A new approach for prediction of foliar dust in a coal mining region and its impacts on vegetation physiological processes using multi‐source satellite data sets
A new approach for prediction of foliar dust in a coal mining region and its impacts on vegetation physiological processes using multi‐source satellite data sets
Estimating foliar dust (FD) is essential in understanding the complex interaction between FD, vegetation, and the environment. The elevated FD has a significant impacts on vegetation physiological processes. The present study aims to explore the potential of multi-sensor optical satellite data sets (e.g., Landsat-8, 9; Sentinel-2B, and PlanetScope) in conjunction with in situ data sets for FD estimation over the Jharsuguda coal mining region in Eastern India. The efficacy of different spectral bands and various radiometric indices (RIs) was tested using linear regression models for FD estimation. Furthermore, the study attempts to quantify the impacts of FD on vegetation's physiological processes (e.g., carbon uptake, transpiration, water use efficiency, leaf temperature) through proxy data sets. The key findings of the study uncovered sensor-specific and common trends in vegetation spectral profiles under varying FD concentrations. A saturation threshold was observed around 50 g/m
2 of FD concentration, beyond which additional FD concentration exhibited limited impact on spectral reflectance. On the other hand, the assessment of FD estimation models revealed distinct performances and shared trends across various satellite sensors. Notably, near-infrared and shortwave infrared-1 bands, along with certain RIs, such as the Global Environmental Monitoring Index and the Non-Linear Index, emerged as pivotal for accurate FD estimation. Besides, the study results revealed that vegetation-associated carbon uptake experienced a ∼2 to 3 gC reduction for every additional gram of FD per square meter. Moreover, the vegetation transpiration reduction per unit of FD ranged from approximately 0.0005 to 0.0006 mm/m
2/day, highlighting a moderate impact on transpiration levels. These findings aid a significant evidence base to our understanding of FD's impact on vegetation physiological processes.
ECOSTRESS, MODIS, carbon uptake, foliar dust, mining activity, vegetation functions
Ranjan, Avinash kumar
6fe28711-022d-418a-885f-091a2391e33b
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Gorai, Amit Kumar
4a98fbf8-bfcc-45ef-aab0-70408cc06e3e
25 October 2024
Ranjan, Avinash kumar
6fe28711-022d-418a-885f-091a2391e33b
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Gorai, Amit Kumar
4a98fbf8-bfcc-45ef-aab0-70408cc06e3e
Ranjan, Avinash kumar, Dash, Jadunandan and Gorai, Amit Kumar
(2024)
A new approach for prediction of foliar dust in a coal mining region and its impacts on vegetation physiological processes using multi‐source satellite data sets.
Journal of Geophysical Research: Biogeosciences, 129 (10), [e2024JG008298].
(doi:10.1029/2024JG008298).
Abstract
Estimating foliar dust (FD) is essential in understanding the complex interaction between FD, vegetation, and the environment. The elevated FD has a significant impacts on vegetation physiological processes. The present study aims to explore the potential of multi-sensor optical satellite data sets (e.g., Landsat-8, 9; Sentinel-2B, and PlanetScope) in conjunction with in situ data sets for FD estimation over the Jharsuguda coal mining region in Eastern India. The efficacy of different spectral bands and various radiometric indices (RIs) was tested using linear regression models for FD estimation. Furthermore, the study attempts to quantify the impacts of FD on vegetation's physiological processes (e.g., carbon uptake, transpiration, water use efficiency, leaf temperature) through proxy data sets. The key findings of the study uncovered sensor-specific and common trends in vegetation spectral profiles under varying FD concentrations. A saturation threshold was observed around 50 g/m
2 of FD concentration, beyond which additional FD concentration exhibited limited impact on spectral reflectance. On the other hand, the assessment of FD estimation models revealed distinct performances and shared trends across various satellite sensors. Notably, near-infrared and shortwave infrared-1 bands, along with certain RIs, such as the Global Environmental Monitoring Index and the Non-Linear Index, emerged as pivotal for accurate FD estimation. Besides, the study results revealed that vegetation-associated carbon uptake experienced a ∼2 to 3 gC reduction for every additional gram of FD per square meter. Moreover, the vegetation transpiration reduction per unit of FD ranged from approximately 0.0005 to 0.0006 mm/m
2/day, highlighting a moderate impact on transpiration levels. These findings aid a significant evidence base to our understanding of FD's impact on vegetation physiological processes.
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e-pub ahead of print date: 25 October 2024
Published date: 25 October 2024
Keywords:
ECOSTRESS, MODIS, carbon uptake, foliar dust, mining activity, vegetation functions
Identifiers
Local EPrints ID: 496903
URI: http://eprints.soton.ac.uk/id/eprint/496903
ISSN: 2169-8953
PURE UUID: f42728a8-9e54-4727-b05d-31f53a3ad4d3
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Date deposited: 08 Jan 2025 12:39
Last modified: 10 Jan 2025 02:41
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Author:
Avinash kumar Ranjan
Author:
Amit Kumar Gorai
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