2021
DOI: 10.1111/jac.12577
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Impacts of saline stress on the physiology of Saccharum complex genotypes

Abstract: Knowledge of the physiological mechanisms in saline environment may boost sugarcane breeding programmes targeting abiotic stresses. Our hypothesis is that the physiology of Saccharum genotypes responds differently under salt stress. Thus, the objective of the study was to evaluate the physiological performance of Saccharum complex genotypes grown under presence and absence of saline stress. The experimental design used was randomized blocks arranged in a 32 × 2 factorial scheme (32 genotypes × 2 salinity level… Show more

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“…Research on the Saccharum complex is being improved, mainly because the complex has genes related to resistance to biotic and abiotic stresses. Simões, Oliveira, Tardin, et al (2021), by analysing the physiological performance of Saccharum complex genotypes grown in environments with and without saline stress, verified a differential response of the genotypes under salinity conditions. Simões, Oliveira, Silva, et al (2021) also found larger leaf length in E. arundinaceus accessions under saline stress.…”
mentioning
confidence: 65%
“…Research on the Saccharum complex is being improved, mainly because the complex has genes related to resistance to biotic and abiotic stresses. Simões, Oliveira, Tardin, et al (2021), by analysing the physiological performance of Saccharum complex genotypes grown in environments with and without saline stress, verified a differential response of the genotypes under salinity conditions. Simões, Oliveira, Silva, et al (2021) also found larger leaf length in E. arundinaceus accessions under saline stress.…”
mentioning
confidence: 65%