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Journal of Plant Nutrition Volume 39, 2016 - Issue 14
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Articles

Effects of mycorrhiza colonization on growth, root exudates, antioxidant activity and photosynthesis trait of cucumber grown in Johnson modified nutrient solution

Maryam HaghighiDepartment of Horticulture, College of Agriculture, Isfahan University of Technology, Isfahan, Iran
,
Saber MohmmadniaDepartment of Horticulture, College of Agriculture, Isfahan University of Technology, Isfahan, Iran
&
Mohammad PessarakliSchool of Plant Sciences, The University of Arizona, Tucson, AZ, USACorrespondence[email protected]
Pages 2079-2091 | Received 05 Aug 2014, Accepted 04 Feb 2015, Published online: 30 Aug 2016

References

  • Ahmadi, A., and A. Siosemardeh. 2005. Investigation on the physiological basis of grain yield and drought resistance in wheat: Leaf photosynthetic rate, SC, and non-stomatal limitations. International Journal of Agriculture and Biology 7: 807–811.
  • Aktar Maya, M., and Y. Matsubara. 2013. Influence of arbuscular mycorrhiza on the growth and antioxidative activity in cyclamen under heat stress. Mycorrhiza 23: 381–390.
  • Azcon-Aguilar, C., M. C. Jaizme-Vega, and C. Calvet. 2002. The contri- bution of arbuscular mycorrhizal fungi to the control of soil-borne plant pathogens. In: Mycorrhizal Technology in Agriculture, eds. S. Gianinazzi, H. Schuepp, J. M. Barea, and K. Haselwandter, pp. 187–197. Basel: Birkhauser.
  • Barton, L. L., and J. Abadia. 2006. Iron Nutrition in Plants and Rhizospheric Microorganisms. New York: Springer.
  • Birhane, E., F. J. Sterck, M. Fetene, F. Bongers, and T. W. Kuyper. 2012. Arbuscular mycorrhizal fungi enhance photosynthesis, water use efficiency, and growth of frankincense seedlings under pulsed water availability conditions. Oecologia 169: 895–904.
  • Boukhalfa, H., and A. L. Crumbliss. 2002. Chemical aspects of siderophore mediated transport. BioMetals 15: 325–339.
  • Busquets, M., C. Calvet, A. Camprubí, and V. Estaún. 2010. Differential effects of two species of arbuscular mycorrhiza on the growth and water relations of Spartium junceum and Anthyllis cytisoides. Symbiosis 52: 95–101.
  • Caris, C., W. Hoerdt, H-J. Hawkins, V. Römheld, and E. George. 1998. Studies of iron transport by arbuscular mycorrhizal hyphae from soil to peanut and sorghum plants. Mycorrhiza 8: 35–39.
  • Cameron, D. D. 2010. Arbuscular mycorrhizal fungi as (agro) ecosystem engineers. Plant and Soil 333: 1–5.
  • Campanelli, A., C. Ruta, G.-D. Mastro, and I. Morone-Fortunato. 2013. The role of arbuscular mycorrhizal fungi in alleviating salt stress in Medicago sativa L. var. icon. Symbiosis 59 (2): 65–76.
  • Ceccarelli, N., M. Curadi, L. Martelloni, C. Sbrana, P. Picciarelli, and M. Giovannetti. 2010. Mycorrhizal colonization impacts on phenolic content and antioxidant properties of artichoke leaves and flower heads two years after field transplant. Plant and Soil 335: 311–323.
  • Durgapal, A., A. Pandey, and L. S. Palni. 2002. The use of rhizosphere soil for improved establishment of conifers at nursery stage for application in plantation programmers. Journal of Sustainable Foresty 15: 57–73.
  • Dutt, S., S.-D. Sharmaa, and P. Kumar. 2013. Arbuscular mycorrhizas and Zn fertilization modify growth and physiological behavior of apricot (Prunus armeniaca L.). Scientia Horticulturae 155: 97–104.
  • Feddermann, N., R. Finlay, T. Boller, and M. Elfstrand. 2010. Functional diversity in arbuscular mycorrhiza – the role of gene expression, phosphorous nutrition and symbiotic efficiency. Fungal Ecology 3: 1–8.
  • Haghighi, M., S. Heidarian, and J. A. Teixeira da Silva. 2012. The effect of titanium amendment in N-withholding nutrient solution on physiological and photosynthesis attributes and micro-nutrient uptake of tomato. Biological Trace Element Research 150: 381–390.
  • Hansen, N. C., M. A. Schmitt, J. E. Anderson, and J. S. Strock. 2003. Fe deficiency of soybean in the upper Midwest and associated soil properties. Agronomy Journal 95: 1595–1601.
  • Hawkes, C. V., I. P. Hartley, P. Ineson, and A. H. Fitter. 2008. Soil temperature affects carbon allocation with arbuscular mycorrhizal networks and carbon transport from plant to fungus. Global Change Biology 14: 1181–1190.
  • Hays, R., C. P. P. Reid, T. V. St. John, and D. C. Coleman. 1982. Effects of nitrogen and phosphorus on blue grama growth and mycorrhizal infection. Oecologia 54: 260–265.
  • Hemalatha, K., and S. Venkatesan. 2011. Impact of iron toxicity on certain enzymes and biochemical parameters of tea. Asian Journal of Biochemistry 6: 384–394.
  • Huat, O.-K., K. Awang, A. Hashim, and N. Muhamad Majid. 2002. Effects of fertilizers and vesicular–arbuscular mycorrhizas on the growth and photosynthesis of Azadirachta excelsa (Jack) Jacobs seedlings. Forest Ecology and Management 158: 51–58.
  • Jin, C. W., Y. F. He, C. X. Tang, P. Wu, and S. J. Zheng. 2006. Mechanisms of microbial enhanced iron uptake in red clover. Plant, Cell and Environment 29: 888–897.
  • Jin, C.-W., G.-X. Li, X.-H. Yu, and S. J. Jiang Zheng. 2010. Plant Fe status affects the composition of siderophore-secreting microbes in the rhizosphere. Annals of Botany 105: 835–841.
  • Johnson, N. C., J. H. Graham, and F. A. Smith. 1997. Functioning of mycorrhizal associations along the mutualism-parasitism continuum. New Phytologist 135: 575–585.
  • Johansen, A., I. Jakobsen, and E. Jensen. 1994. Hyphal N transport by a vesicular-arbuscular mycorrhizal fungus associated with cucumber grown at three nitrogen levels. Plant and Soil 160: 1–9.
  • Koleva, I. I., T. A. Van Beek, J. P. H. Linssen, A. de Groot, and L. N. Evstatieva. 2002. Screening of plant extracts for antioxidant activity: A comparative study on three testing methods. Phytochemical Analysis 13: 8–17.
  • Liu, A., C. Hamel, R. I. Hamilton, B. L. Ma, and D. L. Smit. 2000. Acquisition of Cu, Zn, Mn and Fe by mycorrhizal maize (Zea mays L.) grown in soil at different P and micronutrient levels. Mycorrhiza 9: 331–336.
  • McDonald, S., P. D. Prenzler, M. Antolovich, and K. Robards. 2001. Phenolic content and antioxidant activity of olive extracts. Food Chemistry 73: 73–84.
  • Nenova, V. R. 2009. Growth and photosynthesis of pea plants under different iron supply. Acta Physiologiae Plantarum 31: 385–391.
  • Ordookhani, K., and M. Zare. 2011. Effect of pseudomonas, azotobacter and arbuscular mycorrhiza fungi on lycopene, antioxidant activity and total soluble solid in tomato (Lycopersicon esculentum F1 Hybrid, Delba). Advance in Environmental Biology 5: 1290–1294.
  • Oztekin, G.-B., Y. Tuzel, and I. Hakki Tuzel. 2013. Does mycorrhiza improve salinity tolerance in grafted plants. Scientia Horticulturae 149: 55–60.
  • Paradi, I., Z. Bratek, and F. Lang. 2003. Influence of arbuscular mycorrhiza and phosphorus supply on polymine content, growth and photosynthesis of Plantago lanceolata. Biologia Plantarum 46: 563–569.
  • Sheng, M., M. Tang, H. Chen, B. Yang, F. Zhang, and Y. Huang. 2008. Influence of arbuscular mycorrhizae on photosynthesis and water status of maize plants under salt stress. Mycorrhiza 18: 287–296.
  • Smith, S. E., and D. J. Read. 2008. Mycorrhizal Symbiosis. London: Academic Press.
  • Vazquez, M. M., J. M. Barea, and R. Azcon. 2002. Influence of arbuscular mycorrhizae and a genetically modified strain of Sinorhizobium on growth, nitrate reductase activity and protein content in shoots and roots of Medicago sativa as affected by nitrogen concentrations. Soil Biology and Biochemistry 34: 899–905.
  • Walling, S.-Z., and C.-A. Zabinski. 2006. Defoliation effects on arbuscular mycorrhizae and plant growth of two native bunchgrasses and an invasive forb. Applied Soil Ecology 32: 111–117.
  • Wu, Q.-S., and Y. N. Zou. 2010. Beneficial roles of arbuscular mycorrhizas in citrus seedling at temperature stress. Scientia Horticulturae 125: 289–293.
  • Zhang, F., V. Romheld, and H. Marschner. 1991. Role of the root apoplasm for iron acquisition by wheat plants. Plant Physiology 97: 1302–1305.
  • Zhu, X.-C., F.-B. Song, S.-Q. Liu, and T.-D. Liu. 2011. Effects of arbuscular mycorrhizal fungus on photosynthesis and water status of maize under high temperature stress. Plant and Soil 346: 189–199.
  • Zubek, S., A. M. Stefanowiczb, J. Błaszkowski, M. Niklinskad, and K.-S. Łozykowskae. 2012. Arbuscular mycorrhizal fungi and soil microbial communities under contrasting fertilization of three medicinal plants. Applied Soil Ecology 59: 106–115.

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