Mj. Fray et al., PHYSIOLOGICAL ASSESSMENT OF APETALOUS FLOWERS AND ERECTOPHILE PODS INOILSEED RAPE (BRASSICA-NAPUS), Journal of Agricultural Science, 127, 1996, pp. 193-200
The transmission of solar radiation within the crop canopies of oilsee
d rape is decreased both by the plant's yellow petals during flowering
, and by the horizontal posture of the pods once they are formed. The
significance of each of these morphologies was assessed, in the 1991/9
2 and 1992/93 growing seasons, by comparing the performances of an ape
talous breeding line (N-o-112) and one with erectophile pods (N-5-130)
with two conventional commercial genotypes (Falcon and Tapidor). The
apetalous floral layer of line N-o-112 reflected and absorbed signific
antly less radiation than those of the conventional, petalled genotype
s. This resulted in a greater transmission of photosynthetically activ
e radiation (PAR) to the leaf and bract canopy situated below. At peak
flowering, 70 % more PAR was transmitted through the apetalous floral
layer. The erectophile pods of line N-5-130 were angled 20-25 degrees
further from the horizontal than the conventional genotypes. The exti
nction coefficient (K) of its pod layer during late pod growth ranged
from 0.35 to 0.44 as compared to 0.45 to 0.55 in the commercial variet
ies. Line N-5-130 carried a greater proportion of its total fertile po
d number in the lower regions of the pod canopy compared to the two co
nventional genotypes. It also had a greater overall mean number of see
ds per pod, and the number decreased proportionately less with depth i
n the canopy. The line was thus better able to maintain a higher photo
synthetic area and to sustain pod and seed growth at the lower levels
of the crop canopy than the conventional, commercial varieties. The po
tential physiological effects of apetalous flowers and erectophile pod
s are considered to be sufficiently beneficial for their introgression
into near-isogenic lines to be pursued.