Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis

Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis

The last few decades have witnessed a tremendous increase in nutrient levels (phosphorus and nitrogen) in coastal water leading to excessive algal growth (Eutrophication). The presence of large amounts of algae turns the water’s color into green or red, in the case of algal blooms. Chlorophyll-a is...

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Main Authors: Maruf Mortula, Tarig Ali, Abdallah Bachir, Ahmed Elaksher, Mohamed Abouleish
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Water
Subjects:
Chlorophyll-a
eutrophication
nutrients
GIS
WorldView-2 imagery
Online Access:https://www.mdpi.com/2073-4441/12/7/1954
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spelling doaj-5884ccaff7bb40faac4425e337c401152020-11-25T03:45:20ZengMDPI AGWater2073-44412020-07-01121954195410.3390/w12071954Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression AnalysisMaruf Mortula0Tarig Ali1Abdallah Bachir2Ahmed Elaksher3Mohamed Abouleish4Department of Civil Engineering, American University of Sharjah, PO Box 26666, Sharjah, UAEDepartment of Civil Engineering, American University of Sharjah, PO Box 26666, Sharjah, UAEKoler Builders, Toronto, ON M6A 3B4, CanadaCollege of Engineering, New Mexico State University, 1780 E University Ave, Las Cruces, NM 88003, USADepartment of Biology, Chemistry and Environmental Sciences, American University of Sharjah, PO Box 26666, Sharjah, UAEThe last few decades have witnessed a tremendous increase in nutrient levels (phosphorus and nitrogen) in coastal water leading to excessive algal growth (Eutrophication). The presence of large amounts of algae turns the water’s color into green or red, in the case of algal blooms. Chlorophyll-a is often used as an indicator of algal biomass. Due to increased human activities surrounding Dubai creek, there have been eutrophication concerns given the levels of nutrients in that creek. This study aims to map chlorophyll-a in Dubai Creek from WorldView-2 imagery and explore the relationship between chlorophyll-a and other eutrophication indicators. A geometrically- and atmospherically-corrected WorldView-2 image and in-situ data have been utilized to map chlorophyll-a in the creek. A spectral model, developed from the WorldView-2 multispectral image to monitor Chlorophyll-a concentration, yielded 0.82 R<sup>2</sup> with interpolated in-situ chlorophyll-a data. To address the time lag between the in-situ data and the image, Landsat 7 Enhanced Thematic Mapper Plus (ETM+) images were used to demonstrate the accuracy of the WorldView-2 model. The images, acquired on 20 May and 23 July 2012, were processed to extract chlorophyll-a band ratios (Band 4/Band 3) following the standard approach. Based on the availability, the 20 May image acquisition date is the closest to the middle of Quarter 2 (Q2) of the in-situ data (15 May). The 23 July 2012 image acquisition date is the closest to the WorldView-2 image date (24 July). Another model developed to highlight the relationship between spectral chlorophyll-a levels, and total nitrogen and orthophosphate levels, yielded 0.97 R<sup>2</sup>, which indicates high agreement. Furthermore, the generated models were found to be useful in mapping chlorophyll-a, total nitrogen, and orthophosphate, without the need for costly in-situ data acquisition efforts.https://www.mdpi.com/2073-4441/12/7/1954Chlorophyll-aeutrophicationnutrientsGISWorldView-2 imagery
collection DOAJ
language English
format Article
sources DOAJ
author Maruf Mortula
Tarig Ali
Abdallah Bachir
Ahmed Elaksher
Mohamed Abouleish
spellingShingle Maruf Mortula
Tarig Ali
Abdallah Bachir
Ahmed Elaksher
Mohamed Abouleish
Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis
Water
Chlorophyll-a
eutrophication
nutrients
GIS
WorldView-2 imagery
author_facet Maruf Mortula
Tarig Ali
Abdallah Bachir
Ahmed Elaksher
Mohamed Abouleish
author_sort Maruf Mortula
title Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis
title_short Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis
title_full Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis
title_fullStr Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis
title_full_unstemmed Towards Monitoring of Nutrient Pollution in Coastal Lake Using Remote Sensing and Regression Analysis
title_sort towards monitoring of nutrient pollution in coastal lake using remote sensing and regression analysis
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2020-07-01
description The last few decades have witnessed a tremendous increase in nutrient levels (phosphorus and nitrogen) in coastal water leading to excessive algal growth (Eutrophication). The presence of large amounts of algae turns the water’s color into green or red, in the case of algal blooms. Chlorophyll-a is often used as an indicator of algal biomass. Due to increased human activities surrounding Dubai creek, there have been eutrophication concerns given the levels of nutrients in that creek. This study aims to map chlorophyll-a in Dubai Creek from WorldView-2 imagery and explore the relationship between chlorophyll-a and other eutrophication indicators. A geometrically- and atmospherically-corrected WorldView-2 image and in-situ data have been utilized to map chlorophyll-a in the creek. A spectral model, developed from the WorldView-2 multispectral image to monitor Chlorophyll-a concentration, yielded 0.82 R<sup>2</sup> with interpolated in-situ chlorophyll-a data. To address the time lag between the in-situ data and the image, Landsat 7 Enhanced Thematic Mapper Plus (ETM+) images were used to demonstrate the accuracy of the WorldView-2 model. The images, acquired on 20 May and 23 July 2012, were processed to extract chlorophyll-a band ratios (Band 4/Band 3) following the standard approach. Based on the availability, the 20 May image acquisition date is the closest to the middle of Quarter 2 (Q2) of the in-situ data (15 May). The 23 July 2012 image acquisition date is the closest to the WorldView-2 image date (24 July). Another model developed to highlight the relationship between spectral chlorophyll-a levels, and total nitrogen and orthophosphate levels, yielded 0.97 R<sup>2</sup>, which indicates high agreement. Furthermore, the generated models were found to be useful in mapping chlorophyll-a, total nitrogen, and orthophosphate, without the need for costly in-situ data acquisition efforts.
topic Chlorophyll-a
eutrophication
nutrients
GIS
WorldView-2 imagery
url https://www.mdpi.com/2073-4441/12/7/1954
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