Preprints
Filtering by Subject: Earth Sciences
Global hyper-resolution groundwater dataset for assessing historical and future groundwater dynamics
Published: 2025-09-18
Subjects: Earth Sciences, Hydrology, Planetary Hydrology, Planetary Sciences
Sustainable management of global groundwater is a key societal challenge and central to Sustainable Development Goals. To address limited observations and coarse global models, we present a global hyper-resolution dataset of monthly groundwater heads and water table depth at 30 arc-seconds (~1 km), simulated by GLOBGM, a global groundwater flow model. The data set follows ISIMIP protocols and [...]
Efficient Self-Attention Based Joint Optimization for Lithology and Petrophysical Parameter Estimation in the Athabasca Oil Sands
Published: 2025-09-18
Subjects: Artificial Intelligence and Robotics, Earth Sciences, Geology, Geophysics and Seismology
Accurately identifying lithology and petrophysical parameters, such as porosity and water saturation, are essential in reservoir characterization. Manual interpretation of well-log data, the conventional approach, is not only labor-intensive but also susceptible to human errors. To address these challenges of lithology identification and petrophysical parameter estimation in the Athabasca Oil [...]
FLOCCULATION, GRAVITY FLOWS, AND TOTAL ORGANIC CARBON HOTSPOTS IN LAKE: INSIGHTS FROM FLUME EXPERIMENTS
Published: 2025-09-18
Subjects: Earth Sciences, Physical Sciences and Mathematics
Lakes serve as one of the significant sinks for organic carbon. For lake deposits, it is generally accepted that water depth is a primary control on the spatial distribution of total organic carbon (TOC) accumulation because the deeper part of a lake potentially has a higher organic population to be settled. However, lake TOC distribution is often spatially variable regardless of water depth, and [...]
Coastal groundwater level trends reveal global susceptibility to seawater intrusion
Published: 2025-09-17
Subjects: Earth Sciences, Hydrology, Physical Sciences and Mathematics
Coastal groundwater is a vital source of freshwater that is threatened by overabstraction and rising sea levels. Yet, our understanding of where global coastal groundwater levels (GWLs) are declining and what regions are susceptible to future seawater intrusion (SWI) remains limited. Here, we present the first global, observation-based assessment of coastal GWL trends, using more than 550,000 [...]
A Hybrid Iron/Green-Rust-Urea Model for Prebiotic Chemistry: A Synthesis of Testable Pathways for Planetary Astrobiology
Published: 2025-09-17
Subjects: Earth Sciences, Geochemistry, Planetary Geochemistry, Planetary Geology, Planetary Hydrology, Planetary Sciences
We propose a quantitative, testable framework for abiogenesis that links submarine alkaline vents, which supply H₂, ΔpH, and Fe/Fe–S catalysis, to subaerial hot-spring fields that provide wet–dry concentration and UV-driven photoredox chemistry. To bridge dilution between environments, we specify mobile “holding pens” (green-rust/iron flocs, silica mats, pumice rafts, and sea-surface [...]
South Atlantic Anomaly Influence on Jet‑Stream Dynamics and Surface Climate
Published: 2025-09-15
Subjects: Earth Sciences, Physics
This work proposes a novel causal framework for recent climate change, departing fundamentally from greenhouse-gas-centric models. The central hypothesis is that the primary driver of global warming and biospheric stress is the degradation of Earth’s magnetic shielding—most clearly manifested in the progressive enlargement of the South Atlantic Anomaly (SAA), expanding ~5% per two decades within [...]
Multi-proxy approach in tracking circulation change in the western North Atlantic during the Little Ice Age
Published: 2025-09-12
Subjects: Earth Sciences, Physical Sciences and Mathematics
The Little Ice Age (LIA), a period from ~1400 CE to 1900 CE, was characterized by colder winter and more frequent extreme weather event, particularly in the Northern hemisphere. While the exact causes of the Little Ice Age remain a topic of ongoing research, evidence suggests that changes in ocean circulation patterns likely played a role in the observed global cooling, although the specific [...]
Strategic crop relocation could substantially mitigate nuclear winter yield losses
Published: 2025-09-11
Subjects: Agriculture, Earth Sciences, Environmental Sciences, Food Science
Nuclear war could inject millions of tonnes of soot into the stratosphere, cooling the Earth and devastating crop yields. We assess crop relocation—switching which crops are grown where—as an adaptation strategy. Using the Mink crop model, we simulate six major crops under three nuclear winter scenarios (16, 47, and 150 Tg of soot). Without adaptation, global caloric production falls 23%, 53%, [...]
Unraveling Southern Ocean Diatom Diversity Across the Eocene/Oligocene Transition
Published: 2025-09-09
Subjects: Biodiversity, Earth Sciences, Paleobiology, Paleontology
The Eocene-Oligocene transition (EOT) was a critical interval of global cooling and circulation change that reshaped marine ecosystems. However, current knowledge of diatom diversity and community dynamics during this interval relies mainly on biostratigraphic compilations, which largely document common species and thus likely underestimate true diversity. This study provides a more complete [...]
The Largest Crop Production Shocks: Magnitude, Causes and Frequency
Published: 2025-09-04
Subjects: Agricultural Science, Agriculture, Earth Sciences, Environmental Sciences, Food Science, Risk Analysis
Food is the foundation of our society. We often take it for granted, but stocks are rarely available for longer than a year, and food production can be disrupted by catastrophic events, both locally and globally. To highlight such major risks to the food system, we analyzed FAO crop production data from 1961 to 2023 to find the largest crop production shock for every country and identify its [...]
The role of thermal pressurization in driving deep fault slip during the 2021 Mw 8.2 Chignik, Alaska megathrust earthquake
Published: 2025-09-04
Subjects: Earth Sciences, Physical Sciences and Mathematics
The 2021 Mw 8.2 Chignik earthquake ruptured a weakly coupled portion of the deep slab in the eastern Aleutian-Alaska subduction zone, with no significant shallow slip. The underlying physics driving such large earthquakes nucleating at large depth and their impact on seismic and tsunami hazards remain poorly understood. We perform 3D dynamic rupture simulations that couple thermal [...]
Some new Models of Earth’s Temperature Anomaly across various Epochs Predicting Present Warming with Ice Age Validity Testing and a Data set Bias examination.
Published: 2025-09-01
Subjects: Earth Sciences, Environmental Sciences, Oceanography and Atmospheric Sciences and Meteorology, Physical Sciences and Mathematics
The need for methods to assess earth’s temperature anomaly are briefly discussed together with shortcomings of existing climate models. The geomagnetic or Pole shift method of climate sensitivity is briefly reviewed. The hypothesis that the previous two warm periods shared a common driver is tested and proven. Granger causality tests have been made and indicate that Pole Shift is the driver of [...]
The impacts of volcanism on hydrocarbon-bearing sedimentary basins - Examples from the world-class Neuquén Basin case study, Argentina
Published: 2025-08-30
Subjects: Earth Sciences
The last two decades of research have highlighted that volcanism occurring in sedimentary basins can have substantial effects on sedimentary formations. In particular, igneous intrusions can trigger the generation of large amounts of greenhouse gases in organic-rich host rocks, leading to dramatic climate change and mass extinctions. Volcanism can also have significant impacts on [...]
Using X-ray Fluorescence to Detect Automobile Heavy Metal Pollution in Los Angeles Soils with Copper and Palladium as Indicators
Published: 2025-08-29
Subjects: Earth Sciences, Environmental Health and Protection, Environmental Indicators and Impact Assessment, Environmental Monitoring, Environmental Sciences, Geochemistry, Physical Sciences and Mathematics
This project evaluates the effectiveness of using portable X-ray Fluorescence (XRF) to detect soil composition matrices that show patterns of anthropogenic influence. We explore 26 areas within Los Angeles County, California, that have various amounts of traffic; classifying each locale as Urban or Recreational. The main elements of interest are copper and palladium. These indicators are largely [...]
3D surface displacement estimation over the Groningen gas field, the Netherlands
Published: 2025-08-29
Subjects: Earth Sciences, Environmental Monitoring, Geophysics and Seismology, Mining Engineering, Oil, Gas, and Energy
Since 1964, the Groningen gas field in the Netherlands has experienced significant subsidence due to gas extraction. Although InSAR has been widely used to estimate the vertical displacements of the field, capturing the full three-dimensional deformation, including omnidirectional horizontal components, remained a challenge and has only been achieved from spatially sparse GNSS observations. The [...]