SAGEBRUSH-GRASS VEGETATION DYNAMICS: COMPARING CLASSICAL AND STATE-TRANSITION MODELS

The State-Transition (ST) model has been proposed as a replacement for the widely used Classical linear succession model and its derivative Range Condition (RC) model for describing and predicting rangeland community dynamics in response to man- agement. Although the ST model offers significant advantages because it accommodates nonlinear and nonequilibrium theory and is more amenable to quantitative testing of hy- potheses about community change, to date its applications have not fully utilized those advantages using empirical data. We compare the utility of the Classical, RC, and ST models in the Artemisia tridentatalPseudoroegneria spicata vegetation type, utilizing a long-term data set from southeastern Oregon. First we develop and examine the Classical and RC models for their ability to describe and predict observed vegetation changes; second we develop an ST model by classifying and quantitatively identifying states and transitions that were observed over a period of 20 yr. The Classical and RC models adequately describe most of the observed changes in vegetation through use and application of broad descriptive categories on extensive range sites. This greatly reduces the utility and predictive value of the Classical and RC approaches as guides to management and restoration. The states and transitions developed quantitatively for the ST model offer considerably more precision and predictive value than the Classical/RC models but require large, long-term, site-specific data sets, which are usually not available for rangeland systems. The specific seral stages developed for the Classical model and commonly described in the literature differ signif- icantly from the states and transitions derived quantitatively from the empirical data. States in the ST model exhibit a significant time dependency and could not have been adequately developed without long-term observations.

[1]  Roderick Hunt,et al.  Comparative Plant Ecology: A Functional Approach to Common British Species , 1989 .

[2]  Hugh G. Gauch,et al.  Multivariate analysis in community ecology , 1984 .

[3]  R. L. Piemeisel Changes in Weedy Plant Cover on Cleared Sagebrush Land and their Probable Causes , 1938 .

[4]  L. E. Harris,et al.  Grazing Intensities and Systems on Crested Wheatgrass in Central Utah: Response of Vegetation and Cattle , 1968 .

[5]  G. F. Griffin,et al.  Range assessment and monitoring in arid lands: the derivation of functional group to simplify vegetation data , 1988 .

[6]  F. Clements Scientific Books: Plant Succession. An Analysis of the Development of Vegetation , 2009 .

[7]  M. Westoby,et al.  Opportunistic management for rangelands not at equilibrium. , 1989 .

[8]  G. Bastin,et al.  Range assessment and monitoring in arid lands: the use of classification and ordination in range survey , 1986 .

[9]  I. Noble,et al.  The Use of Vital Attributes to Predict Successional Changes in Plant Communities Subject to Recurrent Disturbances , 1980 .

[10]  M. Friedel Range condition assessment and the concept of thresholds: a viewpoint. , 1991 .

[11]  H. G. Reynolds,et al.  Methods of Surveying and Measuring Vegetation , 1956 .

[12]  N. West,et al.  PLANT DEMOGRAPHIC STUDIES IN SAGEBRUSH-GRASS COMMUNITIES OF SOUTHEASTERN IDAHO' , 1979 .

[13]  E. J. Dyksterhuis Condition and Management of Range Land Based on Quantitative Ecology. , 1949 .

[14]  H. Heady The Vale rangeland rehabilitation program: an evaluation. , 1988 .

[15]  M. O. Hill,et al.  TWINSPAN: a FORTRAN program of arranging multivariate data in an ordered two way table by classification of individual and attributes , 1979 .

[16]  R. L. Piemeisel Causes Affecting Change and Rate of Change in a Vegetation of Annuals in Idaho , 1951 .

[17]  Hj Norussis,et al.  SPSS for Windows , 1993 .

[18]  W. Laycock Stable states and thresholds of range condition on North American rangelands: a viewpoint. , 1991 .

[19]  H. Jenny,et al.  Derivation of State Factor Equations of Soils and Ecosystems , 1961 .

[20]  Melvin R. George,et al.  Application of nonequilibrium ecology to management of Mediterranean grasslands. , 1992 .