Envejecimiento acelerado de semilla

Envejecimiento acelerado de semillas de cebolla (Allium cepa L.) sometidas a soluciones salinas saturadas

prominent environmental factors with respect to the
intensity and velocity of deterioration (Marcos Filho,
1999b). In this situation, low-quality seeds deteriorate
more rapidly than more vigorous ones, presenting a
differentiated decrease in viability.
Many factors affect the behavior of seeds that are
submitted to the test; the interaction between
temperatures/exposure periods is one of the aspects
most frequently studied. Some authors have devoted
themselves to study this interaction, indicating
temperature values of 41°C/72h for onion seeds
(TeKrony, 1995); 41°C/72h for green peppers (TeKrony,
1995; Panobianco & Marcos Filho, 1998); 45°C/48h for
broccoli (Tebaldi et al., 1999); 41°C/48h for eggplant
(Bhéring et al., 2001); 42°C/48h for melon (Cano-Ríos
et al., 2000); 41°C/48h for carrot (Rodo et al., 2001) and
41°C/72h for tomato (Panobianco & Marcos Filho, 2001).
Another aspect that must be considered in the
accelerated aging test, is the difference in water
absorption by the seeds which, once exposed to a humid
atmosphere, might present marked variations in their
moisture content. Research carried out with small-seed
species, such as green vegetables, have not revealed
very consistent results due to the strongly marked
variation in moisture content in the samples, after aging
(Powell, 1995). With that in mind, alternatives have been
looked for to conduct accelerated aging with seeds of
these species, such as replacing water with saturated salt
solutions. Depending on the solution that is used, specific
levels of relative humidity can be obtained, allowing the
water absorption rate, velocity and intensity of seed
deterioration to be varied (Jianhua & McDonald, 1997),
without reducing the test sensitivity. Some authors have
observed a greater efficiency of the accelerated aging test
with the use of salt-saturated solutions for the
classification of seed lots; among them, Panobianco &
Marcos Filho (1998), with green pepper seeds; Rodo et
al. (2000), with carrot; Bhéring et al. (2000), with
cucumber; Bennett et al. (2001), with sweet corn, and
Panobianco & Marcos Filho (2001), with tomato.
The objective of this work was to study the
accelerated aging test methodology to evaluate the
physiological potential of melon seeds, establishing a
comparison between the traditional procedure and the
utilization of a saturated sodium chloride solution