Stability and coexistence in a lawn community: mathematical prediction of stability using a community matrix with parameters derived from competitionexperiments

Community matrix theory has been proposed as a means of predicting whether a particular set of species will form a stable mixture. However. the approa ch has rarely been used with data from real communities. Using plant compet ition experiments, we use community matrix theory to predict the stability and competitive structuring of a lawn community. Seven species from the lawn, including the six most abundant. were grown in boxes, in conditions very similar to those on the lawn. They were grown al one (monocultures), and in all possible pairs. The species formed a transitive hierarchy of competitive ability, with most pairs of species showing asymmetric competition. Relative competitive abil ity (competitive effect) was positively correlated with published estimates of the maximum relative growth rate (RGR(max)) for the same species. A seven-species community matrix predicted the mixture of species to be uns table. Simulations revealed two topological features of this community matr ix. First, the matrix was closer to the stability/instability boundary than predicted from a range of null (random) models, suggesting that the lawn m ay be close to stability. Second, the tendencies of the lawn species to com pete asymmetrically, and to be arranged in competitive hierarchies, were fo und to be positively associated with stability, and hence may be contributi ng factors to the near-stability seen in the matrix. The limitations of using competition experiments For constructing community matrices are discussed.