We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Tolerance mechanisms and irrigation management to reduce iron stress in irrigated rice.
- Authors
de Campos Carmona, Felipe; Adamski, Janete Mariza; Wairich, Andriele; de Carvalho, Joseane Biso; Lima, Gustavo Gomes; Anghinoni, Ibanor; Jaeger, Isadora Rodrigues; da Silva, Paulo Regis Ferreira; de Freitas Terra, Tatiana; Fett, Janette Palma; Carlos, Filipe Selau
- Abstract
Iron toxicity is a major nutritional disorder in rice plants, especially in flooded areas. The use of alternative crop management practices, such as soil drainage, may mitigate negative impacts of iron toxicity, since soil aeration that follows drainage can oxidize and precipitate potentially toxic Fe+2 into Fe3+. This study aimed to evaluate the impact of alternative water management on agronomical and physiological parameters in rice plants grown in a field location with iron toxicity history. Rice cultivars BR-IRGA 409 (sensitive) and IRGA 425 (resistant to iron toxicity) were tested. Irrigation management comprised three treatments: continuous irrigation, one cycle of water suppression (1S) and two cycles of water suppression (2S). Evaluations included the ionic composition of soil solution and leaf tissues, grain yield, antioxidant responses and gene expression. Permanent soil flooding resulted in higher grain yield in plants from the resistant than from the sensitive genotype, which had higher malondialdehyde (MDA) concentrations in leaves. In contrast, two cycles of alternate soil drying resulted in equivalent grain yield and MDA concentrations in both genotypes. Resistance to iron toxicity in IRGA 425 plants seems related to limited Fe translocation to shoots, increased tolerance to oxidative stress in leaves and higher expression of Ferritin, OsGAP1, OsWRKY80 and Oryzain-α genes. Plants from the BR-IRGA 409 cultivar (sensitive to Fe toxicity) improved growth and yield under the interrupted irrigation treatments, probably due to lower Fe availability in the soil solution. Management of water irrigation successfully alleviated Fe toxicity in rice plants cultivated in field conditions.
- Subjects
IRRIGATION management; CROP management; CULTIVATED plants; SOIL aeration; WATER management; PLANT translocation
- Publication
Plant & Soil, 2021, Vol 469, Issue 1/2, p173
- ISSN
0032-079X
- Publication type
Article
- DOI
10.1007/s11104-021-05156-9