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Physical modelling of water, fauna and flora: knowledge gaps, avenues for future research and infrastructural needs
Thomas, R.E.; Johnson, M.F.; Frostick, L.E.; Parsons, D.R.; Bouma, T.J.; Dijkstra, J.T.; Eiff, O.; Gobert, S.; Henry, P.; Kemp, P.; McLelland, S.J.; Moulin, F.Y.; Myrhaug, D.; Neyts, A.; Paul, M.; Penning, W.E.; Puijalon, S.; Rice, S.P.; Stanica, A.; Tagliapietra, D.; Tal, M.; Torum, A.; Vousdoukas, M.I. (2014). Physical modelling of water, fauna and flora: knowledge gaps, avenues for future research and infrastructural needs. J. Hydraul. Res. 52(3): 311-325. https://dx.doi.org/10.1080/00221686.2013.876453
In: Journal of Hydraulic Research = Journal de Recherches hydrauliques. International Association for Hydraulic Research = Association Internationale de Recherches Hydrauliques: Delft. ISSN 0022-1686; e-ISSN 1814-2079, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoord
    Marien/Kust
Author keywords
    Biofilms, biogeomorphology, eco-hydraulics, experimental facilities, flow–biota interactions, macrozoobenthos, vegetated flows

Auteurs  Top 
  • Thomas, R.E.
  • Johnson, M.F.
  • Frostick, L.E.
  • Parsons, D.R.
  • Bouma, T.J., meer
  • Dijkstra, J.T.
  • Eiff, O.
  • Gobert, S., meer
  • Henry, P.
  • Kemp, P.
  • McLelland, S.J.
  • Moulin, F.Y.
  • Myrhaug, D.
  • Neyts, A.
  • Paul, M.
  • Penning, W.E.
  • Puijalon, S.
  • Rice, S.P.
  • Stanica, A.
  • Tagliapietra, D.
  • Tal, M.
  • Torum, A.
  • Vousdoukas, M.I.

Abstract
    Physical modelling is a key tool for generating understanding of the complex interactions between aquatic organisms and hydraulics, which is important for management of aquatic environments under environmental change and our ability to exploit ecosystem services. Many aspects of this field remain poorly understood and the use of physical models within eco-hydraulics requires advancement in methodological application and substantive understanding. This paper presents a review of the emergent themes from a workshop tasked with identifying the future infrastructure requirements of the next generation of eco-hydraulics researchers. The identified themes are: abiotic factors, adaptation, complexity and feedback, variation, and scale and scaling. The paper examines these themes and identifies how progress on each of them is key to existing and future efforts to progress our knowledge of eco-hydraulic interactions. Examples are drawn from studies on biofilms, plants, and sessile and mobile fauna in shallow water fluvial and marine environments. Examples of research gaps and directions for educational, infrastructural and technological advance are also presented.

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