Extensive assessment of climate change impacts on coastal zone paddy growth using multispectral analysis and hydrodynamic modeling

Extensive assessment of climate change impacts on coastal zone paddy growth using multispectral analysis and hydrodynamic modeling

Global warming has led to sea levels raise (SLRs) and Malaysia is no exception to this problem. Especially for low-lying coastal areas including the Kuala Kedah area which is active in agricultural and fisheries activities. Farmers have had to bear up to 75 % of yield losses due to seawater breaches...

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Bibliographic Details
Published in:The Science of the total environment Vol. 868; p. 161585
Main Authors: Samsuddin Sah, Samera, Abdul Maulud, Khairul Nizam, A. Karim, Othman, Sharil, Suraya, Yaseen, Zaher Mundher
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 10-04-2023
Subjects:
Food security
Hydrodynamics modeling
Multispectral analysis
Saltwater encroachment
Water quality
Saltwater encroachment
Hydrodynamics modeling
Multispectral analysis
Food security
Water quality
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Summary:Global warming has led to sea levels raise (SLRs) and Malaysia is no exception to this problem. Especially for low-lying coastal areas including the Kuala Kedah area which is active in agricultural and fisheries activities. Farmers have had to bear up to 75 % of yield losses due to seawater breaches since 2016. Therefore, this study is designed to assess the impact of seawater encroachment on water quality through spatial technology approaches and hydrodynamic modeling related to the growth of paddy trees. The study was conducted during two different paddy cultivation seasons namely Season 1–2019 and Season 2–2019 which take place in the southwest and northeast monsoon in Kuala Kedah, Malaysia. The study involved three phases, which are the assessment of salinity and pH concentration levels, the assessment of the health of paddy crops through multispectral image analysis involving three plant indices (VI), namely Normalized Difference Vegetation Index (NDVI), Blue Normalized Difference Vegetation Index (BNDVI) and Normalized Difference Red Edge (NDRE), and finally, the assessment of the impact of SLR through the numerical method in MIKE 21 for hydrodynamic modeling considering two conditions that are without mitigation factor (K1) and with existing mitigating factor (K2). According to the findings, the salinity concentration trend is decreasing across the growth stage during Season 1–2019, whereas it is the contrary during Season 2–2019. It was discovered that during the study period for both tidal events, 73 % of the 44 sampling points in Season 1–2019, as opposed to just 3 % in Season 2–2019, were categorized as Class 4 and Class 5. Even though there were fluctuations throughout the observation, the pH reading is still within the allowed range of 6.5 to 9.0 for the estuary area. Following that, the ANOVA analysis proved that salinity concentration a statistically significant difference with tidal variations and pH levels. Moreover, the multispectral image analysis findings revealed that the VI value was correlated with both the yield and the health of the rice crop, with R-square values of 0.842 compared to 0.706 and 0.575 for NDVI and BNDVI values, respectively. It confirmed that NDRE granted a more accurate and reliable measurements. Additionally, the hydrodynamic simulation results demonstrated that, if the mitigation factors were considered in the modeling, overflow seawater to the mainland could be reduced by up to 20 %, reducing the impact of coastal flooding on the local area as well as the nearby rice cultivation area. Ultimately, these three elements—water quality, vegetation index, and hydrodynamic modeling—can assist in identifying the underlying cause of the problem and develop short and long-term solutions. [Display omitted] •Assessment for seawater encroachment on water quality (salinity & pH) was conducted.•Spatial and hydrodynamic approaches were used for the growth of paddy trees.•Two paddy seasons (May 2019-Jan 2020) of Kuala Kedah, Malaysia; were investigated.•Results shows water salinity has a significant relationship with tidal variations.•Three plant indices revealed a direct effect to the paddy crops and yields health.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.161585