Artículos de revistas
Temperature-dependent regulation of induction into secondary dormancy of Polygonum aviculare L. seeds: A quantitative analysis
Fecha
2017-05Registro en:
Malavert Pineda, Cristian Jonatan; Batlla, Diego; Benech-Arnold, Roberto Luis; Temperature-dependent regulation of induction into secondary dormancy of Polygonum aviculare L. seeds: A quantitative analysis; Elsevier Science; Ecological Modelling; 352; 5-2017; 128-138
0304-3800
CONICET Digital
CONICET
Autor
Malavert Pineda, Cristian Jonatan
Batlla, Diego
Benech-Arnold, Roberto Luis
Resumen
In seeds of many summer annuals low temperatures under moist conditions provoke dormancy release while high temperatures induce secondary dormancy. Seed dormancy level establishes the range of temperatures under which germination is possible. The range of temperatures permissive for seed germination is determined by two threshold limit temperatures: Lower limit temperature (Tl) and High limit temperature (Th). Numerous studies have been conducted to characterize the effect of temperature on dormancy release, but there is very few information on how temperature regulates secondary dormancy induction. Seeds of Polygonum aviculare were stratified at 1.6, 5 and 10 °C until achieving a minimum dormancy, and then were induced into secondary dormancy by further storage at 10, 15, 20, 25 and 30 °C. Based on obtained germination time course-curves we quantified changes in the thermal range permissive for seed germination through variations in the mean lower limit temperature for seed germination (Tl(50)) using a mathematical simulation germination model. Our data suggest that induction into secondary dormancy in P. aviculare seeds can be assessed quantitatively through changes in Tl(50).This changes could be described through a Dormancy Induction Thermal-Time Index (DItt), in which thermal time units are accumulated above a threshold temperature from which secondary dormancy is induced (7.9 °C). Additionally, the induction-rate into secondary dormancy was affected by the stratification temperature during dormancy release. We conclude that the effect of temperature on the rate of dormancy induction is not only dependent on prevailing temperature, but also on temperature experienced by seeds during previous dormancy release and the resulting dormancy status of the seed population.