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APRIL Ecosystem Restoration Project: A sustainable model for Indonesian peatlands?Ceruti, Michael January 2016 (has links)
The growth in global population and the unsustainable business as usual model adopted by private companies in managing land, are causing huge pressures on Indonesian natural ecosystems. The widespread peatland deforestation and degradation affecting Indonesia has been the leading cause of biodiversity loss, decrease of vital ecosystem services, land subsidence, fires and increased impoverishment of local communities. In response to this issue, the Indonesian government, supported by civil society and scientists, issued in 2004 the Ecosystem Restoration Concession license, a new approach of managing logged out production forests in order to reverse and restore deforested, degraded and damaged ecosystems. In 2013, the Indonesian second largest pulp and paper company, APRIL acquired this licence and launched one of the biggest and most ambitious restoration projects in the country, called RER. This project was implemented in the Kampar Peninsula, Riau province, Sumatra, a vast peatland area unique for its ecosystem services and its flora and fauna species. The purpose of this thesis was to investigate the sustainability of the project’s management, conservation and development model. Field observations and qualitative semi-structured interviews were conducted on various groups of stakeholders. The study showed that, although the project has generated various benefits, thus having the potential of exceeding the environmental, social and economic costs in the future, several challenges, such as managing land, providing alternative livelihoods and including the participation of local communities were reported. If these problems are not successfully addressed, they risk jeopardising the success of the project and therefore its opportunity of becoming sustainable and widespread.
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Peatlands in Maputaland: Genesis, substrates and properties exemplified by the region of “Greater Manguzi”Gabriel, Marvin 17 April 2019 (has links)
Moore in Südafrika sind wichtige, aber bedrohte Ökosysteme. Etwa 20.200 ha, zwei Drittel der südafrikanischen Moore, befinden sich auf der Maputaland Coastal Plain. Eukalyptusplantagen und gängige Anbaumethoden, die Dränung beinhalten, bedrohen die Existenz der Moore. Ein besseres Verständnis von Prozessen und Eigenschaften der Moore Maputalands ist dringend erforderlich, um effektive Schutzstrategien zu entwickeln. Diese Dissertation untersucht die Moorbildung in Maputaland aus einer bodenkundlichen Perspektive, um Voraussetzungen für effektive Schutzmaßnahmen und Renaturierungsmaßnahmen abzuleiten sowie Ratschläge für nachhaltigere Anbaumethoden auszuarbeiten. Per Großrestanalyse wurden Moor- und Torfbildungsprozesse untersucht. Auf Grundlage von 141 in Feldarbeit untersuchten Bodenprofilen wurden 15 unterschiedliche Moorsubstrate beschrieben und in genetische Substratgruppen sowie botanische Torftypen kategorisiert. Für diese Substrate wurden die folgenden physikalischen und chemischen Bodeneigenschaften bestimmt: Kohlenstoffgehalt, C/N Verhältnis, elektrische Leitfähigkeit, pH-Wert, Trockenrohdichte, Porenverteilung, gesättigte und ungesättigte hydraulische Leitfähigkeit sowie maximaler kapillarer Aufstieg. Zudem wurden die Auswirkungen von Degradierung auf die physischen und chemischen Eigenschaften der Moore untersucht. Hierfür wurden die eben benannten Kenngrößen für Substrate in verschiedenen Degradierungsstufen gemessen. Auf Grundlage der Veränderungen der Bodeneigenschaften werden die Verluste von Ökosystemfunktionen durch Degradierung diskutiert. Anhand der Häufigkeit der Substrattypen in den unterschiedlichen hydrogeomorphologischen Moortypen werden angepasste Empfehlungen für Schutz, Renaturierung und nachhaltigere landwirtschaftliche Nutzung der Moore erarbeitet, basierend auf den ermittelten Substrateigenschaften. Darüber hinaus werden auf Grundlage aktueller Klimaprognosen zukünftige Stresssituationen für die Moore durch den Klimawandel analysiert. / Peatlands in South Africa are important and threatened ecosystems. They are of great socio-ecological significance, as sources of freshwater, fertile land, material for construction, medicinal plants, habitat for specialised plants and animals, and as an attraction for ecotourists. Some 20.200 ha, about two thirds of South Africa’s peatlands, are located at the Maputaland Coastal Plain. Eucalyptus plantations and common cultivation practices which include drainage are threatening the existence of the peatlands. This dissertation investigates peatland formation in Maputaland from a soil-related point of view, in order to identify the requirements for effective conservation and restoration measures, as well as more sustainable cultivation practices. Insights into peat formation processes were obtained through a macrofossil analysis. Based on the field examination of 141 soil profiles, 15 different peatland substrates were described and categorised into genetic substrate groups, and botanical peat types. Mean values for the following physical and chemical properties were determined for each substrate: Carbon content, C/N ratio, electrical conductivity, pH-value, bulk density, pore size distribution, saturated hydraulic conductivity, unsaturated hydraulic conductivity and maximum capillary rise. Moreover, the effect of degradation on the physical and chemical properties of South African peatlands was explored. Therefore, the aforementioned properties were measured for substrates at different degrees of degradation. Based on the changes in the soil properties thus established, the loss of ecosystem functions through degradation is discussed. By considering the frequency of occurrence of the substrate types in different hydrogeomorphic peatland types, adapted implications for conservation, restoration and cultivation are derived. In addition, based on the actual projections of climate change, estimations about future stress on the peatlands were derived.
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