Although weather variables are known to influence quail abundance in some h
abitats, most studies have addressed only limited geographic areas and indi
ces to weather conditions. The few replicated studies addressed relatively
similar climate zones. We used 21 years (1978-98) of quail abundance data c
ollected by the Texas Parks and Wildlife Department (TPWD) biologists to ad
dress the relationship between both simple precipitation and Palmer drought
indices and Northern Bobwhite (Colinus virginianus) and Scaled quail (Call
ipepla squamata) abundance in 6 ecological regions of Texas. Three 12-month
Palmer indices were more highly correlated with changes in Northern Bobwhi
te abundance in the South Texas Plains ecological region than was raw preci
pitation alone. The 12-month Modified Palmer Drought Severity Index (PMDI)
was correlated (r(s) greater than or equal to 0.78, P less than or equal to
0.001) with the mean number of Northern Bobwhites visually observed per su
n ey route in the Rolling and South Texas Plains ecological regions, while
a le-month, raw precipitation index was correlated (r(s) = 0.64, P = 0.002)
with Northern Bobwhite abundance in only the South Texas Plains. The PMDI
and raw precipitation were correlated (r(s) greater than or equal to 0.67,
P less than or equal to 0.001and r(s) greater than or equal to 0.57, P less
than or equal to 0.007, respectively) with the mean number Scaled Quail ob
served per survey route in the Edwards Plateau, South Texas Plains, and Tra
ns-Pecos Mountains and Basins ecological regions. There was no relationship
(P greater than or equal to 0.437) between changes in quail abundance and
the PMDI or raw precipitation in the Gulf Prairies and Marshes physiographi
c region, where precipitation was relatively high. The monthly PMDI was a b
etter indicator of changes in both northern bobwhite and Scaled Quail abund
ance among years than was monthly precipitation alone. Both monthly and 12-
month precipitation-based weather indices were more correlated with changes
in Northern Bobwhite and scaled quail abundance among years in relatively
dry as opposed to wet ecological regions. Our approach should help wildlife
biologists and managers better account for annual variability in quail pro
ductivity in semi-arid environments so that long-term populations trends ca
n be better elucidated.