Biological, chemical and physical characteristics of downwelling and upwelling zones in the hyporheic zone of a north-temperate stream
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R. Storey | Richard G. Storey | Rob J. M. Franken | D. Dudley Williams | R. Franken | D. Dudley Williams
[1] L. J. Chapman,et al. The physiography of southern Ontario , 1952 .
[2] W. V. Sobczak,et al. 12 – Microbial Communities in Hyporheic Sediments , 2000 .
[3] J. Jones. Guide to methods for estimating microbial numbers and biomass in fresh water , 1979 .
[4] Thomas D. Brock,et al. Biology of microorganisms , 1970 .
[5] H. Fischer,et al. Hyporheic bacteria : relationships to environmental gradients and invertebrates in a prealpine stream , 1999 .
[6] C. Claret,et al. Nutrient transfer between parafluvial interstitial water and river water : influence of gravel bar heterogeneity , 1997 .
[7] Jeremy B. Jones,et al. Nitrification in the Hyporheic Zone of a Desert Stream Ecosystem , 1995, Journal of the North American Benthological Society.
[8] Tom Gonser,et al. The boundaries of river systems: the metazoan perspective , 1998 .
[9] S. Hendricks. Bacterial biomass, activity, and production within the hyporheic zone of a north-temperate stream , 1996 .
[10] R. Hall. Use of a Stable Carbon Isotope Addition to Trace Bacterial Carbon through a Stream Food Web , 1995, Journal of the North American Benthological Society.
[11] Contribution of the hyporheic zone to the stability of an arid-land stream , 1991 .
[12] D. Gill,et al. A MICRO-BIURET METHOD FOR ESTIMATING PROTEINS. , 1964, Analytical biochemistry.
[13] M. Leichtfried. Bacterial substrates in gravel beds of a second order alpine stream (Project Ritrodat-Lunz, Austria): With 7 figures and 2 tables in the text , 1988 .
[14] G. Bretschko. Vertical distribution of zoobenthos in an alpine brook of the RITRODAT-LUNZ study area: With 2 figures and 4 tables in the text , 1981 .
[15] L. Thibodeaux,et al. Convective transport within stable river sediments , 1987 .
[16] M. Brunke,et al. The ecological significance of exchange processes between rivers and groundwater , 1997 .
[17] M. Leichtfried. Organic matter in gravel streams (Project RITRODAT-LUNZ): With 9 figures in the text , 1985 .
[18] D. Williams,et al. The occurrence of benthos deep in the substratum of a stream , 1974 .
[19] W. Hilsenhoff. An Introduction to the Aquatic Insects of North America , 1997 .
[20] P. J. Phipps,et al. Chapter III Chemical Analysis of Microbial Cells , 1971 .
[21] D. Dudley Williams,et al. Perspectives and predictions on the microbial ecology of the hyporheic zone , 1999 .
[22] Ter Braak,et al. Canoco reference manual and CanoDraw for Windows user''s guide: software for canonical community ord , 2002 .
[23] M. Palmer,et al. Distribution patterns of interstitial freshwater meiofauna over a range of spatial scales, with emphasis on alluvial river-aquifer systems , 1994, Hydrobiologia.
[24] R. Herbert,et al. 1 Methods for Enumerating Microorganisms and Determining Biomass in Natural Environments , 1990 .
[25] D. Williams,et al. Qualitative differences in interstitial organic matter and their effect on hyporheic colonisation , 2004, Hydrobiologia.
[26] Nancy B. Grimm,et al. Exchange between interstitial and surface water: Implications for stream metabolism and nutrient cycling , 1984, Hydrobiologia.
[27] L. Thibodeaux,et al. Bedform-generated convective transport in bottom sediment , 1987, Nature.
[28] B. K. Ellis,et al. The role of micro‐organisms in the ecological connectivity of running waters , 1998 .
[29] M. Lock,et al. Immobilization of dissolved organic matter from groundwater discharging through the stream bed , 1991 .
[30] J. Meyer,et al. Rapid flow through the sediments of a headwater stream in the southern Appalachians , 1988 .
[31] F. Barlocher,et al. Hyporheic biofilms — a potential food source for interstitial animals , 1989, Hydrobiologia.
[32] C.J.F. ter Braak,et al. A Theory of Gradient Analysis , 2004 .
[33] H. Valett. Surface-hyporheic interactions in a Sonoran Desert stream: hydrologic exchange and diel periodicity , 1993, Hydrobiologia.
[34] D. Williams. Towards a biological and chemical definition of the hyporheic zone in two Canadian rivers , 1989 .
[35] David L. Strayer,et al. Oxygen, organic matter, and sediment granulometry as controls on hyporheic animal communities , 1997 .
[36] J. Meyer. Benthic bacterial biomass and production in a blackwater river: With 3 figures and 1 table in the text , 1988 .
[37] D. Williams,et al. SEASONAL BOUNDARY DYNAMICS OF A GROUNDWATER/ SURFACE-WATER ECOTONE , 1998 .
[38] S. Hendricks,et al. Microbial Ecology of the Hyporheic Zone: A Perspective Integrating Hydrology and Biology , 1993, Journal of the North American Benthological Society.
[39] S. Hendricks,et al. Physicochemical Patterns within a Hyporheic Zone of a Northern Michigan River, with Comments on Surface Water patterns' , 1991 .
[40] Thomas Rausch,et al. The estimation of micro-algal protein content and its meaning to the evaluation of algal biomass I. Comparison of methods for extracting protein , 1981, Hydrobiologia.
[41] David S. White,et al. Temperature Patterns within the Hyporheic Zone of a Northern Michigan River , 1987, Journal of the North American Benthological Society.
[42] M. Pusch,et al. Community respiration in hyporheic sediments of a mountain stream (Steina, Black Forest) , 1994 .
[43] D. Strayer,et al. Metabolism of streamwater dissolved organic carbon in the shallow hyporheic zone , 1993 .
[44] M. Pusch,et al. Spatial distribution and respiration of bacteria in stream-bed sediments , 1996 .
[45] C. Claret,et al. Seasonal dynamics of nutrient and biofilm in interstitial habitats of two contrasting riffles in a regulated large river , 1998, Aquatic Sciences.
[46] Martin Pusch,et al. The metabolism of organic matter in the hyporheic zone of a mountain stream, and its spatial distribution , 1996, Hydrobiologia.
[47] G. Bretschko,et al. Distribution of organic matter and fauna in a second order, alpine gravel stream (Ritrodat-Lunz study area, Austria): With 4 figures and 3 tables in the text , 1988 .
[48] 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 .
[49] POM in bed sediments of a gravel stream (Ritrodat-Lunz study area, Austria) , 1991 .
[50] J. Flannagan. An Introduction to the Aquatic Insects of North America. , 1979 .
[51] J. Marxsen. Evaluation of the importance of bacteria in the carbon flow of a small open grassland stream, the Breitenbach , 1988, Archiv für Hydrobiologie.
[52] S. Fisher,et al. Spatial distribution and taxonomic composition of the hyporheos of several Sonoran Desert streams , 1992 .
[53] C.J.F. ter Braak,et al. CANOCO Reference Manual and User's Guide to Canoco for Windows: Software for Canonical Community Ordination (Version 4) , 1998 .