Soil salinity is one of the key abiotic stress factors affecting agricultural productivity worldwide. Every day, nearly 2000 hectares of fertile agricultural land degrades due to salinity. There are only limited agricultural options to cope with increasing salinification of soils, especially in the case of salt-sensitive staple crops such as rice and wheat, productivity of which is seriously curbed due to salinity in many regions. Among the possible options, plant growth-promoting bacteria (PGPB) have a high potential to improve crop plant productivity under salinity, but the progress in application of PGPB has been slow due to lack of a non-invasive methodology for testing the efficiency of different bacteria in increasing plant salt resistance. The present collaborative study by scientists of Chungbuk National University, South Korea and the Estonian University of Life Sciences looked at foliage volatile emission and photosynthetic traits as potential non-invasive markers to estimate improvements in salinity resistance upon inoculation of rice plants with plant growth-promoting rhizosphere bacterium (PGPR) Brevibacterium linens RS16.