Zarei, Masoumeh, Malekzadeh, Elham, Movahedi Naeini, Alireza (2026). Bio-Amelioration of Saline Soil Using Aeluropus littoralis, Arbuscular Mycorrhizal Fungus (AMF) and Salt-Resistant PGPB. , 28(3), 731-745. doi: 10.48311/jast.2026.16859
Masoumeh Zarei; Elham Malekzadeh; Alireza Movahedi Naeini. "Bio-Amelioration of Saline Soil Using Aeluropus littoralis, Arbuscular Mycorrhizal Fungus (AMF) and Salt-Resistant PGPB". , 28, 3, 2026, 731-745. doi: 10.48311/jast.2026.16859
Zarei, Masoumeh, Malekzadeh, Elham, Movahedi Naeini, Alireza (2026). 'Bio-Amelioration of Saline Soil Using Aeluropus littoralis, Arbuscular Mycorrhizal Fungus (AMF) and Salt-Resistant PGPB', , 28(3), pp. 731-745. doi: 10.48311/jast.2026.16859
Zarei, Masoumeh, Malekzadeh, Elham, Movahedi Naeini, Alireza Bio-Amelioration of Saline Soil Using Aeluropus littoralis, Arbuscular Mycorrhizal Fungus (AMF) and Salt-Resistant PGPB. , 2026; 28(3): 731-745. doi: 10.48311/jast.2026.16859

Bio-Amelioration of Saline Soil Using Aeluropus littoralis, Arbuscular Mycorrhizal Fungus (AMF) and Salt-Resistant PGPB

Journal of Agricultural Science and Technology
Article 18, Volume 28, Issue 3, May and June 2026, Pages 731-745    PDF (1017.44 K)
Document Type: Original Research
DOI: 10.48311/jast.2026.16859
Authors
Masoumeh Zarei; Elham Malekzadeh* ; Alireza Movahedi Naeini
Department of Soil Science, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Islamic Republic of Iran.
Abstract
This study aimed to evaluate the capability of the halophyte A. littoralis in symbiosis with Rhizophagus intraradices and Nocardia halotolerans, an indigenous bacterium of saline soils, on phyto-extraction of Na under saline conditions. Salinity treatments included 0 (S0), 100 mM NaCl (S1), 200 mM NaCl (S2), 100 mM NaCl+50mM K2SO4 (S3), and 200 mM NaCl+50mM K2SO4 (S4) levels. Plant fresh and dry weight and chlorophyll content decreased as salinity increased up to S2 level and increased thereafter. Plant root colonization in the inoculation and co-inoculation of AMF+SR-PGPB (Arbuscular Mycorrhizal Fungi (AMF) and Salt-Resistant Plant Growth-Promoting Bacteria) were similar. Compared to the S0 treatment, root colonization in the AMF group decreased by 23.5, 32.6, 13.5, and 26.7% under S1, S2, S3, and S4 treatments, respectively. In the Bacteria+AMF group, the reduction was smaller, with decreases of 2.8%, 3.4%, and an increase of 6.8 and 1.4% under S1, S2, S3, and S4 treatments, respectively. These results indicate that co-inoculation with PGPB mitigated the negative effects of salinity on root colonization. The root and soil glomalin contents increased as salinity increased. Root glomalin in plants inoculated by AMF+SR-PGPB was more than in a single inoculation of AMF under salt stress. This study highlights the potential application of salt-tolerant bacteria and AMF as effective strategies for enhancing plant growth and productivity in saline environments, contributing to sustainable agricultural practices in affected regions.
Keywords
Halophyte; Mycorrhizal symbiosis; Plant growth promoting traits; phytoremediation; Salinity stress
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