SPUR (Simulation of Production and Utilization of Rangelands) is a grasslan
d ecosystem simulation model. SPUR2.4 integrates all previous versions of S
PUR. The changes from SPUR91 make the model more applicable to the southern
Great Plains. The forage submodel from SPUR2 predicts forage intake and di
et selection by grazing herbivores, and the cow-calf submodel from SPUR2 si
mulates all individuals in a herd for their full life cycle, based on defin
ed genetic traits. The soil organic matter submodel from CENTURY was added
to improve soil carbon and nitrogen cycling. SPUR2.4 output is compared wit
h observed values from the Texas Experimental Ranch, Throckmorton, Texas. T
he changes made in creating SPUR2.4 have considerably improved the utility
and accuracy of the SPUR model for north Texas. Soil moisture predictions a
re improved (SPUR91 is 137% and SPUR2.4 is 106% of observed, R = 0.79-0.86)
, but run-off is still not adequate (R = 0.65-0.76) and monthly evaporation
is lower (SPUR91 is 94% and SPUR2.4 is 95%) than observed. Soil carbon lev
el predictions by the CENTURY submodel are within range of the data, and ou
tput is stable over the simulation period. Predictions of individual plant
species productivity compared with observed data are improved with SPUR2.4
(R = 0.79-0.98). Between-season plant growth and long-term persistence are
simulated well. The addition of the CENTURY soil organic matter submodel in
creased nitrogen level predictions resulting in more accurate predictions o
f animal weight gain. Steer weight gains are typical for north Texas. Simul
ation of cow-calf mass was good (R > 0.98) as was production per hectare an
d per cow. The addition of the cow-calf model increases the utility of the
model. The paper identifies portions of the model that need further validat
ion and field research to improve model utility and credibility for use in
natural resource management. (C) 1999 Elsevier Science B.V. All rights rese
rved.