Wetland Carbon and Environmental Management. Группа авторов

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Wetland Carbon and Environmental Management - Группа авторов


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from fires in oil palm, timber, and logging concessions in Indonesia. Environmental Research Letters, 10(8), 85005. https://doi.org/10.1088/1748‐9326/10/8/085005

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      280 McCorvie, M. R., & Lant, C. L. (1993). Drainage district formation and the loss of midwestern wetlands, 1850–1930. Agricultural History, 67(4), 13–39.

      281 McLatchey, G. P., & Reddy, K. R. (1998). Regulation of organic matter decomposition and nutrient release in a wetland soil. Journal of Environmental Quality, 27(5), 1268–1274. https://doi.org/10.2134/jeq1998.00472425002700050036x

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      284 Megonigal, J. P., & Neubauer, S. C. (2019). Biogeochemistry of tidal freshwater wetlands. In G. M. E. Perillo, E. Wolanski, D. R. Cahoon, & C. S. Hopkinson (Eds.), Coastal wetlands: An integrated ecosystem approach (2nd ed., pp. 641–683). Cambridge, MA: Elsevier. https://doi.org/10.1016/B978‐0‐444‐63893‐9.00019‐8641

      285  Megonigal, J. P., & Schlesinger, W. H. (2002). Methane‐limited methanotrophy in tidal freshwater swamps. Global Biogeochemical Cycles, 16(4), 1088. https://doi.org/10.1029/2001GB001594

      286 Megonigal, J. P., Whalen, S. C., Tissue, D. T., Bovard, B. D., Albert, D. B., & Allen, A. S. (1999). A plant‐soil‐atmosphere microcosm for tracing radiocarbon from photosynthesis through methanogenesis. Soil Science Society of America Journal, 63(3), 665–671. https://doi.org/10.2136/sssaj1999.03615995006300030033x

      287 Megonigal, J. P., Hines, M. E., & Visscher, P. T. (2004). Anaerobic metabolism: Linkages to trace gases and aerobic metabolism. In W. H. Schlesinger (Ed.), Biogeochemistry (pp. 317–424). Oxford, United Kingdom: Elsevier‐Pergamon.

      288 Mendelssohn, I. A., & Morris, J. T. (2000). Eco‐physiological controls on the productivity of Spartina alterniflora Loisel. In: M. Weinstein & D. A. Kreeger (Eds.), Concepts and controversies in tidal marsh ecology (pp. 59–80). Dordrecht, Netherlands: Kluwer Academic Publishing.

      289 Mendelssohn, I. A., Kleiss, B. A., & Wakely, J. S. (1995). Factors controlling the formation of oxidized root channels: A review. Wetlands, 15(1), 37–46. https://doi.org/10.1007/BF03160678

      290 Le Mer, J., & Roger, P. (2001). Production, oxidation, emission and consumption of methane by soils: A review. European Journal of Soil Biology, 37(2001), 25–50. https://doi.org/10.1016/S1164‐5563(01)01067‐6

      291 Micheli, E. R., & Kirchner, J. W. (2002). Effects of wet meadow riparian vegetation on streambank erosion. 2. Measurements of vegetated bank strength and consequences for failure mechanics. Earth Surface Processes and Landforms, 27(7), 687–697. https://doi.org/10.1002/esp.340

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      293 Miller, W. D., Neubauer, S. C., & Anderson, I. C. (2001). Effects of sea level induced disturbances on high salt marsh metabolism. Estuaries, 24(3), 357–367. https://doi.org/10.2307/1353238

      294 Mitra, S., Wassmann, R., & Vlek, P. L. G. (2005). An appraisal of global wetland area and its organic carbon stock. Current Science, 88(1), 25–35.

      295 Möller, I., Kudella, M., Rupprecht, F., Spencer, T., Paul, M., Van Wesenbeeck, B. K., et al. (2014). Wave attenuation over coastal salt marshes under storm surge conditions. Nature Geoscience, 7(10), 727–731. https://doi.org/10.1038/NGEO2251

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      298 Moor, H., Rydin, H., Hylander, K., Nilsson, M. B., Lindborg, R., & Norberg, J. (2017). Towards a trait‐based ecology of wetland vegetation. Journal of Ecology, 105(6), 1623–1635. https://doi.org/10.1111/1365‐2745.12734

      299 Moore, S., Evans, C. D., Page, S. E., Garnett, M. H., Jones, T. G., Freeman, C., et al. (2013). Deep instability of deforested tropical peatlands revealed by fluvial organic carbon fluxes. Nature, 493(7434), 660–663. https://doi.org/10.1038/nature11818

      300 Moore,


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