A patch choice experiment was conducted in which sheep were offered choices
between patches of upland pasture which differed in their sward height and
degree of shelter from the wind. Experimental plots (48 m x 4 m) were divi
ded into 4 m x 4 m patches. Alternate patches were mown in advance of the e
xperiment to create nominal sward heights of 4 and 6 cm. Portable shelters
were erected on the windward side of alternate patches to reduce wind speed
on sheltered patches by half, The four treatment combinations used to test
the influence of sward height, shelter and their interaction on patch use
were: patchy swards with and without shelters and uniform swards with and w
ithout shelters. Five adult sheep per treatment were observed while grazing
the plots for 6 h/day on five occasions (days) in autumn. Patch choice was
measured by video observation and using a patch marker technique. On none
of the observation days was the weather condition sufficiently severe that
animals were outside their thermoneutral zone. There was a strong influence
of sward height on patch use with sheep spending 0.382 of their time on sh
ort swards when patchy swards were offered compared with 0.503 of their tim
e on equivalent areas when swards were uniform. Thermal conditions did not
influence patch choice with sheep spending an average of 0.442 of their tim
e on equivalent patches whether they were sheltered or not. There was no in
teraction between sward conditions and thermal conditions on the amount of
time spent on different patches. Data from the patch marker method supporte
d observation data. The results confirm that sheep are resilient to extreme
s of cold weather commonly occurring at temperate latitudes and suggest tha
t thermal constraints have minimal influence on the small-scale foraging mo
vements of sheep, as long as they remain within their thermoneutral zone.