18(3), 243-260. (In Persian with English abstract).
- Naiman, D., Latrónico, A., & Salamone, I.E. (2009). Inoculation of wheat with Azospirillum brasilense and Pseudomonas fluorescens: Impact on the production and culturable rhizosphere microflora. European Journal of Soil Biology, 45(1), 44-51. https://doi.org/10.1016/j.ejsobi.2008.11.001
- Naseri, R. (2017). Effect of phosphate solubilizing bacteria and mycorrhizal fungi on morpho-physiological traits and yield of two wheat cultivars under dryland farming. D. Dissertation, Faculty of Agriculture, Ilam University, Iran, 356 pp. (In Persian with English abstract)
- Naseri, R., Barary, M., Zaree, M.J., Khavazi, K., & Tahmasebi, Z. (2018). Effects of phosphate solubilizing bacteria and mycorrhizal fungi on root charactrestics of some activities of antioxidant anzyme of wheat under dryland conditions. Journal of Applied Research of Plant Ecophysilogy, 5(1), 163-188. (In Persian with English abstract)
- Naseri , Barary, M., Zarea, M., Khavazi, K., & Tahmasebi, Z. (2019a). Evaluation of root and grain yield of wheat cultivars affected by phosphate solubilizing bacteria and mycorrhizal fungi under dry land conditions. Iranian Journal of Field Crops Research, 17(1), 83-98. (In Persian with English abstract). https://doi.org/ 10.22067/gsc.v17i1.69147
- Naseri, R., Soleymanifard, A., Mirzaeir, A., Darabi, F., & Fathi, A. (2019b). The effect of plant growth promoting rhizohacteria on activities of antioxidative enzymes, physiological characteristics and root growth of four chickpea (Cicer arietinum ) cultivars under dry land conditions of Ilam province. Iranian Journal of Pulses Research, 10(2), 62-76. (In Persian with English abstract). https://doi.org/10.22067/ijpr.v10i2.64299
- Nezarat, S., & Gholami, M. (2009). Screening plant growth promoting rhizobacteria for improving grain germination seedling growth and yield of maize. Pakistan Journal of Biological Sciences, 12(1), 26-32. https://doi.org/3923/pjbs.2009.26.32
- Paula, P., & Pausas, J.G. (2011). Root traits explain different foraging strategies between resprouting life histories. Oecologia, 165, 321–331. https://doi.org/10.1007/s00442-010-1806-y
- Russo, A., Felici, C., Toffanin, A., G.tz M., Collados, C., & Barea, J.M. (2005). Effect of Azospirillum inoculants on arbuscular mycorrhiza establishment in wheat and maize plants. Journal of Biology and Fertility of Soils, 41(5), 301– https://doi.org/10.1007/s00374-005-0854-7
- Schenk, M.K., & Barber, S.A. (1979). Root characteristics of corn genotypes as related to P uptake. Agronomy Journal, 71, 921-927. https://doi.org/10.2134/agronj1979.00021962007100060006x
- Serraj, R., Krishnamurthy, L., Kashiwagi, J., Kumar, J., Chandra, S., & Crouch, J.H. (2004). Variation in root traits of chickpea (Cicer arietinum) grown under terminal drought. Field Crops Research, 88(2-3), 115–127. https://doi.org/10.1016/j.fcr.2003.12.001
- Shaban, M., Mansourifar, S., Ghobadi, M., & Ashrafi Parchin, R. (2012). Effect of drought stress and starter nitrogen fertilizer on root characteristics and seed yield of four chickpea (Cicer arietinum) genotypes. Seed and Plant Production Journal, 27(4), 451-470. (In Persian with English abstract). https://doi.org/10.22092/sppj.2017.110448
- Shaharoona, B., Arshad, M., Zahir, Z.A., & Khalid, A. (2006). Performance of Pseudomonas containing ACC deaminase for improving growth and yield of maize (Zea mays L.) in the presence of nitrogenous fertilizer. Soil Biology and Biochemistry, 38(9), 2971-2975. https://doi.org/10.1016/j.soilbio.2006.03.024
- Shaharoona, B., Naveed, M., Arshad, M., & Zahir, Z.A. (2008). Ferttilizer-dependent efficiency of Pseudomonas for improving growth, yield and nutrient use efficiency of wheat (Triticum aestivum L.). Microbial Biotechnology, 79(1), 147-155. https://doi.org/1007/s00253-008-1419-0
- Shata, S.M., Mahmoud, S.A., & Siam, H.S. (2007). Improving calcareous soil productivity by integrated effect of intercropping and fertilizer. Research Journal of Agriculture and Biological Sciences, 3, 733-739.
- Siddigue, K.H.M., Belford, R.K., & Tennant, D. (1990). Root/shoot ratio of old and modern, tall and semi-draft wheat in a Mediterranean environment. Plant and Soil, 121(1), 89-98. https://doi.org/1007/BF00013101
- Tavakoli, M., & Jalali, A.H. (2016). Effect of different biofertilizers and nitrogen fertilizer levels on yield and yield components of wheat. Journal of Crop Production and Processing, 6(21), 33-45. (In Persian with English abstract). https://doi.org/ 18869/acadpub.jcpp.6.21.34
- Vessey, J.K., & Buss, T.J. (2002). Bacillus cereus UW85 inoculation effects on growth, nodulation, and N accumulation in grain Iegumes. Controlled-environment studies. Canadian Journal of Plant Science, 82(2), 283-290. https://doi.org/10.4141/P01-047
- Yang, J., Kloepper, J.W., & Ryu, C.M. (2009). Rhizosphere bacteria help plants tolerate abiotic stress. Trends in Plant Science, 14(1), 1-4. https://doi.org/10.1016/j.tplants.2008.10.004
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