Tropical Marine Ecology. Daniel M. Alongi

Tropical Marine Ecology - Daniel M. Alongi


Скачать книгу
and the eastern Bay of Bengal, and some portions of Southeast Asia and NE Brazil; micro‐tides (< 2 m tidal range) dominate everywhere else in the tropics.

Schematic illustration of global distribution of semi-diurnal, diurnal, and mixed tides.

      Source: Gerkema (2019), figure 1, p.14. © Cambridge University Press.

Schematic illustration of distribution of tidal ranges across the world ocean.

      Source: Image provided by and used with permission of James Chittleborough, Australian Bureau of Meteorology. © Australian Bureau of Meteorology.

      1 Andutta, F.P., Ridd, P.V., and Wolanski, E. (2011). Dynamics of hypersaline coastal waters in the Great Barrier Reef. Estuarine, Coastal and Shelf Science 94: 299–305.

      2 Asp, N.E., de Freitas, P.T., Gomes, V.J.C. et al. (2013). Hydrodynamic overview and seasonal variation of estuaries at the eastern sector of the Amazonian coast. Journal of Coastal Research 65: 1092–1097.

      3  Ayukai, T., Wolanski, E., Wattayakorn, G. et al. (2000). Organic carbon and nutrient dynamics in mangrove creeks and adjacent coastal waters of Sawi Bay, southern Thailand. Phuket Marine Biological Center Special Publication 22: 51–62.

      4 de Boer, W.F. (2007). Seagrass‐sediment interactions, positive feedbacks and critical thresholds for occurrence: a review. Hydrobiologia 591: 5–24.

      5 Capo, S., Brenon, I., Sottolichio, A. et al. (2009). Tidal sediment transport versus freshwater flood events in the Konkoure Estuary, Republic of Guinea. Journal of African Earth Sciences 55: 52–57.

      6 Cavalcante, G.H., Feary, D.A., and Kjerfve, B. (2013). Effects of tidal range variability and local morphology on hydrodynamic behaviour and salinity structure in the Caeté River estuary, north Brazil. International Journal of Oceanography 2013: 315328. https://doi.org/10.1155/2013/315328.

      7 Chang, Y., Chen, Y., and Wang, Y.P. (2020). Field measurements of tidal flows affected by mangrove seedlings in a restored mangrove swamp, southern China. Estuarine, Coastal and Shelf Science 235: 106561. https://doi.org/10.1016/j.ecss.2019.106561.

      8 Comfort, C.M., Walker, G.O., McManus, M.A. et al. (2019). Physical dynamics of the reef flat, channel, and fore reef areas of a fringing reef embayment: an oceanographic study of Pago Bay, Guam. Regional Studies in Marine Science 31: 100740. https://doi.org/10.1016/j.rsma.2019.100740.

      9 Coronado, C., Candela, J., Iglesias‐Prieto, R. et al. (2007). On the circulation in the Puerto Morelos fringing reef lagoon. Coral Reefs 26: 149–163.

      10 Dzakpasu, M.F.A. and Yankson, K. (2015). Hydrographic characteristics of two estuaries on the south western coast of Ghana. New York Science Journal 8: 60–69.

      11 Enriquez, C., Mariño‐Tapia, I., Jeronimo, G. et al. (2013). Thermohaline processes in a tropical coastal zone. Continental Shelf Research 69: 101–109.

      12 Feng, M., Zhang, N., Liu, Q. et al. (2018). The Indonesian throughflow, its variability and centennial change. Geoscience Letters 5: 3. https://doi.org/10.1186/s40562‐018‐0102‐2.

      13 Gerkema, T. (2019). An Introduction to Tides. Cambridge University Press: Cambridge, UK.

      14 Gleeson, J., Santos, I.R., Maher, D.T. et al. (2013). Groundwater–surface water exchange in a mangrove tidal creek: evidence from natural geochemical tracers and implications for nutrient budgets. Marine Chemistry 156: 27–37.

      15 Godfrey, J.S., Johnson, G.C., McPhaden, M.J. et al. (2001). The tropical ocean circulation. In: Ocean Circulation and Climate: Observing and Modelling the Global Ocean (eds. G. Siedler, J. Church and J. Gould), 215–246. New York: Academic Press.

      16 Gourlay, M.R. (1996a). Wave set‐up on coral reefs. 1. Set‐up and wave‐generated flow on an idealized two‐dimensional reef. Journal of Coastal Engineering 27: 161–193.

      17 Gourlay, M.R. (1996b). Wave set‐up on coral reefs. 2. Wave set‐up on reefs with various profiles. Journal of Coastal Engineering 28: 17–55.

      18 Gouveia, N.A., Gherardi, D.F.M., Wagner, F.H. et al. (2019). The salinity structure of the Amazon River plume drives spatiotemporal variation of oceanic primary productivity. Journal of Geophysical Research: Biogeosciences 124: 147–165.

      19 Gratiot, N. and Anthony, E.J. (2016). Role of flocculation and settling processes in development of the mangrove‐colonized, Amazon‐influenced mud‐bank coast of South America. Marine Geology 373: 1–10.

      20 Gullström, M., Lyimo, L.D., Dahl, M. et al. (2018). Blue carbon storage in tropical seagrass meadows relates to carbonate stock dynamics, plant–sediment processes, and landscape context: insights from the western Indian Ocean. Ecosystems 21: 551–566.

      21 Hashim, A.M., Pheng, S.M.C., and Takajudin, H. (2013). Effectiveness of mangrove forests in surface wave attenuation: a review. Research Journal of Applied Sciences, Engineering and Technology 5: 4483–4488.

      22 Hearn, C.J. (2011). Perspectives in coral reef hydrodynamics. Coral Reefs 30: 1. https://doi.org/10.1007/s00338‐011‐0752‐4.

      23 Hill, D.F. (2016). Spatial and temporal variability in tidal range: evidence, causes and effects. Current Climate Change Reports 2: 232–241.

      24  Hood, R.R., Beckley, L.E., and Wiggert, J.D. (2017). Biogeochemical and ecological impacts of boundary currents in the Indian Ocean. Progress in Oceanography 156: 290–325.

      25 Hu, C., Montgomery, E.T., Schmitt, R.W. et al. (2004). The dispersal of the Amazon and Orinoco River water in the tropical Atlantic and Caribbean Sea: observation from space and S‐PALACE floats. Deep‐Sea Research II 51: 1151–1171.

      26 Johnson, G.C., McPhaden, M.J., and Firing, E. (2001). Equatorial Pacific Ocean horizontal velocity, divergence, and upwelling. Journal of Physical Oceanography 31: 839–849.

      27 Kennish, M.J. and Paerl, H.W. (eds.) (2010). Coastal Lagoons. Critical Habitats of Environmental Change. Boca Raton, FL: CRC Press.

      28 Kitheka, J.U. (1997). Coastal tidally‐driven circulation and the role of water exchange in the linkage between tropical coastal ecosystems. Estuarine, Coastal and Shelf Science 45: 177–187.

      29 Kjerfve, B., Schettini, C.A.F., Knoppers, B. et al. (1996). Hydrology and salt balance in a large, hypersaline coastal lagoon, Lagoa de Araruma, Brazil. Estuarine, Coastal and Shelf Science 42: 701–725.

      30 Koch, E.W., Ackerman, J.D., Verduin, J. et al. (2006). Fluid dynamics in seagrass ecology – from molecules to ecosystems. In: Seagrasses: Biology, Ecology and Conservation (ed. A.W.D. Larkum), 193–225. Dordrecht, The Netherlands: Springer.

      31 Lambert, E., Le Bars, D., and de Ruijter, W.P.M. (2016). The connection of the Indonesian throughflow, south Indian Ocean Countercurrent and the Leeuwin current. Ocean Sciences 12: 771–780.

      32 Le Minor, M., Zimmer, M., Helfer, V. et al. (2021). Flow and sediment dynamics around structures in mangrove ecosystems – a modelling perspective. In: Dynamic Sedimentary Environments of Mangrove Coasts (eds. F. Sidik and D.A. Friess), 83–120.


Скачать книгу