博碩士論文 105624003 詳細資訊




以作者查詢圖書館館藏 以作者查詢臺灣博碩士 以作者查詢全國書目 勘誤回報 、線上人數:17 、訪客IP:3.80.85.76
姓名 許文碩(Wen-Shuo Hsu)  查詢紙本館藏   畢業系所 應用地質研究所
論文名稱 考量水質、含水層衝擊與土地利用資訊之多標的地下水使用區域管理
(Zonal management of multi-purposes groundwater utilization based on water quality, impact on the aquifer and information of land use)
檔案 [Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   [檢視]  [下載]
  1. 本電子論文使用權限為同意立即開放。
  2. 已達開放權限電子全文僅授權使用者為學術研究之目的,進行個人非營利性質之檢索、閱讀、列印。
  3. 請遵守中華民國著作權法之相關規定,切勿任意重製、散佈、改作、轉貼、播送,以免觸法。

摘要(中) 台灣東北部的蘭陽平原居民廣泛使用地下水作為飲用、灌溉與養殖所需用水。根據經濟部水利署的調查顯示蘭陽平原沿海地區有超抽地下水所造成的地層下陷與海水入侵問題,此外,經濟部水利署的長期地下水水質監測也顯示部分地區有地下水水質超過飲用、灌溉與養殖標的用水的水質標準的問題,使得地下水資源的永續使用與水質安全面臨極大的挑戰。
本研究的目標為建立蘭陽平原多標的用水的地下水使用分區管理計畫,整個多標的地下水使用管理計畫建立將考量地下水水質、地下水抽取所造成的含水層衝擊(洩降)與現有土地使用資訊。首先,利用將現有的地下水井水質參數的監測資料利用地質統計方法建立水質參數的空間分布,然後根據飲用水、灌溉水與養殖水的水質標準決定三個不同標的用水的水質安全區,接著利用實際地下水抽取量與流通係數的比值決定低含水層衝擊區,最後,整合飲用水、灌溉水與養殖水三個用水標的安全區與低含水層衝擊區的分區管理地圖,此地圖可提供做為改進水質安全與永續地下水使用的基礎以達到蘭陽平原多標的地下水使用的需求。
摘要(英) Groundwater is widely extracted for meeting the demands of drinking, irrigation and aquaculture in the Lanyang Plain. A long-term groundwater quality survey in northeastern Taiwan’s Lanyang Plain has revealed obvious contamination of some part of the groundwater, with some measured hydrochemical parameters in excess of the levels recommended by Taiwan Environmental Protection Administration. In addition, land subsidence and seawater intrusion caused by overexploitation of groundwater are also found in the Lanyang Plain. Thus, establishing a sound plan for groundwater resource management that considers groundwater quality and the aquifer impact by pumping in Lanyang Plain is important. This study aims to present a zonal management plan for the multi-purpose groundwater utilization in the Lanyang Plain based on the groundwater quality and aquifer impact by pumping. The Kriging approach is used evaluate spatial distribution of groundwater quality and the safe zones are determined based on the water quality standards for the three groundwater utilization sectors. The suitable zone for the aquifer impact by pumping is then spatially determined based on the ratio of actual groundwater utilization to the transmissivity. Integrating the evaluation results showing the safe water quality zones for the three different purposes of groundwater utilization demands and suitable zones for the low impact on aquifer. Integrating the evaluation results showing the safe water quality zones for the three different purposes of groundwater utilization demands and suitable zones for the low aquifer impact by pumping can create groundwater management map for multi-purpose groundwater utilization. Ultimately, the obtained groundwater management map is compared with the current land use information to provide a basis for evaluating current land use practices and establishing a water resource management strategy for safe and sustainable use of groundwater to meet multi-purpose groundwater utilization requirements in the Lanyang Plain.
關鍵字(中) ★ 區域管理
★ 水質標準
★ 含水層衝擊
★ 多標的地下水使用
★ 土地利用
關鍵字(英) ★ Zonal management
★ Water quality standard
★ Impact on the aquifer
★ Multi-purpose groundwater utilization
★ land use
論文目次 摘要 i
ABSTRACT ii
目錄 iv
圖目錄 vii
表目錄 ix
符號說明 x
第一章 前言 1
1-1 研究背景 1
1-2 研究目的 10
第二章 文獻回顧 12
2-1 地下水水質之議題 12
2-2 含水層衝擊之問題 14
2-3 應用於地下水之空間分析方法 16
第三章 研究區概況 19
3-1 地質環境 19
3-2 氣候 21
3-3 各標的用水狀況 23
第四章 研究方法 24
4-1 地理統計方法 24
4-1-1 區域化變數理論 25
4-1-2 半變異元 26
4-1-3 空間變異性理論 27
4-1-4 克利金推估法 29
4-2 含水層衝擊評估 30
4-3 水質標準 32
4-3-1 灌溉用水之水質標準 32
4-3-2 養殖用水之水質標準 34
4-3-3 飲用水之水質標準 37
第五章 結果與討論 39
5-1 水質安全區 39
5-1-1 飲用水之水質標準 46
5-1-2 灌溉用水之水質安全區 49
5-1-3 養殖用水之水質安全區 50
5-2 含水層衝擊區 51
5-3 多標的地下水使用區域管理 56
5-4 不適合使用地下水之區域 59
5-4-1 現有農業用地 59
5-4-2 現有養殖漁業用地 60
第六章 結論 61
參考文獻 63
附錄一 68
附錄二 71
參考文獻 [1] 地層下陷防治資訊網網址:http://www.lsprc.ncku.edu.tw/

[2] Tseng, W. P., “Effects and dose-response relationships of skin cancer and blackfoot disease with arsenic”, Environmental Health Perspectives, 19, 109, 1977.

[3] Wu, M. M., Kuo, T. L., Wang, Y. H., & Chen, C. J., “Dose-response relation between arsenic concentration in well water and mortality from cancers and vascular diseases”, American Journal of Epidemiology, 130(6), 1123-1132, 1989.

[4] Chen, C. J., & Wang, C. J., “Ecological correlation between arsenic level in well water and age-adjusted mortality from malignant neoplasms”, Cancer Research, 50(17), 5470-5474, 1990.

[5] Chen, C. J., Chuang, Y. C., Lin, T. M., & Wu, H. Y., “Malignant neoplasms among residents of a blackfoot disease-endemic area in Taiwan: high-arsenic artesian well water and cancers”, Cancer Research, 45(11 Part 2), 5895-5899, 1985.

[6] Hsueh, Y. M., Wu, W. L., Huang, Y. L., Chiou, H. Y., Tseng, C. H., & Chen, C. J., “Low serum carotene level and increased risk of ischemic heart disease related to long-term arsenic exposure”, Atherosclerosis, 141(2), 249-257, 1998.

[7] Tseng, C. H., Tai, T. Y., Chong, C. K., Tseng, C. P., Lai, M. S., Lin, B. J., Chiou, H.Y., Hsueh, Y. M., Hsu, K.H. & Chen, C. J., “Long-term arsenic exposure and incidence of non-insulin-dependent diabetes mellitus: a cohort study in arseniasis-hyperendemic villages in Taiwan”, Environmental Health Perspectives, 108(9), 847, 2000.

[8] Liang, C. P., Jang, C. S., Liu, C. W., Lin, K. H., & Lin, M. C., “An integrated GIS?based approach in assessing carcinogenic risks via food?chain exposure in arsenic?affected groundwater areas”, Environmental Toxicology, 25(2), 113-123, 2010.

[9] Liang, C. P., Liu, C. W., Jang, C. S., Wang, S. W., & Lee, J. J., “Assessing and managing the health risk due to ingestion of inorganic arsenic from fish and shellfish farmed in blackfoot disease areas for general Taiwanese”, Journal of Hazardous Materials, 186(1), 622-628, 2011.

[10] Liang, C. P., Jang, C. S., Chen, J. S., Wang, S. W., Lee, J. J., & Liu, C. W., “Probabilistic health risk assessment for ingestion of seafood farmed in arsenic contaminated groundwater in Taiwan”, Environmental Geochemistry and Health, 35(4), 455-464, 2013.

[11] 江漢全,宜蘭地區地下水評析,宜蘭農工學報,4期,173-188頁,民國81年。

[12] Kesari, V. P., Kumar, A., & Khan, P. K., “Genotoxic potential of arsenic at its reference dose”, Ecotoxicology and Environmental Safety, 80, 126-131, 2012.

[13] Huq, S. I., & Naidu, R., “Arsenic in ground water and contamination of the food chain: Bangladesh scenario”, Natural Arsenic in Groundwater: Occurrence, Remediation and Management, 95-101, 2004.

[14] Lee, J. J., Liu, C. W., Jang, C. S., & Liang, C. P., “Zonal management of multi-purpose use of water from arsenic-affected aquifers by using a multi-variable indicator kriging approach”, Journal of Hydrology, 359(3-4), 260-273, 2008.

[15] Karaivazoglou, N. A., Papakosta, D. K., & Divanidis, S., “Effect of chloride in irrigation water and form of nitrogen fertilizer on Virginia (flue-cured) tobacco”, Field Crops Research, 92(1), 61-74, 2005.

[16] Jang, C. S., Chen, C. F., Liang, C. P., & Chen, J. S., “Combining groundwater quality analysis and a numerical flow simulation for spatially establishing utilization strategies for groundwater and surface water in the Pingtung Plain”, Journal of Hydrology, 533, 541-556, 2016.

[17] Liang, C. P., Jang, C. S., Chen, C. F., & Chen, J. S., “Zonal management of multi-purposes groundwater utilization based on water quality and impact on the aquifer”, Environmental Monitoring and Assessment, 188(7), 431, 2016.

[18] Yang, C. Y., Cheng, M. F., Tsai, S. S., & Hsieh, Y. L., “Calcium, magnesium, and nitrate in drinking water and gastric cancer mortality”, Cancer Science, 89(2), 124-130, 1998.

[19] Knobeloch, L., Salna, B., Hogan, A., Postle, J., & Anderson, H., “Blue babies and nitrate-contaminated well water”, Environmental Health Perspectives, 108(7), 675, 2000.

[20] Bauder, T. A., Waskom, R. M., Sutherland, P. L., Davis, J. G., Follett, R. H., & Soltanpour, P. N., “Irrigation water quality criteria”, Service in Action; no. 0.506, 2011.

[21] Allan, G. L., & Maguire, G. B., “Effect of sediment on growth and acute ammonia toxicity for the school prawn, Metapenaeus macleayi (Haswell)”, Aquaculture, 131(1-2), 59-71, 1995.

[22] Adamsson, M., Dave, G., Forsberg, L., & Guterstam, B., “Toxicity identification evaluation of ammonia, nitrite and heavy metals at the Stensund Wastewater Aquaculture plant, Sweden”, Water Science and Technology, 38(3), 151-157, 1998.

[23] El-Shafai, S. A., El-Gohary, F. A., Nasr, F. A., van der Steen, N. P., & Gijzen, H. J., “Chronic ammonia toxicity to duckweed-fed tilapia (Oreochromis niloticus)”, Aquaculture, 232(1-4), 117-127, 2004.

[24] Galloway, D. L., & Burbey, T. J., “Regional land subsidence accompanying groundwater extraction”, Hydrogeology Journal, 19(8), 1459-1486, 2011.

[25] Phi, T. H., & Strokova, L. A., “Prediction maps of land subsidence caused by groundwater exploitation in Hanoi, Vietnam”, Resource-Efficient Technologies, 1(2), 80-89, 2015.

[26] Dixon, T. H., Amelung, F., Ferretti, A., Novali, F., Rocca, F., Dokka, R., et al., “Space geodesy: Subsidence and flooding in New Orleans”, Nature, 441(7093), 587–588,http://dx.doi.org/10.1038/441587a, 2006.

[27] 經濟部水利署水利規劃試驗所,蘭陽地區地面地下水調配及管理系統建置與規劃,MOEAWRA0980193,民國98年。

[28] Sherif, M. M., & Singh, V. P. “Effect of climate change on sea water intrusion in coastal aquifers”, Hydrological processes, 13(8), 1277-1287, 1999.

[29] Zektser, S., Loaiciga, H. A., & Wolf, J. T., “Environmental impacts of groundwater overdraft: selected case studies in the southwestern United States”, Environmental Geology, 47(3), 396-404, 2005.

[30] Werner, A. D., Bakker, M., Post, V. E., Vandenbohede, A., Lu, C., Ataie-Ashtiani, Simmons, C. T. & Barry, D. A., “Seawater intrusion processes, investigation and management: recent advances and future challenges”, Advances in Water Resources, 51, 3-26, 2013.



[31] Goovaerts, P., AvRuskin, G., Meliker, J., Slotnick, M., Jacquez, G., & Nriagu, J., “Geostatistical modeling of the spatial variability of arsenic in groundwater of southeast Michigan”, Water Resources Research, 41(7), 2005.

[32] Jang, C. S., “Regional assessment of groundwater quality for drinking purpose”, Environmental Monitoring and Assessment,184(5), 3063–3075, 2012a.

[33] Jang, C.S., Chen, S.K., Kuo, Y.M., “Establishing an irrigation management plan of sustainable groundwater based on spatial variability of water quality and quantity”, Journal of Hydrology, 414-415: 201-210, 2012b.

[34] Jang, C. S., Liang, C. P., & Wang, S. W., “Integrating the spatial variability of water quality and quantity to probabilistically assess groundwater sustainability for use in aquaculture”, Stochastic environmental research and risk assessment, 27(6), 1281-1291, 2013.

[35] Jang, C. S., Chen, S. K., & Ching?Chieh, L., “Using multiple?variable indicator kriging to assess groundwater quality for irrigation in the aquifers of the Choushui River alluvial fan. Hydrological Processes”, 22(22), 4477-4489, 2008.

[36] Bundschuh, J., Jean, J. S., Chen, C. J., Guo, H. R., Liu, C. W., Lin, T. F., & Chen, Y. H., “The Taiwan crisis: a showcase of the global arsenic problem”, CRC Press, 2010.

[37] 中央氣象局網站:https://www.cwb.gov.tw/V7/index.htm

[38] Journel, A. G., & Huijbregts, C. J., Mining geostatistics, 600 pp. Academic, San Diego, Calif, 978, 1978.

[39] Theis, C. V. “The lowering of the piezometer surface and the rate and discharge of a well using groundwater storage”, Transactions, American Geophysical Union, 16, 519 – 524, 1935.

[40] Theim, G., Hydrologische (p. 56). Leipzig: Gebhardt, 1906.

[41] Fetter, C. W., Applied hydrogeology (3rd ed.), New York: Macmillan College Publishing Company, 1994.

[42] 行政院農業委員會網站:https://www.coa.gov.tw/

[43] 行政院環境保護署:https://www.epa.gov.tw/mp.asp?mp=epa

[44] 經濟部水利署:https://www.wra.gov.tw/

[45] 宜蘭縣政府環保局:https://www.ilepb.gov.tw/

[46] 經濟部中央地質調查所,地下水水文地質與補注模式研究-補注區劃設與資源量評估,7-20頁,102-5226904000-07-01,民國106年。

[47] Goovaerts, P., “Geostatics for natural resources evaluation”, Oxford University Press, 1997.

[48] 國土測繪中心:https://www.nlsc.gov.tw/

[49] 經濟部水利署水利規劃試驗所,蘭陽地區地面地下水聯合運用規劃,民國96年。

[50] 政府資料開放平台:https://data.gov.tw/dataset/18505
?
指導教授 陳瑞昇 梁菁萍(Jui-Sheng Chen Ching-Ping Liang) 審核日期 2018-8-21
推文 facebook   plurk   twitter   funp   google   live   udn   HD   myshare   reddit   netvibes   friend   youpush   delicious   baidu   
網路書籤 Google bookmarks   del.icio.us   hemidemi   myshare   

若有論文相關問題,請聯絡國立中央大學圖書館推廣服務組 TEL:(03)422-7151轉57407,或E-mail聯絡  - 隱私權政策聲明