application of nrcs-curve number method for runoff estimation in a mountainous watershed
Authors
abstract
the major problem in the assessment of relationships between rainfall and runoff occurs when a study is carried out in ungauged watersheds in the absence of hydro-climatic data. this study aims to evaluate the applicability of natural resources conservation service-curve number (nrcs-cn) method together with gis in estimating runoff depth in a mountainous watershed. the study was carried out in the semi-arid kardeh watershed which lies between 36? 37? 17? to 36? 58? 25? n latitude and 59? 26? 3? to 59? 37? 17? e longitude, about 42 km north of mashhad, khorasan razavi province, iran. the hydrologic soil groups, land use and slope maps were generated with gis tools. the curve number values from nrcs standard tables were assigned to the intersected hydrologic soil groups and land use maps to generate cn values map. the curve number method was followed to estimate runoff depth for selected storm events in the watershed. nash-sutcliffe efficiency, pair-wise comparison by the t-test, pearson correlation and percent error were used to assess the accuracy of estimated data and relationship between estimated and observed runoff depth. the results showed relatively low nash-sutcliffe efficiency (e = ? 0.835). there was no significant difference between estimated and observed runoff depths (p > 0.05). fair correlation was detected between estimated and observed runoff depth (r = 0.56; p < 0.01). about 9% of the estimated runoff values were within ?10% of the recorded values and 43% had error percent greater than ?50%. the results indicated that the combined gis and cn method can be used in semi-arid mountainous watersheds with about 55% accuracy only for management and conservation purposes.
similar resources
Application of NRCS-curve number method for runoff estimation in a mountainous watershed
The major problem in the assessment of relationships between rainfall and runoff occurs when a study is carried out in ungauged watersheds in the absence of hydro-climatic data. This study aims to evaluate the applicability of Natural Resources Conservation Service-Curve Number (NRCS-CN) method together with GIS in estimating runoff depth in a mountainous watershed. The study was carried out in...
full textSurface runoff estimation in an upper watershed using geo-spatial based soil conservation service-curve number method
Runoff assessment and estimation is crucial for watershed management as it provides information that is needed to expedite the course of watershed planning and development. The most commonly used model due to its simplicity and versatility in runoff estimation is the soil conservation service curve number developed by the United States Department of Agriculture. The study estimates the surface ...
full textEstimating Height runoff by using curve number method and Arc- CN Runoff tool in Afjeh Catchment
In Iran, there is a general risk of runoff and flood, and since this country has a dry to semi-arid climate, its predominant rainfall is not evenly distributed in terms of time and place. Routine runoff at the earth's surface can lead to risks such as groundwater abatement, social issues such as population migration, erosion and loss of soil fertility, sedimentation in reservoirs and water q...
full textDetermining Curve Number and Estimating Runoff Yield In HESARAK Catchment
The process of precipitation – runoff of each basin, is influenced by hydrologic, geomorphology conditions, geological formation and vegetation. There are different methods in drainage basins. One way to estimate the runoff height is Curve Number (CN) method. That reperesents the hydrological behavior of basin. data were collected for statistics of climate and then topographic map of 1: 25000 a...
full textImproving runoff risk estimates: Formulating runoff as a bivariate process using the SCS curve number method
[1] The Soil Conservation Service curve number (SCS-CN) method is widely used to predict storm runoff for hydraulic design purposes, such as sizing culverts and detention basins. As traditionally used, the probability of calculated runoff is equated to the probability of the causative rainfall event, an assumption that fails to account for the influence of variations in soil moisture on runoff ...
full textperformance of different models for curve number estimation (case study: bar watershed in khorasan razavi province, iran)
among different models for runoff estimation in watershed management, the soil conservation services-curve number (scs-cn) method along with its modifications have been widely applied to ungauged watersheds because of quickly and more accurate estimation of surface runoff. this approach has been widely accepted by hydrologists, water resources planners, foresters, and engineers, as well. theref...
full textMy Resources
Save resource for easier access later
Journal title:
caspian journal of environmental sciencesPublisher: university of guilan
ISSN
volume 10
issue 1 2012
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023