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Evaluating impacts of opencast stone mining on vegetation primary production and transpiration over Rajmahal Hills

Evaluating impacts of opencast stone mining on vegetation primary production and transpiration over Rajmahal Hills
Evaluating impacts of opencast stone mining on vegetation primary production and transpiration over Rajmahal Hills
Opencast mining has significantly triggered vegetation degradation in many ecologically sensitive regions across the globe. The detailed spatio-temporal information on mining-induced vegetation degradation and associated primary production loss are crucial inputs to authorities and policymakers to frame and implement sustainable development programs in the mining regions to conserve vegetation ecology. Thus, the present study aimed to decipher the mining-induced vegetation cover and subsequent productivity losses over the Rajmahal Hills in Jharkhand (India). The Gross Primary Productivity (GPP), Net Primary Productivity (NPP), and Vegetation Transpiration (VT) datasets were used for analyzing the mines-induced losses in vegetation cover and associated productivity. The key findings indicated a loss of vegetation cover by ~340 km2 and an expansion of the mining area by ~54 km2 over the Rajmahal Hills during 1990–2020. The change detection analysis at the decadal period revealed that ~3.06 km2, 8.10 km2, and 22.29 km2 of vegetation cover were lost only due to the mining activity during 2000–2010, 2010–2020, and 2000–2020, respectively. The replacement of vegetation cover by mining area has caused GPP loss of 0.01 tonnes carbon (tC) per day, 0.04 tC/day, and 0.09 tC/day; NPP loss of ~1.25 tC, 2.77 tC, and 7.27 tC; VT loss of 5200 mm/day, 13,630 mm/day, and 30,190 mm/day during 2000–2010, 2010–2020, and 2000–2020, respectively. Hence, the present study revealed that the mining-induced vegetation losses have caused an alteration of carbon sequestration, carbon stock, and VT over the Rajmahal Hills.
GPP, NPP, Rajmahal Hills, landsat data, opencast mining, stone quarrying, vegetation loss, vegetation transpiration
2071-1050
8005
Ranjan, Avinash Kumar
6fe28711-022d-418a-885f-091a2391e33b
Parida, Bikash Ranjan
21c6f8e7-5d6c-4d46-86e3-4e7160b4d1b5
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Gorai, Amit Kumar
4a98fbf8-bfcc-45ef-aab0-70408cc06e3e
Ranjan, Avinash Kumar
6fe28711-022d-418a-885f-091a2391e33b
Parida, Bikash Ranjan
21c6f8e7-5d6c-4d46-86e3-4e7160b4d1b5
Dash, Jadunandan
51468afb-3d56-4d3a-aace-736b63e9fac8
Gorai, Amit Kumar
4a98fbf8-bfcc-45ef-aab0-70408cc06e3e

Ranjan, Avinash Kumar, Parida, Bikash Ranjan, Dash, Jadunandan and Gorai, Amit Kumar (2023) Evaluating impacts of opencast stone mining on vegetation primary production and transpiration over Rajmahal Hills. Sustainability, 15 (10), 8005, [8005]. (doi:10.3390/su15108005).

Record type: Article

Abstract

Opencast mining has significantly triggered vegetation degradation in many ecologically sensitive regions across the globe. The detailed spatio-temporal information on mining-induced vegetation degradation and associated primary production loss are crucial inputs to authorities and policymakers to frame and implement sustainable development programs in the mining regions to conserve vegetation ecology. Thus, the present study aimed to decipher the mining-induced vegetation cover and subsequent productivity losses over the Rajmahal Hills in Jharkhand (India). The Gross Primary Productivity (GPP), Net Primary Productivity (NPP), and Vegetation Transpiration (VT) datasets were used for analyzing the mines-induced losses in vegetation cover and associated productivity. The key findings indicated a loss of vegetation cover by ~340 km2 and an expansion of the mining area by ~54 km2 over the Rajmahal Hills during 1990–2020. The change detection analysis at the decadal period revealed that ~3.06 km2, 8.10 km2, and 22.29 km2 of vegetation cover were lost only due to the mining activity during 2000–2010, 2010–2020, and 2000–2020, respectively. The replacement of vegetation cover by mining area has caused GPP loss of 0.01 tonnes carbon (tC) per day, 0.04 tC/day, and 0.09 tC/day; NPP loss of ~1.25 tC, 2.77 tC, and 7.27 tC; VT loss of 5200 mm/day, 13,630 mm/day, and 30,190 mm/day during 2000–2010, 2010–2020, and 2000–2020, respectively. Hence, the present study revealed that the mining-induced vegetation losses have caused an alteration of carbon sequestration, carbon stock, and VT over the Rajmahal Hills.

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sustainability-15-08005
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Accepted/In Press date: 11 May 2023
e-pub ahead of print date: 14 May 2023
Published date: May 2023
Additional Information: Publisher Copyright: © 2023 by the authors.
Keywords: GPP, NPP, Rajmahal Hills, landsat data, opencast mining, stone quarrying, vegetation loss, vegetation transpiration

Identifiers

Local EPrints ID: 476949
URI: http://eprints.soton.ac.uk/id/eprint/476949
ISSN: 2071-1050
PURE UUID: a2fd76e5-a865-4340-89fc-5a278af4a5b7
ORCID for Jadunandan Dash: ORCID iD orcid.org/0000-0002-5444-2109

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Date deposited: 22 May 2023 16:34
Last modified: 17 Mar 2024 02:58

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Contributors

Author: Avinash Kumar Ranjan
Author: Bikash Ranjan Parida
Author: Jadunandan Dash ORCID iD
Author: Amit Kumar Gorai

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