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Journal of the North American Benthological Society 26(3):365-374. 2007
doi: http://dx.doi.org/10.1899/06-067.1

Upstream heterogeneous zones: small stream systems structured by a lack of competence?

John P. R. Gooderham¹ ^a, Leon A. Barmuta² ^a, Peter E. Davies³ ^b

^aSchool of Zoology, University of Tasmania, Private Bag 5, Hobart, Tasmania 7001, Australia

^bSchool of Zoology, University of Tasmania, Private Bag 5, Hobart, Tasmania 7001, Australia, and Freshwater Systems Pty Ltd, 82 Waimea Avenue, Sandy Bay, Tasmania 7005, Australia

Abstract

Small headwater streams have a suite of physical eccentricities that distinguishes them from the rest of the river system. These differences are now recognized in the study of sediment transport and channel morphology, but their implications for other limnological disciplines are less apparent. We suggest a zonation scheme for the upper stream system that acknowledges obvious geomorphic boundaries while highlighting differences in fine-scale habitat features that are likely to be biologically relevant. The upstream heterogeneous zone (UHZ) is distinguished by a high ratio of structural component size to stream width. Structural components include large rocks exposed from the regolith or from colluvial sources, tree roots, and woody debris, all of which are stochastically distributed and can constrain the morphology, hydraulics, and habitat distribution of small headwater streams. The high ratio of structural component size to stream width is a geomorphic phenomenon linked to the stream's lack of competence to move the material that forms its bed and banks. It follows that the incompetence of streams within the UHZ is ultimately responsible for their greater internal physical heterogeneity than downstream reaches and is a fundamental driver of their physical structure, dynamics, and possibly ecology. Benign hydraulic conditions in small headwater streams have the potential to uncouple the link between physical and biological heterogeneity, resulting in a faunal community composed of highly mobile generalists.

Received: June 22, 2006; Accepted: March 13, 2007

Keywords: headwater streams, habitat, geomorphology, upstream heterogeneous zone, variability, heterogeneity

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enlarge figure

Fig. 1. Section of stream from the upstream heterogeneous zone (UHZ) follows a tortuous pathway through an assortment of large structural elements. Note the small depositional zones (gray) associated with some of the larger rocks and debris. These couplets are a typical feature of the UHZ

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Fig. 2. Diagram of a small catchment showing the relative positions of the upper and lower boundaries of the upstream heterogeneous zone (UHZ)

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Fig. 3. The effects of substrate composition and vegetation on the lower boundary of the upstream heterogeneous zone (UHZ). A.—Distributions of substrate size in 3 catchments (1, 2, 3). B.—Competence and placement of the downstream boundary of the UHZ (dashed lines) associated with each substrate size distribution in panel A. Catchment 1 is dominated by fine unconsolidated sediments, which result in a diminished UHZ. Catchment 2 has a wide range of substrate sizes and, as a result, a well-developed UHZ. Catchment 3 is dominated by larger substrates (as would be expected from periglacial processes, see text), which result in an extensive UHZ. C.—Effect of vegetation on lower boundaries of UHZs in each catchment. Lower boundaries can be extended by vegetation (indicated by arrows in panel B), but this potential decreases as stream competence and catchment size increase

¹ flatworm@ozemail.com.au

² leon.barmuta@utas.edu.au

³ p.e.davies@utas.edu.au

This section of the journal is for the expression of new ideas, points of view, and comments on topics of interest to benthologists. The editorial board invites new and original papers as well as comments on items already published in J-NABS. Format and style may be less formal than conventional research papers; massive data sets are not appropriate. Speculation is welcome if it is likely to stimulate worthwhile discussion. Alternative points of view should be instructive rather than merely contradictory or argumentative. All submissions will receive the usual reviews and editorial assessments.

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