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Jurnal Geografi LIngkungan Tropik (Journal of Geography of Tropical Environments)
Published by Universitas Indonesia
ISSN : -     EISSN : 25979949     DOI : 10.7454/jglitrop
Core Subject : Science,
Earth & Planetary Sciences
JGLITROP is a scientific journal published by Department of Geography at the University of Indonesia focuses on the application of Geography in tropical environment. The focus of the issues consist of: Physical Geography Human Geography Remote Sensing Geographic Information System Environmental Sciences Multidiscipline/Others
Arjuna Subject : Ilmu Bumi dan Planet (semua kategori) - Ilmu Bumi dan Planet (Lain-Lain)
Articles 3 Documents
 1 
Search results for , issue "vol. 9, no. 1" : 3 Documents clear
THE IMPACT OF AGRICULTURAL LAND CONVERSION ON THE ECONOMY AND SPACE UTILIZATION IN JATIMULYO AND WAY HUWI VILLAGES, SOUTH LAMPUNG REGENCY, LAMPUNG PROVINCE Rahman, Yudha; Asbi, Adnin Musadri; Maharani, Annisa; Ramadhan, Khalid Ahmad
Jurnal Geografi Lingkungan Tropik (Journal of Geography of Tropical Environments) Vol. 9, No. 1
Publisher : UI Scholars Hub

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Agro-Ecotourism in Ciputri Village: Evaluating Potentials and Strategies for Sustainable Tourism Development Putri, Inanditya W; Setiadi, Hafid
Jurnal Geografi Lingkungan Tropik (Journal of Geography of Tropical Environments) Vol. 9, No. 1
Publisher : UI Scholars Hub

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Abstract

Sustainable rural tourism development requires integrated planning that balances environmental conservation, community participation, and local economic growth. Agro-ecotourism has emerged as an important approach to support village-based tourism development in environmentally sensitive areas. Ciputri Village in Cianjur Regency has been designated as a tourism village and possesses considerable agro-based and ecological potential. However, tourism development remains suboptimal due to limited public awareness, low visitor numbers, and fragmented strategic planning. This study aims to assess agro-ecotourism potential and to formulate priority development strategies. An integrated approach combining Participatory Geographic Information Systems (P-GIS), SWOT-based EFAS/IFAS analysis, and the Analytic Hierarchy Process (AHP) was applied. Participatory mapping involving five stakeholders identified 11 agro-ecotourism attractions. The results indicate that Ciputri Village is positioned in the Strength–Opportunity quadrant. Environmental and socio-cultural aspects emerged as the highest priorities, and a growth-oriented strategy emphasizing concentration through vertical integration was identified as the most appropriate development approach.
Relationship Between Vegetation Greenness (NDVI) and Land Surface Temperature Across Land Cover Types in Ciwidey Sub-Watershed (1990–2020) Syabila, Syal; Marko, Kuswantoro; Hernina, Revi
Jurnal Geografi Lingkungan Tropik (Journal of Geography of Tropical Environments) Vol. 9, No. 1
Publisher : UI Scholars Hub

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Abstract

Land cover change significantly influences vegetation greenness and land surface temperature (LST), particularly in upstream watershed regions experiencing rapid development. This study aims to analyze changes in vegetation greenness (NDVI), land surface temperature, and their relationship across different land cover types in the Ciwidey Sub-Watershed, Bandung Regency, during 1990–2020. Landsat 5 TM and Landsat 8 OLI images (Path/Row 122/65) acquired in July 1990, 2005, and 2020 were processed using radiometric correction, supervised classification (Maximum Likelihood), NDVI extraction, and mono-window LST algorithm. Land cover classification accuracy was assessed using confusion matrix analysis. Linear regression was applied to evaluate the relationship between NDVI and LST. Results indicate a decline in high vegetation greenness areas and an increase in very low greenness and non-vegetated areas, particularly in built-up land and mixed gardens. Surface temperature shows a consistent upward trend, with dominant temperature classes shifting from 19–21°C (1990–2005) to 22–24°C (2020). Regression analysis reveals a strong negative relationship between NDVI and LST in all observed years (1990: y = -15.113x + 20.683; 2005: y = -14.313x + 23.012; 2020: y = -10.927x + 25.175), indicating that increasing vegetation greenness reduces surface temperature. These findings confirm that vegetation degradation contributes to thermal amplification in the sub-watershed. The study highlights the importance of vegetation conservation for sustainable watershed management.

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