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International Journal for Disaster and Development Interface
Published by Amcolabora
ISSN : 28078349     EISSN : 28078349     DOI : -
Core Subject : Education, Social,
Education Environmental Science Social Sciences
International Journal for Disaster and Development Interface is an international, peer-reviewed, open access and scientific journal on disaster management published semi-annually on April and October online by Amcolabora Institute. This journal free access and free submission for reader and author. The scope of the journal includes: All area of Disaster Management (Preparedness, Mitigation, Response, Recovery) Disaster studies, modelling, and analysis Development policy and planning against disaster Disaster and development disruption Environmental issues and climate changes Sustainable Development Goals Green/Blue/Circular Economy and Planning Resilience studies
Arjuna Subject : Ilmu Lingkungan (semua ketegori) - Ilmu Lingkungan (Lain-Lain)
Articles 49 Documents
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Analysis of Spatial Distribution and Factors Influencing the Location of Tofu and Tempe Traders in the Periphery Area Market of Surakarta City in Supporting the Achievement of the SDGs Sunariya, M Iqbal Taufiqurrahman; Danardono, Danardono; Fikriyah, Vidya Nahdhiyatul; Arini, Maya Intan; Sulistyoningsih, Putri; Faridah, Rahma Afifah Nur; Ditasari, Sinta Rahma; Salsabilla, Tiara Zahra; Ardana, Viennara Zahwa Gladies
International Journal for Disaster and Development Interface Vol. 4 No. 2 (2024): October 2024
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v4i2.89

Abstract

Peripheral areas are areas on the outskirts of a city that usually have the structure and characteristics of a combination of village and city, both socially, physically, economically, and culturally. The outskirts of Surakarta City include the surrounding regency i.e., Sukoharjo, Boyolali, Karanganyar, Wonogiri, Klaten, and Sragen Regency. These areas have potential tofu and tempeh industry. This research was conducted to determine the spatial distribution patterns and factors influencing the location of tofu and tempeh traders. Data was collected using a questionnaire and analyzed using the average nearest-neighbor pattern. The results show that the spatial distribution pattern is dispersed. Dispersed means that each area is evenly distributed and far from other areas. This happens because the ANN (Average Nearest Neighbor) value is >1. The influencing factor for the location of tofu and tempeh traders in the markets is the location chosen relatively close to where tofu and tempeh traders live so that the distance is not too far. The location was chosen because it has been running a business for generations. The location has good facilities and cleanliness, making it comfortable to carry out buying and selling transactions. This place is busy with buyers from various regions
Disaster Resilience in Residential Area (Case Study: Siau Islands District Tagulandang Biaro, North Sulawesi Province Post Space Mountain Eruption in 2024) Dewi, Naufa Gutta; Kurniawan, Naufal Irhab; Wijaya, Arya Tri; Anggani, Nirma Lila
International Journal for Disaster and Development Interface Vol. 5 No. 1 (2025): April 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i1.67

Abstract

Indonesia, located on the Pacific Ring of Fire, has a high potential for volcanic disaster due to tectonic plate subduction. The eruption of Mount Ruang on April 16 2024 in the Siau Islands District of Tagulandang Biaro (Sitaro), North Sulawesi Province, resulted in a significant impact on the local community with 9,083 people and 5,000 houses affected. This research aims to understand the factors that influence community resilience in facing natural disasters, especially volcanic eruptions, as well as identify weaknesses and strengths in existing resilience systems. The method used is qualitative with secondary data analysis from BNPB and PVMBG. The research results show the need for volcanic emergency training, building disaster-resistant infrastructure, strengthening early warning systems, relocating residents, and increasing coordination between institutions. Mitigation efforts by the North Sulawesi Provincial government and BPBD, including evacuation and restoration of learning activities, are expected to increase community resilience to future volcanic disasters and minimize their impact.
Exploring Google Earth Engine for Flood Detection (A Case Study in Bandung City) Ruuhulhaq, Muhammad Saiful; Rohman, Arif; Shalih, Osmar
International Journal for Disaster and Development Interface Vol. 5 No. 1 (2025): April 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i1.93

Abstract

Climate change has increased the frequency and severity of urban flooding worldwide. This research utilizes Google Earth Engine (GEE) and Sentinel-1 synthetic aperture radar (SAR) imagery to detect, map, and analyze flood inundation in Bandung City, Indonesia, from 2014 to 2023. Our workflow combines radiometric calibration, Lee speckle filtering, and Otsu thresholding implemented through GEE's JavaScript API to delineate flooded areas in all weather conditions at 30 m resolution. The results show clear spatial and temporal fluctuations in inundation levels, with peaks in flood coverage in 2016, 2020 and 2021. This approach identifies recurring inundation points and supports targeted disaster management interventions such as prioritized drainage improvements, flood forecasting systems, and nature-based solutions to improve flood resilience in Bandung City by rapidly processing a decade of data in the cloud.
Affordable Housing as an Alternative for Reconstruction After an Earthquake in Rural Areas: Al Haouz, Morocco Benlarbi, Wiam; Karaman, Aykut
International Journal for Disaster and Development Interface Vol. 5 No. 1 (2025): April 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i1.97

Abstract

Post-earthquake rebuilding planning is essential for the long-term development of earthquake-affected areas. Approaches to community resilience in rural settings focus on how communities adjust to changes and shocks. This study utilizes a resident resilience method to analyze affordable housing during earthquake rebuilding in Morocco in comparison to other countries that took this alternative as a solution. Methods used included semi-structured interviews, participant observation, Geographic mapping, and secondary data analysis. This study describes how resources were mobilized following the tragedy to solve short- and long-term housing options through prefabricated and cheap homes, while considering the area's unique building materials and space management.
Development of Risk Maps and Implementation of Socialization of Earthquake Disaster Mitigation in Matano Village, East Luwu Regency Pramatadie, Andi Muhamad; Drajat, Elzaskiah; Sari , Nurmala
International Journal for Disaster and Development Interface Vol. 5 No. 1 (2025): April 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i1.99

Abstract

Community service activities in Matano Village, East Luwu Regency, with a focus on developing earthquake risk maps and disaster mitigation pocketbooks, were carried out from July 8 to August 15, 2024. Given the geographical location of Matano Village adjacent to the Matano Fault, which has a high potential risk of earthquakes, this activity aims to increase community preparedness in dealing with disasters. Through the Real Work Lecture (KKN) conducted by Hasanuddin University, data was downloaded from InaRisk BNPB, followed by socialization to the public about earthquake risk and mitigation measures that need to be taken. The results of this activity are in the form of risk maps and pocket books which are expected to increase public understanding and awareness of potential earthquake disasters. This research is expected to be a reference in disaster mitigation efforts, especially in earthquake-prone areas.
Land Cover Change Dynamics And Potential Acid Sulfate Soil Formation in Segara Anakan Wahyu, Hyundra Zakiya Putri; Widyatmanti, Wirastuti; Wibowo, Sandy Budi
International Journal for Disaster and Development Interface Vol. 5 No. 2 (2025): October 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i2.111

Abstract

Tropical coastal regions are highly susceptible to acid sulfate soi formation due to ecological and hydrological changes driven by land cover dynamics and sedimentation. This study analyzes land cover changes from 1990 to 2025 and their implications for ASS development in Segara Anakan, Indonesia. Landsat imagery (Landsat 5 and Landsat 8/9 OLI) was classified using Random Forest and Gradient Boosting Tree algorithms within Google Earth Engine. Classification accuracy was assessed using overall accuracy and the Kappa coefficient. Land cover classes included mangrove, nipa palm, paddy fields, aquaculture ponds, settlements, bare land, water bodies, and forest. Results reveal substantial conversion of natural vegetation into paddy fields, bare land, and settlements, particularly in low-lying tidal areas. These changes disrupted ecological conditions that previously sustained organic matter accumulation, low-energy environments, and anaerobic waterlogging—three of the five key factors for ASS formation. Field validation confirmed soil pH < 4 in high-risk areas. This research demonstrates the effectiveness of integrating multi-temporal Landsat imagery with machine learning to detect spatio-temporal land cover dynamics and to identify areas prone to ASS formation, offering valuable insights for adaptive coastal management.
Flood Potential Assessment of the Way Urang Sub-Watershed Based on Peak Discharge Using the Rational Method Zuhrita, Anissa; Wahyu, Hyundra Zakiya Putri; Handayani, Nelly; Milla, Helny Yofin Mega; Safitri, Nabila Zalianti; Murti, Sigit Heru; Sudaryatno
International Journal for Disaster and Development Interface Vol. 5 No. 2 (2025): October 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i2.112

Abstract

Peak discharge is a key indicator for assessing flood potential in a river basin. This study estimates peak discharge in the Way Urang sub-watershed, Pesawaran, Lampung, by integrating remote sensing and Geographic Information Systems (GIS) to derive physical parameters that control surface runoff. The Rational Method was applied, combining the runoff coefficient (C), rainfall intensity (I), and drainage area (A). The runoff coefficient was calculated using the Cook Method, which takes into account soil type, slope gradient, vegetation density, and drainage density. Rainfall intensity was derived from daily records using the Mononobe equation, with time of concentration estimated from the Kirpich formula. Data sources include Sentinel-2 imagery, DEMNAS, rainfall records from 2014 to 2023, and field measurements. The results show a peak discharge of 217.19 m³/s for a basin area of 20.20 km², with a coefficient of variation (C) of 69.20% and an intensity (I) of 55.89 mm/h. High runoff reflects the combined effects of low-infiltration soils, steep slopes, and high annual rainfall. Morphometric measurements yielded a total channel cross-sectional area of 27.91 m² and an estimated bankfull discharge of ~9.53 m³/s, indicating that the channel capacity is far below the peak discharge. This imbalance suggests a high flood potential in downstream areas, particularly in Bunut Village. The findings underscore the importance of integrating spatial data, field surveys, and remote sensing to analyze watershed physical characteristics and to support more effective, spatially informed flood planning and mitigation.
Challenges of Contextualizing Low-Carbon Development in Indonesia Romadhoni, Ahmad Ilham; Muta’ali, Lutfi; Paramitha, Dyah Pradjna; Tumus, Muhammad Galang Ramadhan Al
International Journal for Disaster and Development Interface Vol. 5 No. 2 (2025): October 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i2.113

Abstract

Climate change in Indonesia has triggered multidimensional disasters that are increasingly severe and difficult to predict, placing communities in vulnerable conditions. To address this, the Indonesian government has adopted the Low Carbon Development (LCD) paradigm, gradually integrating it into national and regional planning to pursue sustainable economic growth while minimizing carbon emissions. However, progress in low-carbon development remains limited. The gap is largely due to weak translation of LCD principles into sectoral programs, inadequate adaptive fiscal instruments, and poor alignment between regional development plans (RPJMD) and the LCD framework. This study aims to identify challenges from idea to plan to practice in the implementation of LCD policies in Indonesia and to propose a contextualized scheme for strengthening their application. Findings reveal three main challenges: (1) regional development orientation is still growth-centered rather than sustainability-oriented, (2) local governments have limited capacity to formulate and implement low-carbon programs, and (3) actor fragmentation and weak cross-sectoral and interregional coordination hinder integration. Furthermore, Indonesia’s vast geography presents structural and distributional constraints that demand creative, context-specific solutions rather than being accepted as fixed barriers. Overall, while Indonesia possesses substantial potential in low-carbon development, realizing it requires reorienting development priorities, enhancing local capacities, and improving institutional coordination. A contextualized LCD scheme must therefore address these systemic challenges to align national and regional development agendas with global commitments, particularly the net zero emission target.
Analysis of Changes in Temporal Spatial Land Use, Vegetation, and Built-up Land in Grobogan Regency in 2019-2023 Setiyaningsih, Diyah Ayu; Priyono, Kuswaji Dwi; Jumadi, Jumadi
International Journal for Disaster and Development Interface Vol. 5 No. 2 (2025): October 2025
Publisher : Amcolabora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53824/ijddi.v5i2.115

Abstract

Along with the increasing population in Grobogan Regency, the need for sufficient clothing and boards will increase. The Grobogan area is in a karst area with the agricultural and blasting sectors contributing the biggest sources of GRDP. Agriculture is dominated by dry farming. The area of forest land (vegetation is the second largest in Central Java. The study aimed to determine the dynamics of changes that occur in land cover (agricultural areas, vacant land, built-up areas, vegetation, and water bodies), focusing on built-up areas and vegetation. Data processing uses the help of sentinel imagery for the period 2019-2023 which is then processed using the maximum likelihood method which is then tested for accuracy to match the actual conditions on the ground Vegetation (forest) The second biggest change is the conversion to agricultural land. This is also marked by areas the area found which is indicated as an increasing settlement.

Page 5 of 5 | Total Record : 49

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