Kosar Asadzadeh; Habiballah Nadian Ghomsheh; Vahid Keshavarz-Tohid; Abdolreza Siahpoosh
Abstract
Objective: In order to investigate the impact of plant growth-promoting Pseudomonads isolates and filter cake on the alterations of chlorophyll pigments and growth components in spinach plant under metribuzin herbicide stress, a factorial experiment was conducted as completely randomized blocks at the ...
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Objective: In order to investigate the impact of plant growth-promoting Pseudomonads isolates and filter cake on the alterations of chlorophyll pigments and growth components in spinach plant under metribuzin herbicide stress, a factorial experiment was conducted as completely randomized blocks at the greenhouse of the Department of Soil Science of the Agricultural Sciences and the Natural Resources University of Khuzestan in 2018-2019.
Methods: In this study, Pseudomonas alloputida RUM14 and P. protegens CHA0 were used as PGPR isolates and filter cake was utilized as organic fertilizer.
Results: Statistical analysis of the study’s results indicated that treating spinach plants with Pseudomonas alloputida RUM14, P. protegens CHA0, and filter cake significantly increases chlorophyll a (47, 21, 29%, respectively) and b pigments (42, 20, 18%, respectviely) and carotenoids (96, 33 and 84%) and also increases the dry weight of root (respectively 59, 30, 45%), length of root (108, 51, 53%), dry weight of stem (56, 49, 13%) and the stem length (31, 19, 14%). Statistical analysis clarified that applying metribuzin herbicide at the rate of 100 grams per hectare dramatically reduces the content of photosynthetic pigments and growth components. However, utilization of growth-promoting rhizobacteria and filter cake effectively decrease the extent of such damage.
Conclusion: The results of this investigation clarified for the first time that the use of Pseudomonads plant growth-promoting rhizobacteria and/or filer cake, significantly enhance the photosynthetic pigments and growth components of spinach plant. Additionally, the mentioned treatments reduce the damage caused by metribuzin herbicide application.