Skip to main content

Preprints

There are 5744 Preprints listed.

Linking 3D long-term slow-slip cycle models with rupture dynamics: the nucleation of the 2014 Mw 7.3 Guerrero, Mexico earthquake

Duo Li, Alice-Agnes Gabriel

Published: 2023-05-25
Subjects: Geophysics and Seismology

Slow slip events (SSEs) have been observed in spatial and temporal proximity to megathrust earthquakes in various subduction zones, including the 2014 $M_\mathrm{w}$7.3 Guerrero, Mexico earthquake which was preceded by a $M_\mathrm{w}$ 7.6 SSE. However, the underlying physics connecting SSEs to earthquakes remains elusive. Here, we link 3D slow-slip cycle models with dynamic rupture simulations [...]

Global mean sea level higher than present during the Holocene

Roger Cameron Creel, Jacqueline Austermann, Robert Kopp, et al.

Published: 2023-05-24
Subjects: Earth Sciences, Other Earth Sciences, Physical Sciences and Mathematics

Global mean sea-level (GMSL) change can provide insight on how ice sheets, glaciers, and oceans respond to warming[1;2]. The Holocene (11.7 ka to present) marks a time when temperatures may have exceeded early industrial (1850 CE) values[3]. Evidence from Greenland[4] and Antarctica[5;6] indicates that both ice sheets retreated inland of their present-day extents during the Holocene, yet previous [...]

GOES-R land surface products at Western Hemisphere eddy covariance tower locations

Danielle Losos, Sophie Hoffman, Paul Christopher Stoy

Published: 2023-05-24
Subjects: Earth Sciences, Environmental Sciences

The terrestrial carbon cycle varies dynamically over short periods that can be difficult to observe. Geostationary (“weather”) satellites like the Geostationary Environmental Operational Satellite - R Series (GOES-R) deliver near-hemispheric imagery at a ten-minute cadence, and its Advanced Baseline Imager (ABI) measures visible and near-infrared spectral bands that can be used to estimate land [...]

Exponential life-threatening rise of the global temperature

Markus Noll

Published: 2023-05-23
Subjects: Atmospheric Sciences, Climate, Nature and Society Relations

Global temperatures are rising. This paper demonstrates for the first time that the global temperature increase has not been linear but is exponential with a doubling time of about 25 years. Both the amount of carbon dioxide produced by the combustion of fossil fuels and the amount of carbon dioxide in the atmosphere have also risen exponentially, with a similar doubling time. The exponential [...]

The Future in Anthropocene Science

Patrick W Keys, Rekha Warrier, Lynn Badia

Published: 2023-05-23
Subjects: Climate, Environmental Studies, Nature and Society Relations, Sustainability

The Anthropocene is the present time of human-caused accelerating global change, and new forms of Anthropocene risk are emerging that society has hitherto never experienced. Science and policy are grappling with the temporal and spatial magnitude of these changes, as well as the diminishing margin between science and policy itself. However, there is a gap in the transparency — and perhaps even in [...]

Developing the future visions for seamless multi-hazard warning for volcanic eruptions

Andrew Tupper, Graham Leonard

Published: 2023-05-23
Subjects: Earth Sciences, Volcanology

Much work has been done to build arrangements between volcanology and meteorology to handle the aviation risks from volcanic ash. This workshop will discuss how to approach collaborative arrangements for other volcanic hazards to the public, particularly where a multi-disciplinary approach is required. These hazards include tsunamis, ashfall, rainfall-induced dome collapses, lahars, pumice, [...]

Strategic Logic of Unilateral Climate Intervention

Curtis M Bell, Patrick W Keys

Published: 2023-05-22
Subjects: Atmospheric Sciences, Climate, International and Area Studies, Other Statistics and Probability, Risk Analysis

Climate change and unabated greenhouse gas emissions are increasing the possibility that the world will turn to climate intervention to curb ever-increasing global temperatures. To date, most work on this topic has imagined that an international organization like the United Nations or an international coalition of states will synchronize their efforts to deploy climate intervention at ideal [...]

Carbon Utilization and Storage through Rehabilitation of Groundwater Wells

Vivek Vidyadhar Patil, Gabriella Basso, Steven Catania, et al.

Published: 2023-05-21
Subjects: Applied Statistics, Civil and Environmental Engineering, Climate, Earth Sciences, Environmental Sciences, Geochemistry, Hydrology, Longitudinal Data Analysis and Time Series, Oil, Gas, and Energy, Statistical Methodology, Statistical Models, Statistics and Probability

According to the Intergovernmental Panel on Climate Change (IPCC) of the United Nations (UN), rise in atmospheric concentration of carbon dioxide (CO2) due to anthropogenic factors is considered as the primary driver for global climate change. With almost every major corporation around the world working towards their “net-zero goals”, it is becoming increasingly important to have more [...]

Mind the gap: will slow progress on CO2 storage undermine net zero by 2050?

Andrew James Cavanagh, Mark Wilkinson, R. Stuart Haszeldine

Published: 2023-05-19
Subjects: Engineering

A global path to net zero requires the permanent storage of carbon dioxide to reduce and remove atmospheric greenhouse gas emissions. We present an analysis of the gap between the CO2 storage required to meet net zero targets and the slow maturation of regional storage resources. We estimate that European storage rates need to increase 30-to-100x by 2030 to meet net zero by 2050. China and North [...]

Percolation Model for Universal Scaling of Vegetation Net Primary Productivity with Climate Variables

Allen G. Hunt, Muhammad Sahimi, Behzad Ghanbarian, et al.

Published: 2023-05-19
Subjects: Physical Sciences and Mathematics

We show that a quantitative, physically-based model of water balance, combined with a model for the dependence of net primary productivity (NPP) of vegetation on evapotranspiration E leads to the universal scaling of NPP with the climate variables, namely, precipitation P and potential evapotranspiration Ep. The model for NPP is based on percolation theory. The water balance is derived based on [...]

Spatiotemporal inconsistencies in Landsat satellite observations bias environmental-change analyses and monitoring

Ruben Remelgado, Christopher Conrad, Carsten Meyer

Published: 2023-05-19
Subjects: Environmental Monitoring, Geographic Information Sciences, Physical and Environmental Geography, Remote Sensing, Sustainability

Satellite remote sensing is vital for research, monitoring, and policy addressing environmental-change and sustainability issues from climate and ecosystem changes to food and water security. Here, Landsat satellite data play a crucial role, thanks to their unique global, long-term, and high-resolution coverage. Yet, spatial and temporal data gaps in the Landsat archive may propagate into derived [...]

Inferring Inherent Optical Properties of Sea Ice Using 360-Degree Camera Radiance Measurements

Raphaël Larouche, Bastian Raulier, Christian Katlein, et al.

Published: 2023-05-18
Subjects: Oceanography, Oceanography and Atmospheric Sciences and Meteorology, Optics, Physics

In this work, we demonstrate the utilization of a compact, consumer-grade 360-degree camera for measuring the in-ice spectral angular radiance distribution. This novel technique allows for the instantaneous acquisition of all radiometric quantities at a given depth with a non-intrusive probe. This gives the opportunity to monitor the light field structure (mean cosines) from the atmosphere to the [...]

The effects of boundary proximity on Kelvin-Helmholtz instability and turbulence

Chih-Lun Liu, Bill Smyth, Alexis K. Kaminski

Published: 2023-05-18
Subjects: Physical Sciences and Mathematics

Studies of Kelvin-Helmholtz (KH) instability have typically modelled the initial flow as an isolated shear layer. In geophysical cases, however, the instability often occurs near boundaries and may therefore be influenced by boundary proximity effects. Ensembles of direct numerical simulations are conducted to understand the effect of boundary proximity on the evolution of the instability and [...]

Evaluating the spatial patterns of NOx emissions in polluted areas with TROPOMI NO2

Daniel L Goldberg, Madankui Tao, Gaige Kerr, et al.

Published: 2023-05-18
Subjects: Atmospheric Sciences, Environmental Health and Protection, Environmental Monitoring

Satellite datasets are increasingly used to evaluate NOx emissions inventories. Such studies often require the use of a chemical transport model or a complex statistical framework to account for meteorological factors that can complicate the comparison. Here, we apply a novel method to compare inventory-based emissions directly to Tropospheric Monitoring Instrument (TROPOMI) NO2 data without a [...]

Unravelling the morphogenesis of coastal terraces at Cape Laundi (Sumba Island, Indonesia): insights from numerical models

Denovan Chauveau, Anne-Morwenn Pastier, Gino de Gelder, et al.

Published: 2023-05-18
Subjects: Earth Sciences

The morphology of coastal sequences provides fundamental observations to unravel past sea level (SL) variations. For that purpose, converting morphometric observations into a SL datum requires understanding their morphogenesis. The long-lasting sequence of coral reef terraces (CRTs) at Cape Laundi (Sumba Island, Indonesia) could serve as a benchmark. Yet, it epitomizes a pitfall that challenges [...]

search

You can search by:

  • Title
  • Keywords
  • Author Name
  • Author Affiliation