Publication

Forage rape (Brassica napus L) seed quality: Impact of heat stress in the field during seed development

Date
2018-03
Type
Journal Article
Abstract
Climate change is predicted to increase the frequency of heat stress events during seed production. In two consecutive seasons, plants within a forage rape (Brassica napus L.) seed crop were covered with plastic sheeting to increase ambient air temperature for the period between seed filling (80% seed moisture content) and seed physiological maturity (50% seed moisture content) and seed physiological maturity (50% seed moisture content) = T₁, between physiological maturity and harvest (14% seed moisture content) = T₂, and between 80% seed moisture content and harvest = T₃. This resulted in 47 and 102 h when air temperature exceeded 25°C for T₁, 121 and 173 h for T₂, and 145 and 228 h for T₃ compared with 9 and 30 h for the uncovered control in each season respectively. Hourly thermal time (T base = 25°C) was calculated for each treatment. Both T₁ and T₂ resulted in small (2-10%) reductions in germination in each season, but when season data were meaned and analysed, only T₂ and T₃ significantly reduced germination. Seed mass (as measured by thousand seed weight) was significantly reduced by T₁, but not T₂, while seed vigour, as assessed by the accelerated ageing and conductivity tests, was significantly reduced by all three treatments, with T₃> T₂ >T₁. The number of hours that temperature exceeded 25°C was negatively correlated with germination and seed vigour, but not seed mass. Approximately 100h of temperature exceeding 25°C, or an hourly thermal time of 300°C h (Tb = 25°C) were required to reduce the vigour status of the seed lot. Crop management strategies to avoid heat stress during seed development are unlikely to succeed in this environment.
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