Ma. Huston et Dl. Deangelis, COMPETITION AND COEXISTENCE - THE EFFECTS OF RESOURCE TRANSPORT AND SUPPLY, The American naturalist, 144(6), 1994, pp. 954-977
Classical resource competition theory can be generalized to apply to a
variety of specific resource types and specific supply media (e.g., s
oil, water, or air). We develop a general model that relaxes the assum
ptions that (1) resources and organisms are sufficiently mixed that al
l organisms experience the same resource concentration and (2) the org
anisms themselves regulate the resource concentration of their shared
environment. These assumptions are shown to apply to a limited subset
of conditions in which the resource input rate is low and the resource
transport rate in the environment is high. Under such conditions, the
coexistence criteria of our general model converge with those of clas
sical resource competition models. Such conditions may be met in some
aquatic environments, but under other conditions, in which resource tr
ansport rates may be low or input fluxes high, the general model makes
predictions that differ radically from those of the classical models.
Specifically, our model predicts that, instead of a 1:1 ratio between
limiting resources and locally coexisting species, a large number of
species can coexist on a single limiting resource under steady-state c
onditions. Shifts from limitation by one type of resource to limitatio
n by another type can dramatically alter the nature and intensity of c
ompetitive interactions. This phenomenon is proposed as the explanatio
n for the ubiquitous unimodel curve of autotroph diversity along produ
ctivity gradients.