Response of two tomato cultivars differing in salt tolerance to inoculation with mycorrhizal fungi under salt stress

Al‐Karaki, Ghazi N.; Hammad, Raza Syed; Rusan, M.

doi:10.1007/s005720100098

Cited by 189 publications

(108 citation statements)

References 27 publications

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“…Inoculation with AMF improves growth of plants under a variety of salt stress conditions (Al-Karaki et al 2001;Giri et al 2003;Sannazzaro et al 2006). We have observed the same for shoot and root dry weights of K. virginica inoculated with AMF and/or Ms at all salinity levels.…”

Section: Effect Of Inoculation On Plant Growth Under Salt Stresssupporting

confidence: 72%

Interactions between arbuscular mycorrhizal fungi and phosphate-solubilizing fungus (Mortierella sp.) and their effects on Kostelelzkya virginica growth and enzyme activities of rhizosphere and bulk soils at different salinities

et al. 2011

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Section: Effect Of Inoculation On Plant Growth Under Salt Stresssupporting

confidence: 72%

Interactions between arbuscular mycorrhizal fungi and phosphate-solubilizing fungus (Mortierella sp.) and their effects on Kostelelzkya virginica growth and enzyme activities of rhizosphere and bulk soils at different salinities

et al. 2011

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“…The result suggests that AMF might play a key role in improving salt resistance of S. physophora under high salt condition and maintaining productivity. The possible reasons are that AMF can help plants uptake water (Porcel et al, 2003) and nutrients (Kaya et al, 2009) from the soil and can decrease the concentration of toxic ions caused by high salt in the soil (Al-Karaki et al, 2001;Mohammad et al, 2003). Moreover, AMF have been shown to increase the activities of antioxidative enzymes (He et al, 2007) and produce plant growth hormones (Iqbal and Ashraf, 2013) that have beneficial effects on plant growth under salt stress.…”

Section: Discussionmentioning

confidence: 99%

Arbuscular Mycorrhizal Fungi Improve the Antioxidative Response and the Seed Production of Suaedoideae Species Suaeda physophora Pall Under Salt Stress

Yang

Yu²,

Zhang

et al. 2016

Not Bot Horti Agrobo

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Arbuscular mycorrhizal fungi (AMF) play a key role in plant growth and survival; however, the influence of AMF on the growth and production of Suaedoideae species is still not well understood. The object of this study was to understand the mechanism of AMF that affects the growth of Suaedoideae species under different saline conditions. The result showed that the Suaedoideae species Suaeda physophora was colonized by the AMF species Glomus etunicatum (Ge) and Glomus mosseae (Gm). AMF significantly increased the activities of superoxide dismutase (SOD) and peroxidase (POD) in S. physophora and reduced the concentrations of malondialdehyde (MDA) and H 2 O 2 in the leaves of S. physophora under salt stress. AMF also improved the aboveground biomass of S. physophora and significantly increased its seed numbers. Moreover, AMF increased the aboveground phosphorus (P) content of S. physophora. No significant difference between the effect of AMF species Ge and Gm on S. physophora growth was observed. These results suggest that AMF can increase the salt resistance of the Suaedoideae species S. physophora by increasing SOD and POD activities, reducing MDA and H 2 O 2 concentrations and increasing P uptake. The results highlight that AMF might play an important role in S. physophora growth and population survival under harsh salt conditions.

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“…This fact can be justified as follows: such symbioses may cause hydrogen (H) pumps that generate the driving force for increasing the value of the K/Na ratio which enhance the plant salinity tolerance (Rabie and Almadini 2005). In addition, AMF may also increase plant salinity tolerance by increasing mineral nutrition acquisition (Cordovilla et al 1995), improving rhizospheric conditions (Linderman 1994), enhancing water potential (Hildebrandt et al 2001;Marulanda et al 2003), altering physiological and biochemical properties of the host plants (Smith and Read 1997), and enhancing host physiological processes such as increasing the carbon dioxide exchange rate, transpiration, stomatal conductance, root hydraulic conductivity and water use efficiency (Ruiz-Lozano et al 1996;Smith and Read 1997;Al-Karaki et al 2001).…”

Section: Discussion Nutrientsmentioning

confidence: 99%

“…Nourinia et al (2007) reported that inoculation of barley (Hordeum vulgare L.) root with Glomus mosseae produced significant colonization, but colonization percentage decreased as salinity level increased, and it was concluded that this could be due to a direct effect of NaCl on the fungi. Al-Karaki et al (2001) reported that mycorrhizal colonization was negatively affected by salinity stress and they concluded that it was possibly due to the effect of salt on initial colonization. Several other researchers have also shown that salinity reduces mycorrhizal colonization through inhibiting the germination of spores (Hirrel and Gerdemann 1980), inhibiting growth of hyphae in soil and hyphal spreading after initial infection had occurred (McMillen et al 1998), and reducing the number of arbuscules (Tian et al 2004).…”

Section: Mycorrhizaementioning

confidence: 99%

Co-inoculations of arbuscular mycorrhizal fungi and rhizobia under salinity in alfalfa

Ashrafi

Zahedi

Razmjoo

2014

Soil Science and Plant Nutrition

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Alfalfa (Medicago sativa L.) is cultivated in arid and semi-arid regions where salinity is one of the main limiting factors for its production. Thus, this experiment was conducted to evaluate the efficacy of arbuscular mycorrhizal fungus (AMF), Glomus mosseae, alfalfa rhizobia Sinorhizobium meliloti (R) seed inoculation in the development of salinity tolerance of different alfalfa cultivars (Rehnani, Pioneer and Bami) under a variety of salinity levels. The results revealed that under non-stress condition, root mycorrhizal infection, nodulation (the number and weight of nodules per plant), potassium (K), calcium (Ca), phosphorus (P), zinc (Zn), copper (Cu) and magnesium (Mg) contents of the root and shoot, the value of the K/ Na ratio, protein [calculated from the nitrogen (N) content] and proline contents of the shoot and the alfalfa yield were found to be the highest while Na contents of the root and shoot were seen to be the lowest when seeds were double inoculated followed by mycorrhizae, rhizobium and control treatments, respectively. Similarly, under salinity condition, the greatest amounts of mycorrhizal infection, nodulation, root and shoot P contents, the value of K/Na ratio, the shoot proline content and the root Ca content were enhanced with the least amount of leaf Na content related to the cases of seeds which were double inoculated, followed by mycorrhizae, rhizobium and control treatments respectively. The results suggested that inoculation of alfalfa seed with AMF or R, especially double inoculation, causes a considerable increase in alfalfa yield under both saline and non-saline conditions by increasing colonization, nodulation and nutrient uptake.

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Response of two tomato cultivars differing in salt tolerance to inoculation with mycorrhizal fungi under salt stress

Cited by 189 publications

References 27 publications

Interactions between arbuscular mycorrhizal fungi and phosphate-solubilizing fungus (Mortierella sp.) and their effects on Kostelelzkya virginica growth and enzyme activities of rhizosphere and bulk soils at different salinities

Interactions between arbuscular mycorrhizal fungi and phosphate-solubilizing fungus (Mortierella sp.) and their effects on Kostelelzkya virginica growth and enzyme activities of rhizosphere and bulk soils at different salinities

Arbuscular Mycorrhizal Fungi Improve the Antioxidative Response and the Seed Production of Suaedoideae Species Suaeda physophora Pall Under Salt Stress

Co-inoculations of arbuscular mycorrhizal fungi and rhizobia under salinity in alfalfa

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