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Sediment Corrections for Distributed Acoustic Sensing J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-10-04 Alister Trabattoni, Clara Vernet, Martijn van den Ende, Marie Baillet, Bertrand Potin, Diane Rivet
On continental margins, sediments cause significant and spatially variable delays in seismic phase arrival times. The strong impedance contrast of the sediment-bedrock interface causes P-wave splitting that is clearly seen on distributed acoustic sensing recordings of earthquakes, resulting in additional phase arrivals that must be picked separately. We introduce sediment corrections to correctly account
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Very-Near-Field Coseismic Fault Pressure Drop and Delayed Postseismic Cross-Fault Flow Induced by Fault Damage From the 2018 M6.3 Hualien, Taiwan Earthquake J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-10-02 Ruei-Jiun Hung, Matthew Weingarten, Michael Manga
Earthquakes can produce rock damage, poroelastic deformation, and ground shaking that modify fault zone hydrogeologic properties. Coseismic and postseismic hydrologic response to the ruptured fault can serve as constraints on hydrogeologic property changes. Here, we document fluid pressure responses to the 2018 M6.3 Hualien, Taiwan earthquake and model the postseismic fault zone hydrology inferred
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Organic Carbon Reaction Kinetics in Bioturbated Sediments Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Matthias Kuderer, Jack J. Middelburg
Most organic carbon delivered to the seafloor is degraded within the bioturbated layer. Theory and empirical evidence have shown that organic carbon reactivity relates to the age of a particle. However, due to particle mixing, the age-depth linear relation induced by sediment accretion is obfuscated. Here we combine a Lagrangian particle tracking model that resolves the age distribution of particles
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Fire in Feces: Bats Reliably Record Fire History in Their Guano Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-04 Alexandra Tsalickis, Richard S. Vachula, J. Conner Welch, Joshua W. Campbell, Matthew N. Waters
New approaches are needed to resolve persistent geographic gaps and biases in paleofire research. Most sedimentary paleofire research relies on lake and peat sediments. We present an unconventional sedimentary charcoal record preserved in a modern, post-bomb bat guano deposit and compare its accumulation to historical fire data. We find strong correlations between charcoal accumulation rates (CHAR)
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Air and Surface Temperatures Differently Drive Terrestrial Carbon and Water Cycles in the High Latitudes Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Jing Tang, Shouzhi Chen, David Martín Belda, Riikka Rinnan, Christian Körner, Yongshuo H. Fu
High-latitude vegetation experience different temperatures than the ambient air temperature. While lacking a regional plant temperature product, we drove the dynamic ecosystem model, LPJ-GUESS, with widely used ERA5-land surface temperature (Tsurf, at radiative equilibrium) and air temperature to understand ecosystem process responses to these two temperatures. We show that tundra plants' growth is
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Role of Ion Dynamics in Electron-Only Magnetic Reconnection Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Yundan Guan, Quanming Lu, San Lu, Yukang Shu, Rongsheng Wang
Standard magnetic reconnection couples with both ions and electrons on different scales. Recently, a new type of magnetic reconnection, electron-only reconnection without the coupling of ions, has been observed in various plasma environments. Standard reconnection typically has a reconnection outflow velocity of about one Alfvén speed. According to the scaling analysis, the electron outflow velocity
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Climate Change Impact on “Outdoor Days” Over the United States Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Yeon-Woo Choi, Muhammad Khalifa, Elfatih A. B. Eltahir
The scientific discourse on climate change throughout the US has primarily revolved around changes in mean climate and/or climate extremes. However, little is known about the impacts of climate change on mild weather conditions despite its significant relevance to quality of life. Here, we adopt the concept of “outdoor days” defined as those relatively pleasant days when most people may enjoy outdoor
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Ocean Surface Gravity Waves Excited by the 2022 Eruption of Hunga Tonga-Hunga Ha'apai Volcano Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Kiwamu Nishida, Mie Ichihara, Tatsuya Kubota, Takashi Tonegawa
On 15 January 2022, a massive underwater eruption occurred at the Hunga Tonga-Hunga Ha'apai Volcano. The plume reached the mesosphere, and the eruption excited a significant atmospheric Lamb wave, which forced the tsunami. The complicated tsunami waveforms due to ocean-atmosphere coupling prevented inferring the force history of the excitation. To address this, we analyze ocean surface gravity waves
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Effects of CO2 on the Nitrogen Isotopic Composition of Marine Diazotrophic Cyanobacteria Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Zuozhu Wen, Ruotong Jiang, Tianli He, Thomas J. Browning, Haizheng Hong, Shuh-Ji Kao, Jin-Yu Terence Yang, Dalin Shi
Biological N2 fixation has been crucial for sustaining early life on Earth. Very negative δ15N values detected in Archean sediments, which are not observed in present-day environments, have been attributed to the low efficiency of proto-nitrogenases. Alternatively, variations in early atmospheric CO2 may also play a role. Here we examine the effects of CO2 concentrations on the biomass δ15N signatures
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The Interdecadal Changes of the Relationship Between May-June and July-August NWPSH and Their Physical Mechanisms Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-04 Shuai Li, Fred Kucharski, Jie Yang, ZhiQiang Gong, Yuxuan Zhao, Guolin Feng
Unlike prior researches focusing on interannual or interdecadal changes of the Northwest Pacific subtropical high (NWPSH), this paper emphasizes the interdecadal changes in the relationship between May-June and July-August NWPSH. The correlation coefficients between them are 0.66 (passing the 99.9% confidence level) and 0.12 during 1979–2002 and 2003–2023. Therefore, the May-June NWPSH has a strong
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Impact of North Atlantic Tripole and Extratropical North Pacific Extreme SSTs on the 2023/24 El Niño Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Chi-Cherng Hong, Arnold Sullivan, Chih-Chun Chang
Observations revealed notable discrepancies in the 2023/24 El Niño compared to earlier events, despite registering moderate Niño3.4 index magnitudes. Essential indicators such as the westerly wind burst, thermocline zonal tilting, and eastward propagation of oceanic Kelvin waves were conspicuously weak, indicating a weak air-sea coupled in contrast to past occurrences, the 2023/24 El Niño coincided
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Tree Rings Reveal ENSO in the Last Millennium Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Edward R. Cook, Mark A. Cane
We present new climate field reconstructions (CFR) of tropical Pacific ENSO sea surface temperatures (HadISST) for the boreal winter season using a circum-Pacific tree-ring network from known El Niño rainfall impact regions. We use two different CFR methods: Point-by-Point Regression (PPR) and reduced-space Orthogonal Spatial Regression (OSR). Both methods produce reconstructions with high validation
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Wave-Influenced Delta Morphodynamics, Long-Term Sediment Bypass and Trapping Controlled by Relative Magnitudes of Riverine and Wave-Driven Sediment Transport Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-04 F. Zăinescu, J. E. A. Storms, A. Vespremeanu-Stroe, H. Van Der Vegt, M. Schuster, E. Anthony
River sediment supply (Qs) and longshore sediment transport (LST) are recognized as two paramount controls on river delta morphodynamics and stratigraphy. We employed the Delft3D model to simulate the evolution of deltas from fluvial to wave-dominated conditions, revealing the interplay between river- and wave-driven sediment quantities. Wave-influenced deltas may show alternating accumulation and
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Strain Partitioning in the Southeastern Tibetan Plateau From Kinematic Modeling of High-Resolution Sentinel-1 InSAR and GNSS Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Jin Fang, Tim J. Wright, Kaj M. Johnson, Qi Ou, Richard Styron, Tim J. Craig, John R. Elliott, Andy Hooper, Gang Zheng
Fault slip rates estimated from geodetic data are being integrated into seismic hazard models. The standard approach requires modeling velocities and relative (micro-)plate motions, which is challenging for fault-based models. We present a new approach to directly invert strain rates to solve for slip rates and distributed strain simultaneously. We generate velocity and strain rate fields over the
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Northward Shift of Pre-Monsoon Zonal Winds Exacerbating Heatwaves Over India Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 R. Jha, A. Mondal, S. Ghosh, R. Murtugudde
India has observed increasingly persistent heat extremes in recent decades. North-Central India, a highly populated region prone to heatwaves, has experienced record maximum temperatures (>${ >} $48°C) during the pre-monsoon season. While studies have shown positive trends in heatwaves due to rising air temperature, we identify a shift in pre-monsoon mean daily maximum temperature over North-Central
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The 2022 February 15 Solar Energetic Particle Event at Mars: A Synergistic Study Combining Multiple Radiation Detectors on the Surface and in Orbit of Mars With Models Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Jian Zhang, Jingnan Guo, Yongjie Zhang, Yihang Cao, Mikhail I. Dobynde, Cunhui Li, Yuhong Yu, Yuming Wang, Shuwen Tang, Yi Qian, Hongyun Zhao, Zhiyu Sun, Yi Wang, Robert F. Wimmer-Schweingruber
On 2022-02-15, solar eruptions caused one of the most intensive Solar Particle Events (SPEs) in Solar Cycle 25 observed at various heliospheric locations. This study focuses on the enhancements of energetic proton flux observed by multiple detectors located at the orbit and on the surface of Mars. We carry out the first analysis by the Mars Energetic Particle Analyzer (MEPA) instrument on board the
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Predictability Limit of the 2021 Pacific Northwest Heatwave From Deep-Learning Sensitivity Analysis Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 P. Trent Vonich, Gregory J. Hakim
The traditional method for estimating weather forecast sensitivity to initial conditions uses adjoint models, which are limited to short lead times due to linearization around a control forecast. The advent of deep-learning frameworks enables a new approach using backpropagation and gradient descent to iteratively optimize initial conditions, minimizing forecast errors. We apply this approach to the
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Experimental and Numerical Investigations on Enhancing Ductility of Reinforced Concrete Columns with Substandard Lap Splices Using Hollow Steel Section Collars J. Earthq. Eng. (IF 2.5) Pub Date : 2024-09-30 Pochara Kruavit, Ali Ejaz, Anil C Wijeyewickrema, Anat Ruangrassamee
Hollow steel section (HSS) collars with significant flexural stiffness in addition to their axial stiffness are proposed to prevent brittle lap splice failures. Experimental program on five full-sc...
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METEOSAT Long-Term Observations Reveal Changes in Convective Organization Over Tropical Africa and Atlantic Ocean Surv. Geophys. (IF 4.9) Pub Date : 2024-10-04 Rémy Roca, Thomas Fiolleau, Viju O. John, Jörg Schulz
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The real McCoy: A record of deep‐water basin deposition in southwestern North America during the Cretaceous Basin Res. (IF 2.8) Pub Date : 2024-10-04 Emilia A. Caylor, Barbara Carrapa, Peter G. DeCelles, George E. Gehrels
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Observing the SO2 and Sulfate Aerosol Plumes From the 2022 Hunga Eruption With the Infrared Atmospheric Sounding Interferometer (IASI) Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Pasquale Sellitto, Richard Siddans, Redha Belhadji, Elisa Carboni, Bernard Legras, Aurélien Podglajen, Clair Duchamp, Brian Kerridge
The Hunga volcano violently erupted on 15 January 2022, producing the largest perturbation of the stratospheric aerosol layer since Pinatubo 1991, despite the initially estimated modest injection of SO2. This study presents novel SO2 and sulfate aerosol (SA) co-retrievals from the Infrared Atmospheric Sounding Interferometer, and uses them to quantify the initial progression of the Hunga plume. These
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How Extreme Were Daily Global Temperatures in 2023 and Early 2024? Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-03 Julien Cattiaux, Aurélien Ribes, Enora Cariou
Global temperatures were exceptionally high in 2023/24. Every month from June 2023 to June 2024 set a new record, and September shattered the previous record by 0.5$0.5$°C. The 2023 annual average approached 1.5$1.5$°C above pre-industrial levels. This results from both long-term warming and internal variability, with the occurrence of an El Niño episode. However the amplitude of the 2023/24 anomalies
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Unwrap Intractable C-Band Coseismic Interferograms: An Improved SNAPHU Method With Range Offset Gradients as Prior Information J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-10-02 Kun Jiang, Wenbin Xu, Lei Xie
C-band Interferometric Synthetic Aperture Radar (InSAR) data are widely used to map coseismic deformation. However, phase unwrapping errors are commonly distributed near faults owing to decorrelation and steep phase gradients from short radar wavelengths. Here, we propose an improved SNAPHU phase-unwrapping algorithm that considers the prior information of the range offset gradients (P-SNAPHU) to overcome
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A Quantitative Comparison and Validation of Finite-Fault Models: The 2011 Tohoku-Oki Earthquake J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-10-02 Jeremy Wing Ching Wong, Wenyuan Fan, Alice-Agnes Gabriel
Large earthquakes rupture faults over hundreds of kilometers within minutes. Finite-fault models image these processes and provide observational constraints for understanding earthquake physics. However, finite-fault inversions are subject to non-uniqueness and uncertainties. The diverse range of published models for the well-recorded 2011 M w ${M}_{w}$ 9.0 Tohoku-Oki earthquake illustrates this challenge
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Morphology of Brine-Seawater Interface and Spatial Distribution of Submarine Groundwater Discharge Windows in the Muddy Coast Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 Yufeng Zhang, Zengbing Sun, Bingxiao Lei, Mingbo Li, Xiujun Guo, Tianyuan Zheng, Jian Luo
The brine-seawater interface (BSI) is a unique type of groundwater-seawater interface (GSI) characterized by the higher density of underground brine compared to seawater. This study focuses on characterizing the bay-scale BSI morphology and identifying submarine-groundwater discharge windows using a comprehensive in-situ geophysical detection on the south bank of Laizhou Bay. Our findings reveal that
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Crust and Mantle Flow From Central Tibetan Plateau to the Indo-Burma Subduction Zone J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-10-01 Prakash Timsina, Thomas M. Hearn, James F. Ni
The extremely oblique Indo-Burma subduction zone exhibits dextral strike-slip faulting along the Sagaing, Kabaw, and Churachandpur-Mao Faults as well as east-west shortening between the Sagaing Fault and Bengal Basin. Through regional stress analysis, considering areas from central Tibet, around the eastern Himalaya Syntaxis, to Burma, it has been determined that the principal compressive stress directions
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Large-Scale Extensional Strain in Southern Tibet From Sentinel-1 InSAR and GNSS Data Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 Han Chen, Chunyan Qu, Dezheng Zhao, Xinjian Shan, Chenglong Li, Luca Dal Zilio
In this study, we utilize C-band Sentinel-1 radar images from 2015 to 2022, combined with interseismic horizontal GNSS velocities, to construct large-scale, high-resolution, 3-D velocity and strain rate maps over a vast region of southern Tibet. We show the distribution of prevailing dilatational strain accumulation along the seven major rift zones. Using 2-D elastic dislocations invoking a two-fault
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Analysis of Orbital Sounding in Context With In-Situ Ground Penetrating Radar at Jezero Crater, Mars Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 M. C. Raguso, D. C. Nunes, E. S. Shoemaker, P. Russell, D. A. Paige, S.-E. Hamran
The RIMFAX ground-penetrating radar (GPR) on Mars2020 Perseverance Rover is the first GPR operated on the Martian surface since February 2021, searching for stratigraphy beneath the Jezero crater. During its operations, GPR detected several strong reflectors extending from the exposed section of the Séitah formation down to depths of 15 m, with derived relative permittivity of ∼9.0 consistent with
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The Sofu Seamount Submarine Volcano Present in the Source Area of the October 2023 Earthquakes and Tsunamis in Japan Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 Toshiya Fujiwara, Kentaro Imai, Masayuki Obayashi, Kenta Yoshida, Noriko Tada, Koichiro Obana, Gou Fujie, Shigeaki Ono, Shuichi Kodaira
On 8 October 2023 (UTC), unique earthquakes occurred in the Izu-Ogasawara Arc, Japan, in which the P- and S-phases were barely visible and only the T-phases were evident, followed by tsunamis that reached islands in the Izu-Ogasawara Arc and a wide area of the Pacific coast of southwest Japan. Our estimated T-phase source area coincides with the Sofu Seamount, which was previously unrecognized as an
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Improved Lifetime Model of Energetic Electrons Due to Their Interactions With Chorus Waves Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 Dedong Wang, Yuri Y. Shprits, Bernhard Haas, Alexander Y. Drozdov
Chorus waves induce both electron acceleration and loss. In this letter, we provide significantly improved models of electron lifetime due to interactions with chorus waves. The new models fill the gap that previous models have on some magnetic local time (MLT) sectors of the Earth's magnetosphere. This improvement is critical for modeling studies. The lifetime models developed using two different
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Inertia of Ionospheric Conductance During Electron Precipitation Events Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 George V. Khazanov, Suk-Bin Kang, Alex Glocer
Using the SuperThermal Electron Transport (STET) model coupled with the Super-thermal Proton Electron Atomic Hydrogen—tRansport in the Ionosphere and Thermosphere (SPEAH-RIT) codes, we demonstrate that temporal variability of ionospheric conductance is defined by several time scales: the temporal variations of the magnetospheric source, the start time of electron precipitation, and the termination
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Frozen Saline Sand Can Be Highly Permeable Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 Xiangbo Gao, Rongrong Tian, Yingbo Jiang, Zhenqi Guo, Liang Lei
Mass transport in frozen ground is typically regarded slow. However, a highly permeable path can exist in frozen saline sand if the unfrozen water is interconnected at the pore scale. We therefore should consider when the unfrozen water is connected and how permeable can frozen saline sand be, yet there are few studies. This research utilizes in-situ X-ray CT to evaluate unfrozen water connectivity
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Rapid Acidification of the Arctic Chukchi Sea Waters Driven by Anthropogenic Forcing and Biological Carbon Recycling Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 Di Qi, Yingxu Wu, Liqi Chen, Wei-Jun Cai, Shujie Yu, Zhangxian Ouyang, Yixing Zhang, Leif G. Anderson, Richard A. Feely, Yanpei Zhuang, Hongmei Lin, Ruibo Lei, Haibo Bi
The acidification of coastal waters is distinguished from the open ocean because of much stronger synergistic effects between anthropogenic forcing and local biogeochemical processes. However, ocean acidification research is still rather limited in polar coastal oceans. Here, we present a 16 year (2002–2018) observational dataset in the Chukchi Sea during the rapid sea-ice melting season to determine
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A Global Ocean Opal Ballasting–Silicate Relationship Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 B. B. Cael, C. Mark Moore, Joe Guest, Tereza Jarníková, Colleen B. Mouw, Chris Bowler, Edward Mawji, Stephanie A. Henson, Corinne Le Quéré
Opal and calcium carbonate are thought to regulate the biological pump's transfer of organic carbon to the deep ocean. A global sediment trap database exhibits large regional variations in the organic carbon flux associated with opal flux. These variations are well-explained by upper ocean silicate concentrations, with high opal ‘ballasting’ in the silicate-deplete tropical Atlantic Ocean, and low
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Latitudinal Mapping of Chorus Waves Growth Rates Based on Multi-Spacecraft Wave and Plasma Measurements Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 A. Voshchepynets, O. V. Agapitov, D. Mourenas, A. Artemyev, M. Hlebena, A. Bryla
Whistler mode chorus waves are one of the most intense and important electromagnetic emissions in the Earth's radiation belt, where these waves are responsible for electron acceleration to relativistic energies and for energetic electron precipitation into the Earth's atmosphere. This study reports a unique multi-spacecraft observation event that allowed for the first time to verify theoretical models
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Aircraft Observations Reveal the Relationship Between Cumulus Entrainment Rate and Aerosol Loading Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 Lei Zhu, Chunsong Lu, Jingyi Chen, Yuan Wang, Xin He, Junjun Li, Xianghua Wu, Shang Wu
The influence of entrainment, a key process characterized by the entrainment rate in cumulus parameterization, on aerosol-cloud interactions has been widely recognized. However, despite qualitative links established between entrainment and aerosol loading, a quantitative relationship based on observational evidence remains elusive. This study utilizes aircraft observations of cumulus clouds during
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First Detection of the Enigmatic Low Latitude 150-km Echoes in the UHF Band Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 Xinan Yue, Junyi Wang, Yonghui Wang, Yihui Cai, Feng Ding, Ning Zhang, Mingyuan Li, Baiqi Ning, Jorge Luis Chau
Through applying a 4-MHz linear frequency modulation waveform, which has high range resolution and signal intensity, we successfully detected for the first time the ionospheric 150-km echo enhancement at 430–450 MHz of the Ultra-High-Frequency (UHF) band using the newly built Sanya Incoherent Scatter Radar (SYISR). The obtained low signal enhancement (less than 0.5 dB) explains why previous UHF experiments
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Land-To-Sea Mapping of the Glacial Erosion Unconformity Reveals Evolution of the Jasmund Glacitectonic Complex East of Rügen Island (SW Baltic Sea) Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-10-01 B. Haimerl, E. Seidel, A. Gehrmann, J. Preine, M. C. Schmidt, C. Hübscher
Glacial movements shaped vast northern parts, offering critical insights into glacial dynamics in a changing climate. Located on the island of Rügen in NE Germany, the Jasmund Glacitectonic Complex (JGC) is a key area to study the dynamics of past glaciations. Previous reconstructions focused primarily on the onshore realm, resulting in some areas remaining unexplored. Here we use more than 140 high-resolution
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A New Ecosystem Model for Arctic Phytoplankton Phenology From Ice-Covered to Open-Water Periods: Implications for Future Sea Ice Retreat Scenarios Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 Jang-Geun Choi, Atsushi Matsuoka, Manfredi Manizza, Dustin Carroll, Stephanie Dutkiewicz, Thomas Lippmann
To predict ecosystem change in the Arctic Ocean, understanding Arctic phytoplankton phenology is essential. We develop a marine ecosystem model focusing on phytoplankton dynamics and the competition for multiple resources based on knowledge from in situ data obtained in the Chukchi Sea. The model is designed to include the unique ecological characteristics of the Arctic Ocean. To the best of our knowledge
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Volcanic Precursor Revealed by Machine Learning Offers New Eruption Forecasting Capability Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 Kaiwen Wang, Felix Waldhauser, Maya Tolstoy, David Schaff, Theresa Sawi, William S. D. Wilcock, Yen Joe Tan
Seismicity at active volcanoes provides crucial constraints on the dynamics of magma systems and complex fault activation processes preceding and during an eruption. We characterize time-dependent spectral features of volcanic earthquakes at Axial Seamount with unsupervised machine learning (ML) methods, revealing mixed frequency signals that rapidly increase in number about 15 hr before eruption onset
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Enhanced “Wind-Evaporation Effect” Drove the “Deep-Tropical Contraction” in the Early Eocene Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 Zikun Ren, Tianjun Zhou, Zhun Guo, Meng Zuo, Linqiang He, Xiaolong Chen, Lixia Zhang, Bo Wu, Wenmin Man
The equatorward contraction of tropical precipitation, commonly referred to as the “deep-tropical contraction”, is witnessed in the paleoclimate simulations of the early Eocene. However, the mechanism driving this contraction is still unclear. Based on the energetics framework of the Intertropical Convergence Zone (ITCZ) and the decomposition method of the latent heat flux along with the simulations
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The Intradecadal Periodic Signals in GPS Displacements and Their Possible Climate Change Influences Surv. Geophys. (IF 4.9) Pub Date : 2024-10-01 Hao Ding, WeiPing Jiang, Wei Luan, JianCheng Li, YuanJin Pan, Zhao Li
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Lost in Translation: The Need for Common Vocabularies and an Interoperable Thesaurus in Earth Observation Sciences Surv. Geophys. (IF 4.9) Pub Date : 2024-10-01 P. A. Strobl, E. R. Woolliams, K. Molch
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A Limited Effect of Continents on Subduction Initiation for Convection With Grain-Damage J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-09-29 H. Choi, B. J. Foley
Despite significant study, when and how plate tectonics initiated on Earth remains contentious. Geologic evidence from some of Earth's earliest cratons has been interpreted as reflecting the formation of initial continental blocks by non-subduction processes, which then trigger subduction initiation at their margins. Numerical models of mantle convection with a plastic yield stress rheology have shown
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Unstable Sliding of Plagioclase Gouge and Deformation Mechanisms Under Hydrothermal Conditions With Effective Normal Stresses of 100–300 MPa J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-09-29 Changrong He, Xi Ma, Shengnan Yao
Plagioclase feldspar is a major mineral in mafic crustal rocks. To better understand the deformation mechanism of plagioclase feldspar during frictional faulting, we conducted shearing experiments on simulated plagioclase gouge in a wide range of effective normal stress of 100–300 MPa, pore-water pressure of 30–100 MPa, and temperatures ranging from 100°C to 600°C. The coefficient of friction is found
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Rootzone Soil Moisture Dynamics Using Terrestrial Water-Energy Coupling Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-28 Vinit Sehgal, Binayak P. Mohanty, Rolf H. Reichle
A lack of high-density rootzone soil moisture (θRZ) observations limits the estimation of continental-scale, space-time contiguous θRZ dynamics. We derive a proxy of daily θRZ dynamics — active rootzone degree of saturation (SRZ) — by recursive low-pass (LP) filtering of surface soil moisture (θS) within a terrestrial water-energy coupling (WEC) framework. We estimate the LP filter parameters and WEC
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A Dynamic Smagorinsky Model for Horizontal Turbulence Parameterization in Tropical Cyclone Simulation Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-28 Xu Zhang, Qijun Huang, Yulong Ma
The horizontal turbulence parameterization is vital for the intensity and structure forecasting of tropical cyclone (TC) in numerical weather prediction (NWP) models. The default two-dimensional (2D) standard Smagorinsky model with a single universal constant in Weather and Research Forecasting (WRF) model has been proven to be over dissipative for TC, leading to underprediction of TC intensity. This
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Automatic Monitoring of Rock-Slope Failures Using Distributed Acoustic Sensing and Semi-Supervised Learning Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-28 Jiahui Kang, Fabian Walter, Patrick Paitz, Johannes Aichele, Pascal Edme, Lorenz Meier, Andreas Fichtner
Effective use of the wealth of information provided by Distributed Acoustic Sensing (DAS) for mass movement monitoring remains a challenge. We propose a semi-supervised neural network tailored to screen DAS data related to a series of rock collapses leading to a major failure of approximately 1.2 million m3${\mathrm{m}}^{3}$ on 15 June 2023 in Brienz, Eastern Switzerland. Besides DAS, the dataset from
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Cliff Notching Due To Swash Abrasion: Insights From Physical Experiments Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-28 Yaxiong Shen, Colin N. Whittaker, Mark E. Dickson
Notch development at the base of sea cliffs is an important control on cliff recession rates, but a detailed mechanistic understanding of notch formation by swash abrasion is lacking. We conducted physical experiments, using homogeneous erodible rock simulants, to study notch-forming mechanisms under periodic sediment-laden bore impacts. Our findings reveal shifts in the temporal dynamics of notch
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Observational Insights of Nearshore Wind Stress and Parameterizations From Gaussian Process Regressions Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-29 C. A. Benbow, J. H. MacMahan
The nearshore wind stress, u ∗ 2 ${u}_{\ast }^{2}$ , is examined using machine-learning models for air-ocean data collected via new flux buoys deployed across four experiments. Consistent with prior nearshore studies, existing open-ocean models predict nearshore u ∗ 2 ${u}_{\ast }^{2}$ with a large error of 0.0152 m2/s2. Gaussian Process Regression (GPR) for nearshore u ∗ BM 2 ${u}_{\ast \text{BM}}^{2}$
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Why Does Atmospheric Radiative Heating Weaken Midlatitude Cyclones? Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-30 Eric Mischell, Brian Soden, Bosong Zhang, Tsung-Lin Hsieh, Gabriel Vecchi
Recent work has indicated that atmospheric radiative heating reduces the kinetic energy of large-scale eddies in the midlatitudes. However, a physical mechanism that connects radiation to the midlatitude eddy kinetic energy is still uncertain. Using a high-resolution general circulation model we perform an experiment in which the radiative cooling profile at each model time step is overwritten with
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The Evolution of the Hunga Hydration in a Moistening Stratosphere Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-28 L. Millán, W. G. Read, M. L. Santee, A. Lambert, G. L. Manney, J. L. Neu, M. C. Pitts, F. Werner, N. J. Livesey, M. J. Schwartz
The 2022 Hunga eruption caused unprecedented stratospheric hydration. Aura Microwave Limb Sounder (MLS) measurements show that the stratospheric water vapor mass remains essentially unchanged as of early 2024 and that the Hunga hydration occurred atop a robust (possibly accelerating) moistening trend in the stratosphere. Enhanced by the excess Hunga water vapor, dehydration via polar stratospheric
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Nonstationarity of the Atlantic Meridional Overturning Circulation's Fingerprint on Sea Surface Temperature Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-28 Quinn Mackay, Yifei Fan, Kristopher B. Karnauskas, Laifang Li
Sea surface temperature (SST) has been increasing since industrialization with rising greenhouse gases. However, a warming hole exists in the North Atlantic where SST has cooled by 0.4 K/century during 1900–2017. It has been argued that this cooling is due to a slowdown of the Atlantic Meridional Overturning Circulation (AMOC), and subpolar North Atlantic SST has thus been utilized to estimate AMOC
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Multi-Scale Soil Salinization Dynamics From Global to Pore Scale: A Review Rev. Geophys. (IF 25.2) Pub Date : 2024-09-27 Nima Shokri, Amirhossein Hassani, Muhammad Sahimi
Soil salinization refers to the accumulation of water-soluble salts in the upper part of the soil profile. Excessive levels of soil salinity affects crop production, soil health, and ecosystem functioning. This phenomenon threatens agriculture, food security, soil stability, and fertility leading to land degradation and loss of essential soil ecosystem services that are fundamental to sustaining life
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Comparing Earthquake Cycles on Normal and Reverse Faults Based on Simulations With a Dynamic Elasto-Plastic Model J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-09-28 Guy Simpson
Shear stress levels on reverse faults are anticipated to be several times higher than on normal faults with the same pore pressure ratio. In addition, ruptures on normal faults release gravitational potential energy, whereas earthquakes on reverse faults expend work in uplifting rocks. In this study, I investigate the significance of these differences for earthquake cycles and I question whether the
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Rapid Ductile Strain Localization Due To Thermal Runaway J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-09-28 A. Spang, M. Thielmann, D. Kiss
Thermal runaway is a ductile localization mechanism that has been linked to deep-focus earthquakes and pseudotachylyte formation. In this study, we investigate the dynamics of this process using one-dimensional, numerical models of simple shear deformation. The models employ a visco-elastic rheology where viscous creep is accommodated with a composite rheology encompassing diffusion and dislocation
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Defining Hydrogeophysical Layers With Multi-Scale Geophysics for Increased Understanding of Mountain Basin Recharge J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-09-28 E. Smith, B. Carr
Basin aquifers are important groundwater sources in the Western United States that are increasingly stressed due to growing populations, increased resource use, and the impacts of climate change. These aquifers are mainly recharged through melting snowpack in the surrounding mountains that infiltrates to the water table and flows directly into the basin (Mountain Front Recharge), or through deeper
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Paleoseismology of the Northern Kongur Shan Extensional System, NE Pamir: Implications for Potential Irregular Earthquake Recurrence J. Geophys. Res. Solid Earth (IF 3.9) Pub Date : 2024-09-27 Jin Ge, Xuhua Shi, Hanlin Chen, Ray Weldon, Richard Walker, Tao Li, Huili Yang, Jie Chen, Feng Li, Xiaochun Wei, Xiao Yang, Zhuona Bai, Yuqing Zhang, Yuanhai Shu, Xin Liu, Yixi Yan
The intricate and changing stress conditions within complex fault networks pose challenges in understanding earthquake recurrence and seismic hazards. The Kongur Shan Extensional System (KSES) in the northeastern Pamir, characterized by complex fault geometries and potentially variable surface loads in its surroundings, offers an ideal research area. Here we investigate three paleoseismic sites in
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Are Parameterized Entrainment Rates as Scale-Dependent as Those Estimated From Cloud Resolving Model Simulations? Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-27 Yaxin Zhao, Xiaocong Wang, Yimin Liu, Guoxiong Wu
Entrainment rates at varying horizontal grid spacing were diagnosed and analyzed based on Large Eddy Model (LES) and Cloud Resolving Model (CRM) simulations of shallow and deep convection. Results show the estimated entrainment rates increase with increasing resolution, and the growth rate is roughly power-law related to resolution. However, all commonly used parameterizations except for the buoyancy
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Toward Comprehensive Understanding of Air-Sea Interactions Under Tropical Cyclones: On the Importance of High Resolution and Multi-Modal Observations Geophys. Res. Lett. (IF 4.6) Pub Date : 2024-09-27 Clément Combot, Alexis Mouche, Clément de Boyer Montegut, Bertrand Chapron
The three-dimensional structure of the Tropical Cyclone's baroclinic wake is synthesized as an averaged baroclinic-dominant response of the upper ocean. The resulting persisting sea surface depression can easily be monitored using the present-day altimeter constellation. Following a semi-empirical framework, these baroclinic wake signatures are linked to the inner core TC dynamic and the ocean stratification