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Tropical peatland ecosystems Mitsuru Osaki, Nobuyuki Tsuji, editors

Colaborador(es): Tipo de material: TextoTextoIdioma: Inglés Detalles de publicación: Tokyo, Japan Springer Science+Business Media c2016Descripción: xiii, 651 páginas fotografías, ilustraciones, mapas, retratos 24 centímetrosISBN:
  • 4431566759
  • 9784431566755
Tema(s): Formatos físicos adicionales: Tropical peatland ecosystemsClasificación CDD:
  • 577.687 T7
Recursos en línea: Formatos físicos adicionales disponibles:
  • Disponible en línea
Contenidos parciales:
Part I Introduction to Tropical Peatland.. 1 Tropical Peatland of the World.. 2 Changing Paradigms in the History of Tropical Peatland Research.. 3 Peatland in Indonesia.. 4 Peatland in Malaysia.. 5 Peatland and Peatland Forest in Brunei Darussalam.. 6 Peatland in Kalimantan.. 7 Sustainable Management Model for Peatland Ecosystems in the Riau, Sumatra.. Part II Peat Formation and It's Property.. 8 Tropical Peat Formation.. 9 Tropical Peat and Peatland Definition in Indonesia.. Part III Ecosystem in Peatland.. 10 Forest Structure and Productivity of Tropical Heath and Peatland Forests.. 11 Floristic Diversity in the Peatland Ecosystems of Central Kalimantan.. 12 Peat-Fire Impact on Forest Structure in Peatland of Central Kalimantan.. 13 A Comparative Zoogeographic View on the Animal Biodiversity of Indonesia and Japan.. 14 Aquatic Communities in Peatland of Central Kalimantan.. 15 Mycorrhizal Fungi in Peatland.. Part IV Water Condition and Management in Peatland.. 16 Characteristics ofWatershed in Central Kalimantan.. 17 Groundwater in Peatland.. 18 Peat Fire Impact on Water Quality and Organic Matter in Peat Soil.. 19 Discharged Sulfuric Acid from Peatland to River System.. 20 Arrangement and Structure ofWeirs on the Kalampangan Canal.. Part V Green House Gasses Emission from Peatland.. 21 CO2 Balance of Tropical Peat Ecosystems.. 22 Methane and Nitrous Oxide Emissions from Tropical Peat Soil.. 23 Carbon Stock Estimate.. 24 Evaluation of Disturbed Peatland/Forest CO2 Emissions by Atmospheric Concentration Measurements.. Part VI Wild Fire in Peatland.. 25 Peat Fire Occurrence.. 26 Detection and Prediction Systems of Peat-Forest Fires in Central Kalimantan.. 27 Compact Firefighting System for Villages and Water Resources for Firefighting in Peatland Area of Central Kalimantan
Part VII Estimation and Modeling of Peatland.. 28 Contribution of Hyperspectral Applications to Tropical Peatland Ecosystem Monitoring.. 29 Land Change Analysis from 2000 to 2004 in Peatland of Central Kalimantan, Indonesia Using GIS and an Extended Transition Matrix.. 30 Estimation Model of Ground Water Table at Peatland in Central Kalimantan, Indonesia.. 31 Peat Mapping.. 32 Modeling of Carbon and GHG Budgets in Tropical Peatland.. 33 Field Data Transmission System by Universal Mobile Telecommunication Network.. Part VIII Sustainable Management of Peatland.. 34 Peatland Management for Sustainable Agriculture.. 35 Tropical Peatland Forestry: Toward Forest Restoration and Sustainable Use ofWood Resources in Degraded Peatland.. 36 Ethnic Plant Resources in Central Kalimantan.. Part IX Ecological Services in Peatland.. 37 Local Community Safeguard by REDDC and Payment for Ecosystem Services (PES in Peatland.. 38 Carbon Credit Current Trend and REDDC Projects.. 39 The Potential for REDDC in Peatland of Central Kalimantan, Indonesia.. 40 Livelihood Strategies of Transmigrant Farmers in Peatland of Central Kalimantan.. 41 Sustainability Education and Capacity Building in Central Kalimantan, Indonesia
Resumen: This book is an excellent resource for scientists, political decision makers, and students interested in the impact of peatlands on climate change and ecosystem function, containing a plethora of recent research results such as monitoring-sensing-modeling for carbon-water flux/storage, biodiversity and peatland management in tropical regions. It is estimated that more than 23 million hectares (62 %) of the total global tropical peatland area are located in Southeast Asia, in lowland or coastal areas of East Sumatra, Kalimantan, West Papua, Papua New Guinea, Brunei, Peninsular Malaysia, Sabah, Sarawak and Southeast Thailand. Tropical peatland has a vital carbon-water storage function and is host to a huge diversity of plant and animal species. Peatland ecosystems are extremely vulnerable to climate change and the impacts of human activities such as logging, drainage and conversion to agricultural land. In Southeast Asia, severe episodic droughts associated with the El Niño-Southern Oscillation, in combination with over-drainage, forest degradation, and land-use changes, have caused widespread peatland fires and microbial peat oxidation. Indonesia's 20 Mha peatland area is estimated to include about 45-55 GtC of carbon stocks. As a result of land use and development, Indonesia is the third largest emitter of greenhouse gases (2-3 Gtons carbon dioxide equivalent per year), 80 % of which is due to deforestation and peatland loss. Thus, tropical peatlands are key ecosystems in terms of the carbon-water cycle and climate change.
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Part I Introduction to Tropical Peatland.. 1 Tropical Peatland of the World.. 2 Changing Paradigms in the History of Tropical Peatland Research.. 3 Peatland in Indonesia.. 4 Peatland in Malaysia.. 5 Peatland and Peatland Forest in Brunei Darussalam.. 6 Peatland in Kalimantan.. 7 Sustainable Management Model for Peatland Ecosystems in the Riau, Sumatra.. Part II Peat Formation and It's Property.. 8 Tropical Peat Formation.. 9 Tropical Peat and Peatland Definition in Indonesia.. Part III Ecosystem in Peatland.. 10 Forest Structure and Productivity of Tropical Heath and Peatland Forests.. 11 Floristic Diversity in the Peatland Ecosystems of Central Kalimantan.. 12 Peat-Fire Impact on Forest Structure in Peatland of Central Kalimantan.. 13 A Comparative Zoogeographic View on the Animal Biodiversity of Indonesia and Japan.. 14 Aquatic Communities in Peatland of Central Kalimantan.. 15 Mycorrhizal Fungi in Peatland.. Part IV Water Condition and Management in Peatland.. 16 Characteristics ofWatershed in Central Kalimantan.. 17 Groundwater in Peatland.. 18 Peat Fire Impact on Water Quality and Organic Matter in Peat Soil.. 19 Discharged Sulfuric Acid from Peatland to River System.. 20 Arrangement and Structure ofWeirs on the Kalampangan Canal.. Part V Green House Gasses Emission from Peatland.. 21 CO2 Balance of Tropical Peat Ecosystems.. 22 Methane and Nitrous Oxide Emissions from Tropical Peat Soil.. 23 Carbon Stock Estimate.. 24 Evaluation of Disturbed Peatland/Forest CO2 Emissions by Atmospheric Concentration Measurements.. Part VI Wild Fire in Peatland.. 25 Peat Fire Occurrence.. 26 Detection and Prediction Systems of Peat-Forest Fires in Central Kalimantan.. 27 Compact Firefighting System for Villages and Water Resources for Firefighting in Peatland Area of Central Kalimantan

Part VII Estimation and Modeling of Peatland.. 28 Contribution of Hyperspectral Applications to Tropical Peatland Ecosystem Monitoring.. 29 Land Change Analysis from 2000 to 2004 in Peatland of Central Kalimantan, Indonesia Using GIS and an Extended Transition Matrix.. 30 Estimation Model of Ground Water Table at Peatland in Central Kalimantan, Indonesia.. 31 Peat Mapping.. 32 Modeling of Carbon and GHG Budgets in Tropical Peatland.. 33 Field Data Transmission System by Universal Mobile Telecommunication Network.. Part VIII Sustainable Management of Peatland.. 34 Peatland Management for Sustainable Agriculture.. 35 Tropical Peatland Forestry: Toward Forest Restoration and Sustainable Use ofWood Resources in Degraded Peatland.. 36 Ethnic Plant Resources in Central Kalimantan.. Part IX Ecological Services in Peatland.. 37 Local Community Safeguard by REDDC and Payment for Ecosystem Services (PES in Peatland.. 38 Carbon Credit Current Trend and REDDC Projects.. 39 The Potential for REDDC in Peatland of Central Kalimantan, Indonesia.. 40 Livelihood Strategies of Transmigrant Farmers in Peatland of Central Kalimantan.. 41 Sustainability Education and Capacity Building in Central Kalimantan, Indonesia

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This book is an excellent resource for scientists, political decision makers, and students interested in the impact of peatlands on climate change and ecosystem function, containing a plethora of recent research results such as monitoring-sensing-modeling for carbon-water flux/storage, biodiversity and peatland management in tropical regions. It is estimated that more than 23 million hectares (62 %) of the total global tropical peatland area are located in Southeast Asia, in lowland or coastal areas of East Sumatra, Kalimantan, West Papua, Papua New Guinea, Brunei, Peninsular Malaysia, Sabah, Sarawak and Southeast Thailand. Tropical peatland has a vital carbon-water storage function and is host to a huge diversity of plant and animal species. Peatland ecosystems are extremely vulnerable to climate change and the impacts of human activities such as logging, drainage and conversion to agricultural land. In Southeast Asia, severe episodic droughts associated with the El Niño-Southern Oscillation, in combination with over-drainage, forest degradation, and land-use changes, have caused widespread peatland fires and microbial peat oxidation. Indonesia's 20 Mha peatland area is estimated to include about 45-55 GtC of carbon stocks. As a result of land use and development, Indonesia is the third largest emitter of greenhouse gases (2-3 Gtons carbon dioxide equivalent per year), 80 % of which is due to deforestation and peatland loss. Thus, tropical peatlands are key ecosystems in terms of the carbon-water cycle and climate change. Inglés

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