Colorado river benthic ecology in Grand Canyon, Arizona, USA: dam, tributary and geomorphological influences

The serial discontinuity concept (SDC; Ward and Stanford, in Ecology of River Systems, 1983) predicts that recovery of large regulated rivers over distance downstream from a dam is limited by relative tributary size; however, channel geomorphology may also influence the recovery process. We examined the spatial variation in water quality, benthic composition and ash-free dry standing biomass (AFDM) among the bedrock-defined geomorphological reaches in three turbidity segments of the Colorado River between Glen Canyon Dam and Diamond Creek, Arizona, including most of the Grand Canyon. This 387-km long study area supported virtually no Ephemeroptera, Plecoptera or Trichoptera, probably because cold, stenothermic, hypolimnetic releases limited maximum aestival warming to 17 1 C. The benthos displayed abrupt, physically related decreases in AFDM over distance from the dam and in the varial zone. The 26-km long clear water segment between the dam and the Paria River supported a depauperate Cladophora glomerata/epiphyte/chironomid/Gammarus lacustris/lumbricine/ Physella sp. assemblage, and ooze-dwelling oligochaetes. This segment contained 6 9% of the aquatic habitat below the 140 m 3 /s (normal minimum) discharge stage of the Colorado River study area, but supported 63 5% of the benthic primary producer AFDM and 87% of the benthic consumer AFDM in the entire study area. Turbidity increased and light penetration decreased immediately downstream from the confluence of the small, turbid Paria River, and further downstream from the Little Colorado River confluence. The benthos downstream from the Paria River was abruptly replaced by an Oscillatoria/ Simuliium assemblage with a mean AFDM of 0 12 g C/m 2 . Dam-related effects on water clarity, varial flow and water temperature overrode geomorphological influences on habitat availability. These results generally support the SDC, in that recovery of the benthos did not take place over distance in this large river ecosystem; however, geomorphological differences in substratum availability between reaches mediated dam and tributary effects on water clarity and benthic AFDM. Interactions between flow regulation and geomorphology produce a pattern of circuitous recovery of some physical river ecosystem characteristics over distance from the dam, but not of the benthos. Improving discharge management for endangered native fish populations requires detailed understanding of existing and potential benthic development, and trophic interactions, throughout the geomorphological reaches and turbidity segments in this river. 1997 by John Wiley & Sons, Ltd.

[1]  J. Ward Effects of flow patterns below large dams on stream benthos: A review , 1976 .

[2]  J. Ciborowski Dynamics of Drift and Microdistribution of Two Mayfly Populations: A Predictive Model , 1987 .

[3]  G. Minshall,et al.  Tributaries as modifiers of the river continuum concept analysis by polar ordination and regression models , 1984 .

[4]  D. Blinn,et al.  Diatoms of the Colorado River : in Grand Canyon National Park and Vicinity , 1978 .

[5]  Robert M. Hirsch,et al.  The influence of man on hydrologic systems , 1990 .

[6]  F. Hauer,et al.  Ecology and Life Histories of Three Net-Spinning Caddisfly Species (Hydropsychidae:Hydropsyche) in the Flathead River, Montana , 1982, Freshwater Invertebrate Biology.

[7]  D. Blinn,et al.  EPIPHYTIC DIATOMS ON CLADOPHORA GLOMERATA IN THE COLORADO RIVER, ARIZONA: LONGITUDINAL AND VERTICAL DISTRIBUTION IN A REGULATED RIVER , 1992 .

[8]  L. E. Stevens,et al.  Trophic interactions and benthic animal community structure in the Colorado River, Arizona, U.S.A. , 1994 .

[9]  A. Milner Colonization and ecological development of new streams in Glacier Bay National Park, Alaska , 1987 .

[10]  M. Palmer PUTTING THINGS IN EVEN BETTER ORDER: THE ADVANTAGES OF CANONICAL CORRESPONDENCE ANALYSIS' , 1993 .

[11]  R. O'Neill,et al.  Resource spiralling: an operational paradigm for analyzing lotic ecosystems , 1980 .

[12]  R. Webb,et al.  Relation of sediment load and flood-plain formation to climatic variability, Paria River drainage basin, Utah and Arizona , 1991 .

[13]  D. Blinn,et al.  Organic drift in a regulated desert river , 1996 .

[14]  J. Stanford,et al.  Benthic faunal patterns along the longitudinal gradient of a Rocky Mountain river system , 1991 .

[15]  G. Minshall,et al.  Stream Ecosystem Dynamics of the Salmon River, Idaho: An 8th-Order System , 1992, Journal of the North American Benthological Society.

[16]  G. Minshall,et al.  INTERBIOME COMPARISON OF STREAM ECOSYSTEM DYNAMICS , 1983 .

[17]  T. Angradi,et al.  Effects of atmospheric exposure on chlorophyll a, biomass and productivity of the epilithon of a tailwater river , 1993 .

[18]  Walter K. Dodds,et al.  Factors associated with dominance of the filamentous green alga Cladophora glomerata , 1991 .

[19]  G. Minshall,et al.  The River Continuum Concept , 1980 .

[20]  F. Swanson,et al.  An Ecosystem Perspective of Riparian ZonesFocus on links between land and water , 1991 .

[21]  B. W. Sweeney,et al.  Geographic Analysis of Thermal Equilibria: A Conceptual Model for Evaluating the Effect of Natural and Modified Thermal Regimes on Aquatic Insect Communities , 1980, The American Naturalist.

[22]  J. Ward,et al.  Biotic and abiotic gradients in a regulated high elevation Rocky mountain river , 1989 .

[23]  M. Delong,et al.  The riverine productivity model: an heuristic view of carbon sources and organic processing in large river ecosystems , 1994 .

[24]  Julia Badal Graf Measured and predicted velocity and longitudinal dispersion at steady and unsteady flow, Colorado River, Glen Canyon Dam to lake mead , 1995 .

[25]  D. Scott,et al.  The applicability of the River Continuum Concept to New Zealand streams: With 2 figures and 1 table in the text , 1988 .

[26]  Robert H. Webb,et al.  Debris flows from tributaries of the Colorado River, Grand Canyon National Park, Arizona , 1987 .

[27]  S. Kieffer The 1983 Hydraulic Jump in Crystal Rapid: Implications for River-Running and Geomorphic Evolution in the Grand Canyon , 1985, The Journal of Geology.

[28]  W. Richardson,et al.  Past, Present, and Future Concepts in Large River Ecology How rivers function and how human activities influence river processes , 1995 .

[29]  A. Storey,et al.  Recovery of aquatic macroinvertebrate assemblages downstream of the Canning Dam, Western Australia , 1991 .

[30]  Alexander S. Flecker,et al.  Biodiversity conservation in running waters , 1993 .

[31]  P. Armitage Environmental changes induced by stream regulation and their effect on lotic macroinvertebrate communities , 1984 .

[32]  C.J.F. ter Braak,et al.  CANOCO - a FORTRAN program for canonical community ordination by [partial] [etrended] [canonical] correspondence analysis, principal components analysis and redundancy analysis (version 2.1) , 1988 .

[33]  Ba Whitton,et al.  Biology of Cladophora in freshwaters , 1970 .

[34]  D. Lieberman,et al.  Particulate organic matter transport in the lower Colorado River, South-Western USA , 1993 .

[35]  S. Bartell,et al.  Dynamics of Lotic Ecosystems. , 1984 .

[36]  J. Stanford,et al.  Ecological Factors Controlling Stream Zoobenthos with Emphasis on Thermal Modification of Regulated Streams , 1979 .

[37]  C. Russell Integrating Ecology and Economics via Regional Modeling , 1996 .

[38]  J. Ward,et al.  Influence of regulation on environmental conditions and the macroinvertebrate community in the upper Colorado river , 1988 .

[39]  R. Turner,et al.  Recent vegetation changes along the Colorado River between Glen Canyon Dam and Lake Mead, Arizona , 1980 .

[40]  J. Stanford,et al.  The serial discontinuity concept of lotic ecosystems , 1983 .

[41]  V. Baker,et al.  A 4500-Year Record of Large Floods on the Colorado River in the Grand Canyon, Arizona , 1994, The Journal of Geology.

[42]  M. Wolman,et al.  Surface Water Hydrology , 1990 .

[43]  D. D. Macdonald,et al.  Effects of Suspended Sediments on Aquatic Ecosystems , 1991 .

[44]  Clarke Miller,et al.  Correlates of habitat favourability for benthic macroinvertebrates at five stream sites in an Appalachian Mountain drainage basin, U.S.A. , 1985 .

[45]  J. Schmidt,et al.  Flow regulation, geomorphology, and Colorado River marsh development in the Grand Canyon, Arizona , 1995 .

[46]  T. Angradi Trophic Linkages in the Lower Colorado River: Multiple Stable Isotope Evidence , 1994, Journal of the North American Benthological Society.

[47]  Colin R. Townsend,et al.  The Patch Dynamics Concept of Stream Community Ecology , 1989, Journal of the North American Benthological Society.

[48]  D. Blinn,et al.  INFLUENCE OF VARIOUS EXPOSURE PERIODS ON THE BIOMASS AND CHLOROPHYLL A OF CLADOPHORA GLOMERATA (CHLOROPHYTA) 1 , 1990 .

[49]  S. Fisher,et al.  Stability of Periphyton and Macroinvertebrates to Disturbance by Flash Floods in a Desert Stream , 1989, Journal of the North American Benthological Society.

[50]  L. Corkum Spatial Patterns of Macroinvertebrate Distributions along Rivers in Eastern Deciduous Forest and Grassland Biomes , 1991, Journal of the North American Benthological Society.

[51]  J. Stanford,et al.  The Ecology of Regulated Streams , 1979, Springer US.

[52]  F. Douglas Shields,et al.  Can Large Rivers Be Restored?Most restoration projects are only attempts to rehabilitate selected river sections to a predetermined structure and functio , 1995 .

[53]  R. P. Canale,et al.  Ecological Studies and Mathematical Modeling of Cladophora in Lake Huron: 4. Photosynthesis and Respiration as Functions of Light and Temperature , 1982 .

[54]  J. Stanford,et al.  Thermal Responses in the Evolutionary Ecology of Aquatic Insects , 1982 .

[55]  A. Howard,et al.  Geomorphology of the Colorado River in the Grand Canyon , 1981, The Journal of Geology.

[56]  D. Blinn,et al.  Response of epiphytic diatom communities from the tailwaters of glen Canyon Dam, Arizona, to elevated water temperature , 1989 .

[57]  Robert C. Petersen,et al.  Developments in Stream Ecosystem Theory , 1985 .

[58]  L. E. Stevens,et al.  Consequences of Fluctuating Discharge for Lotic Communities , 1995, Journal of the North American Benthological Society.

[59]  W. Dietrich,et al.  Downstream Ecological Effects of Dams: A geomorphic perspective , 1995 .

[60]  M. Brusven,et al.  Discontinuity of trichopteran (caddisfly) communities in regulated waters of the clearwater river, Idaho, U.S.A. , 1987 .

[61]  Aggradation and degradation of alluvial sand deposits, 1965 to 1986, Colorado River, Grand Canyon National Park, Arizona , 1990 .

[62]  W. Rice ANALYZING TABLES OF STATISTICAL TESTS , 1989, Evolution; international journal of organic evolution.

[63]  W. Pearson Distribution of Macroinvertebrates in the Green River Below Flaming Gorge Dam, 1963-1965 , 1967 .

[64]  J. Stanford,et al.  The serial discontinuity concept : extending the model to floodplain rivers , 1995 .

[65]  J. Helešic,et al.  Downstream effect of impoundments on stoneflies: Case study of an epipotamal reach of the Jihlava river, Czech Republic , 1995 .

[66]  F. Hauer,et al.  Distribution and abundance of Trichoptera in a large regulated river , 1991 .

[67]  J. Culp,et al.  Analysis of Longitudinal Zonation and the River Continuum Concept in the Oldman–South Saskatchewan River System , 1982 .

[68]  W. Junk The flood pulse concept in river-floodplain systems , 1989 .

[69]  J. Schmidt,et al.  Aggradation and degradation of alluvial sand deposits, 1965 to 1986, Colorado River, Grand Canyon National Park, Arizona , 1988 .