P. Lloyd et al., Nest-site selection, egg pigmentation and clutch predation in the ground-nesting Namaqua Sandgrouse Pterocles namaqua, IBIS, 142(1), 2000, pp. 123-131
Nest survival can, among a variety of factors, depend on nest-site complexi
ty and concealment, and clutch crypsis. Nest-site selection by Namaqua Sand
grouse Pterocles namaqua was strongly non-random. Nests were sited within a
local concentration of objects, most of them less than 15 cm high and conc
entrated within 30 cm of the nest centre. Nest-to-object orientation was ra
ndom, indicating that the nest was sited close to objects neither for shade
nor shelter from prevailing winds. A stepwise logistic regression analysis
, using nine different object type, height and distance category totals as
variables of nest-site complexity and concealment, found no effect of these
variables on nest fate (survival vs mammal predation). A random-walk model
simulating the foraging movements of a small mammal predator raised the po
ssibility that the high level of nest predation suffered by Namaqua Sandgro
use was largely incidental (i.e. random). Namaqua Sandgrouse eggs were high
ly variable in appearance, but intra-clutch variability was less than that
between clutches of different individuals. Intra-clutch diversity in pigmen
t cover, the number of wreathed eggs, the dominant pigment pattern, and the
overall shade of the clutch (light/dark) did not affect clutch survival. H
owever, clutches exhibiting diversity in background colour, pigment pattern
or pigment intensity between eggs survived significantly better than clutc
hes whose eggs were uniform for these variables, suggesting there is some s
election for clutch crypsis through visual diversity.