Experiments in three dry seasons (1993/94, 1994/95, 1995/96) on a loamy med
ium sand at ADAS Gleadthorpe, Nottinghamshire, England tested responses of
green area, radiation interception, water uptake and above-ground dry matte
r growth of six wheat cultivars to irrigation. Cultivars differing in date
of introduction (Haven 1987, Maris Huntsman 1969, Mercia 1983, Rialto 1991,
Riband 1985 and Soissons 1989) were chosen for contrast in flowering time
and maximum green area. Maximum soil moisture deficit (SMD) exceeded 140 mm
in all years, with large deficits (> 75 mm) from early June in 1994 and mo
re prolonged large deficits in 1995 and 1996, Restricted water availability
first affected canopy expansion at a SMD of 74 mm (50 % available water ca
pacity; AW), and canopy senescence at 95 mm (64% AW). Decreases in biomass
at harvest were larger with prolonged droughts in 1995 and 1996 (424-562 g/
m(2)) than in 1994 (222 g/m(2)). Compared in the two driest years, 1995 and
1996, the decrease in biomass was greater in Haven (599 g/m(2)) than in Ma
ris Huntsman (420 g/m(2)) (P < 0.05). The better drought resistance of Mari
s Huntsman appeared to arise through its greater water use efficiency (WUE)
; 6.2 cf. 5.5-5.7 g/m(2)/mm. The susceptibility of Haven to drought was pos
sibly due to restricted water uptake, depression of radiation use efficienc
y (RUE) and accelerated senescence. The cultivars differed in flowering by
up to 9 days but date of flowering correlated poorly with biomass response
to irrigation. Early flowering was, however, correlated with favourable dis
tribution of seasonal water use with respect to the grain filling period. T
he maximum green area index (GAI) of cultivars varied from 4.4 to 5.3 (P <
0.01), but differences were countered by shifts in the extinction coefficie
nt (K), such that season-long radiation interception varied little. Green a
rea index maxima did not therefore relate to the pattern of growth or water
use, and they were correlated poorly with the biomass responses. Cultivars
did not differ in their maximum depth of water extraction; they all extrac
ted water to 1.65 m depth in each year. It is concluded that early flowerin
g and high WUE might offer scope for improving drought resistance in the UK
's temperate climate, but that small maximum GAI seems less useful.