Department of Watershed Management Engineering, Faculty of Natural Resources and Member of Agrohydrology Group, Tarbiat Modares University, Noor, Mazandaran Province, 46417-76489, Iran.
Department of Rangeland and Watershed Management Engineering, Urmia University, Urmia, West Azerbaijan Province, Iran.
Environ Monit Assess. 2018 Dec 28;191(1):45. doi: 10.1007/s10661-018-7147-8.
Designation of representative watersheds (RWs) as a reference area representing key behavior of the whole region is an essential tool to provide a time and cost-effective basis for monitoring watershed performance against different driving forces. It is more important in developing countries facing lack of necessary investments in one hand and ever-increasing human interventions and need to assess the outcome behavior of the system in another hand. However, this serious affair has been less considered worldwide, in general, and in developing countries, in particular. Therefore, in the present study, a quantitative-based method of Representative Watershed Index (RWI) with potential range from 0 to 100 has been formulated using four important criteria and available national-wide raster data of elevation (meter), slope (%), rainfall erosivity factor (t m ha cm h), and land use. The approach was then applied to the data prepared for the unique and invaluable global water ecosystem of the Urmia Lake Basin (ULB), north-western Iran, as a case study. The input raster was overlaid via matrices programming in the MATrix LABoratory (MATLAB) 2016 and Geographic Information System (GIS) 9.3 software environments. The RWIs were accordingly computed for 61 sub-watersheds of the ULB. The RWIs resulted from quadri-partite dimensional matrices that varied from 5.54 to 53.46 with respective maximum dissimilarity and resemblance with the entire 61 study sub-watersheds in the region. However, the sub-watershed with RWI of 40.65 (No. 57) was proposed as the final RW for the whole ULB due to hydrological independency, appropriate locality, and existence of functioning meteorological and hydrometric stations. The identified RW would be suggested to be considered as the basis for future insight monitoring and assessing environmental issues for the region eventually leading to an appropriate adaptive watershed management. Graphical abstract ᅟ.
指定具有代表性的流域(RW)作为代表整个区域关键行为的参考区域,是对流域在不同驱动力下的表现进行监测的一种具有时间和成本效益的基础的重要工具。在面临一方面缺乏必要投资,另一方面不断增加的人为干预和需要评估系统输出行为的发展中国家,这一点更为重要。然而,这一严重问题在全球范围内,特别是在发展中国家,没有得到足够的重视。因此,在本研究中,提出了一种基于定量的代表流域指数(RWI)方法,该方法采用了四个重要标准和全国范围的高程(米)、坡度(%)、降雨侵蚀因子(t m ha cm h)和土地利用的栅格数据,其潜在范围为 0 到 100。然后,该方法应用于为伊朗西北部独特而宝贵的乌鲁米耶湖流域(ULB)全球水生态系统准备的数据,作为案例研究。输入栅格通过 MATrix LABoratory(MATLAB)2016 和地理信息系统(GIS)9.3 软件环境中的矩阵编程进行叠加。相应地,为 ULB 的 61 个次流域计算了 RWI。RWI 来自四部分维矩阵,范围从 5.54 到 53.46,与该地区 61 个研究次流域的最大差异和相似性分别为 53.46。然而,由于水文独立性、适当的位置以及功能气象和水文站的存在,具有 RWI 40.65(57 号)的次流域被提议作为整个 ULB 的最终 RW。建议将确定的 RW 作为该地区未来环境监测和评估的基础,最终导致适当的适应性流域管理。