Development of a dynamic strategy planning theory and system for sustainable river basin land use management

Chen, Ching Ho; Liu, Wei Lin; Liaw, Shu Liang; Yu, Chien Hwa

doi:10.1016/j.scitotenv.2004.12.057

Cited by 47 publications

(22 citation statements)

References 5 publications

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“…It is very important to sustainable development as a decision making tool. Chen et al (2005) develop a dynamic strategy planning theory and system to generate the land use plans of the Nankan river basin in Taoyuan County of Chinese Taiwan. Shi andGill (2005), Fong (2009) use systems dynamics model to develop effective policies for the sustainable development of ecological agriculture in China and plan urban process toward stabilizing carbon dioxide emissions from cities in Malaysia, respectively.…”

Section: Methodsmentioning

confidence: 99%

Engineering Management Based on the Reduction of Carbon Dioxide Emissions: a Review

2016

EJSD

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Section: Methodsmentioning

confidence: 99%

Engineering Management Based on the Reduction of Carbon Dioxide Emissions: a Review

2016

EJSD

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“…The significant growth in world population and the resource demand per capita, make land use management more critical: to produce food, energy and space for living in a competing resource base. Consequently a land use strategy is required to properly plan for sustainable development [9]. The planning should be focused on the social and economic needs with integral considerations of the environment to be sustainable in the long term.…”

Section: Regional Land Use and Resource Planningmentioning

confidence: 99%

Regional renewable energy and resource planning

Lam¹,

Varbanov²,

Klemeš³

2011

Applied Energy

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“…The strength of regional approaches lies in the involvement of stakeholders [25]. In many cases, integrated assessment approaches are applied when the results should be used for decision-making [26]. Decision support systems can be made for one land use sector such as forestry [4,27,28] or agriculture [29,30] or at the landscape scale [31,32].…”

Section: Introductionmentioning

confidence: 99%

Cross-Sectoral Resource Management: How Forest Management Alternatives Affect the Provision of Biomass and Other Ecosystem Services

Frank

Fürst

Pietzsch³

2015

Forests

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Integrated forest management is faced with the challenge that the contribution of forests to economic and ecological planning targets must be assessed in a socio-ecological system context. This paper introduces a way to model spatio-temporal dynamics of biomass production at a regional scale in order to derive land use strategies that enhance biomass provision and avoid trade-offs for other ecosystem services. The software platform GISCAME was employed to bridge the gap between local land management decisions and regional planning by linking growth and yield models with an integrative mesoscale modeling and assessment approach. The model region is located in Saxony, Germany. Five scenarios were simulated, which aimed at testing different alternatives for adapted land use in the context of climate change and increasing biomass demand. The results showed, for example, that forest conversion towards climate-change-adapted forest types had positive effects on ecological integrity and landscape aesthetics. In contrast, negative impacts on landscape aesthetics must be expected if agricultural sites were converted into short rotation coppices. Uncertainties with stem from assumptions regarding growth and yield models were discussed. Future developmental steps which consider, for example, accessibility of the resources were identified. OPEN ACCESSForests 2015, 6 534

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Development of a dynamic strategy planning theory and system for sustainable river basin land use management

Cited by 47 publications

References 5 publications

Engineering Management Based on the Reduction of Carbon Dioxide Emissions: a Review

Engineering Management Based on the Reduction of Carbon Dioxide Emissions: a Review

Regional renewable energy and resource planning

Cross-Sectoral Resource Management: How Forest Management Alternatives Affect the Provision of Biomass and Other Ecosystem Services

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