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J. Murphy, P. Giller, M. Horan (1998)
Spatial scale and the aggregation of stream macroinvertebrates associated with leaf packsFreshwater Biology, 39
G. Brierley, K. Fryirs (2000)
River Styles, a Geomorphic Approach to Catchment Characterization: Implications for River Rehabilitation in Bega Catchment, New South Wales, AustraliaEnvironmental Management, 25
B. Robson, E. Chester (1999)
Spatial patterns of invertebrate species richness in a river: the relationship between riffles and microhabitatsAustral Ecology, 24
I. Maddock (1999)
The Importance of Physical Habitat Assessment for Evaluating River HealthFreshwater Biology, 41
N. Davies, R. Norris, M. Thoms (2000)
Prediction and assessment of local stream habitat features using large‐scale catchment characteristicsFreshwater Biology, 45
Humphries Humphries (1996)
Aquatic macrophytes, macroinvertebrate associations and water levels in a lowland Tasmanian RiverHydrobiologia, 32
C. Nilsson, Shaojun Xiong, M. Johansson, L. Vought (1999)
EFFECTS OF LEAF‐LITTER ACCUMULATION ON RIPARIAN PLANT DIVERSITY ACROSS EUROPEEcology, 80
S. Reice (1980)
The Role of Substratum in Benthic Macroinvertebrate Microdistribution and Litter Decomposition in a Woodland StreamEcology, 61
C. Townsend (1989)
The Patch Dynamics Concept of Stream Community EcologyJournal of the North American Benthological Society, 8
Lium Lium (1974)
Some aspects of aquatic insect populations of pools and riffles in gravel bed streams in western United StatesJournal of Research US Geological Survey, 2
J. Kolasa (1989)
Ecological Systems in Hierarchical Perspecitive: Breaks in Community Structure and Other ConsequencesEcology, 70
I. Bacher, J. Waringer (1996)
Hydraulic Microdistribution of Cased Caddis Larvae in an Austrian Mountain BrookInternational Review of Hydrobiology, 81
P. Logan, M. Brooker (1983)
The macroinvertebrate faunas of riffles and poolsWater Research, 17
P. Jacobson, K. Jacobson, P. Angermeier, D. Cherry (1999)
Transport, Retention, and Ecological Significance of Woody Debris within a Large Ephemeral RiverJournal of the North American Benthological Society, 18
Dennis Scarnecchia, Pat Saffel (1995)
Habitat use by juvenile bull trout in belt-series geology watersheds of Northern Idaho
Naiman Naiman, Elliott Elliott, Helfield Helfield, O'Keefe O'Keefe (1999)
Biophysical interactions and the structure and dynamics of riverine ecosystems: the importance of biotic feedbacksHydrobiologia, 410
J. Jeffers (1998)
Characterization of river habitats and prediction of habitat features using ordination techniquesAquatic Conservation-marine and Freshwater Ecosystems, 8
Gregory Gregory, Swanson Swanson, McKee McKee, Cummins Cummins (1991)
An ecosystem perspective of riparian zonesBioScience, 41
M. Newson, C. Newson (2000)
Geomorphology, ecology and river channel habitat: mesoscale approaches to basin-scale challengesProgress in Physical Geography, 24
G. Meffe, A. Sheldon (1988)
The Influence of Habitat Structure on Fish Assemblage Composition in Southeastern Blackwater StreamsAmerican Midland Naturalist, 120
C. Palmer, J. O’Keeffe, A. Palmer (1991)
Are Macroinvertebrate Assemblages in the Buffalo River, Southern Africa, Associated with Particular Biotopes?Journal of the North American Benthological Society, 10
R. Wadeson, K. Rowntree (1998)
Application of the hydraulic biotope concept to the classification of instream habitatsAquatic Ecosystem Health & Management, 1
J. Lancaster, A. Hildrew (1993)
Flow Refugia and the Microdistribution of Lotic MacroinvertebratesJournal of the North American Benthological Society, 12
C. Frissell, W. Liss, C. Warren, M. Hurley (1986)
A hierarchical framework for stream habitat classification: Viewing streams in a watershed contextEnvironmental Management, 10
V. Korte, D. Blinn (1983)
DIATOM COLONIZATION ON ARTIFICIAL SUBSTRATA IN POOL AND RIFFLE ZONES STUDIED BY LIGHT AND SCANNING ELECTRON MICROSCOPY 1Journal of Phycology, 19
Statzner Statzner (1981)
A method to estimate the population size of benthic macroinvertebrates in streamsOecologia, 51
A. Boulton, M. Brock, B. Robson, D. Ryder, J. Chambers, Jenny Davis (1999)
Australian Freshwater Ecology: Processes and Management
Rogulj Rogulj, Marmonier Marmonier, Lattinger Lattinger, Danielopol Danielopol (1994)
Fine‐scale distribution of hypogean Ostracoda in the interstitial habitats of the Rivers Sava and RhoneHydrobiologia, 287
R. Pridmore, D. Roper (1985)
Comparison of the macroinvertebrate faunas of runs and riffles in three new zealand streamsNew Zealand Journal of Marine and Freshwater Research, 19
Bacher Bacher, Waringer Waringer (1996)
Hydraulic microdistribution of cased caddis larvae in an Austrian mountain brookInternationale Revue der Gesamten Hydrobiologie, 81
D. Hart, C. Finelli (1999)
PHYSICAL-BIOLOGICAL COUPLING IN STREAMS: The Pervasive Effects of Flow on Benthic OrganismsAnnual Review of Ecology, Evolution, and Systematics, 30
W. Young (1992)
Clarification of the criteria used to identify near-bed flow regimesFreshwater Biology, 28
S. Gregory, F. Swanson, W. McKee, K. Cummins (1991)
An Ecosystem Perspective of Riparian ZonesFocus on links between land and waterBioScience, 41
C. Padmore (1998)
The role of physical biotopes in determining the conservation status and flow requirements of British riversAquatic Ecosystem Health & Management, 1
J. Davis, L. Barmuta (1989)
An ecologically useful classification of mean and near‐bed flows in streams and riversFreshwater Biology, 21
B. Southwood (1977)
HABITAT, THE TEMPLET FOR ECOLOGICAL STRATEGIES?Journal of Animal Ecology, 46
E. Baras, J. Philippart, J. Nindaba (1996)
Importance of gravel bars as spawning grounds and nurseries for European running water cyprinids
P. Braaten, C. Berry (1997)
Fish Associations with Four Habitat Types in a South Dakota Prairie StreamJournal of Freshwater Ecology, 12
R. Noss (1990)
Indicators for Monitoring Biodiversity: A Hierarchical ApproachConservation Biology, 4
Taylor Taylor, Thomson Thomson, Fryirs Fryirs, Brierley Brierley (2000)
Habitat mapping using the River Styles methodologyEcological Management and Restoration, 1
G. Brierley, S. Cunial (1998)
Vegetation distribution on a gravel point bar on the Wilson Riverc NSWc a fluvial disturbance model, 120
D. Montgomery, J. Buffington (2000)
Channel Processes, Classification, and Response
J. Kemp, D. Harper, G. Crosa (1999)
Use of ‘functional habitats’ to link ecology with morphology and hydrology in river rehabilitation, 9
D. Harper, M. Everard (1998)
Why should the habitat‐level approach underpin holistic river survey and management?Aquatic Conservation-marine and Freshwater Ecosystems, 8
P. Raven, N. Holmes, F. Dawson, M. Everard (1998)
Quality assessment using River Habitat Survey dataAquatic Conservation-marine and Freshwater Ecosystems, 8
W. Kunin (1998)
Biodiversity at the edge: a test of the importance of spatial "mass effects" in the Rothamsted Park Grass experiments.Proceedings of the National Academy of Sciences of the United States of America, 95 1
Orth Orth, Maughan Maughan (1983)
Microhabitat preferences of benthic fauna in a woodland streamHydrobiologia, 106
J. Lund, H. Hynes (1971)
The Ecology of Running Waters
F. Sheldon, K. Walker (1998)
Spatial distribution of littoral invertebrates in the lower Murray-Darling River system, AustraliaMarine and Freshwater Research, 49
I. Jowett, J. Richardson, B. Biggs, C. Hickey, J. Quinn (1991)
Microhabitat preferences of benthic invertebrates and the development of generalised Deleatidium spp. habitat suitability curves, applied to four New Zealand riversNew Zealand Journal of Marine and Freshwater Research, 25
L. Evans, R. Norris (1997)
Prediction of benthic macroinvertebrate composition using microhabitat characteristics derived from stereo photographyFreshwater Biology, 37
A. Coller, K. Rogers (2000)
Riparian vegetation‐environment relationships: complimentarity of gradients versus patch hierarchy approachesJournal of Vegetation Science, 11
C. Hawkins, J. Kershner, P. Bisson, M. Bryant, Lynn Decker, S. Gregory, D. Mccullough, C. Overton, G. Reeves, R. Steedman, M. Young (1993)
A hierarchical approach to classifying stream habitat featuresFisheries, 18
M. Taylor, J. Thomson, K. Fryirs, G. Brierley (2000)
Habitat assessment using the River Styles™ methodologyEcological Management and Restoration, 1
I. Jowett (1993)
A method for objectively identifying pool, run, and riffle habitats from physical measurementsNew Zealand Journal of Marine and Freshwater Research, 27
C. Hupp, W. Osterkamp (1985)
Bottomland Vegetation Distribution along Passage Creek, Virginia, in Relation to Fluvial LandformsEcology, 66
Beisel Beisel, Usseglio‐Polatera Usseglio‐Polatera, Thomas Thomas, Moreteau Moreteau (1998)
Stream community structure in relation to spatial variation: the influence of mesohabitat characteristicsHydrobiologia, 389
Brown Brown, Brussock Brussock (1991)
Comparisons of benthic invertebrates between riffles and poolsHydrobiologia, 220
1. Methods to assess the physical habitat available to aquatic organisms provide important tools for many aspects of river management, including river health monitoring, determination of river restoration/rehabilitation strategies, setting and evaluating environmental flows and as surrogates for biodiversity assessment. 2. Procedures used to assess physical habitat need to be ecologically and geomorphologically meaningful, as well as practicable. A conceptual methodological procedure is presented that evaluates and links instream habitat and geomorphology. 3. The heterogeneity of habitat potential is determined within geomorphic units (such as pools, runs, riffles) by assessing flow hydraulics and substrate character. These two variables are integrated as hydraulic units — patches of uniform flow and substrate. 4. This methodology forms a logical extension of the River Styles framework that characterizes river form and behaviour at four inter‐related scales: catchments, landscape units, River Styles (reaches) and geomorphic units. As geomorphic units constitute the basis to assess aquatic habitat availability, and they form the building blocks of river and floodplain systems, intact reaches of a particular River Style should have similar assemblages of instream and floodplain habitat. 5. An application of the hydraulic unit procedure is demonstrated in gorge, partly‐confined and alluvial River Styles from the Manning catchment in northern New South Wales, Australia. Copyright © 2001 John Wiley & Sons, Ltd.
Aquatic Conservation: Marine and Freshwater Ecosystems – Wiley
Published: Sep 1, 2001
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