Interact to Survive: Phyllobacterium brassicacearum Improves Arabidopsis Tolerance to Severe Water Deficit and Growth Recovery

Recent methods of drought stress tolerance in plants

C2M27

PDF) Interact to Survive: Phyllobacterium brassicacearum Improves Arabidopsis Tolerance to Severe Water Deficit and Growth Recovery

PDF] Trehalose accumulation in Azospirillum brasilense improves drought tolerance and biomass in maize plants.

Inoculation of tomato plants with selected PGPR represents a feasible alternative to chemical fertilization under salt stress - Cordero - 2018 - Journal of Plant Nutrition and Soil Science - Wiley Online Library

Frontiers Isolation of Rhizosphere Bacteria That Improve Quality and Water Stress Tolerance in Greenhouse Ornamentals

IJMS, Free Full-Text

Regulation of root development in Arabidopsis thaliana by phytohormone-secreting epiphytic methylobacteria

Frontiers Insight Into the Role of PGPR in Sustainable Agriculture and Environment

Automated phenotyping of plant shoots using imaging methods for analysis of plant stress responses – a review

Plant survival under drought stress: Implications, adaptive responses, and integrated rhizosphere management strategy for stress mitigation - ScienceDirect

Plants, Free Full-Text

PDF) Interact to Survive: Phyllobacterium brassicacearum Improves Arabidopsis Tolerance to Severe Water Deficit and Growth Recovery

Development of an inexpensive matrix-assisted laser desorption—time of flight mass spectrometry method for the identification of endophytes and rhizobacteria cultured from the microbiome associated with maize [PeerJ]

PDF) Interact to Survive: Phyllobacterium brassicacearum Improves Arabidopsis Tolerance to Severe Water Deficit and Growth Recovery