Preprints
There are 6976 Preprints listed.
Soil-informed multivariate decision support to assess urban ecosystem service potential
Published: 2026-04-17
Subjects: Agriculture, Applied Mathematics, Applied Statistics, Biodiversity, Dynamical Systems, Multivariate Analysis, Natural Resources and Conservation, Remote Sensing, Soil Science, Spatial Science, Sustainability, Theory and Algorithms
Metropolitan expansion across Africa requires robust soil information to support ecosystem services and urban resilience. However, digital soil mapping often prioritises predictive accuracy over identifying where information is reliable for decision making. This study evaluated numerical and South African Soil Taxonomy within a decision framework to assess where ecosystem service inferences can [...]
MonteCarlo Biphasic Estimation of Fire Properties (McBEF): Part I, Algorithm formulation
Published: 2026-03-30
Subjects: Applied Statistics, Earth Sciences, Physical Sciences and Mathematics, Statistics and Probability
Sub-pixel fire characterization is essential for quantifying wildfire energetics, combustion phase dynamics, and their atmospheric impacts from satellite observations. This study presents a series of Observing System Simulation Experiments (OSSEs) to systematically evaluate the influence of temperature phase complexity, channel selection, and intra-phase temperature heterogeneity on the [...]
Solubility and speciation of sulfur in silicate melts under crustal conditions
Published: 2025-12-12
Subjects: Earth Sciences, Geochemistry, Geology, Volcanology
We have determined the solubility of sulfur as either sulfide (S2-) or sulfate (S6+) in a wide range of silicate melts at 1 atm pressure and temperatures of 1050° to 1250°C. The method involved suspension of the melt in either a mixture of CO2-CO-SO2 (sulfide solubility) or SO2 and air (sulfate solubility) for periods of up to 120 hours. Sulfur concentrations, measured by electron microprobe were [...]
A terrain-aware approach for image-based urban flood monitoring
Published: 2026-03-12
Subjects: Earth Sciences, Environmental Monitoring, Environmental Sciences, Hydrology, Water Resource Management
Urban nuisance flooding is widespread, yet quantitative observations of its magnitude and spatial variability remain limited. Most image-based approaches provide only relative measures of flooded image fraction, while quantitative methods require surveyed ground control and three-dimensional reconstruction. We introduce a terrain aware, perspective weighted framework that converts flooded image [...]
MonteCarlo Biphasic Estimation of Fire Properties (McBEF): Part II, Night-time VIIRS Implementation
Published: 2026-03-30
Subjects: Applied Statistics, Earth Sciences, Physical Sciences and Mathematics, Statistics and Probability
This study presents the application and global evaluation of the Monte Carlo Biphasic Estimation of Fire Properties (McBEF) algorithm using nighttime observations from the Visible Infrared Imaging Radiometer Suite (VIIRS). McBEF extends traditional fire retrieval techniques by partitioning sub-pixel combustion into flaming and smoldering phases, enabling the estimation of phase-specific [...]
An Accessible NDVI Classification Tool for Urban and Suburban Vegetation Change Analysis
Published: 2026-01-31
Subjects: Geographic Information Sciences, Remote Sensing
This paper presents a web-based research method for studying changes in vegetation in urban and suburban contexts between 2018 and 2024. The system uses the Normalized Difference Vegetation Index (NDVI) to analyze imagery for each time period and classify land surface types. After classification, correlation and regression analysis are applied to explain connections between urbanization and [...]
City-level temperature reduction from street green space by city typology and climate zone
Published: 2026-03-30
Subjects: Climate, Human Geography, Physical and Environmental Geography, Spatial Science
Vegetation in the street can lower temperatures at neighbourhood level and reduce heat stress for pedestrians. Street green spaces (SGS) is thus an urgently needed nature-based solution for adapting to a warming climate, and also has some ability for carbon uptake. This local solution has global potential, but the cooling potential of street green space depends on local context, urban form and [...]
An analogue-conditioned multi-satellite framework for daily precipitation reconstruction
Published: 2026-05-10
Subjects: Engineering, Physical Sciences and Mathematics
Precipitation is a key component of the Earth system, yet remains difficult to reconstruct accurately due to its stochastic nature, physical drivers, and sparse observational coverage. Existing gridded datasets rely on trade-offs between station-based observations, satellite retrievals, and multi-source blending, often introducing inconsistencies and temporal limitations. Here, we present an [...]
Seventeen city types define distinct pathways for climate mitigation and adaptation worldwide
Published: 2026-03-31
Subjects: Computer Sciences, Environmental Studies, Geography, Planetary Sciences
Understanding that cities are main arenas of climate action, it remains unclear which cities should focus on what kind of action taking a global comparative lens. Recent contributions identified four different types of cities across seven world regions, while others specified a huge case study literature database on cities and climate change biased towards established, stagnant, and megacities, [...]
Engineered Closed-Loop Mineral Storage (ECLMS): A Conceptual Korean CCS Model Bridging Ex-situ Mineralization and Geological Storage
Published: 2026-05-11
Subjects: Engineering
The expansion of Carbon Border Adjustment Mechanism (CBAM) and the European Union's Emissions Trading System (EU ETS) has sharpened global expectations for permanence, traceability, and accounting integrity in carbon capture and storage (CCS). At the same time, several major industrial economies — including the Republic of Korea, Japan, and parts of Southeast Asia — face a structural deficit of [...]
EXPLORATION OF WATER RESOURCES MANAGEMENT DECISION SUPPORT POTENTIAL IN DATA SCARCE WATERSHEDS AND ASSOCIATED DATA POLICY NEEDS
Published: 2026-04-18
Subjects: Bioresource and Agricultural Engineering, Computational Engineering, Environmental Monitoring, Hydrology, Natural Resources Management and Policy, Remote Sensing, Sustainability, Water Resource Management
Insufficient data access presents major challenges to scientific assessment of water resources, development of management plans, and attainment of water security. Hydrologic models are widely applied in the advisement of pollution, drought, and flood mitigation strategies; their accuracy relies on data used in setup and calibration. A case study of Sasumua River Watershed in Kenya illustrates [...]
Are high-resolution urban datasets necessary for accurate heat exposure modelling in cities?
Published: 2026-03-17
Subjects: Earth Sciences, Oceanography and Atmospheric Sciences and Meteorology
Accurately capturing the spatial variability of urban heat exposure is important for planning heat-resilient cities. While regional climate models have historically simplified urban characteristics, high-resolution urban morphological datasets now present an opportunity to produce spatially accurate heat maps. In this vein, this study evaluates four morphological datasets for Sydney, Australia in [...]
Biochar granulation and particle size influence hydrological performance of green roof substrates
Published: 2026-02-20
Subjects: Civil and Environmental Engineering, Environmental Monitoring, Hydrology, Materials Science and Engineering, Sustainability, Water Resource Management
Green roofs are increasingly being implemented in cities to improve stormwater management and provide additional ecosystem services. Biochar, a carbon-rich material derived from pyrolyzed biomass, has emerged as a promising substrate additive to improve hydrological performance of green roofs; however, unprocessed biochar is susceptible to erosion loss. Biochar granulation and particle size [...]
Directional Peak Factors of Strong-Motion Response Spectra: A Stochastic Field Representation on the Circle
Published: 2026-02-20
Subjects: Civil and Environmental Engineering, Civil Engineering, Engineering, Structural Engineering
Directional variability in horizontal earthquake ground motions is often addressed using orientation-independent intensity measures obtained by rotating the two horizontal components and summarizing the resulting response spectra. In contrast, the stochastic structure of directional peak factors, which connect second-order response measures to extreme response levels, has received limited [...]
Rotation-Invariant Ground-Motion as Directional Selection Operators: A Closed-Form Framework for RotD Response Spectra
Published: 2026-02-20
Subjects: Civil and Environmental Engineering, Civil Engineering, Structural Engineering
Horizontal earthquake ground motion is inherently two-dimensional, yet most engineering applications rely on scalar intensity measures. Rotation-invariant response spectra such as RotD50, MaxRotD50, and RotD100 are widely used to remove dependence on sensor orientation. They are often treated as direction-free scalars, which they are not. In this study, directional pseudo-spectral acceleration is [...]