국립중앙도서관 "우편 복사 서비스"로 연결 됩니다.
The concept of ‘food mileage’ is emerging to capture the distance food is traveled from production sites until it reaches at consumption points. Coupled with transportation types, the term can shed light on the environmental impact of trade flows....
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RISS 인기검색어
부가정보
다국어 초록 (Multilingual Abstract)
The concept of ‘food mileage’ is emerging to capture the distance food is traveled from production sites until it reaches at consumption points. Coupled with transportation types, the term can shed light on the environmental impact of trade flows. The objectives of this thesis are two folds. One is to estimate the food mileage for the case of Korea, a major food importing country in the world. The other is to apply the term to the potential Korea-China Free Trade Agreement (FTA) and figure out its likely environmental impacts. The data set is constructed by the 4-digit Harmonized System codes for 169 products and each product’s trade flows with a total 71 trading partners. The food mileage is estimated as 258 billion ton•km in 2010, which is equivalent to 5,418 million kilograms of carbon dioxide (CO2) emission, or 1% of the total agricultural import value. The CO2 emission effect under the Korea-China FTA is captured in the scenario analysis. The trade expansion scenario which assumes the decrease in Korea’s domestic production due to the FTA will be offset by China’s export increase brings about a higher CO2 emission level of 6,008 million kilograms. The trade shifting scenario which replaces the imports from other trading partners with Chinese products to a certain extent gives out a smaller CO2 emission level of 5,417 million kilograms. This finding suggests that the trade expansion should carry more weight in gauging CO2 emission effects of the FTA. Finally, analysis on Napa cabbage and turnip trades confirms the non - reversal of their food miles effects when they are estimated by a product life-cycle approach.
The concept of ‘food mileage’ is emerging to capture the distance food is traveled from production sites until it reaches at consumption points. Coupled with transportation types, the term can shed light on the environmental impact of trade flows. The objectives of this thesis are two folds. One is to estimate the food mileage for the case of Korea, a major food importing country in the world. The other is to apply the term to the potential Korea-China Free Trade Agreement (FTA) and figure out its likely environmental impacts. The data set is constructed by the 4-digit Harmonized System codes for 169 products and each product’s trade flows with a total 71 trading partners. The food mileage is estimated as 258 billion ton•km in 2010, which is equivalent to 5,418 million kilograms of carbon dioxide (CO2) emission, or 1% of the total agricultural import value. The CO2 emission effect under the Korea-China FTA is captured in the scenario analysis. The trade expansion scenario which assumes the decrease in Korea’s domestic production due to the FTA will be offset by China’s export increase brings about a higher CO2 emission level of 6,008 million kilograms. The trade shifting scenario which replaces the imports from other trading partners with Chinese products to a certain extent gives out a smaller CO2 emission level of 5,417 million kilograms. This finding suggests that the trade expansion should carry more weight in gauging CO2 emission effects of the FTA. Finally, analysis on Napa cabbage and turnip trades confirms the non - reversal of their food miles effects when they are estimated by a product life-cycle approach.
목차 (Table of Contents)
- Abstract∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙i
- List of Tables∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙iv
- I. Introduction∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙1
- II. A Literature review∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙2
- Abstract∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙i
- List of Tables∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙iv
- I. Introduction∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙1
- II. A Literature review∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙2
- III. Agricultural Trade and Geography∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙6
- IV. Calculation Methods and Data∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙13
- V. Food Miles and Carbon Emission Estimates∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙18
- VI. The Food Miles Effects of the Korea-China FTA∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙21
- VII. Conclusions∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙36
- Reference∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙39
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