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Lalu Auliya Akraboe Littaqwa
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Trends Research of Environmental Studies
Published by Lembaga Publikasi Ilmiah Nusantara
ISSN : -     EISSN : 31102085     DOI : https://doi.org/10.70716/tres
Core Subject : Social,
Environmental Science
Trends Research of Environmental Studies (TRES) (e-ISSN: 3110-2085) is an open access and peer reviewed journal published by Lembaga Publikasi Ilmiah Nusantara (PUBLINE Institute). TRES is devoted to the dissemination of new and original knowledge in all branches of Environmental Studies. This journal contains research and review results in the environmental science and engineering that have never been published in other publishers. It should be noted that TRES Journal only accepts original articles and is not being submitted in other journals. The scope of TRES Journal includes environmental health and work safety, environmental technology and engineering, environmental accounting conservation and energy efficiency, green infrastructure, environment and sustainable development, urban development and rural environment.
Arjuna Subject : Ilmu Lingkungan (semua ketegori) - Ilmu Lingkungan (Lain-Lain)
Articles 10 Documents
 1 
Analisis Karakteristik Daerah Aliran Sungai (DAS) Dodokan dan Dampak Perubahan Penggunaan Lahan terhadap Kejadian Banjir Muhammad Rafi; Andani Rahman; Puja Setiawati
Trends Research of Environmental Studies Vol. 1 No. 1: Trends Research of Environmental Studies, June 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i1.271

Abstract

The Dodokan Watershed (DAS Dodokan) plays an important role in maintaining the hydrological balance of the surrounding region. However, land use changes that have occurred over the past few decades have the potential to affect hydrological characteristics and increase the risk of flooding. This study aims to analyze the characteristics of the Dodokan Watershed and assess the impact of land use change on flood events. The methods used include spatial analysis with remote sensing imagery and Geographic Information Systems (GIS) to identify patterns of land cover change, as well as hydrological analysis using watershed morphometric parameters. Rainfall data, slope gradient, and soil types were also analyzed to strengthen interpretation. The results show a significant conversion of forest areas into residential land and intensive agriculture. These changes have reduced soil infiltration capacity, increased surface runoff, and decreased the natural storage capacity of the watershed. Hydrological analysis indicates an increase in runoff coefficients and peak flood discharge during certain periods. This condition demonstrates that land use change contributes substantially to the rising frequency and intensity of floods in the Dodokan Watershed. These findings highlight the need for sustainable watershed management strategies through forest conservation, rehabilitation of critical land, and the implementation of environmentally friendly spatial planning to minimize future flood risks.
Ketimpangan Wilayah Perkotaan dan Dampaknya Terhadap Lingkungan: Studi Kasus Kota Mataram dan Kota Bima, Nusa Tenggara Barat Nur Alfatiha; Wira Adytia; Reno Febrian
Trends Research of Environmental Studies Vol. 1 No. 1: Trends Research of Environmental Studies, June 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i1.272

Abstract

Urban development inequality is a critical issue in achieving sustainable development, particularly in West Nusa Tenggara (NTB), Indonesia. This study compares Mataram City, the provincial capital, and Bima City, a secondary city, using a quantitative-descriptive approach based on secondary data from the Central Statistics Agency (BPS) and literature review. Analyses employed Klassen Typology, Human Development Index (HDI), and Williamson Index. Results show significant disparities: Mataram’s per capita GRDP is IDR 54.38 million with an HDI of 81.15, while Bima’s figures are IDR 32.61 million and HDI 75.80. The Williamson Index (0.44) indicates considerable inequality, influencing environmental quality. Mataram faces urbanization-induced air pollution and green space reduction, whereas Bima suffers from sanitation issues, flooding, and poor waste management. Addressing these disparities requires integrating economic policies with ecosystem-based spatial planning and strengthening environmental management in secondary cities.
Kajian Kebutuhan Luas Lahan Tempat Pengelolaan Tempat Pembuangan Akhir (TPA) Sampah Tipe Sanitary Landfill untuk Sampah di Kota Mataram Syafri Nazhim; Lina Marta Ningsih; Burhan Azhari
Trends Research of Environmental Studies Vol. 1 No. 1: Trends Research of Environmental Studies, June 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i1.281

Abstract

Urban solid waste management in Mataram City faces serious challenges due to the increasing daily waste generation, which averages 200–220 tons and can rise up to 240 tons per day during certain periods. This study aims to analyze the land area requirements for the final disposal site (sanitary landfill) and to assess the effectiveness of community-based waste reduction programs in extending landfill lifespan. The research applied a descriptive quantitative approach through the collection of primary and secondary data. Primary data were obtained through field observations at the existing landfill site, while secondary data included population size, per capita waste generation, waste composition, and municipal waste management planning documents. Land requirement calculations were conducted using waste generation formulas, population growth projections, and technical factors related to sanitary landfill utilization. The results indicate that household waste separation programs were able to reduce landfill loads by 30–40 tons per day, equivalent to 15–20 percent of total waste generation. This reduction significantly improves land-use efficiency and has the potential to extend the landfill lifespan by 2–3 years beyond the original design plan. The waste composition in Mataram City is dominated by organic waste and plastics in nearly equal proportions, highlighting the need for waste management strategies that prioritize composting and plastic recycling. This study emphasizes that the integration of technical planning and social participation is crucial in developing a sustainable sanitary landfill system in Mataram City.
Analisis Proses Pengelolaan Limbah Medis Padat pada Fasilitas Puskesmas di Kabupaten Lombok Barat Nurma Firdaus; Ahlan Febrianto
Trends Research of Environmental Studies Vol. 1 No. 1: Trends Research of Environmental Studies, June 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i1.282

Abstract

The management of solid medical waste in primary healthcare facilities is a crucial aspect of public health protection and environmental safety. This study aims to analyze the process of solid medical waste management at community health centers (Puskesmas) in West Lombok Regency, covering stages of segregation, collection, temporary storage, transportation, and final disposal. A qualitative descriptive method was employed through field observations, in-depth interviews with waste management officers, and a review of relevant policy documents. The findings indicate that most Puskesmas have implemented waste segregation according to categories; however, inconsistencies in practice were still observed. Temporary storage facilities generally did not meet technical standards, raising the risk of contamination. Waste transportation was carried out by third parties but often delayed due to limited fleets and high operational costs. Final disposal was conducted using centralized incinerators, yet limited capacity frequently caused delays and accumulation. From a human resources perspective, many staff members had not received specific training, resulting in suboptimal compliance with established procedures. In conclusion, solid medical waste management in West Lombok Puskesmas has been implemented but still faces challenges in technical, managerial, and regulatory aspects. Strengthening human resource capacity, providing standardized storage facilities, improving transportation and disposal systems, and enforcing strict supervision are necessary to ensure effective and compliant medical waste management.
Rain Water Harvesting Sebagai Alternatif Air Bersih Di Desa Maringkik Kabupaten Lombok Timur Arief Rahman Hakim; Lina Marta Ningsih; Solistiawan
Trends Research of Environmental Studies Vol. 1 No. 1: Trends Research of Environmental Studies, June 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i1.283

Abstract

Maringkik Village in East Lombok Regency faces severe clean water limitations due to its geographical condition as a small island with very limited groundwater reserves. This study aims to evaluate the potential of rainwater harvesting (RWH) as a sustainable alternative for clean water provision. The research employed a descriptive-qualitative approach through field observations, household interviews, and annual rainfall data analysis, combined with quantitative calculations of potential rainwater volume based on roof area and laboratory testing of harvested water quality. Results indicate that with an average annual rainfall of 1,500–2,000 mm, each household with a 50 m² roof area can harvest approximately 60–80 m³ of rainwater per year, equivalent to 60–70% of daily household water needs. Laboratory tests revealed that harvested rainwater met clean water standards after undergoing simple treatment using first-flush devices and sand filtration. Community interviews further showed high acceptance levels, with the majority of respondents willing to adopt RWH due to its affordability and environmental benefits. In conclusion, RWH demonstrates significant potential as a technically feasible, economically viable, and socially acceptable solution for enhancing water security in Maringkik Village. Moreover, it serves as an adaptive strategy to climate change challenges for small island and coastal communities.
Peran Kecerdasan Buatan Dalam Pengambilan Keputusan Pengelolaan Lingkungan di Wilayah Tropis Efendi Hamka; Rufaidah Rufaidah; Nirmala Sari
Trends Research of Environmental Studies Vol. 1 No. 2 (2025): Trends Research of Environmental Studies, December 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i2.363

Abstract

Tropical regions exhibit complex, dynamic environmental characteristics and are highly vulnerable to pressures arising from climate change and human activities. These conditions necessitate environmental management approaches that are adaptive, data-driven, and capable of supporting accurate and timely decision-making. This study aims to examine the role of artificial intelligence in environmental management decision-making in tropical regions. The research employs a qualitative approach through a systematic literature review of open-access scientific journal articles published over the past ten years and relevant to the topics of artificial intelligence and environmental management. The data were analyzed using thematic analysis techniques to identify patterns, trends, and the major contributions of artificial intelligence to environmental management. The findings indicate that artificial intelligence plays a significant role in enhancing the effectiveness of environmental monitoring, strengthening predictive and modeling capabilities of environmental systems, and supporting evidence-based decision support systems. The application of artificial intelligence has proven relevant in the management of water resources, air quality, biodiversity, renewable energy, and climate change mitigation in tropical regions. However, the effectiveness of implementing this technology is strongly influenced by data quality, infrastructure readiness, institutional capacity, and supportive policy frameworks. This study concludes that artificial intelligence has substantial potential as a decision-support tool for environmental management in tropical regions, provided that it is implemented in a contextual, ethical, and long-term sustainability-oriented manner.
Analisis Jejak Karbon Aktivitas Ekonomi Berbasis Platform Digital di Negara Berkembang Muhammad Faizul; Rani Fadhalia; Riska Marta Hukmi
Trends Research of Environmental Studies Vol. 1 No. 2 (2025): Trends Research of Environmental Studies, December 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i2.364

Abstract

The expansion of digital platform-based economic activities has become a major driver of economic growth in developing countries. However, their environmental implications, particularly in relation to carbon footprints, remain complex. This study aims to analyze the carbon footprint of digital platform-based economic activities in developing countries by examining the roles of information and communication technology infrastructure, data-intensive digital activities, platform-based transportation, and the dynamics of the digital economy and the gig economy. This study employs a quantitative approach using a cross-country empirical design based on panel data. The analysis examines the relationship between digital economy intensity and carbon emissions and identifies the mechanisms influencing this relationship. The results indicate that at early stages of digital economy development, increased platform-based activity is associated with higher carbon emissions due to rising energy consumption in digital infrastructure and transportation sectors. However, at more advanced levels of digitalization, platform-based economic activities have the potential to reduce carbon emission intensity through efficiency gains, technological innovation, and optimization of economic processes. These findings demonstrate that the environmental impact of the digital economy is conditional and strongly influenced by energy structures, infrastructure quality, and policy frameworks in developing countries. This study contributes by proposing an integrated analytical framework to understand the relationship between the platform economy and carbon footprints. The policy implications emphasize the importance of integrating digital economic development with energy transition strategies and low-carbon development pathways to ensure long-term environmental sustainability.
Kontribusi Pengetahuan Lokal terhadap Ketahanan Lingkungan dalam Menghadapi Perubahan Iklim Yayan Surayan; Maki Almanan; Robi Putrawanto
Trends Research of Environmental Studies Vol. 1 No. 2 (2025): Trends Research of Environmental Studies, December 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i2.365

Abstract

Climate change poses increasing pressure on environmental and social systems in various regions, particularly on communities that depend directly on natural resources. In this context, local knowledge becomes an important element in building environmental resilience because it is rooted in communities’ long-term experience in interacting with their environment. This study aims to examine the contribution of local knowledge to environmental resilience in the face of climate change, emphasizing the role of such knowledge in adaptation, natural resource management, and the strengthening of social-ecological systems. This study employs a qualitative approach with a descriptive-exploratory design. Data were collected through in-depth interviews, focus group discussions, and participatory observation of communities that still actively practice local knowledge. Data analysis was conducted thematically to identify forms of local knowledge, its contribution to environmental resilience, and the social and cultural factors that influence its effectiveness. The results indicate that local knowledge contributes significantly to enhancing environmental resilience through communities’ ability to recognize local indicators of climate change, adjust natural resource management practices, and build collective responses to climate risks. Local knowledge also plays a role in maintaining ecosystem service functions, supporting community health resilience, and strengthening social cohesion. In addition, local knowledge is dynamic and adaptive, although it faces challenges in the form of knowledge erosion and limited recognition in formal policy frameworks. This study affirms the importance of integrating local knowledge into climate change adaptation efforts and sustainable environmental management.
Model Kebijakan Lingkungan Adaptif Berbasis Data Real Time untuk Pengelolaan Berkelanjutan Afria Mahaira; Syarifah Harniati; Farah Assifa
Trends Research of Environmental Studies Vol. 1 No. 2 (2025): Trends Research of Environmental Studies, December 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i2.368

Abstract

Sustainable environmental management faces increasingly complex challenges due to the dynamics of environmental change, uncertainty within social-ecological systems, and the accelerated pace of technological development. These conditions require policy approaches that are no longer static but adaptive and responsive to changing real-world conditions. This study aims to formulate a real-time databased adaptive environmental policy model that can support decision-making in a more effective, transparent, and sustainable manner. The study employs a qualitative-descriptive approach through a systematic literature review and environmental policy analysis, drawing on relevant scientific sources and policy documents published over the past ten years. The results indicate that the integration of adaptive governance and the utilization of real-time data can establish a dynamic policy cycle in which environmental monitoring, data analysis, decision-making, and policy evaluation are interconnected within a mechanism of continuous learning. The resulting policy model consists of four main components, namely technology-based environmental monitoring systems, adaptive analysis and decision-making mechanisms, collaborative institutional frameworks, and policy feedback and learning mechanisms. This model has the potential to enhance policy responsiveness to environmental change, strengthen accountability and transparency, and encourage stakeholder participation. This study is expected to serve as a conceptual reference for policymakers and researchers in developing adaptive, data-driven environmental policies oriented toward long-term sustainability.
Strategi Adaptasi Ekosistem Mikro terhadap Fenomena Urban Heat Island di Kawasan Perkotaan Rahmi Alfitra Najwa; Faidzul Bayani; Hari Setianto
Trends Research of Environmental Studies Vol. 1 No. 2 (2025): Trends Research of Environmental Studies, December 2025
Publisher : Lembaga Publikasi Ilmiah Nusantara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70716/tres.v1i2.369

Abstract

The urban heat island (UHI) phenomenon represents one of the significant impacts of intensive urbanization and land cover change in urban areas. The increase in temperature affects not only human thermal comfort but also directly influences the stability and functioning of urban ecosystems, particularly at the micro scale. This study aims to examine the characteristics of UHI at the micro scale and to analyze the adaptive responses of micro-ecosystems in coping with rising temperatures in urban areas. This research employs a quantitative approach supported by spatial and ecological analyses, integrating remote sensing data, field-based microclimate measurements, and vegetation and soil analyses. The results indicate that UHI intensity is heterogeneously distributed across urban spaces and is strongly influenced by land cover, vegetation structure, and soil moisture conditions. Micro-ecosystems with well-developed vegetation, moist soils, and stable microorganism activity exhibit higher adaptive capacity to temperature stress. Vegetation plays a crucial role in reducing temperature through shading and evapotranspiration mechanisms, while soil and microorganisms contribute to maintaining the balance of ecological functions. This study confirms that adaptation to UHI should be directed toward the integrated strengthening of micro-ecosystem functions. These findings are expected to provide a scientific basis for the development of micro-ecosystem–based adaptation strategies in sustainable urban environmental planning and management.

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