查詢結果分析
來源資料
相關文獻
- 永續經營之集水區保育治理策略探討--以古坑溪及崁頂溪 集水區為例
- 臺灣東部地區各集水區氣象與水文資料庫建置之分析
- 自然生態工法新願景
- 惡地創生機--臺南縣龍崎鄉埤仔溝溪之新風貌
- 以永續發展為導向之草湖溪上游集水區整體保育治理方案
- 蓮華池地區降雨-延時-頻率關係及不同降雨延時之設計雨型歷線
- 從水土保持觀點申論「散者聚之,聚者散之」
- 臺灣地區河川集水區劃定及基本資料庫之建檔
- 民眾參與的理念與實際--以民眾參與「水庫集水區」的管理為例
- Assessment of Landslide Hazard Areas for Chichiawan Creek Watershed in Central Taiwan
頁籤選單縮合
題名 | 永續經營之集水區保育治理策略探討--以古坑溪及崁頂溪 集水區為例=Integrated Management Planning for Sustainable Development:Gu-Ken and Kan-Din Creek Watershed as an Example |
---|---|
作者姓名(中文) | 陳文福; 李懿書; 陳俞瑾; | 書刊名 | 水土保持學報 |
卷期 | 43:3 2011.09[民100.09] |
頁次 | 頁339-350 |
分類號 | 436.124 |
關鍵詞 | 古坑溪; 集水區; 治山防災; Ancient pit river; Catchment; Treatment of mountain disaster; |
語文 | 中文(Chinese) |
中文摘要 | 台灣地區的集水區治理規劃,以往常以治山防災工程為主要對策,近年來則較為強調自然 環境生態之永續經營為主,現今因氣候變遷愈烈,極端降雨頻繁,將面臨更大之水文事件,故 如何降低重大土石災害區之威脅與有效執行治山防災工作即為本研究所欲探討之內容。 本研究以整體性、安全性、經濟性、生態性及人文性等多面向作為考量,針對位於雲林縣 古坑鄉上游集水區進行治山防災調查及治理規劃,並透過治理規劃,抑止泥砂生產、下移與降 低災害之發生,以及降低洪患規模,打造安全之環境,帶動地方之發展,促使本計畫區能夠達 到穩定山坡地環境,確保土壤資源與水資源之永續利用等目的。 |
英文摘要 | In order to integrated watershed planning we should consider not only disaster prevention engineering but also the role of social-economic and cultural aspects. Now because the climate is the stronger in changes, extreme rainfall frequently, we will face more hydrology events, how to reduce the threat of a significant debirs area and the effective implementation of the Watershed Management and prevention efforts is the content of this study.This study is concerned about the unity, safety, economy, ecology, and humanity etc. The upper reach, which is located in the Yun-lin County Gu-ken Rural Township, will be proceeded the investigation of the watershed management and the management plan. By using the the management plan, it can not only restrain the production of the curbed mud sand, and the movement of the curbed mud sand but also can decrease the disaster, and the flood-patient scale. The safe environment and the local development can make this plan area reach the environment of the stable hillside and make sure that the soil resources and water resources can be used continually. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。