SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4320918308> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W4320918308 endingPage "488" @default.
W4320918308 startingPage "488" @default.
W4320918308 abstract "Salinity constitutes a major abiotic factor that negatively affects crop productivity. Inoculation with plant growth-promoting bacteria (PGPB) is proven to increase plant tolerance to abiotic stresses and enhance plant growth, development and productivity. The present study aims to increase the resilience of crops to salinity using bacteria from the microbiome of plants growing in saline environments. For that, the halotolerance of bacteria present in the roots of natural plants growing on Sal Island, which is characterized by its arid environment and maritime influence, was determined, with some strains having extreme halotolerance. Their ability to produce plant growth-promoting traits was evaluated, with most strains increasing indole acetic acid (26–418%), siderophore (>300%) and alginate (2–66%) production and phosphate solubilization (13–100%) under salt stress. The strains evidencing the best performance were inoculated in maize (Zea mays L.) plants and their influence on plant growth and biochemical status was evaluated. Results evidenced bacterial ability to especially increase proline (55–191%), whose osmotic, antioxidant and protein-protecting properties reduced protein damage in salt-stressed maize plants, evidencing the potential of PGPB to reduce the impact of salinity on crops. Enhanced nutrition, phytohormone production and osmolyte synthesis along with antioxidant response all contribute to increasing plant tolerance to salt stress." @default.
W4320918308 created "2023-02-16" @default.
W4320918308 creator A5002028793 @default.
W4320918308 creator A5010289315 @default.
W4320918308 creator A5016364793 @default.
W4320918308 creator A5053234957 @default.
W4320918308 creator A5076120316 @default.
W4320918308 creator A5077228876 @default.
W4320918308 date "2023-02-15" @default.
W4320918308 modified "2023-10-16" @default.
W4320918308 title "Application of Plant Growth-Promoting Bacteria from Cape Verde to Increase Maize Tolerance to Salinity" @default.
W4320918308 cites W1581414347 @default.
W4320918308 cites W1590457525 @default.
W4320918308 cites W1750250371 @default.
W4320918308 cites W1964560809 @default.
W4320918308 cites W1968745634 @default.
W4320918308 cites W1968834637 @default.
W4320918308 cites W1968847007 @default.
W4320918308 cites W1970083281 @default.
W4320918308 cites W1979144739 @default.
W4320918308 cites W1979870994 @default.
W4320918308 cites W1984819197 @default.
W4320918308 cites W1987502513 @default.
W4320918308 cites W1990729744 @default.
W4320918308 cites W1993566791 @default.
W4320918308 cites W2009560230 @default.
W4320918308 cites W2012498036 @default.
W4320918308 cites W2012716990 @default.
W4320918308 cites W2019045863 @default.
W4320918308 cites W2028823348 @default.
W4320918308 cites W2030561228 @default.
W4320918308 cites W2051474133 @default.
W4320918308 cites W2057536271 @default.
W4320918308 cites W2098387963 @default.
W4320918308 cites W2099925220 @default.
W4320918308 cites W2100380360 @default.
W4320918308 cites W2101422765 @default.
W4320918308 cites W2105199360 @default.
W4320918308 cites W2112705181 @default.
W4320918308 cites W2113672941 @default.
W4320918308 cites W2154614604 @default.
W4320918308 cites W2165979498 @default.
W4320918308 cites W2215284660 @default.
W4320918308 cites W2593607504 @default.
W4320918308 cites W2747809551 @default.
W4320918308 cites W2762548891 @default.
W4320918308 cites W2764166391 @default.
W4320918308 cites W2765607156 @default.
W4320918308 cites W2792190312 @default.
W4320918308 cites W2892712649 @default.
W4320918308 cites W2893063534 @default.
W4320918308 cites W2898083948 @default.
W4320918308 cites W2902840906 @default.
W4320918308 cites W2914824624 @default.
W4320918308 cites W2918943850 @default.
W4320918308 cites W2944687344 @default.
W4320918308 cites W2961637384 @default.
W4320918308 cites W2988152899 @default.
W4320918308 cites W3011871368 @default.
W4320918308 cites W3023463052 @default.
W4320918308 cites W3028588344 @default.
W4320918308 cites W3035216846 @default.
W4320918308 cites W3037277461 @default.
W4320918308 cites W3046790910 @default.
W4320918308 cites W3084444209 @default.
W4320918308 cites W3088427143 @default.
W4320918308 cites W3092163566 @default.
W4320918308 cites W3093727335 @default.
W4320918308 cites W3112163404 @default.
W4320918308 cites W3133727396 @default.
W4320918308 cites W3156064611 @default.
W4320918308 cites W3163674183 @default.
W4320918308 cites W3167078697 @default.
W4320918308 cites W3169566112 @default.
W4320918308 cites W3190498601 @default.
W4320918308 cites W4205649723 @default.
W4320918308 cites W4206352017 @default.
W4320918308 cites W4234669071 @default.
W4320918308 cites W4252107037 @default.
W4320918308 cites W4282565774 @default.
W4320918308 cites W4292749623 @default.
W4320918308 cites W4307939068 @default.
W4320918308 cites W4310541052 @default.
W4320918308 cites W91219382 @default.
W4320918308 doi "https://doi.org/10.3390/antiox12020488" @default.
W4320918308 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36830045" @default.
W4320918308 hasPublicationYear "2023" @default.
W4320918308 type Work @default.
W4320918308 citedByCount "2" @default.
W4320918308 countsByYear W43209183082023 @default.
W4320918308 crossrefType "journal-article" @default.
W4320918308 hasAuthorship W4320918308A5002028793 @default.
W4320918308 hasAuthorship W4320918308A5010289315 @default.
W4320918308 hasAuthorship W4320918308A5016364793 @default.
W4320918308 hasAuthorship W4320918308A5053234957 @default.
W4320918308 hasAuthorship W4320918308A5076120316 @default.
W4320918308 hasAuthorship W4320918308A5077228876 @default.
W4320918308 hasBestOaLocation W43209183081 @default.