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The role of physical processes in mangrove environments : manual for the preservation and utilization of mangrove ecosystems (2007)

Mazda, Yoshihiro ; Wolanski, Eric ; Ridd, Peter V.

Tokyo : TERRAPUB

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Keywords: mangrove systems ; physical processes ; mangrove physics ; tidal flow ; mangrove vegetation ; mangrove swamps ; sea waves and tsunamis ; formation of water properties ; material exchange ; sediment transport ; groundwater flow ; formation of soil properties

Description / Table of Contents: Part I: Outline of the physical processes within mangrove systems --- Chapter 1: Introduction --- Chapter 2: Present state of mangrove studies from a physical viewpoint --- Chapter 3: Physical factors that shape mangrove environments --- Chapter 4: Hydrodynamics and physics that support the mangrove environment --- Chapter 5: Feedback processes that maintain the mangrove environment --- Chapter 6: Research technology --- Chapter 7: Modeling of mangrove systems --- Chapter 8: Future studies in the context of the preservation and utilization of mangroves

Pages: Online-Ressource (XX, 598 Seiten)

URL: http://www.terrapub.co.jp/e-library/matsuda/

Language: English

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Drag force due to vegetation in mangrove swamps (1997)

Mazda, Yoshihiro ; Wolanski, Eric ; King, Brian ; [et al.]

Springer

Mangroves and salt marshes 1 (1997), S. 193-199

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ISSN: 1572-977X

Keywords: mangrove swamp ; drag coefficient ; flow resistance ; tidal flow ; vegetation density ; Reynolds number

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Field studies of tidal flows in largely pristine mangrove swamps suggestthat the momentum equation simplifies to a balance between the water surfaceslope and the drag force. The controlling parameter is the vegetation lengthscale LE, which is a function of the projected area ofmangrove vegetation and the volume of the vegetation. The value ofLE varies greatly with mangrove species and water depth. It isfound that the drag coefficient is related to the Reynolds number Re definedusing LE. The drag coefficient decreases with increasingvalues of Re from a maximum value of 10 at low value of Re (〈104), and converges towards 0.4 for Re 〈 5 ×104.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009949411068

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