Appraisal for organic amendments and plant growth‐promoting rhizobacteria to enhance crop productivity under drought stress: A review

Plants are sessile organisms, frequently face unfavourable growth conditions such as drought, salinity, chilling, freezing and high‐temperature stresses, inhibiting growth and development, and ultimately reducing crop productivity. Among these stresses, drought stress has been a major challenge for...

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Veröffentlicht in:	Journal of agronomy and crop science (1986) 2021-10, Vol.207 (5), p.783-802
Hauptverfasser:	Ullah, Naseer, Ditta, Allah, Imtiaz, Muhammad, Li, Xiaomin, Jan, Amin Ullah, Mehmood, Sajid, Rizwan, Muhammad Shahid, Rizwan, Muhammad
Format:	Artikel
Sprache:	eng
Schlagworte:	biochar Biological control Biological properties Carbon sources Charcoal Climate change Combined treatment compost Composting Composts Crop growth Crop production Crops Drought drought stress Freezing Growth conditions Nutrient availability Nutrient retention Organic acids Plant growth plant growth‐promoting rhizobacteria Plant hormones Productivity rhizobacteria Sessile species Soil conditions Soil improvement Soil properties Stresses Sustainable agriculture Sustainable production water deficit
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container_title	Journal of agronomy and crop science (1986)
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creator	Ullah, Naseer Ditta, Allah Imtiaz, Muhammad Li, Xiaomin Jan, Amin Ullah Mehmood, Sajid Rizwan, Muhammad Shahid Rizwan, Muhammad
description	Plants are sessile organisms, frequently face unfavourable growth conditions such as drought, salinity, chilling, freezing and high‐temperature stresses, inhibiting growth and development, and ultimately reducing crop productivity. Among these stresses, drought stress has been a major challenge for sustainable crop production and a hot area of research under the current climate change scenario. Organic amendments such as biochar (BC) and compost along with plant growth‐promoting rhizobacteria (PGPR) could be a sustainable strategy to improve crop growth and productivity under drought stress environment. There are several reports about compost, BC, and PGPR application as a single or combined treatment to enhance crop productivity under drought stress. Compost and BC act as conditioners to improve soil physicochemical and biological properties thereby enhancing water holding capacity (WHC) and nutrient retention and availability to the plants. Both BC and compost also serve as carbon sources and suitable environment for PGPR and endogenous microbes to enhance their growth promotion activities under drought stress. PGPR alleviate drought stress via ACC‐deaminase and P‐solubilizing activities, production of phytohormones, secretion of organic acids, acting as biocontrol agents,etc. In the present review, the individual and combined effect of compost, BC, and PGPR to alleviate drought stress in plants has been critically summarized. Moreover, research gaps and future research directions have been identified and discussed in depth.
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subjects	biochar Biological control Biological properties Carbon sources Charcoal Climate change Combined treatment compost Composting Composts Crop growth Crop production Crops Drought drought stress Freezing Growth conditions Nutrient availability Nutrient retention Organic acids Plant growth plant growth‐promoting rhizobacteria Plant hormones Productivity rhizobacteria Sessile species Soil conditions Soil improvement Soil properties Stresses Sustainable agriculture Sustainable production water deficit
title	Appraisal for organic amendments and plant growth‐promoting rhizobacteria to enhance crop productivity under drought stress: A review
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