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Preprints

Filtering by Subject: Physical Sciences and Mathematics

Examining copper supply feasibility in decarbonization pathways: a mine-level dynamic approach

Gaël Parpan, Baptiste Andrieu, Olivier Vidal, et al.

Published: 2025-04-01
Subjects: Engineering, Physical Sciences and Mathematics

Primary copper production capacity is a major concern in light of estimates of future demand. This issue is not sufficiently taken into account in models providing decarbonization pathways. Our study assesses the feasibility of SSPs basic drivers for primary copper requirements derived from the DyMEMDS model, alongside our projections of primary copper production capacities. We introduce a [...]

Finding the potential height of tropical cyclone storm surges in a changing climate using Bayesian optimization

Simon D A Thomas, Dani Jones, Talea Mayo, et al.

Published: 2025-04-01
Subjects: Physical Sciences and Mathematics

We introduce a new framework for systematically exploring the largest storm surge heights that a tropical cyclone in a given climate can create. We calculate the tropical cyclone potential intensity and the potential size from climate model projections and find that both these limits increase in response to climate change. We then use Bayesian optimization with a barotropic ocean circulation [...]

Volcano flank instabilities and lateral collapse

Lucia Capra, Alexander Belousov, Benjamin Bernard, et al.

Published: 2025-04-01
Subjects: Physical Sciences and Mathematics

The gravitational instability and subsequent lateral collapse of a volcano is a common phenomenon observed in most types of volcanoes, from continental to oceanic environments. Both intrinsic and extrinsic factors contribute to volcanic collapse, including the volcano's internal structure, geological setting, and a range of volcanic and non-volcanic processes, including climatic conditions. [...]

The evolution of methane production rates from young to mature thermokarst 1 lakes

Yarden Gerera, André Pellerin, Efrat Eliani Russak, et al.

Published: 2025-03-30
Subjects: Physical Sciences and Mathematics

Thermokarst lakes, formed by permafrost thaw in the Arctic, are hotspots for methane (CH4) and carbon dioxide (CO2) emissions, and are expected to double permafrost carbon emissions by the end of the century. While the implications of ongoing permafrost thaw on methane dynamics within these lakes have been modeled, here we provide empirical data on methane production dynamics as lakes evolve from [...]

A new hypothesis for bimodal volcanism in the Kermadec Arc

Yasuhiro Hirai, Yoshihiko Tamura

Published: 2025-03-29
Subjects: Geochemistry, Geology, Physical Sciences and Mathematics, Volcanology

Bimodal volcanism of basaltic and rhyolitic magmas in the Kermadec Arc has been attributed to the fractional crystallization of basaltic sources. However, new evidence from the Kibblewhite Volcano reveals two distinct differentiation pathways originating from mantle-derived basaltic and andesitic primary magmas. Here we employ geothermobarometric estimations, mass-balance calculations, and [...]

Rheological control of crystal fabrics on Antarctic ice shelves

Nicholas Rathmann, David A. Lilien, Daniel Harry Richards, et al.

Published: 2025-03-28
Subjects: Physical Sciences and Mathematics

Ice crystal fabrics can exert significant rheological control on ice sheets and ice shelves, potentially softening or hardening anisotropic ice by several orders of magnitude compared to isotropic ice. We introduce an anisotropic extension of the Shallow Shelf Approximation (SSA), allowing for fabric-induced viscous anisotropy to affect the flow of ice shelves in coupled, transient simulations. [...]

Ore deposits formed during crustal magmatism and related hydrothermal processes: Formation, beneficiation, and the environmental and social considerations of utilization

Adam Simon, Rob Bowell, Elizabeth Holley, et al.

Published: 2025-03-28
Subjects: Physical Sciences and Mathematics

Crustal magmatic systems that form volcanoes also produce mineral deposits that are important sources of critical metals. These include porphyry, epithermal, skarn, iron-oxide-copper-gold, and Carlin-type mineral deposits that form by magmatic-hydrothermal processes, magmatic sulfide deposits that form by purely igneous processes, and pegmatite deposits that form by both processes. These mineral [...]

Meteorites weathering under a variety of conditions in the Lut Desert

Somayeh Zahabnazouri

Published: 2025-03-27
Subjects: Physical Sciences and Mathematics

Climate, topography, and geomorphology are fundamental terrestrial environmental factors that play a significant role in shaping rock weathering processes across Earth's surface. These elements are particularly crucial when studying meteorite weathering, as they dictate the microenvironmental conditions that influence both physical and chemical alterations over time. Despite extensive research on [...]

Mid-Ocean Ridge Volcanism (Encyclopedia of Volcanoes, 3rd edition, book chapter)

William W. Chadwick, Mathilde Cannat, Deborah Eason, et al.

Published: 2025-03-26
Subjects: Earth Sciences, Oceanography and Atmospheric Sciences and Meteorology, Physical Sciences and Mathematics

The vast majority of the Earth’s volcanism takes place in the deep ocean along mid-ocean ridges (MORs), yet because it is difficult to detect and observe, it is also relatively poorly understood. MOR volcanism occurs where tectonic plates spread apart and mainly produces effusive basaltic fissure eruptions where dikes reach the surface. The character and frequency of volcanism varies greatly as [...]

Geochemical volcano monitoring

Alessandro Aiuppa, Mariano Agusto, Patrick Allard, et al.

Published: 2025-03-26
Subjects: Physical Sciences and Mathematics

The geochemistry of volcanic fluids is increasingly employed at volcano observatories worldwide to assess volcano activity state, and eruption potential. Here, we review the state-of-the-art in the field, with a primary focus on the most recent developments in instrumental gas monitoring that have rendered geochemistry an increasingly effective eruption-forecasting tool. We describe the main [...]

Seafloor Geodesy Unveils Seismogenesis of Large Subduction Earthquakes in México

Víctor M. Cruz-Atienza, Josué Tago, Luis A. Domínguez, et al.

Published: 2025-03-26
Subjects: Earth Sciences, Physical Sciences and Mathematics

Seafloor geodesy may lead to deep understanding of subduction systems and seismogenesis. Based on measurements of near-trench deformations of the oceanic and overriding plates, in this investigation we elucidate the tectonic and mechanical processes leading to the Mw7.0 Acapulco, Mexico, earthquake in 2021 at the heart of the Guerrero seismic gap. We exploit unprecedented ocean-bottom [...]

Consideration of rupture kinematics increases tsunami amplitudes in far-field hazards assessments

Diego Melgar

Published: 2025-03-25
Subjects: Physical Sciences and Mathematics

Tsunamis are large surges of sea water caused by undersea earthquakes. To prepare for future tsunamis, scientists run computer simulations to estimate how big the waves might be and how often they could happen. These simulations are used to make maps and design buildings that can withstand tsunami impacts. Most of these models assume that when an earthquake breaks a fault this happens all at [...]

Fast climate impact emulation for global temperature scenarios with the Rapid Impact Model Emulator (RIME)

Edward Byers, Michaela Werning, Mahe Perette, et al.

Published: 2025-03-25
Subjects: Climate, Environmental Indicators and Impact Assessment, Physical Sciences and Mathematics

Climate model emulation has long been applied to assess the global climate outcomes of IAM emissions scenarios, but is typically limited to first-order climate variables like mean surface air temperatures at minimal regional resolution. Here we introduce RIME, the Rapid Impact Model Emulator, which uses global warming level interpolation approaches based on inputs of global mean air temperature [...]

An Improved Methodology to Estimate Cross-Scale Kinetic Energy Transfers from Third-Order Structure Functions using Regularized Least-Squares

Manuel Othon Gutierrez-Villanueva, Bruce Cornuelle, Sarah T. Gille, et al.

Published: 2025-03-25
Subjects: Analysis, Applied Statistics, Fluid Dynamics, Longitudinal Data Analysis and Time Series, Oceanography, Oceanography and Atmospheric Sciences and Meteorology, Other Oceanography and Atmospheric Sciences and Meteorology, Physical Sciences and Mathematics, Statistical Methodology, Statistical, Nonlinear, and Soft Matter Physics

Several methods exist for estimating cross-scale kinetic energy (KE) transfers; however, they are ill-adapted for sparse ocean observations, hindering the study of oceanic KE transfers. A newly developed third-order structure function $D3(r)$ framework allows estimation of KE injection rates $\epsilon_j(k)$ and KE transfers $F(k)$ across scales using sparse data. This approach requires inverse [...]

Nanogeios Nanoliquid CO₂ – Performance Evaluation of Hybrid Nanofluid-Enhanced Liquid CO₂ for Advanced District and Data Center Cooling Applications

ABDELMOUMEN SHAD SERROUNE, I Rahman KHASANI, Sandra Merrier, et al.

Published: 2025-03-23
Subjects: Chemical Engineering, Ecology and Evolutionary Biology, Engineering, Engineering Science and Materials, Mechanical Engineering, Neuroscience and Neurobiology, Other Engineering, Physical Sciences and Mathematics, Physics

This study presents a comprehensive evaluation of a novel hybrid nanofluid-enhanced liquid CO₂, engineered to address cooling challenges in water-scarce environments. Developed by NanoGEIOS, the fluid combines graphene oxide (GO) and carbon nanotubes (CNTs) in a 1:1 ratio (2 vol%) and is optimized using AI-powered NanoFusion dispersion technology. The nanofluid exhibits a 77% increase in thermal [...]

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