Vulnerability of Araceae to social-ecological activities in Kinabalu UNESCO Global Geopark, Sabah, Malaysia

Vulnerability of Araceae to social-ecological activities in Kinabalu UNESCO Global Geopark, Sabah, Malaysia

Biodiversity has increasingly been challenged by environmental changes, particularly in protected areas where species are often endemic and sensitive to the environmental changes. Changes in this habitat expose organisms to vulnerability. Araceae, one of the most species-rich plant families, is wide...

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Bibliographic Details
Main Authors: Rasyidah Wahab, Kartini Saibeh, Badariah Saibeh, Ejria Saleh
Format: Article
Language:en
Published: Penerbit Universiti Kebangsaan Malaysia 2025
Online Access:http://journalarticle.ukm.my/26370/1/86262-298944-1-PB%20-.pdf
http://journalarticle.ukm.my/26370/
http://ejournal.ukm.my/gmjss/index
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Summary:Biodiversity has increasingly been challenged by environmental changes, particularly in protected areas where species are often endemic and sensitive to the environmental changes. Changes in this habitat expose organisms to vulnerability. Araceae, one of the most species-rich plant families, is widely distributed in the Kinabalu Geopark and is utilized by local communities for food, medicine, and ornamental purposes. However, its survival is increasingly threatened by climate-related stressors and human activities. This study assesses the vulnerability of Araceae to social-ecological activities across six study areas (Poring, Monggis, Serinsim, Nalapak, Sayap, and Losou Podi) using a modified Coastal Integrity Vulnerability Assessment Tool (CIVAT) and Social-Ecological Resilience (SER) framework. The assessment incorporated three key components: exposure, sensitivity, and adaptive capacity. Results reveal that Losou Podi, Sayap, Monggis, and Nalapak exhibited low vulnerability, while Poring and Serinsim scored medium vulnerability due to pressures from tourism and illegal harvesting. These results highlight the effectiveness of current conservation measures within the park but also emphasize the need for targeted interventions in more vulnerable zones. Given these findings, this study provides a baseline for conservation strategies tailored to enhance Araceae resilience under climate stress.

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