References
- Abdi, N., A. Bargaz, M. Bouraoui, B. Ltaief, C. Ghoulam, and B. Sifi. 2012. Symbiotic responses to insoluble phosphorus supply in common bean (Phaseolus vulgaris L.): Rhizobia symbiosis. Africain Journal of Biotechnology 11 (19): 4360–4367.
- Alkama, N., G. Ounane, and J. J. Drevon. 2012. Is genotypic variation of H+ efflux under P deficiency linked with nodulated-root respiration of N2-Fixing common-bean (Phaseolus vulgaris L.). Plant Physiology 169: 1084–1089.
- Arfaoui, A., A. El Hadram, Y. Mabrouk, B. SIFI, A. Boudabous, I. El Hadrami, F. Daayf, and M. Cherif. 2007. Treatment of chickpea with Rhizobium isolates enhances the expression of phenylpropanoid defense-related genes in response to infection by Fusarium oxysporum f. sp. Ciceris. Plant Physiology and Biotechnology 45: 470–479.
- Araújo, A. P., C. Plassard, and J. J. Drevon 2008. Phosphatase and phytase activities in nodules of common bean genotypes at different levels of phosphorus supply. Plant and Soil 312: 129–138.
- Barber, S. A. 1983. Mechanisms of phosphorus uptake by plants and their application to plant selection for improved phosphorus uptake efficiency. 3rd international Congress on Phosphorus Compounds. Brussels. pp. 429–443.
- Bargaz, A., M. Faghire, M. Farissi, J. J. Drevon, and C. Ghoulam. 2013. Oxidative stress in the root nodules of Phaseolusvulgaris is induced under conditions of phosphorus deficiency. Acta Physiologiae Plantarum 35: 1633–1644.
- Bargaz, A., M. Faghire, N. Abdi, M. Farissi, B. Sifi, J. J. Drevon, M. Cherkaoui Ikbal, and C. Ghoulam. 2012a. Low soil phosphorus availability increases acid phosphatases activities and affects P Partitioning in nodules, seeds and rhizosphere of Phaseolus vulgaris. Agriculture 2: 139–153.
- Bargaz, A., C. Ghoulam, L. Amenc, M. Lazali, M. Faghire, J. Abadie, and J. J. Drevon. 2012b. A phosphoenol pyruvate phosphatase gene transcript is induced in the root nodule cortex of Phaseolus vulgaris under conditions of P deficiency. Journal of Experimental Botany 63: 4723–4730.
- Bargaz, A., J. J. Drevon, K. Oufdou, B. Mandri, M. Faghire, C. H. Ghoulam. 2011. Nodule phosphorus requirement and O2 uptake in common bean genotypes under phosphorus deficiency. Soil and Plant Science 2011: 1–10.
- Bolan, N. S. 1991. A critical review on the role of mycorrhizal fungi in the uptake of phosphorus by plants. Plant and Soil 134: 189–207.
- Broughton, W. J., G. Hernández, M. Blair, S. Beebe, P. Gepts, and J. Vanderleyden. 2003. Beans (Phaseolus spp.): Model food legume. Plant and Soil 252: 55–128.
- Cassman, K. G., A. S. Whitney, and K. R. Stockinger. 1980. Root growth and dry matter distributed of soybean as affected by phosphorus stress, nodulation, and nitrogen source. Crop Science 20: 239–244.
- Chen, Z., I. I. Pottosin, T. A. Cuin, A. T. Fuglsang, M. Tester, D. Jha, I. Zepeda-Jaza, M. Zhou, M. G. Palmgren, I. A. Newman, and S. Shabala. 2007. Roots plasma membrane transporters controlling K+/Na+ homeostasis in salt-stressed barly. Plant Physiology 145 (4): 1714–1725.
- Chorfi, A. 2009. Contribution to the study of resistance to salinity in a variety of Algerian durum wheat (Triticum durum Desf.) Var mohamed bachir. Science and Technology 29: 41–44.
- Dechassa, D., S. Khairy, and C. Ernst. 2010. Protein and polyphenol profile changes in soybean roots under aluminum stress. Inter. Journal of plant Physiology and Biotechnology 3: 386–345.
- Demidchik, V., S. N. Shabala, and J. M. Davies. 2007. Spatial variation in H2O2 response of Arabidopsis thaliana root epidermal Ca2+ flux and plasma membrane Ca channels. Plant Journal 49: 377–386.
- Dinkelaker, B., V. Romheld, and H. Marschner. 1989. Citric acid excretion and precipitation of calcium citrate in the rhizosphere of white lupine (Lupinus albus L.). Plant Cell and Environment 12: 285–292.
- Drevon, J. J., and U. A. Hartwig. 1997. Phosphorus deficiency increases the argon-induced decline of nodule nitrogenase activity in soybean and alfalfa. Planta 201: 463–469.
- Duff, S. M. G., G. Sarath, and W. C. Plaxton. 1994. The role of acid phosphatase in plant phosphorus metabolism. Plant Physiology 90: 791–800.
- El-Modafar, C., A. Clerivet, and J. J. Macheix. 1996. Flavan accumulation in stems Platanus × acerifolia seedlings inoculated with Ceratocystis fimbriata f.sp platani, the canker stain disease agent. Canadian Journal of Botany 74: 1982–1997.
- Fang, Z. Y., C. Shao, Y. J. Meng, P. Wu, and M. Chen. 2009. Phosphate signaling in Arabidopsis and Oryza sativa. Plant and Science 176: 170–180.
- Georgi, I. G., and E. T. Gergina. 2011. Changes in phosphate fractions, growth rate, nodulation and nitrogen fixation of phosphorus-starved soybean plants. Plant Nutrition 34 (13): 2055–2068.
- Graham, P. H., and C. P. Vance. 2003. Legumes: Importance and constraints to greater use. Plant Physiology 31: 872–877.
- Gunawardena, S. F. B. N., S. K. A. Danso, and F. Zapata. 1992. Phosphorous requirement and nitrogen accumulation by three mungbean (Vigna radiata (L.) Welzek) cultivars. Plant and Soil 147: 267–274.
- Hinsinger, P., C. Plassard, C. Tang, and B. Jaillard. 2003. Origins of root mediated pH changes in the rhizosphere and their environment constraints-a review. Plant and Soil 248: 43–59.
- Kouas, S., N. Alkama, C. Abdelly, and J. J. Drevon. 2008. Proton release by nodulated roots varies among common bean genotypes (Phaseolus vulgaris) under phosphorus deficiency. Plant Nutrition and Soil Science 171: 242–248.
- Lavid, N., A. Schwartz, and E. Lewinsohn. 2001. Phenols and phenol oxidases are involved in cadmium accumulation in the water plants Nymphoides peltata (Menyanthaceae) and Nymphaeae (Nymphaeaceae). Planta 214: 1896–1195.
- Li, C., S. Guil, T. Yang, T. Walk, X. Wang, and H. Liao. 2011. Identification of soybean purple acid phosphatase genes and their expression responses to phosphorus availability and symbiosis. Annals of Botany 109: 275–285.
- Mengel, K., M. Haghparast, and K. Koch. 1974. The effect of potassium on the fixation of molecular nitrogen by root nodules of Vicia faba. Plant Physiology 54 (4): 535–538.
- Mesfin, T., L. Junqi, L. A. Deborah, and P. V. Carroll. 2007. Genomic and genetic control of phosphate stress in Legumes. Plant Physiology 144 (2): 594–603.
- Mhamdi, R., G. Laguerre, M. E. Aouani, M. Mars, and N. Amarger. 2002. Different species and symbiotic genotypes of field rhizobia can nodulate Phaseolus vulgaris in Tunisian soils. Microbiology 41: 77–84.
- Michalak, A. 2006. Phenolic compounds and their antioxidant activity in plants growing under heavy metal stress. Polish Journal of Environmental Studies 4: 523–530.
- Mnasri, B., M. Mrabet, G. Laguerre, M. A. Aouani, and R. Mhamdi. 2007. Salt-tolerant rhizobia isolated from a Tunisian oasis that are highly effective for symbiotic N2-fixation with phaseolus vulgaris constitute a nouvel biovar (bv.mediterranense) of Sinorhizobium meliloti. Archives of Microbiology 187: 79–85.
- Moran, J. F., R. V. Klucas, R. J. Grayer, J. Abian, and M. Becana. 1997. Complexes of iron with phenolic compounds from soybean nodules and other legume tissues: Prooxidant and antioxidant properties. Free Radical Biology Medicine 22: 861–870.
- Muhammad, B. S., I. Usman, Y. Tahira, I. Wajid, and A. Shafaqat. 2013. N, P, K uptake and their grain yields in different wheat cultivars grown in NIAB, Faisalabad. International Journal of Agronomy and Plant Production 4 (7): 1552–1557.
- Murphy, J., and J. P. Riley. 1962. A modified single solution method for the determination of phosphate in natural waters. Analytica Chimica Acta 27: 31–36.
- Pandolfi, C., S. Mancuso, and S. Shabala. 2012. Physiology of acclimation to salinity stress in pea (pisum Sativum). Environmental and Experimental Botany 84: 44–51.
- Ribet, J., and J. J. Drevon. 1995. Increase in permeability to oxygen and in oxygen uptake of soybean nodules under limiting phosphorus nutrition. Plant Physiology 94: 298–304.
- Rotaru, V., and T. R. Sinclair. 2009. Interactive influence of phosphorus and iron on nitrogen fixation by soybean. Environmental and Experimental Botany 66: 94–99.
- Schulze, J., and J. J. Drevon. 2005. P-deficiency increases the O2 uptake per N2 reduced in alfalfa. Journal of Experimental Botany 56: 1779–1784.
- Shabala, S., and T. A. Cuin. 2008. Potassium transport and plant salt tolerance. Plant Physiology 133 (4): 651–669.
- Sifi, B. 2006. List of vegetable varieties listed in the official catalog of plant varieties for the year 2006. JORT N 50: 2178.
- Takahama, U., and T. Oniki. 2000. Flavonoid and some other phenolics as substrates of peroxidase: Physiological significance of the redox reactions. Journal of Plant Research 113: 301–309.
- Vadez, V., F. Rodier, H. Payre, and J. J. Drevon. 1996. Nodule permeability to O2 and nitrogenase-linked respiration in bean genotypes varying in the tolerance of N2 fixation to P deficiency. Plant Physiology and Biotechnology 34: 871–878.
- Vincent, J. M. 1970. A Manual for the Practical Study of Root-Nodule Bacteria. Oxford: Blackwell Scientific.
- White, P. J. 2013. Improving potassium acquisition and utilisation by crop plants. Plant Nutritionand Soil Science 176: 305–316.
- Zahran, H. H. 1999. Rhizobium-Legume symbiosis and nitrogen fixation under severe conditions and in an arid climate. Microbiology and Molecular Biology Reviews 63 (4): 968–989.
- Zaman-Allah, M. 2007. Effects of Rhizobia Inoculation on Tolerance of Common Bean (Phaseolus vulgaris L.) to Salinity Stress and Phosphorus Deficiency. Dissertation. Faculty of Sciences of Bizete, University of Carthage, Tunis, Tunisia.