Je. Olesen et al., Irrigation strategy, nitrogen application and fungicide control in winter wheat on a sandy soil. II. Radiation interception and conversion, J AGR SCI, 134, 2000, pp. 13-23
Data from a three factor experiment carried out during two years were used
to analyse the effects of drought, nitrogen and disease on light intercepti
on (IPAR) and radiation use efficiency (RUE) in winter wheat (Triticum aest
ivum L.). The factors in the experiment comprised four irrigation strategie
s including no irrigation, three nitrogen levels providing 67, 83 and 100%
of the recommended nitrogen rate, and two strategies for control of leaf di
seases (with and without fungicides). Light interception was estimated from
weekly measurements of crop spectral reflectance. This method was compared
with estimates derived from crop area index measured by plant samples or b
y using the LAI2000 instrument. There was a good correspondence between the
different methods before anthesis, but an overestimation of light intercep
tion with the methods using crop area index after anthesis due to an increa
se in non-photosynthetic active leaf area. Irrigation increased both IPAR a
nd RUE. The relative increase in IPAR for irrigation was greater than the r
elative increase in RUE in the first year, whereas they were of similar siz
e in the second year. The differences between the years could be attributed
to changes in timing of the drought relative to crop ontogenesis. Increasi
ng nitrogen rate increased IPAR, but caused a small decrease in RUE in both
years. This reduction in RUE with increasing nitrogen concentration in lea
ves was also found to be significant when disease levels and drought effect
s were included in a multiple linear regression. Fungicide application incr
eased IPAR in both years, but RUE was only significantly reduced by disease
in the first year, where mildew dominated the trial. The data were also us
ed to estimate the coefficients of partitioning of dry matter to grains bef
ore and after anthesis. About 40% of dry matter produced before anthesis an
d about 60% after anthesis was estimated to contribute to grain yield. The
low fraction after anthesis is probably due to the fact that it was not pos
sible to estimate changes in RUE with time, which may lead to biases in the
estimation of partitioning coefficients.