Al-Ansari, T., Korre, A., Nie, Z., & Sha, N. (2014). Development of a Life Cycle Assessment Model for the Analysis of the Energy, Water and Food Nexus. Computer Aided Chemical Engineering, 33:1039-1044.
European Environment Agency (EEA). (1999). “Material Flow-based Indicators in Environmental Reporting”, European Communities, Luxembourg.
Finley, J. W., & Seiber, J. N. 2014. The nexus of food, energy, and water. Journal of Agricultural and Food Chemistry, 62(27), 6255-6262.
Food and Agriculture Organization of the United Nations. (2013). “An Innovative Accounting Framework for The Food-Energy-Water Nexus: Application of The Musiasem Approach To Three Case Studies. MuSIASEM –The Flow-Fund Model”.
Food and Agriculture Organization of the United Nations (FAO). (2014a). “Walking the Nexus Talk: Assessing the Water-Energy-Food Nexus in the Context of the Sustainable Energy for All Initiative”.
Food and Agriculture Organization of the United Nations. (2014b).” The Water-Energy-Food Nexus A new approach in support of food security and sustainable agriculture”.
Friis, C., Nielsen, J. Ø., Otero, I., Haberl, H., Niewöhner, J., & Hostert, P. (2015). From teleconnection to telecoupling: taking stock of an emerging framework in land system science. Journal of Land Use Science, 1–23.
Hagman, J., Nerentorp, M., Arvidsson, R., & Molander, S. (2013). Do biofuels require more water than do fossil fuels? Life cycle-based assessment of jatropha oil production in rural Mozambique. Journal of cleaner production, 53, 176-185.
Lin, Y. (2016). “Technology Development and Applications for Water-Energy Nexus Resin-Wafer Electrodeionization (RW-EDI)”.
Macknick, J., Newmark, R., Heath, J., & Hallett, K.C. (2011). National Laboratory of The U.S. Department of Energy (DOE). “A Review of Operational Water Consumption and Withdrawal Factors for Electricity Generating Technologies”.
Mushtaq, S., Maraseni, T. N., Maroulis, J., & Hafeez, M. (2009). Energy and water tradeoffs in enhancing food security: A selective international assessment. Energy Policy, 37(9), 3635-3644.
National Intelligence Council (NIC). (2013). “Global Trends 2030: Alternative Worlds a Publication of The National Intelligence Council”.
RAND Corporation. (2016). “Developing the Pardee RAND Food-Energy-Water Security Index”.
Payen, S., Basset-Mens, C., & Perret, S. (2015). LCA of local and imported tomato: an energy and water trade-off. Journal of cleaner production, 87, 139-148.
Stockholm Environment Institute (SEI). (2011). “Bonn 2011 Conference the Water, Energy and Food Security Nexus Solutions for the Green Economy 16 – 18 November 2011”.
Sustainability Institute and School of Public Leadership Stellenbosch University, South Africa. (2015). “Mitigating Risks and Vulnerabilities in the Energy-Food-Water Nexus in Developing Countries”.
Sustainability Institute, Stellenbosch, South Africa. (2015).” Mitigating Risks and Vulnerabilities in the Energy-Food-Water Nexus in Developing Countries”.
Taniguchi, M., Masuhara, N., & Burnett, K. (2015). Water, Energy and Food Security in The Asia Pacific Region. Journal of Hydrology: Regional Studies, EJRH-146; No. of Pages11.
The International Institute for Sustainable Development (IISD). (2013). “The Water–Energy–Food Security Nexus: Towards a practical planning and decision-support framework for landscape investment and risk management”.
The International Renewable Energy Agency (IRENA). (2015). “Renewable Energy in The Water, Energy & Food NEXUS”.
National Laboratory of The U.S. Department of Energy (DOE). (2014). “The Water-Energy Nexus: Challenges and Opportunities”.
UN Water. (2014). “2014 The United Nations World Water Development Report”.
Vanham, D., (2016). Does the water footprint concept provide relevant information to address the water–food–energy–ecosystem nexus? Ecosystem Services, 17, 298–307.
World Business Council for Sustainable Development (WBCSD). (2014). “Co-Optimizing Solutions: Water and Energy for Food, Feed and Fiber Executive Summary”.
世界經濟論壇 (2011)。2011年全球風險報告,第六版風險應對網絡計劃。
行政院國家科學委員會(2002)。永續台灣的願景與策略研究子計畫一:永續發展知識庫之建立(Ⅳ)—資能源善用組期末報告」。NSC 90-2621-Z-002-038。
李怡蒼(2002)。台灣地區物質流分析系統動態評估模型與應用。國立臺北大學資源管理研究所碩士論文。。取自臺灣博碩士論文系統。林松槿(2005)。南、北勢溪對大臺北區域供水現況之物質流研究。國立臺灣大學環境工程學研究所碩士論文。取自臺灣博碩士論文系統。林泉興(2006)。校區廢污水之物質流研究-以臺大為案例。國立臺灣大學環境工程學研究所碩士論文。取自臺灣博碩士論文系統。張芷瑀(2015)。水泥與砂石的都市代謝分析。國立臺灣大學環境工程學研究所碩士論文。金門自來水公司(2013)。101年金門自來水廠營運統計年報。
姚凱富(2008)。物質流分析於河川流域水資源供需評估之研究。中技社。
財團法人工業技術研究院(2015)。金門低碳島建設推動與執行措施檢討評析專案工作計畫。
財團法人中技社(2013)。永續資源管理技術手冊。
馬鴻文、於幼華(2008)。行政院國家科學委員會。以物質流風險評估方法建立都市及國家尺度物質流管理評量系統。
國立成功大學(2009)。經濟部水利署。98年金門地區水再生利用規劃及試辦計畫。
國立臺灣大學(2012)。經濟部水利署水利規劃試驗所強化離島水資源分區因應氣候變遷水資源管理調適能力研究。
陶在樸(1999)。系統動態學。五南出版社。台北。
童慶斌(2001)。國科會永續發展資訊系統規劃及其執行計畫(III)成果報告。
經濟部(2014)。103年經濟部水利署查核金門自大陸引水工程計畫。
經濟部(2015)。產業導物物質流成本會計(MFCA)指導手冊。
經濟部水利署(2012)。101年經濟部水利署查核 100 年度「金門地區農田水資源開發計畫」、 「莒光供水站至金門城配水池自來水管線工程計畫」、「離島地區供水改善計畫(金門地區)」、 「離島地區用水差價補貼」、「金門地區第四期用戶 省水器材換裝計畫」補助款執行情形報告。
劉廣定(2014)。科學月刊。第四十五卷第十期791。
鄧家駒(2002)。風險管理。華泰文化事業公司。台北。
審計部金酒產量成長分析金門縣各年總決算審核報告。取自https://www.audit.gov.tw/ezfiles/0/1000/attach/43/pta_2372_6454930_48786.pdf。2017/4/19。
台灣電力公司智慧節電計畫。取自http://www.taipower.com.tw/content/announcement/ann01.aspx?BType=27
經濟部104年經濟部水利署自來水生活用水統計報告。取自https://www.wra.gov.tw/ct.asp?xItem=42091&ctNode=8890&comefrom=lp。2017/4/19,。
金門縣政府人口統計報告。取自http://web.kinmen.gov.tw/Layout/sub_A/NodeTree.aspx?path=3376。2017/4/19。
台灣國家公園公共設施管理系統。取自http://nppw.cpami.gov.tw/index.php?option=com_nppw&view=mainlistitem&npfilter=7&nid=&sid=2&cid=9&Itemid=16。2017/4/19。
內政部營建署。全國各縣市公共污水處理廠回收水取用資訊彙整表。取自http://www.cpami.gov.tw/pda_chinese/index.php?option=com_content&view=article&id=18544&Itemid=142&limitstart=2。2017/4/19。
經濟部水利署。各項用水統計資料庫。工業用水統計-工業用水量與面積。取自http://wuss.wra.gov.tw/facarea.aspx。2017/4/19。