Page 41

conferenceseries

.com

Volume 9

Journal of Earth Science & Climatic Change

Climate Congress 2018

August 06-07, 2018

August 06-07, 2018 Osaka, Japan

4

th

World Congress on

Climate Change and Global Warming

J Earth Sci Clim Change 2018, Volume 9

DOI: 10.4172/2157-7617-C3-046

Integrated impacts of climate and land use change on stream flow and water quality in the Songkhram

River Basin, Thailand

Binod Bhatta

Asian Institute of Technology, Thailand

T

he livelihood of people in Songkhram River Basin (SRB) rely heavily on river water especially the fisheries. In recent past,

SRB has experienced erratic variability in water quality afflicting the fish catch. Extensive land use changes in the recent past

have raised concerns regarding its role in the water quality fluctuation in addition to the looming climate change effect. The

current literature lacks a detailed model backed analysis on this matter, most importantly for the future. This study quantifies the

future variation in the stream flow and water quality of the SRB using Soil and Water Assessment Tool (SWAT). The analysis is

based on future climatic projections from three Regional Climate Models (RCMs) under two Regional Concentration Pathways

(RCPs) scenarios. Two future scenarios generated from a dynamic land use change model (Dyna-CLUE) form the land use

change scenarios. Results show climate change to be responsible (on an average) for 19.5% and 24% decrease in stream flow

and 11.25% and 15.25% decrease in nitrate levels as projected by RCP 4.5 and 8.5 respectively. Land use change is found to be

responsible (average) for 5.3% and 6.35% increase in stream flow and 11% and 11.6% decrease in nitrate levels under economic

and conservation scenarios respectively. Thus, in conjunction, these two agents are seen to play against each other with a net effect

of decrease in future stream flow (16%, average). Whereas, in case of nitrate levels the two works in tandem leading to amplified

reduction (24.5%, average). Although land use is found to be the less afflicting agent, its role should not be overlooked land use

may very well further exacerbate situation if there is unfavorable climatic variation than projected. The findings of this paper are

useful for decision makers in the government bodies for planning/controlling the land use in the basin from the water quality

conservation viewpoint.

binodbhatta40@gmail.com