Kayo César Fernandes Pereira Dias, Igor Juliano Da Silva Souza, Yasmin Costa Barros, Edilania Pereira da Silva, Jakson Leite, Adriane Freire Araújo Feitoza, Adailson Feitoza de Jesus Santos
{"title":"来自高原生物群落的本地细菌减轻干旱对甜瓜(Cucumis melo L.)的影响","authors":"Kayo César Fernandes Pereira Dias, Igor Juliano Da Silva Souza, Yasmin Costa Barros, Edilania Pereira da Silva, Jakson Leite, Adriane Freire Araújo Feitoza, Adailson Feitoza de Jesus Santos","doi":"10.14295/cs.v15.4072","DOIUrl":null,"url":null,"abstract":"Plant growth-promoting bacteria (PGPB) from drylands are promising biological resources to mitigate thenegative effects induced by water deficit. The aim of this study was to evaluate the effects of bacteria nativefrom the Caatinga biome on the initial growth of melon plants subjected to water deficit. Nine bacteria (M1.1,T11.2, PH5.2, T11.1, T2.1, T1.1, M7.1, XX6.9 and XX6.6) isolated from Caatinga soils were tested in two varietiesof melons (Cantaloupe and Yellow) cultivated under two water availability scenarios (50% irrigation and 100%irrigation of the crop evapotranspiration - ETc). In the control treatment, no inoculation was performed. Theeffects of the treatments on shoot length (SL), shoot dry mass (SDM), root length (RL) and root dry mass (RDM)were evaluated. In the scenario without water deficit (100% ETc replacement), the isolates PH5.2, T2.2, M7.1,XX6.9 promoted (p<0.05) the root and shoot biomasses in the Cantaloupe variety, while in the Yellow variety,growth promotion was sporadic, with three isolates (M1.1, M7.1 and XX6.9) promoting at least one parameterevaluated. In the scenario with a water deficit (50% ETc replacement), isolates T1.1 and XX6.9 promoted thetotal biomasses (SDM and RDM) of the Cantaloupe and Yellow varieties, respectively. All isolates stimulated RL inthe Cantaloupe variety. Bacteria isolated from the Caatinga promote growth and reduce the effects of waterdeficit in melon and thus are potential inoculants to enhance production in the early stages of melon cultivationin semiarid regions.","PeriodicalId":38570,"journal":{"name":"Comunicata Scientiae","volume":"28 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-11-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Native bacteria from the caatinga biome mitigate the effects of drought on melon (Cucumis melo L.)\",\"authors\":\"Kayo César Fernandes Pereira Dias, Igor Juliano Da Silva Souza, Yasmin Costa Barros, Edilania Pereira da Silva, Jakson Leite, Adriane Freire Araújo Feitoza, Adailson Feitoza de Jesus Santos\",\"doi\":\"10.14295/cs.v15.4072\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Plant growth-promoting bacteria (PGPB) from drylands are promising biological resources to mitigate thenegative effects induced by water deficit. 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Native bacteria from the caatinga biome mitigate the effects of drought on melon (Cucumis melo L.)
Plant growth-promoting bacteria (PGPB) from drylands are promising biological resources to mitigate thenegative effects induced by water deficit. The aim of this study was to evaluate the effects of bacteria nativefrom the Caatinga biome on the initial growth of melon plants subjected to water deficit. Nine bacteria (M1.1,T11.2, PH5.2, T11.1, T2.1, T1.1, M7.1, XX6.9 and XX6.6) isolated from Caatinga soils were tested in two varietiesof melons (Cantaloupe and Yellow) cultivated under two water availability scenarios (50% irrigation and 100%irrigation of the crop evapotranspiration - ETc). In the control treatment, no inoculation was performed. Theeffects of the treatments on shoot length (SL), shoot dry mass (SDM), root length (RL) and root dry mass (RDM)were evaluated. In the scenario without water deficit (100% ETc replacement), the isolates PH5.2, T2.2, M7.1,XX6.9 promoted (p<0.05) the root and shoot biomasses in the Cantaloupe variety, while in the Yellow variety,growth promotion was sporadic, with three isolates (M1.1, M7.1 and XX6.9) promoting at least one parameterevaluated. In the scenario with a water deficit (50% ETc replacement), isolates T1.1 and XX6.9 promoted thetotal biomasses (SDM and RDM) of the Cantaloupe and Yellow varieties, respectively. All isolates stimulated RL inthe Cantaloupe variety. Bacteria isolated from the Caatinga promote growth and reduce the effects of waterdeficit in melon and thus are potential inoculants to enhance production in the early stages of melon cultivationin semiarid regions.
Comunicata ScientiaeAgricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
0.90
自引率
0.00%
发文量
78
期刊介绍:
The Comunicata Scientiae journal edited by Campus “Profa Cinobelina Elvas” of Federal University of Piauí (Brazil) publishes original articles, scientific notes and review articles (when invited by the editorial board), which present significant importance for Agrarian and Environmental Sciences in Portuguese, Spanish and preferentially, in English.