Abstract
The aim of this study was to evaluate the physiological and biochemical changes related to the loss of desiccation tolerance in millet seeds. The points studied were determined according to the seed imbibition curve of the hybrid ADRF6010: control (0 h), 3 h, 1 and 3 mm of radicle. The seeds were dried on silica gel for 72 h at 20 °C, followed by pre-humidification at 25 °C for 24 h. The physiological quality was evaluated by the electrical conductivity and germination test, and the seed vigor through the first count and germination speed index. The experiment was performed in a completely randomized design and means were compared by the Scott-knott test at 5% probability. The enzymatic systems evaluated were: superoxide dismutase, catalase, peroxidase, and α-amylase, and the expression of heat-resistant proteins. The enzymatic activity was quantified through the software ImageJ®. Millet seeds lost desiccation tolerance when the radicle reaches 1 mm of length. According to the enzymatic standards, the enzymes peroxidase and α-amylase, as well as the activity of heat-resistant proteins are related to the loss of desiccation tolerance in millet seeds.
Highlights
Desiccation tolerance is the ability of some organisms to survive extreme water loss, at levels below 0.1 g H2O g-1 of dry tissue, followed by subsequent rehydration without accumulation of lethal damage (Oliver, Tuba, & Mishler, 2000)
Orthodox seed cells become sensitive to desiccation during the germination process (Farrant, 2010)
The seeds were soaked in germination boxes with two sheets of blotting paper as substrate saturated with distilled water and conditioned in incubators regulated at 25°C with a photoperiod of 12 hours
Summary
Desiccation tolerance is the ability of some organisms to survive extreme water loss, at levels below 0.1 g H2O g-1 of dry tissue, followed by subsequent rehydration without accumulation of lethal damage (Oliver, Tuba, & Mishler, 2000). In orthodox seeds, this survival mechanism is acquired during seed development, in the reserves accumulation period (Le et al, 2010; Verdier et al, 2013). During germination, they behave to recalcitrant seeds and can be used as a model in the study of dehydration sensitivity which affects longevity and seed storage (Berjak, Farrant, & Pammenter, 2008; Walters, 2015)
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