M. Jungwirth et al., Fundamentals of fish ecological integrity and their relation to the extended serial discontinuity concept, HYDROBIOL, 422, 2000, pp. 85-97
Current ecological theories and concepts describe running waters as four-di
mensional systems, their longitudinal, lateral and vertical linkages, inter
actions and exchange processes varying over time and over different scales.
According to Ward & Stanford's (1983) extended serial discontinuity concep
t (ESDC), along a three-reach river, model the relative strength of the lon
gitudinal pathways is highest in the constrained headwaters, vertical inter
actions reach their maximum in the braided middle course and lateral connec
tivity plays the major role in alluvial floodplain rivers. The present pape
r examines the general tenets of the ESDC from a fundamental fish ecology p
erspective. Specifically, it focuses on the degree to which the spatial/tem
poral connectivity requirements of fish communities or key fish species alo
ng a schematic longitudinal river course are compatible with the underlying
principles of the ESDC and whether these requirements provide basic criter
ia for assessing the ecological integrity of running waters. From the fish
ecological perspective, the examples provided here demonstrate a principle
agreement with the concept of the four-dimensional nature of running waters
, whose key functional and structural elements are spatial/temporal fluvial
dynamics, disturbances, connectivity, succession and ecotones. Fish are pa
rticularly useful indicators of the temporally variable connectivities on t
he full range of scales at the three spatial dimensions. As far as the habi
tat requirements of typical species/developmental stages are concerned, two
major modifications of the ESDC are needed. In constrained headwaters, in
addition to longitudinal connectivity, the crucial importance of the vertic
al pathway river/bed sediments for reproduction must be emphasized. Also, i
n addition to lateral connectivity, longitudinal connectivity remains a vit
al basis for potamal fish communities in alluvial braided and meandering zo
nes.