1 / 16

Delineating the Hyporheic Zone Alissa jameS

Delineating the Hyporheic Zone Alissa jameS. INTRODUCTION. How have the fields of ecology and hydrogeology attempted to delineate the hyporheic zone? It is hard to define something we cannot immediately see.

arty
Télécharger la présentation

Delineating the Hyporheic Zone Alissa jameS

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Delineating the Hyporheic ZoneAlissajameS

  2. INTRODUCTION • How have the fields of ecology and hydrogeology attempted to delineate the hyporheic zone? • It is hard to define something we cannot immediately see. • Different definitions of the hyporheic zone (HZ) exist, based upon the field of science concerned • Importance within hydrology?

  3. MEANWHILE IN GREECE… HYPO = UNDER/ BENEATH RHEO = TO FLOW

  4. FAUNAL HABITAT • A distinct habitat was detected and named the ‘hyporheic biotope’. • This habitat was identified within the interface between surface and groundwater (Orghidan, 1959). • Identification of a large and diverse collection of fauna (Danielopo, 1989).

  5. A REFUGE • Biocenosis between organisms (Sabater and Vila, 1990). • A temporary refuge for organisms in times of physical and biological adversity (Stanford and Ward, 1988). • An ‘ecotone’ (Williams, 2010)

  6. DELINEATION ATTEMPTS • In-situ microbe calculations (Hynes, 1974) and correlation with concentrations of DO. • The ‘hyporheic corridor’ concept (Stanford and Ward, 1993). • Slower level of biological processes then that of the surface (Gibert et al, 1994) • Complex and temporally variable distribution of ecology within the hyporheic zone.

  7. DEFINING THE HYPORHEIC ZONE • Combining the factors of groundwater flow/exchange with populations of hyporheic invertebrates (Stanley and Boulton, 1993).

  8. ?

  9. THE GROUNDWATER SYSTEM • The hyporheic zone represents an area with increased mixing of surface and groundwater. • Dynamic and interesting zone • An important site of solute retention, metabolism and mineralization (Bencala, 1993). • Considers geomorphological and sedimentological structure

  10. DELINEATION ATTEMPTS • Quantification within hydrogeology has been attempted through identification of hyporheic depth or length of flow path. • But also, in a more detailed manner, through consideration of the amount of water present through the surface and groundwater components (Triska et al).

  11. METHODS OF DELINEATION • Examined at a wide range of scales; from riffles to whole drainage basins. • Delineated through exchange processes that occur.

  12. INTERCONNECTIVITY

  13. CONCLUSIONS • Inter-system connectivity, used to be considered as distinct entities. • Heterogeneity; varied spatially and temporally • The characteristics of running water are controlled by the interaction with their surroundings.

  14. A WORKING DEFINITION • The zone below and adjacent to a streambed in which water from the open channel exchanges with interstitial water in the bed sediments (White, 1993). It is the zone around a stream in which fauna characteristic of the hyporheic zone are distributed and live (Danielopo, 1989). It is a zone in which groundwater and surface water mix (Orghidan, 1959, Triska et al, 1993). The boundaries of the hyporheic zone vary in time and space

  15. REFERENCES • Bencala, K. E., 1993, A perspective on stream-catchment connections; Journal of the North American Benthological Society, p.44-47. • Danielopo D.L.,1989,Groundwater fauna associated with riverine aquifers: Journal of North. American Benthological Society, v.8, p18-35. • Gibert J, Danielopo D.L and Stanford J.A. (eds),1994, Groundwater Ecology: San Diego, Academic • Orghidan, 1959, Ein neur Leben-sraum des unterirdischen Wassers: der hyporheische Biotop: Arch. Hydrobiology; v. 55, p392-414 • Sabater F. and Vila P.B., 1991, The Hyporheic Zone considered as an ecotone: OecologiaAquatica, v.10, p.35-43 • Stanford J.A. and Ward J.V., 1993, An ecosystem perspective of alluvial rivers: connectivity and the hyporheic corridor, Journal. North. American. Benthological Society, v. 12, p. 48-60 • Stanley, E. H., and Boulton, A. J. ,1993, Hydrology and the distribution of hyporheos: perspectives from a mesic river and a desert stream: Journal of the North American Benthological Society, p. 79-83. • Triska F.J, Duff, J.H, and Avanzino R.J., 1993, The role of water exchange between a stream channel and its hyporheic zone in nitrogen cycling at the terrestrial-aquatic interface: Hydrobiologia, v. 251, p.167-184. • Ward, J. V.,1989, The four-dimensional nature of lotic ecosystems: Journal of the North American Benthological Society, v.8, p.2-8. • White D.S., 1993, Perspectives on defining and delineating hyporheic zones: Journal of the North American Benthological Society v. 12, p.79-83. • Williams D.D, Febria C.M, and Wong J.C.Y., 2010, Ecotonal and other properties of the Hyporheic Zone: Fundamentals. Applied. Limnology., Arch. Hydrobiol. v.176-4, p. 349–364

More Related