01815naa a2200193 a 450000100080000000500110000800800410001910000180006024501250007826000090020352012350021265000200144765300210146765300200148865300230150870000190153170000210155077300500157121212282020-03-13       2019    bl uuuu     u00u1 u    #d1 aKOVALESKI, S.  aFrost damage to canola (Brassica napus L.) during reproductive phase in a controlled environment.h[electronic resource]  c2019  aThis study evaluated frost-related damage and benefits of cold acclimation during the reproductive phase in canola. Plants were exposed to cold acclimation and frost simulation at the start of flowering, during full flowering, and at the start of grain filling. The following were evaluated: plant mortality, number of viable ovules and silique abortion, floral buds and flowers, number of silique grains, total plant dry matter, number of siliques, total silique abortion, and grain dry matter. Frost caused death in non-acclimated plants and increased abortion in siliques, floral buds, and flowers, thus reducing silique and grain dry matter content. Frost mostly prevented the development of embryos in the siliques, but viable ovules were found in the floral buds and flowers. During their reproductive phase, canola plants have only a limited ability to increase their tolerance to frost damage. Nonetheless, siliques originating from the floral buds and open flowers contained a higher number of grains than siliques after frost exposure. Therefore, from the start of flowering to the start of grain filling, floral buds and flowers are responsible for producing most of the grain dry matter when there is frost occurrence.  aAir temperature  aCold acclimation  aFreezing damage  aFreezing tolerance1 aDALMAGO, G. A.1 aGOUVEA, J. A. de  tAgrometeorosgv.27, n.2, p.397-407, dez 2019.