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Monitoring and Mapping Inland and Coastal Water Dynamics Based on Landsat Data

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Dr. Koray K. Yilmaz

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Guest Editor

Department of Geological Engineering, Middle East Technical University, Ankara, Turkey
Interests: hydrology; remote sensing; hydrological models; floods/droughts; inland water dynamics

Dr. Milad Niroumand-Jadidi

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Guest Editor

Fondazione Bruno Kessler (FBK), Trento, Italy
Interests: remote sensing; inland waters; coastal waters
Special Issues, Collections and Topics in MDPI journals

Dr. Belén Martí-Cardona

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Guest Editor

Department of Civil and Environmental Engineering, Faculty of Engineering and Physical Sciences, University of Surrey, Guildford, UK
Interests: remote sensing; hydrological and hydraulic modelling; water resources sustainability

Special Issue Information

Dear Colleagues,

Monitoring and mapping inland water dynamics via remote sensing techniques provide critical support for hydrology, ecology, and climate change studies. Among the ever-increasing number of earth observation satellite platforms, the NASA/USGS Landsat program, first launched in 1972, stands out as providing the longest continuous space-based measurements with spectral, spatial, and temporal scales that are well suited to observe patterns, cycles, changes, and trends in a variety of natural and built environments, including inland and coastal waters. Marking the Landsat program’s 50^th year anniversary, this Special Issue aims to archive a collection of original research articles and comprehensive reviews focusing on the utility of the Landsat program in monitoring and mapping inland and coastal water dynamics, with a specific focus on, but not limited to, the following topics:

Dynamics of water quantity and quality in coastal environments, lakes, rivers, and reservoirs at regional and global scales, and their relationships to anthropogenic and climatic drivers;
Dynamics of algal biomass, organic and inorganic suspended solids, and colored dissolved organic matter in inland and coastal waters;
Analysis of long-term trends focusing on the impact of land use/landcover change and climate change;
Use of Landsat data in cloud computing platforms such as Google Earth Engine, Amazon Web Services, etc.;
Utility of machine and deep learning algorithms;
Correction and fusion techniques to increase information content;
Challenges and limitations in spectral, spatial, and temporal coverage of Landsat platforms;
Comparison of Landsat dataset with other earth observation missions;
Bathymetric mapping of shallow waters.

Dr. Koray K. Yilmaz
Dr. Milad Niroumand-Jadidi
Dr. Belén Martí-Cardona
Guest Editors

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Research

30 pages, 42903 KiB

Open AccessArticle

Monitoring Chlorophyll-a Concentration Variation in Fish Ponds from 2013 to 2022 in the Guangdong-Hong Kong-Macao Greater Bay Area, China

by Zikang Li, Xiankun Yang, Tao Zhou, Shirong Cai, Wenxin Zhang, Keming Mao, Haidong Ou, Lishan Ran, Qianqian Yang and Yibo Wang

Remote Sens. 2024, 16(11), 2033; https://doi.org/10.3390/rs16112033 - 5 Jun 2024

Viewed by 1021

Abstract

Aquaculture plays a vital role in global food production, with fish pond water quality directly impacting aquatic product quality. The Guangdong-Hong Kong-Macao Greater Bay Area (GBA) serves as a key producer of aquatic products in South China. Monitoring environmental changes in fish ponds serves as an indicator of their health. This study employed the extreme gradient boosting tree (BST) model of machine learning, utilizing Landsat imagery data, to assess Chlorophyll-a (Chl-a) concentration in GBA fish ponds from 2013 to 2022. The study also examined the corresponding spatiotemporal variations in Chl-a concentration. Key findings include: (1) clear seasonal fluctuations in Chl-a concentration, peaking in summer (56.7 μg·L⁻¹) and reaching lows in winter (43.5 μg·L⁻¹); (2) a slight overall increase in Chl-a concentration over the study period, notably in regions with rapid economic development, posing a heightened risk of eutrophication; (3) influence from both human activities and natural factors such as water cycle and climate, with water temperature notably impacting summer Chl-a levels; (4) elevated Chl-a levels in fish ponds compared to surrounding natural water bodies, primarily attributed to human activities, indicating an urgent need to revise breeding practices and address eutrophication. These findings offer a quantitative assessment of fish pond water quality and contribute to sustainable aquaculture management in the GBA. Full article

(This article belongs to the Special Issue Monitoring and Mapping Inland and Coastal Water Dynamics Based on Landsat Data)

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