Te. Crouch et Y. Lubin, Effects of climate and prey availability on foraging in a social spider, Stegodyphus mimosarum (Araneae, Eresidae), J ARACHNOL, 28(2), 2000, pp. 158-168
Tropical areas with favorable climatic conditions, high prey availability a
nd large prey size are assumed to favor sociality in spiders. Notwithstandi
ng, the three social species of Stegodyphus (Eresidae) inhabit arid and sem
i-arid habitats with marked daily and seasonal variation in climate. The ne
sts of the social spider Stegodyphus mimosarum Pavesi commonly occur in dry
Acacia savanna in southern Africa. We investigated the abiotic conditions
to which the nests of S. mimosarum are exposed and the changes in availabil
ity of potential insect prey at different times of year and over the daily
cycle. We used these data to determine the:extent to which prey availabilit
y and climatic conditions explain seasonal and daily variation in the activ
ity of the spiders. Data were collected during four sampling periods a year
over two years from nests of S. mimosarum located on the Mkomazi River Bri
dge (KwaZulu-Natal, South Africa). We measured ambient and nest temperature
s and in a sample of nests, spider growth rate, prey availability, foraging
activity and activity on the web at night. Spiders had two periods of incr
eased growth rate occurring in early and late summer, at times of year when
ambient temperature rarely falls below 20 degrees C. Temperatures inside t
he nest were generally higher than ambient throughout the day and night. Fo
raging response, measured as the numbers of individuals responding to the v
ibrations of a tuning fork, was significantly higher by night than by day.
In summer, foraging response decreased with increasing temperature during t
he day, whereas in winter, there was a positive correlation between foragin
g response and temperature at night. Potential prey, measured as mean numbe
rs of insects trapped in a sample of webs, were more abundant during the da
y than at night, despite the fact that the spiders were most active on the
web at night. Nocturnal insects, however, were larger than diurnal. ones an
d spiders handled significantly more large prey both during the day and at
night. Correlation and partial correlation analyses indicate that ambient t
emperature and windspeed play a direct role in influencing foraging and oth
er activity on the web. Nonetheless, the predominance of nocturnal activity
in both summer and winter could not be explained by climatic conditions an
d prey availability alone. Some other factor (e.g., predation or parasitism
) may be involved.