Frontiers in Microbiology (Oct 2024)

Investigation of the impact of dual inoculations of arbuscular mycorrhizal fungi and plant growth-promoting rhizobacteria on drought tolerance of maize grown in a compost-amended field under Mediterranean conditions

  • Redouane Ouhaddou,
  • Redouane Ouhaddou,
  • Lahoucine Ech-chatir,
  • Lahoucine Ech-chatir,
  • Lahoucine Ech-chatir,
  • Chayma Ikan,
  • Chayma Ikan,
  • Fatima Ezzahra Soussani,
  • Fatima Ezzahra Soussani,
  • Fatima Ezzahra Soussani,
  • Farid Errouh,
  • Farid Errouh,
  • Abderrahim Boutasknit,
  • Abderrahim Boutasknit,
  • Julio Cesar Rodrigez,
  • Salah Er-Raki,
  • Salah Er-Raki,
  • Salah Er-Raki,
  • Robin Duponnois,
  • Abdelilah Meddich,
  • Abdelilah Meddich,
  • Abdelilah Meddich

DOI
https://doi.org/10.3389/fmicb.2024.1432637
Journal volume & issue
Vol. 15

Abstract

Read online

In the current context of rapid climate change, water scarcity and soil poverty are becoming increasingly alarming, leading to growing losses of 30–50% of global agricultural production. It is imperative to find environmentally-friendly approaches for improving plant tolerance to drastic conditions, particularly in arid and semi-arid Mediterranean regions. Biostimulants based on symbiotic microbes are emerging as effective strategies for improving tolerance and agricultural productivity. This study aims to evaluate the effects of single and double inoculation of arbuscular mycorrhizal fungi (My) and plant growth-promoting bacteria (Ba) on the growth, physiological and biochemical traits of maize crop grown in compost (Co) amended soil under two irrigation regimes: well-watered (WW: 100% of crop evapotranspiration [ETc]) and drought-stressed (DS: 50% ETc) using drip irrigation system. Reducing irrigation to 50% reduced shoot dry weight (SDW), root dry weight (RDW), 1,000-grains weight (TGW) and grain yield (Y). However, Ba alone increased SDW by 63%, while CoMyBa improved RDW, TGW and Y by 197, 43 and 175%, respectively compared with the control under DS conditions. Dual inoculation boosted root colonization intensity, normalized difference vegetation index (NDVI), total chlorophyll and leaf area of maize seedlings in compost-amended soil, compared to the controls. The application of Ba significantly reduced hydrogen peroxide and malondialdehyde by 46%, in maize seedlings grown in compost-amended soil, compared to the controls under DS. Our results indicated that My and Ba significantly boost the ability of maize to tolerate drought by improving water supply and physiology and stimulating the accumulation of organic and inorganic osmolytes, as well as improving the properties of soils such as cation exchange capacity particularly amended by Co. The dual inoculations were the most effective and represent an environmentally-friendly and relatively inexpensive approach to optimizing agricultural production and soil restoration programs in Mediterranean regions.

Keywords