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| Formato: | Recurso digital |
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Zenodo
2025
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| Acesso em linha: | https://doi.org/10.5281/zenodo.16957447 |
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Sumário:
- <p><a href="https://ijetrm.com/issues/files/Aug-2025-27-1756267342-AUG31.pdf"><code>Bushfires </code></a>are increasingly recognized as one of the most severe climate-driven hazards, with profound impacts<br>on ecosystems, infrastructure, and human settlements. Their escalating frequency and intensity are attributed to<br>rising global temperatures, altered precipitation regimes, and expanding wildland–urban interfaces. Traditional<br>approaches to bushfire protection have often emphasized singular strategies, whether engineering-based fire<br>suppression infrastructure, ecological fuel load reduction, or planning interventions, but such siloed methods<br>frequently fail to deliver long-term resilience. A broader systems-based perspective is therefore essential. This<br>study examines an integrated framework for bushfire protection that merges engineering innovation, ecological<br>fuel management, and climate-responsive planning into a cohesive strategy. From an engineering standpoint,<br>advances in fire-resistant building materials, automated detection systems, and smart suppression technologies<br>are evaluated for their capacity to reduce structural vulnerability. Complementing this, ecological fuel<br>management leverages-controlled burns, landscape mosaics, and species-specific interventions to lower ignition<br>potential while maintaining biodiversity and ecological balance. Planning dimensions focus on zoning regulations,<br>buffer zones, and adaptive design principles that align urban growth with climate forecasts and fire behavior<br>models. The synergy of these components produces a multi-layered defense mechanism that not only mitigates<br>immediate fire risks but also enhances adaptive capacity in the face of long-term climatic uncertainty. By<br>integrating technological, ecological, and governance domains, the framework advances resilient adaptation<br>pathways that safeguard human communities while sustaining ecological integrity. This systems-based model<br>demonstrates how cross-disciplinary strategies can be harmonized to address the complex, interdependent nature<br>of bushfire risks in a rapidly changing climate.</p>