Mailen Riveira Rubin scite author profile

Mailen Riveira Rubin

2Publications

24Citation Statements Received

127Citation Statements Given

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Affiliations

Agricultural Plant Physiology and Ecology Research Institute, University of Buenos Aires, Consejo Nacional de Investigaciones Científicas y Técnicas

Publications

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Dormancy attributes in sunflower achenes (Helianthus annuusL.): I. Intraspecific variability

et al. 2021

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Cultivated sunflowers (Helianthus annuus L.) display variable degrees of achene dormancy at harvest and persistence during storage, interfering with high-quality hybrid seed production. Information on intraspecific variability for dormancy among cultivated sunflowers is scarce and was the subject of this work. A set of 21 sunflower genotypes of diverse origins (18 crop and 3 wild) was used for phenotyping dormancy traits. Experimental data included achene and embryo germination at different incubation temperatures, in water or abscisic acid (ABA), and different storage times postharvest. Multivariate analyses produced dormancy groups differing mostly in their patterns for dormancy expression along the thermal range and their dormancy release rate. The observed variability was interpreted as resulting from the overlap of two mechanisms: low temperature-expressed dormancy (LTED), common to all genotypes; and thermo-inhibition (TI) at high incubation temperatures, exclusive to some genotypes. Embryo responsiveness to ABA varied among genotypes and was positively related to LTED and TI, supporting that both responses share a common regulatory pathway operating in the embryo. We show that there is considerable intraspecific variability for dormancy attributes among cultivated sunflowers.

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Dormancy attributes in sunflower achenes (Helianthus annuus L.): II. Sowing date effects

et al. 2021

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Sunflower (Helianthus annuus L.) seed industry needs nondormant seeds (i.e., seeds with the capacity to germinate in a wide range of environmental conditions) for processing and packaging. Thus, the presence of persistent seed dormancy is an undesirable trait. Dormancy level depends on the genotype and on the maternal environment. The aim of the present work was to study, in a wide range of sunflower genotypes, the effect of variations in sowing date on achene dormancy level and to investigate if these changes are related to variations in (a) embryo or coat‐imposed dormancy, (b) dormancy expression at high or low incubation temperatures, and (c) embryo sensitivity to abscisic acid (ABA). Two experiments were performed. In Experiment I, 20 sunflower genotypes were sown in two contrasting planting dates during three consecutive years, whereas in Experiment II, 1579 genotype was sown in five dates along a 5‐mo period. At harvest and during postharvest storage, fruit structures were incubated at different incubation temperatures in water and ABA. Descriptive multivariate analyses showed that late sowings provoked an enhancement of achene germination at harvest and a faster dormancy release during postharvest storage in all genotypes. However, the magnitude of the response, the temperature at which dormancy was expressed, and the tissue responsible for achene dormancy varied among genotypes. The mechanism that partially explains this dormancy alleviation appears to be the sensitivity of embryo germination to ABA inhibition. Result suggest that sowing date can be managed to obtain less‐dormant sunflower seed lots without significant yield loss.

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