High diversity of tropical peatland ecosystem types in the Pastaza‐Marañón basin, Peruvian Amazonia
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[1] W. A. White,et al. Holocene evolution of the western Orinoco Delta, Venezuela , 2003 .
[2] R. Kalliola,et al. Mineral nutrients in fluvial sediments from the Peruvian Amazon , 1993 .
[3] Robert A. Berner,et al. Global Environment: Water, Air, and Geochemical Cycles , 1995 .
[4] Josep G. Canadell,et al. Current and future CO 2 emissions from drained peatlands in Southeast Asia , 2009 .
[5] B. Volkoff,et al. From Oxisols to Spodosols and Histosols: evolution of the soil mantles in the Rio Negro basin (Amazonia) , 1998 .
[6] M. Räsänen,et al. Recent and ancient fluvial deposition systems in the Amazonian foreland basin, Peru , 1992, Geological Magazine.
[7] C. Hoorn. Mangrove Forests and Marine Incursions in Neogene Amazonia (Lower Apaporis River, Colombia) , 2006 .
[8] H. Tuomisto,et al. Parameters for global ecosystem models , 1999, Nature.
[9] R. Bustin,et al. Late Pleistocene and Holocene development of the interior peat-accumulating basin of tropical Tasek Bera, Peninsular Malaysia , 2004 .
[10] Susan E. Page,et al. Population status of the Bornean orang-utan (Pongo pygmaeus) in the Sebangau peat swamp forest, Central Kalimantan, Indonesia , 2003 .
[11] Donald I. Siegel,et al. Groundwater flow in a bog- fen complex, Lost River peatland, northern Minnesota. , 1987 .
[12] Robert Axelrod,et al. The Global Environment , 1999 .
[13] C. Bradshaw,et al. Tropical turmoil: a biodiversity tragedy in progress , 2009 .
[14] A. Anderson. White-Sand Vegetation of Brazilian Amazonia , 1981 .
[15] E. Gorham. Northern Peatlands: Role in the Carbon Cycle and Probable Responses to Climatic Warming. , 1991, Ecological applications : a publication of the Ecological Society of America.
[16] L. P. Koh,et al. Southeast Asian biodiversity: an impending disaster. , 2004, Trends in ecology & evolution.
[17] M. Ledru. Late Holocene rainforest disturbance in French Guiana. , 2001, Review of palaeobotany and palynology.
[18] Bord na Móna. Fuel peat in developing countries , 1985 .
[19] J. Verhoeven. Nutrient dynamics in minerotrophic peat mires , 1986 .
[20] K. Ruokolainen,et al. Amazonian floodplains harbour minerotrophic and ombrotrophic peatlands , 2009 .
[21] A. Cohen,et al. The Changuinola peat deposit of northwestern Panama: a tropical, back-barrier, peat(coal)-forming environment , 1989 .
[22] T. M. Lillesand,et al. Remote Sensing and Image Interpretation , 1980 .
[23] F. Siegert,et al. Increased damage from fires in logged forests during droughts caused by El Niño , 2001, Nature.
[24] M. Räsänen,et al. Evolution of the Western Amazon Lowland Relief: impact of Andean foreland dynamics , 1990 .
[25] S. Page,et al. The geochemistry of major and selected trace elements in a forested peat bog, Kalimantan, SE Asia, and its implications for past atmospheric dust deposition , 2001 .
[26] S. Page,et al. The amount of carbon released from peat and forest fires in Indonesia during 1997 , 2002, Nature.
[27] B. D. Wheeler,et al. Ecological gradients, subdivisions and terminology of north‐west European mires , 2000 .
[28] Kalle Ruokolainen,et al. LINKING FLORISTIC PATTERNS WITH SOIL HETEROGENEITY AND SATELLITE IMAGERY IN ECUADORIAN AMAZONIA , 2003 .
[29] C. Palmer,et al. The Mangrove Peat of the Tobacco Range Islands, Belize Barrier Reef, Central America , 1995 .
[30] D. Siegel,et al. Groundwater flow and the metal content of peat , 1991 .
[31] W Shotyk,et al. Interdependence of peat and vegetation in a tropical peat swamp forest. , 1999, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[32] R. H. Meade,et al. Regional controls on geomorphology, hydrology, and ecosystem integrity in the Orinoco Delta, Venezuela , 2002 .
[33] Christopher J. Banks,et al. Global and regional importance of the tropical peatland carbon pool , 2011 .
[34] S. Bridgham,et al. Hydrology and nutrient gradients in North Carolina peatlands , 1993, Wetlands.
[35] P. Jowsey. AN IMPROVED PEAT SAMPLER , 1966 .
[36] R. Betts,et al. Climate Change, Deforestation, and the Fate of the Amazon , 2008, Science.
[37] S. Page,et al. Fluvial organic carbon losses from a Bornean blackwater river Journal Item , 2018 .
[38] D. Siegel,et al. Hydrogeologic controls on peatland development in the Malloryville Wetland, New York (USA) , 1992 .
[39] K. Ruokolainen,et al. Amazonian peatlands: an ignored C sink and potential source , 2009 .
[40] Y. Hu,et al. Geochemical and stratigraphic evidence of environmental change at Lynch's Crater, Queensland, Australia , 2006 .
[41] P. Mccabe,et al. Tectonic controls on coal accumulation , 1991 .
[42] T. Vegas-Vilarrúbia,et al. Tropical Histosols of the lower Orinoco Delta, features and preliminary quantification of their carbon storage , 2010 .