Authors:
Ni Made Eka Mahadewi

Addresses:
1Department of Tourism, Bali Tourism Polytechnic, Kabupaten Badung, Bali, Indonesia. eka.mahadewi@gmail.com

Abstract:

Ecosystems continue frustrating the world regarding biodiversity loss, interruption of carbon cycles, and destruction of natural habitats. One determinant of ecosystem sustainability is resilience- the capacity of an ecosystem to absorb disturbances yet retain its essential functions. This paper weighs new methods for carbon sequestration in light of their effectiveness and related aspects to exploit biological and geological approaches as well as technological innovations through empirical data and predictive modeling that reduces the related carbon emissions and stabilizes ecosystems. The results from the model show that these approaches accelerate rates dramatically at which carbon is absorbed, and ecological health improves, above all, within vulnerable systems. Findings will portray that climatic policies and levels of conservation need to be set up using an integrated advanced sequestration technique. Somewhere from these researches, some actionable information about how resilience may be strengthened irrespective of fast changes in climatic conditions will come into existence, part of which will benefit the policymakers or other environmental stakeholders at their disposal.

Keywords: Ecosystem Resilience; Carbon Sequestration; Climate Change; Biodiversity and Sustainability; Ecological Health; Environmental Stakeholders; Resilience of Ecosystem; Anthropogenic Greenhouse Gases.

Received on: 12/11/2023, Revised on: 19/01/2024, Accepted on: 15/03/2024, Published on: 05/06/2024

DOI: 10.69888/FTSESS.2024.000248

FMDB Transactions on Sustainable Environmental Sciences, 2024 Vol. 1 No. 2, Pages: 107-116

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