Читать книгу Tropical Marine Ecology - Daniel M. Alongi - Страница 38
References
Оглавление1 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. Amsterdam: Elsevier.
33 Lee, W.K., Tay, S.H.X., Ooi, S.K. et al. (2021). Potential short wave attenuation function of disturbed mangroves. Estuarine, Coastal and Shelf Science 248: 108767. https://doi.org/10.1016/j.ecss.2020.106747.
34 Lehodey, P. (2001). The pelagic ecosystem of the tropical Pacific Ocean: dynamic spatial modelling and biological consequences of ENSO. Progress in Oceanography 49: 439–468.
35 Lenihan, H.S., Hench, J.L., Holbrook, S.J. et al. (2015). Hydrodynamics influence coral performance through simultaneous direct and indirect effects. Ecology 96: 1540–1549.
36 Li, Z., Saito, Y., Tamura, T. et al. (2012). Mid‐Holocene mangrove succession and its response to sea‐level change in the upper Mekong River delta, Cambodia. Quaternary Research 78: 386–399.
37 Longhurst, A. and Pauly, D. (1987). Ecology of Tropical Oceans. San Diego, USA: Academic Press.
38 Masselink, G. and Hughes, M.G. (2014). An Introduction to Coastal Processes and Geomorphology. London: Routledge.
39 Mazda, Y. and Ikeda, Y. (2006). Behaviour of the groundwater in a riverine‐type mangrove forest. Wetlands Ecology and Management 14: 477–488.
40 Mazda, Y. and Wolanski, E. (2009). Hydrodynamics and modelling of water flow in mangrove areas. In: Coastal Wetlands: An Integrated Ecosystem Approach (eds. G.M.E. Perillo, E. Wolanski, D.R. Cahoon, et al.), 231–262. Amsterdam: Elsevier.
41 Mazda, Y., Kanazawa, N., and Wolanski, E. (1995). Tidal asymmetry in mangrove creeks. Hydrobiologia 295: 51–58.
42 Mazda, Y., Wolanski, E., and Ridd, P.V. (2007). The Role of Physical Processes in Mangrove Environments. Manual for the Preservation and Utilization of Mangrove Ecosystems. Tokyo: Terrapub.
43 McCreary, J.P., Murtugudde, R., Vialard, J. et al. (2009). Biophysical processes in the Indian Ocean. In: Indian Ocean Biogeochemical Processes and Ecological Variability (eds. J.D. Wiggert, R.R. Hood, S.W.A. Naqvi, et al.), 9–32. Washington, D.C.: American Geophysical Union.
44 McLachlin, R.L., Ogston, A.S., Asp, N.E. et al. (2020). Impacts of tidal‐channel connectivity on transport asymmetry and sediment exchange with mangrove forests. Estuarine, Coastal and Shelf Science 233: 106524. https://doi.org/10.1016/j.ecss.106524.
45 Medeiros, C., Kjerfve, B., Araujo, M. et al. (2001). The Itamaracá estuarine ecosystem, Brazil. In: Coastal Marine Ecosystems in Latin America (eds. U. Seeliger and B. Kjerfve), 71–81. Berlin: Springer.
46 Monismith, S.G. (2007). Hydrodynamics of coral reefs. Annual Review of Fluid Mechanics 39: 37–55.
47 Mullarney, J.C., Henderson, S.M., Reyns, J.A. et al. (2017). Spatially varying drag within a wave‐exposed mangrove forest and on the adjacent tidal flat. Continental Shelf Research 147: 102–113.
48 Norris, B.K., Mullarney, J.C., Bryan, K.R. et al. (2019). Turbulence within natural mangrove pneumatophore canopies. Journal of Geophysical Research: Oceans 124: 2263–2288.
49 Peterson, C.H., Luettich, R.A., Micheli, F. et al. (2004). Attenuation of water flow inside seagrass canopies of differing structure. Marine Ecology Progress Series 268: 81–92.
50 Reidenbach, M.A., Koseff, J.R., Monismith, S.G. et al. (2006). Effects of waves, unidirectional currents, and morphology on mass transfer in branched reef corals. Limnology and Oceanography 51: 1134–1141.
51 Ridd, P.V. (1996). Flow through animal burrows in mangrove creeks. Estuarine, Coastal Shelf Science 43: 617–625.
52 Rosman, J.H. and Hench, J.L. (2011). A framework for understanding drag parameterizations for coral reefs. Journal of Geophysical Research: Oceans 116 https://doi.org/10.1029/2010JC006892.
53 Salas‐Monreal, D., Riveron‐Enzastiga, M.L., de Salas‐Perez, J. et al. (2020). Bathymetric flow rectification in a tropical micro‐tidal estuary. Estuarine, Coastal and Shelf Science 235: 106562. https://doi.org/10.1016/j.ecss.2019.106562.
54 Samper‐Villarreal, J., Lovelock, C.E., Saunders, M.I. et al. (2016). Organic carbon on seagrass sediments is influenced by seagrass canopy complexity, turbidity, wave height, and water depth. Limnology and Oceanography 61: 938–952.
55 Schettini, C.A.F., Pereira, M.D., Siegle, E. et al. (2013). Residual fluxes of suspended sediment in a tidally‐dominated tropical estuary. Continental Shelf Research 70: 27–35.
56 Schroeder, T., Devlin, M.J., Brando, V.E. et al. (2012). Interannual variability of wet season freshwater plume extent into the Great Barrier Reef lagoon based on satellite coastal ocean colour observations. Marine Pollution Bulletin 65: 210–223.
57 Stieglitz, T. and Ridd, P.V. (2001). Trapping of mangrove propagules due to density‐driven secondary circulation in the Normanby River estuary, NE Australia. Marine Ecology Progress Series 211: 131–142.
58 Stieglitz, T.C., Clark, J.F., and Hancock, G.J. (2013). The mangrove pump: the tidal flushing of animal burrows in a tropical mangrove forest determined from radionuclide budgets. Geochimica et Cosmochimica Acta 102: 12–22.
59 Storlazzi, C.D., Ogston, A.S., Bothner, M.H. et al. (2004). Wave‐ and tidally‐driven flow and sediment flux across a fringing coral reef, southern Molokai, Hawaii. Continental Shelf Research 24: 1397–1419.
60 Stramma, L., Johnson, G.C., Sprintall, J. et al. (2008). Expanding oxygen‐minimum zones in the tropical oceans. Science 320: 655–657.
61 Tillinger, D. (2011). Physical oceanography of the present day Indonesian Throughflow. In: The SE Asian Gateway: History and Tectonics (eds. R. Hall, R. Cottam and M.E.J. Wilson), 267–281. London: Geological Society.
62 Townsend, D.W. (2012). Oceanography and Marine Biology: An Introduction to Marine Science. Sunderland, USA: Sinauer.
63 Valle‐Levinson, A. and Bosley, K.T. (2003). Reversing circulation patterns in a tropical estuary. Journal of Geophysical Research: Oceans 108: 3331. https://doi.org/10.1029/2003JC001786.
64 Valsala, V. (2009). Different spreading of Somali and Arabian coastal upwelled waters in the northern Indian Ocean: A case study. Journal of Oceanography 65: 803–816.
65 Varona, H.L., Veleda, D., Silva, M. et al. (2019). Amazon River plume influence on western tropical Atlantic dynamic variability. Dynamics of Atmospheres and Oceans 85: 1–15.
66 Vecchi, G.A. and Soden, B.J. (2007). Global warming and the weakening of the tropical circulation. Journal of Climate 20: 4316–4340.
67 Webster, P.J. (2020). Dynamics of the Tropical Atmosphere and Oceans. Hoboken, USA: Wiley‐Blackwell.
68 Wolanski, E. (1986). An evaporation‐driven salinity maximum zone in Australian tropical estuaries. Estuarine, Coastal and Shelf Science 22: 415–424.
69 Wolanski, E. (2007). Estuarine Ecohydrology. Amsterdam: Elsevier.
70 Wolanski, E. and Cassagne, B. (2000). Salinity intrusion and rice farming in the mangrove‐fringed Konkoure River delta, Guinea. Wetlands Ecology and Management 8: 29–36.
71 Wolanski, E., Williams, D., and Hanert, E. (2006). The sediment trapping efficiency of the macro‐tidal Daly estuary, tropical Australia. Estuarine, Coastal and Shelf Science 69: 291–298.
