Modeling effects of changing land use/cover on daily streamflow: An Artificial Neural Network and curve number based hybrid approach

Isik, Sabahattin; Kalin, Latif; Schoonover, Jon E.; Srivastava, Puneet; Graeme Lockaby, B.

Modeling effects of changing land use/cover on daily streamflow: An Artificial Neural Network and curve number based hybrid approach

2013

Isik, Sabahattin | Kalin, Latif | Schoonover, Jon E. | Srivastava, Puneet | Graeme Lockaby, B.

A hybrid model based on Artificial Neural Networks (ANNs) and Soil Conservation Service (SCS) Curve Number (CN) was developed to predict the effect of changes in land use/cover (LULC) on daily streamflows. The developed model makes use of LULC, hydrologic soil groups and climatic factors, such as temperature and precipitation, in order to replicate the hydrologic response of a watershed. The model incorporates data from neighboring watersheds for training purposes. Therefore, it can be used to predict daily streamflows in ungauged watersheds as well. The developed ANN model was trained, validated, and tested using streamflow data from 10 small watersheds in western Georgia, USA. One urban and one forested watershed were selected for both validation and testing purposes, while 4 forested, 1 urban, and 1 pastoral watershed were used for training the model. The model was able to predict daily streamflow in test watersheds with good accuracy. A scenario analysis was also performed to explore the potential responses to LULC changes in the two test watersheds. Ten LULC scenarios were developed by changing the LULC percentages in the forested and urban test watersheds. The developed ANN model predicted increases in average flow and flashiness for the urban and pasture dominant scenarios. For the forest dominated scenarios, the model predicted more stable hydrology (less flashy) with lower average flows.

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