Aram Hosseini; Ali Gharghani
Abstract
The effects of three Arbuscular Mycorrhizal Fungi (AMF) species (Glomus versiforme, Claroideoglomus etunicatum and Rhizophagus intraradices) were studied on the growth parameters and nutrient uptake of three apple rootstocks (M.9, M.7 and MM.106). The soil medium contained a high level of calcium carbonate ...
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The effects of three Arbuscular Mycorrhizal Fungi (AMF) species (Glomus versiforme, Claroideoglomus etunicatum and Rhizophagus intraradices) were studied on the growth parameters and nutrient uptake of three apple rootstocks (M.9, M.7 and MM.106). The soil medium contained a high level of calcium carbonate (38.65%). The results showed that AMF inoculation could increase almost all growth parameters. Plants inoculated with G. versiforme had the highest shoot height, stem diameter, leaf size, and biomass compared to other AMF species. Rootstocks also varied substantially in their growth. MM.106 exhibited the highest growth in general, whereas the M.9 had the lowest. Plants inoculated with mycorrhizal fungi contained more N, P, Ca, Mg, Zn, and Fe compared to those of Non Mycorhizal (NM) control plants. However, AMF inoculation did not influence concentrations of K, Cu, and Mn in the leaf. Rootstocks exhibited various nutrient concentrations in their leaves and the highest concentrations of K, Ca, Mg, and Zn were measured in MM.106. The highest leaf concentration of N, Fe, Mn, and Cu occurred in M.9, while the M.7 accumulated the highest amount of P in its leaves. Here we demonstrate the beneficial effects of symbiosis between apple rootstocks and AMF species in calcareous soil with a very high level of lime concentration.
Mohamadreza Zokaee-Khosroshahi; Mahmoud Esna-Ashari; Ahmad Ershadi; Ali Imani
Abstract
This study was undertaken to identify morphological changes in young seedlings of 5 Iranian almond species (Prunus dulcis, P. eburnea, P. eleagnifolia, P. haussknechti, and P. scoparia) under polyethylene glycol-induced drought stress. Drought stress caused a significant reduction in plant growth parameters ...
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This study was undertaken to identify morphological changes in young seedlings of 5 Iranian almond species (Prunus dulcis, P. eburnea, P. eleagnifolia, P. haussknechti, and P. scoparia) under polyethylene glycol-induced drought stress. Drought stress caused a significant reduction in plant growth parameters such as fresh and dry weights of plant organs, leaf number, total leaf area, and leaf relative water content in all almond species. Specific leaf weight also increased significantly in drought-treated plants compared to control. No significant changes in shoot length, individual leaf area, leaf dimension (length and width), or stomatal size and frequency were observed in response to drought treatments. P. eburnea had the highest relative water content among the species and showed the smallest decrease in fresh and dry weights of organs and greatest decrease in leaf number and total leaf area (the most reduction in transpiration area) as an adaptive mechanism to drought stress.
