Ecophysiological aspects and biomass production of soybean genotypes under soil flooding stress conditions/Aspectos ecofisiologicos e producao de biomassa de genotipos de soja sob condicoes de estresse por alagamento do solo

HIGHLIGHTS: PELBR 17-46 and PELBR 15-7016 genotypes are more sensitive to flooding stress in the vegetative and reproductive stages. Soil flooding negatively affects the biomass production of soybean genotypes. The 75I77RSF IPRO genotype is the most suitable for cultivation under flooding stress con...

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Published in:Revista brasileira de engenharia agrĂ­cola e ambiental 2024-05, Vol.28 (5), p.1
Main Authors: da Silva, Silvana F, de O. Ma, das Chagas, Paulo V.A, dos Santos, Gisele L, Junior, Aurelio P. Barros, da Silveira, Lindomar M, da S. Ribeiro, Joao E
Format: Article
Language:English
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Summary:HIGHLIGHTS: PELBR 17-46 and PELBR 15-7016 genotypes are more sensitive to flooding stress in the vegetative and reproductive stages. Soil flooding negatively affects the biomass production of soybean genotypes. The 75I77RSF IPRO genotype is the most suitable for cultivation under flooding stress conditions. The objective of this study was to evaluate the ecophysiological aspects and biomass production of three soybean genotypes subjected to soil flooding in the vegetative and/or reproductive stages. The design adopted was completely randomized with 5 replications, in a 3 * 3 factorial arrangement, with three soybean genotypes: PELBR 17-46, PELBR 15-7016, and 75I77RSF IPRO; and three water treatment conditions: soil flooding for 10 days in the vegetative period + 10 days in the reproductive period; soil flooding for 10 days only in the reproductive period, and the control treatment, where the soil was maintained at 70% of field capacity. There was a reduction in the relative water content for the PELBR 15-7016 and PELBR 17-46 genotypes in the vegetative/reproductive stages and in the reproductive stage, while for the 75I77RSF IPRO there was no difference. The levels of chlorophyll a, chlorophyll b, and total chlorophyll were reduced only for the PELBR 15-7016 and 75I77RSF IPRO genotypes. The dry matter in the leaves and roots was lower for PELBR 17-46 and PELBR 15-7016 when subjected to stress in the R2 soybean stage and for the grain production. PELBR 17-46 and PELBR 15-7016 genotypes are more susceptible to stress, while the 75I77RSF IPRO showed mechanisms to overcome waterlogging stress. Key words: Glycine max (L.) Merr., hypoxia, morphophysiological adaptation, abiotic stresses, waterlogging O objetivo deste trabalho foi avaliar aspectos ecofisiologicos e producao de biomassa de genotipos de soja submetidos ao alagamento do solo nas fases vegetativa e/ou reprodutiva. O delineamento adotado foi o inteiramente casualizado com 5 repeticoes, em arranjo fatorial 3 * 3, com tres genotipos de soja: PELBR 17-46, PELBR 15-7016 e 75I77RSF IPRO; e tres condicoes de tratamento de agua: alagamento do solo por 10 dias no periodo vegetativo + 10 dias no periodo reprodutivo; alagamento do solo por 10 dias apenas no periodo reprodutivo, e o tratamento testemunha, onde o solo foi mantido a 70% da capacidade de campo. Houve reducao no teor relativo de agua para os genotipos PELBR 15-7016 e PELBR 17-46 no vegetativo/reprodutivo e no reprodutivo, enquanto para 75I77RSF IPRO
ISSN:1415-4366
DOI:10.1590/1807-1929/agriambi.v28n5e277195