Fluxes of matter through an ecosystem are subject to influences arisin
g in its external surroundings. Variations of these influences lead to
changes in the flux pattern of the ecosystem. Straightforward applica
tion of the Chain Rule shows how the sensitivity of the steady state c
an be resolved into a matrix containing the direct external influences
on the ecosystem's fluxes premultiplied by the inverse of the communi
ty matrix. An example of this formalism is given, and various ways to
model flux functions are briefly reviewed. The formalism is applied to
trophic cascades theory, which was later assimilated into the Bottom
up:top-down theory. A consistency check on this model is given. The co
ncept of ratio-dependence has been put forward as an explanation of wh
y trophic cascades must peter out, away from the locus of direct pertu
rbation. It is shown that ratio-dependence achieves this by virtue of
satisfying a more general condition on so-called 'coupling strengths'.
(C) 1998 Elsevier Science B.V. All rights reserved.