Skip to main content

Preprints

Filtering by Subject: Earth Sciences

A Multi-Pathway Contamination Risk Model for Niger Delta Communities: Integrating Hydrocarbon Load, Heavy Metal Exposure, and Vegetation Stress Indices from Heterogeneous Observational Data

Dickson Ojochogwu Dickson

Published: 2026-07-02
Subjects: Earth Sciences, Environmental Sciences

The Niger Delta is one of the most petroleum-impacted environments in the world, yet spatially explicit contamination risk assessments that integrate multiple exposure pathways remain scarce. This study presents a Composite Risk Score (CRS) model that fuses heavy metal soil and water measurements from nine peer-reviewed studies, total petroleum hydrocarbon (TPH) data from the 2011 UNEP [...]

A Bayesian Inversion for the Generation of Felsic Archean Crust

Jannitta Yao, C. Brenhin Keller

Published: 2026-07-02
Subjects: Earth Sciences, Geology

Archean continental crust is compositionally distinct from post-Archean continental crust; its felsic components predominantly comprise the tonalite, trondhjemite, and granodiorite suite, while its mafic components record evidence of secular mantle cooling. Although the geochemistry of these rocks have been well characterized, the production of Archean felsic magmas remains contested because the [...]

Clay Characterization of Tiller Flotten Quick Clay

Rene Tammen, Kamila Zabłocka, Klaartje de Weerdt, et al.

Published: 2026-07-02
Subjects: Earth Sciences, Geology, Mineral Physics, Other Earth Sciences, Soil Science

In this study, we investigate the mineralogical and physicochemical properties of the Tiller–Flotten quick clay formation in Trondheim, Norway. The objective is to enhance our understanding of particle interactions within this quick clay system, thereby contributing to the development of more environmentally friendly stabilization strategies. A comprehensive suite of analytical techniques was [...]

Increased North Atlantic Tropical Cyclone Risk in the Wake of a "Super" El Niño Event

Nicolas Bruneau, Richard Dixon, Daniel L. Swain, et al.

Published: 2026-07-01
Subjects: Earth Sciences, Oceanography and Atmospheric Sciences and Meteorology, Physical Sciences and Mathematics

The El Niño-Southern Oscillation (ENSO) is among the most influential modes of climate variability on Earth, dramatically reshaping global weather patterns. It is therefore a key driver of regional extremes and has been recognized as a key risk predictor for a wide range of natural hazards, from drought and wildfire to extreme rainfall and flooding. Considerable attention has been paid to the [...]

Climate-mode-conditioned exposure of a sporting mega-event: an event-based assessment of Rugby World Cup 2027 in Australia

Dimitri Defrance

Published: 2026-06-30
Subjects: Earth Sciences, Environmental Studies, Geography, Physical Sciences and Mathematics

The environmental risk of sporting mega-events is usually assessed from host-city climatologies or, more recently, from tournament design (venue, date, kick-off time). Both overlook a distinct axis: the interannual state of the large-scale climate modes into which a given edition falls. We ask to what extent the phase of the El Ni\~no--Southern Oscillation (ENSO) and the Indian Ocean Dipole (IOD) [...]

ARGUS: A 17-ms End-to-End Deep Learning Pipeline for Real-Time Seismic Source Characterization and Ground Motion Prediction in Sparse-Network EGS/CCS Environments

ISAO KUROSAWA

Published: 2026-06-30
Subjects: Earth Sciences, Geophysics and Seismology, Physical Sciences and Mathematics

We present ARGUS (Automated Real-time Geophysical Understanding System), an end-to-end deep-learning pipeline that jointly estimates hypocenter location, centroid moment tensor (CMT), and peak ground acceleration (PGA) distribution from sparse seismic networks, targeting induced-seismicity monitoring in enhanced geothermal systems (EGS) and carbon capture and storage (CCS). From as few as four to [...]

Coastal plain retention modulates flashflood chlorophylla anomalies in the Red Sea: a CPRI based multisite analysis

Mohammed A Hakami, Maged Marghany

Published: 2026-06-30
Subjects: Biodiversity, Earth Sciences, Ecology and Evolutionary Biology, Environmental Sciences, Food Science, Life Sciences, Oceanography and Atmospheric Sciences and Meteorology, Physical Sciences and Mathematics, Planetary Sciences, Research Methods in Life Sciences

The eastern Red Sea coastal margin is among the most oligotrophic large marine ecosystems on Earth, where episodic nutrient pulses from flash floods can transiently fuel phytoplankton blooms. Yet, the extent to which upstream coastal-plain geomorphology modulates the magnitude of these flood-driven chlorophylla (Chla) responses remains poorly quantified. We tested the hypothesis that narrower [...]

Spectrally structured CNN encoding for interpretable and edgeready fractional vegetation cover mapping using UAS multispectral and imaging spectroscopy

Laura N. Sotomayor, Arko Lucieer, Ryan Haynes, et al.

Published: 2026-06-30
Subjects: Artificial Intelligence and Robotics, Biogeochemistry, Computer Sciences, Earth Sciences, Engineering, Environmental Monitoring, Environmental Sciences, Natural Resources and Conservation, Physical Sciences and Mathematics, Remote Sensing

Fractional vegetation cover (FVC) is a key indicator of semi-arid ecosystem condition, but non-photosynthetic vegetation (NPV) remains difficult to map because dry or senescent vegetation, litter, woody debris, and standing dead material can overlap spectrally with photosynthetic vegetation (PV) and bare ground (BE), especially where shadows, exposed bare earth surfaces, and mixed vegetation-soil [...]

Direct Dating of Lithic Cuts Using Cosmogenic Nuclides: A Methodological Proposal to Establish the Construction Chronology of Megalithic Megastructures

Eduardo Antonio Ventura-Muñoz

Published: 2026-06-28
Subjects: Earth Sciences, Physical Sciences and Mathematics

ABSTRACT The chronology of megalithic megastructures is currently established through the analysis of organic matter — charcoal, bone, fibers — found in proximity to the constructions. This method dates the most recently documented human presence in the vicinity of a structure. It does not date the act of construction. If a temporal gap existed between the moment of construction and the moment of [...]

Denoising teleseismic data for deep Earth studies using a supervised deep-learning auto-encoder: a case study of diffracted waves from ULVZs

Stuart Russell, Katrin Hannemann, Carl Martin, et al.

Published: 2026-06-27
Subjects: Earth Sciences, Geophysics and Seismology, Physical Sciences and Mathematics

Seismic noise, particularly the microseism generated by the oceans, is a fundamental limitation on using short period (1 - 10 s) teleseismic data to study the deep Earth. Deep learning auto-encoders have proven effective at denoising seismic data in other applications. Here, we provide a demonstration of their potential for improving the quality of deep Earth seismic data, using Sdiff [...]

Glacier thickness, thermal regime, and subjective uncertainty from ground-penetrating radar of 25 Svalbard glaciers

Erik Schytt Mannerfelt, Ursula Enzenhofer, Satu Innanen, et al.

Published: 2026-06-25
Subjects: Earth Sciences, Glaciology, Physical Sciences and Mathematics

Glacier thickness and thermal regime control glacier dynamics and long-term evolution, but observations are sparse at regional scales. Both can be measured using ground-penetrating radar (GPR), which requires manual or automated interpretation. Interpretation often depends on more than signal waveform analysis alone, and this subjectivity has not been thoroughly quantified before. We present 699 [...]

Sediment accumulation, rather than mixing, controls the temporal resolution of the sedimentological record

Niklas Hohmann, Jack Middelburg, Emilia B. Jarochowska

Published: 2026-06-23
Subjects: Earth Sciences

Sedimentary particles such as organismal remains carry information on the Earth’s past. As a result of mixing in surface sediments, particles of different ages can be found at the same depth (time-averaging), and particles of identical ages can be found at different stratigraphic positions (stratigraphic disorder). This results in simultaneous stratigraphic and temporal blurring of the recorded [...]

Where to Watch the Water: Multi-Sensor Network Design Optimization for Inland Flood Detection

Basit Akinwumi Akinade, Amobichukwu Chukwudi Amanambu, Lisa Davis

Published: 2026-06-23
Subjects: Earth Sciences, Environmental Sciences, Geomorphology, Hydrology, Physical Sciences and Mathematics, Water Resource Management

Inland flood detection is often constrained less by sensor availability than by where sensors are placed along branching river networks, especially in ungauged headwaters where floods often initiate. We present a three-phase, decisionfocused framework for designing basin-by-basin multi-sensor flood detection networks that coordinate water-level, discharge, and camera sensors while explicitly [...]

Earthquakes Source Scaling at Subfault Scales

Margarita M. Solares-Colón, Diego Melgar

Published: 2026-06-23
Subjects: Earth Sciences, Geophysics and Seismology, Physical Sciences and Mathematics

Establishing scaling laws for large earthquakes remains challenging due to the heterogeneity of methodologies and datasets used to produce finite-fault models. In this study, we analyze source properties for 264 earthquakes using the NEIC finite-fault database, expanding previous efforts by examining rupture behavior over a broader magnitude range and capturing both established scaling trends and [...]

A Phanerozoic Atlas of Earth’s Atmosphere, Surface, and Interior Derived from the PANALESIS Plate Tectonic Model

Florian Franziskakis, Niklas Werner, Christian Vérard, et al.

Published: 2026-06-22
Subjects: Climate, Earth Sciences, Environmental Sciences, Geology, Other Environmental Sciences, Tectonics and Structure

Reconstructing the Earth system evolution through deep time requires spatially consistent, multi‑layer datasets that integrate geological, geophysical, and climatic information. Here we present a unified, high‑resolution (10×10km) global dataset describing the Earth’s evolution over the past 545 million years. This atlas provides 45 time slices spanning the Phanerozoic, each including quantified [...]

search

You can search by:

  • Title
  • Keywords
  • Author Name
  • Author Affiliation