EarthArXiv @eartharxiv@qoto.org

Detrital zircon U-Pb ages of Proterozoic and Cretaceous sandstones of Narmada region in Central India: Implications for provenance and the closure age of the Vindhyan Basin
https://doi.org/10.31223/X5D94R #PhysicalSciencesAndMathematics #BhopalVindhyanInlier;DetritalZircons;Tonian;UpperBhanderSandstone;VindhyanBasin

Physics-Informed Neural Networks Applied to Catastrophic Creeping Landslides
https://doi.org/10.31223/X5J36P #ComputationalEngineering #GeotechnicalEngineering #Pinns #NumericalModeling #Landslides #ShearBand #Temperature #NumericalModeling #Landslides #ShearBand #Temperature

Detrital zircon U-Pb ages of Proterozoic and Cretaceous sandstones of Narmada region in Central India: Implications for provenance and the closure age of the Vindhyan Basin
https://doi.org/10.31223/X5D94R #PhysicalSciencesAndMathematics #BhopalVindhyanInlier;DetritalZircons;Tonian;UpperBhanderSandstone;VindhyanBasin

Physics-Informed Neural Networks Applied to Catastrophic Creeping Landslides
https://doi.org/10.31223/X5J36P #ComputationalEngineering #GeotechnicalEngineering #Pinns #NumericalModeling #Landslides #ShearBand #Temperature #NumericalModeling #Landslides #ShearBand #Temperature

Detrital zircon U-Pb ages of Proterozoic and Cretaceous sandstones of Narmada region in Central India: Implications for provenance and the closure age of the Vindhyan Basin
https://doi.org/10.31223/X5D94R #PhysicalSciencesAndMathematics #BhopalVindhyanInlier;DetritalZircons;Tonian;UpperBhanderSandstone;VindhyanBasin

Physics-Informed Neural Networks Applied to Catastrophic Creeping Landslides
https://doi.org/10.31223/X5J36P #ComputationalEngineering #GeotechnicalEngineering #Pinns #NumericalModeling #Landslides #ShearBand #Temperature #NumericalModeling #Landslides #ShearBand #Temperature

Detrital zircon U-Pb ages of Proterozoic and Cretaceous sandstones of Narmada region in Central India: Implications for provenance and the closure age of the Vindhyan Basin
https://doi.org/10.31223/X5D94R #PhysicalSciencesAndMathematics #BhopalVindhyanInlier;DetritalZircons;Tonian;UpperBhanderSandstone;VindhyanBasin

Physics-Informed Neural Networks Applied to Catastrophic Creeping Landslides
https://doi.org/10.31223/X5J36P #ComputationalEngineering #GeotechnicalEngineering #Pinns #NumericalModeling #Landslides #ShearBand #Temperature #NumericalModeling #Landslides #ShearBand #Temperature

Transforming place-based management within watersheds in Fiji: the Watershed Interventions for Systems Health project
https://doi.org/10.31223/X56S9M #Pharmacology,ToxicologyAndEnvironmentalHealth #Typhoid #Leptospirosis #Dengue #Water #SanitationAndHygiene(wash) #WaterQuality #WaterGovernance

Desiccation of ecosystem-critical microbialites in the shrinking Great Salt Lake, Utah (USA)
https://doi.org/10.31223/X5BH2F #EnvironmentalSciences #GreatSaltLake #Microbialite #Periphyton #EcosystemHealth #EnvironmentalChange #WaterIssues

Sand Shoal Dynamics of a Tide-Dominated Estuarine Embayment: Comparison of a Numerical Sediment Transport Model against Field Observations
https://doi.org/10.31223/X5G94C #Engineering #EnvironmentalEngineering #Oceanography #TidalSandBanks #SedimentTransport #MorphologicalModelling

Has the impact of the Earth’s orbital variation at sub-myriadal timescales been underestimated?
https://doi.org/10.31223/X5M07N #PhysicalSciencesAndMathematics #ClimateVariabilitysolarInsolation #Long-termChange #OceanOverturning #ClimateVariability #SolarInsolation #LongTermChange #OceanThermohalineCirculation

Clumped isotopes in globally distributed Holocene coccoliths reveal their habitat depth
https://doi.org/10.31223/X5QS8W #LifeSciences #PhysicalSciencesAndMathematics #ClumpedIsotopes #Coccolithophores #CoreTop #HabitatDepth #TemperatureReconstructions #Coccolithophores #CoreTop #HabitatDepth #TemperatureReconstructions

Environmental DNA (eDNA) based fish biodiversity assessment of two Himalayan rivers of Nepal reveals diversity differences and highlights new species distribution records
https://doi.org/10.31223/X57Q16 #Biodiversity #AquaticBiodiversity #FreshwaterEcosystem #Edna #River #Hydropower #Development #NextGenerationSequencing #Metabarcoding

Internal gravity waves generated by subglacial discharge: implications for tidewater glacier melt
https://doi.org/10.31223/X5CH34 #Climate #Oceanography #Ice-ocean #InternalWave #Glacier #Oceanography #SubmarineMelt

On the representation of shallow convection in the trades by large-domain, hecto-meter, large-eddy simulations
https://doi.org/10.31223/X5H651 #OceanographyAndAtmosphericSciencesAndMeteorology #PhysicalSciencesAndMathematics

A Comparison of Contemporaneous Airborne Altimetry and Ice-Thickness Measurements of Antarctic Ice Shelves
https://doi.org/10.31223/X5N07Z #EarthSciences #PhysicalSciencesAndMathematics #IceShelves #AntarcticGlaciology #RemoteSensing #IceThickness

Winter matters: year-round metabolism in temperate water bodies
https://doi.org/10.31223/X5RQ1V #EnvironmentalSciences #Production #Respiration #Autotrophic #Heterotrophic #Under-ice #LakeSimcoe #LakeDiefenbaker #WinterLimnology #Respiration #Autotrophic #Heterotrophic #Under-ice #LakeSimcoe #LakeDiefenbaker #WinterLimnology

A new mechanism for brittle failure in garnets
https://doi.org/10.31223/X5WH3S #EarthSciences #PhysicalSciencesAndMathematics #Garnet #AtomProbeTomography #Strain-hardening #Nanostructures #Crystal-plasticity #AtomProbeTomography #Strain-hardening #Nanostructures #Crystal-plasticity

On the thermo-hydro-mechanical behaviour of Argillaceous hard soils - weak rocks
https://doi.org/10.31223/X5507M #Engineering #Clays #Argillites #Compressibility #Swelling #Anisotropy #Discontinuities #Permeability #HydromechanicalCoupling #Strength #Brittleness #ProgressiveFailure #UndergroundExcavationsInSituTesting;RadioactiveWaste;TemperatureEffects;CoupledThmProcesses