SHO‘RLANGAN TUPROQLAR SHAROITIDA O‘SIMLIKLARNING ABIOTIC STRESSLARGA CHIDAMLILIGINI OSHIRISHDA PGPR VA ENDOFITLARNING ROLI: SCOPUS ASOSIDAGI BIBLIOMETRIK TAHLIL (2016–2025)

This article, based on articles from the Scopus database from 2016 to 2025, provides an in-depth bibliometric analysis of the role of Plant Growth Promoting Rhizabacteria (PGPR), endophyte bacteria, and the rhizosphere microbiome in enhancing plant resilience to salinity, drought, and other abiotic stresses. "Authors' Production over Time," the distribution of journals based on Bradford's Law, country citations, partnership networks, and mechanisms of the most cited documents are examined in detail. The results confirm China's absolute leadership (2,901 citations), the growing influence of Asian countries, and a sharp increase in scientific activity between 2021 and 2024. Core journals (Frontiers in Microbiology, Plant and Soil, Environmental and Experimental Botany, etc.) occupy the bulk of scientific productivity. The top 10 documents show that PGPR alters stress mechanisms through ion balance, antioxidant systems, phytohormones, and root waste. The analysis reveals future prospects for microbiome technologies for sustainable agriculture and adaptation to climate change.