03018naa a2200481 a 450000100080000000500110000800800410001902400510006010000210011124501350013226000090026750000190027652015870029565000170188265000410189965000190194065000130195965000120197265000220198465000180200665000140202465000110203865000240204965000150207365000090208865300330209765300240213065300260215465300190218065300180219965300260221765300270224365300230227065300340229365300250232765300150235270000270236770000270239470000280242170000190244970000190246877300490248721296552021-04-20       2021    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.3389/fmicb.2020.5532232DOI1 aBONATELLI, M. L.  aBeneficial plant-associated microorganisms from Semiarid regions and seasonally dry environmentsba review.h[electronic resource]  c2021  aArticle 553223  aSemiarid regions are apparently low biodiversity environments; however, these environments may host a phylogenetically diverse microbial community a asociated with plants. Their microbial inhabitants are often recruited to withstand stressful settings and improve plant growth under harsh conditions. Thus, plant-associated microorganisms isolated from semiarid and seasonally dry environments will be detailed in the present review, focusing on plant growth promotion potential and the microbial ability to alleviate plant abiotic stress. Initially, we  explored the role of microbes from dry environments around the world, and then, we focused on seasonally dry Brazilian biomes, the Caatinga and the Cerrado. Cultivable bacteria from semiarid and seasonally dry environments have demonstrated great plant growth promotion traits such as plant hormone production, mobilization of insoluble nutrients, and mechanisms related to plant abiotic stress alleviation. Several of these isolates were able to improve plant growth under stressful conditions commonly present in typical semiarid regions, such as high salinity and drought. Additionally, we highlight the potential of plants highly adapted to seasonal climates from the Caatinga and Cerrado biomes as a suitable pool of microbial inoculants to maintain plant growth under abiotic stress conditions. In general, we point out the potential for the exploitation of new microbial inoculants from plants growing in dry environments to ensure a sustainable increase in agricultural productivity in a future climate change scenario.  aPlant growth  aPlant growth-promoting rhizobacteria  aBiodiversidade  aCaatinga  aCerrado  aHormônio Vegetal  aMicrorganismo  aNutriente  aPlanta  aResistência a Seca  aSalinidade  aSeca  aAmbientes sazonalmente secos  aBactéria promotora  aBactérias promotoras  aBioma Caatinga  aBioma Cerrado  aCrescimento da planta  aCrescimento de plantas  aEstresse abiótico  aEstresse abiótico de plantas  aNutriente insolúvel  aSemiárido1 aLACERDA JÚNIOR, G. V.1 aREIS JUNIOR, F. B. dos1 aFERNANDES JUNIOR, P. I.1 aMELO, I. S. de1 aQUECINE, N. C.  tFrontiers in Microbiologygv. 11, jan. 2021.