Emily Marie Lim scite author profile

Emily Marie Lim

2Publications

21Citation Statements Received

125Citation Statements Given

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136

125

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Seoul National University, Korea International Cooperation Agency

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Preferences for ecosystem services provided by urban forests in South Korea

Park

JaChoon

et al. 2020

Forest Science and Technology

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The existence of tradeoffs and synergies between ecosystem services emphasize the need to understand the preferences of ecosystem service beneficiaries. In this paper, the preferences of ecosystem services provided by different types of urban forests in South Korea are analyzed to provide insights on the improved distribution and supply of ecosystem services. The Delphi technique was utilized to elicit expert opinions on the categorization of ecosystem services provided by urban forests. A choice experiment on 500 Seoul citizens was then conducted to analyze the preferences for 7 types of ecosystem servicesfood provision, water flow regulation, noise reduction, microclimate regulation & air quality improvement, moderation & prevention of landslides, biodiversity enhancement, recreation, and health services. An AHP analysis was carried out to investigate experts' ranking of the relative importance of these ecosystem services. The results showed that except for microclimate regulation & air quality improvement, Seoul citizens' preferences for different types of urban forests did not differ according to the attribute level of each ecosystem service. There were also no significant differences between the preferences for urban natural parks and urban neighborhood parks, possibly indicating that Seoul citizens perceive them to be similar. Secondly, the results indicate a higher preference for urban forests with certain features, such as a higher proportion of fruit trees and deciduous trees, higher leaf area, denser tree canopy cover, wider distances between trees, and higher levels of species richness. The enhancement of biodiversity was considered the most influential service for Seoul citizens in their choice of urban forests. Seoul citizens were willing to pay 12,176 KRW/year and 21,036 KRW/year to enhance the level of biodiversity from "poor" to "average" and from "average" to "rich," respectively. Finally, preferences and relative importance for almost all ecosystem services were different for citizens and experts. As it is impossible to maximize the provision of all ecosystem services concurrently, policymakers and urban forest managers need to consider citizens' preferences and opinions when designing and managing urban forests in order to increase user satisfaction and welfare.

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Risk Management of Methane Reduction Clean Development Mechanism Projects in Rice Paddy Fields

et al. 2023

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Agriculture accounts for the largest share of anthropogenic methane emissions. Rice paddy fields emit a significant amount of methane gas worldwide. Changing paddy water management practices has an enormous potential to reduce greenhouse gases. The clean development mechanism (CDM) project uses a market mechanism to reduce methane through private participation. There are various risks associated with private investment in CDM projects, although carbon credits as an economic incentive assist in mitigating some of these risks. Farmer participation plays a key role in the success of paddy water management projects in rural areas; however, despite the significant potential to reduce global methane emissions, very few projects have been implemented. When designing a Sustainable Development Mechanism (SDM) system, it is crucial to understand why the market mechanism in the existing CDM projects has failed. This study identifies and categorizes the risks and barriers to paddy water management in CDM projects and analyzes risk management options in CDM projects in India, Indonesia, and Mozambique. The results of this study showed that aside from economic risks, barriers to the application of technology in the field pose critical risks. The lack of knowledge and implementation experiences in rural areas increases barriers to practice. This in turn causes risk of difficulties in technology transfer which can be alleviated by improving awareness and introducing new knowledge through education and training in rural project implementation. Additionally, we highlight the importance of international efforts to build governance between the private and public sectors and promote technology transfers through multi-stakeholder engagement. This study provides specific information to encourage methane reduction worldwide and vitalize rice paddy water management in carbon reduction projects.

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Emily Marie Lim

Preferences for ecosystem services provided by urban forests in South Korea

Risk Management of Methane Reduction Clean Development Mechanism Projects in Rice Paddy Fields

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