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Título de Acceso Abierto

Geophysical Research Letters

Resumen/Descripción – provisto por la editorial en inglés
Publishes high-impact, innovative, and timely communications-length articles on major advances spanning all of the major geoscience disciplines.
Palabras clave – provistas por la editorial

encias de la tierra (general) u2013 Geociencias; Geología; Geofísi

Disponibilidad
Institución detectada Período Navegá Descargá Solicitá
No requiere desde ene. 1974 / hasta nov. 2024 Wiley Online Library acceso abierto
open-access-logo  Esta publicación es de Acceso Abierto y no aplica cargos a los/as autores/as.

Información

Tipo de recurso:

revistas

ISSN impreso

0094-8276

ISSN electrónico

1944-8007

Editor responsable

American Geophysical Union (AGU)

País de edición

Estados Unidos

Fecha de publicación

Información sobre derechos de publicación

© 2021 American Geophysical Union

Tabla de contenidos

Phase‐Locked Rossby Wave‐4 Pattern Dominates the 2022‐Like Concurrent Heat Extremes Across the Northern Hemisphere

Xiaoye YangORCID; Gang ZengORCID; Shiyue Zhang; Vedaste IyakaremyeORCID; Cheng ShenORCID; Wei‐Chyung WangORCID; Deliang ChenORCID

<jats:title>Abstract</jats:title><jats:p>Concurrent heat extremes (CHEs) are becoming increasingly common in the mid‐high latitudes across the Northern Hemisphere (NH), underscoring the need to comprehend their spatiotemporal characteristics and underlying causes. Here we reveal a phase‐locking behavior in Wave‐4 pattern, particularly after mid‐1990s, giving rise to a prominent CHE mode akin to heat extreme pattern observed in 2022, which swept most NH regions. Wave‐4 pattern significantly amplifies the likelihood of CHEs in Eastern Europe (∼30%), Northeast Asia (∼25%), and northwestern coast of North America (∼15%), while reducing the likelihood in central North America and northern Central Asia. During 1979–2022, the identified pattern accounted for over 69.7% of the trends in heat extremes over the mid‐high latitudes of the NH, directly exposing approximately 333.5 million people to heat extremes. Observations and simulations indicate that radiation anomalies over Eastern European Plain and West Siberian Plain play pivotal roles as primary forcing sources for Wave‐4 pattern.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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Multidecadal Variations in the Tropical Western Pacific Driven by Externally‐Forced AMV‐Like Changes

Minhua QinORCID; Renhe ZhangORCID; Aiguo DaiORCID; Wenjian HuaORCID

<jats:title>Abstract</jats:title><jats:p>Multidecadal sea surface temperature (SST) variations in the tropical western Pacific (TWP) have been attributed to nonlinear external forcing and remote influences from the Atlantic Multidecadal Variability (AMV). However, the AMV resulted from both internal variability (IV) and external forcing. Thus, the origins of the TWP SST variations are not well understood. By analyzing observations and model simulations, we show that more than half of the decadal to multidecadal SST variations in TWP during 1920–2020 resulted from external forcing with the forced component correlated with AMV, while the internal component is unrelated to AMV. Furthermore, about 43%–49% of the forced AMV‐like SST variations in TWP result from remote influences of the forced AMV in the Atlantic via atmospheric teleconnection over the North Pacific, with the rest from other remote or local processes.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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Considerable Uncertainty of Simulated Arctic Temperature Change in the Mid‐Holocene Due To Initial Ocean Perturbation

Jian ShiORCID; Gerrit LohmannORCID

<jats:title>Abstract</jats:title><jats:p>Arctic temperature is one of the most uncertain aspects of mid‐Holocene (MH) climate change modeling, usually attributed to the different responses of different models to external forcing. However, in this study, we find that significant discrepancies (i.e., the noise is close to the signal in term of climate change) in the MH Arctic temperature changes can occur within the same model and for identical external forcing due to initial ocean condition perturbations. It is shown that initial ocean perturbations can affect the surface energy budget change through the uncertain cloud effect on shortwave radiation in boreal summer. The resulted uncertain change in summer surface heat flux alters the subsequent autumn and winter sea ice and contributes to significant differences in Arctic temperature via sea ice‐albedo feedback. This study suggests that internal uncertainty of an individual model is a non‐negligible source of overall uncertainty in simulating the MH Arctic temperature change.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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The Effect of Intracrystalline Water on the Mechanical Properties of Olivine at Room Temperature

Kathryn M. KumamotoORCID; Lars N. HansenORCID; Thomas BreithauptORCID; David WallisORCID; Bo‐Shiuan Li; David E. J. ArmstrongORCID; David L. GoldsbyORCID; Yang (Will) Li; Jessica M. WarrenORCID; Angus J. WilkinsonORCID

<jats:title>Abstract</jats:title><jats:p>The effect of small concentrations of intracrystalline water on the strength of olivine is significant at asthenospheric temperatures but is poorly constrained at lower temperatures applicable to the shallow lithosphere. We examined the effect of water on the yield stress of olivine during low‐temperature plasticity using room‐temperature Berkovich nanoindentation. The presence of water in olivine (1,600 ppm H/Si) does not affect hardness or yield stress relative to dry olivine (≤40 ppm H/Si) outside of uncertainty but may slightly reduce Young’s modulus. Differences between water‐bearing and dry crystals in similar orientations were minor compared to differences between dry crystals in different orientations. These observations suggest water content does not affect the strength of olivine at low homologous temperatures. Thus, intracrystalline water does not play a role in olivine deformation at these temperatures, implying that water does not lead to weakening in the coldest portions of the mantle.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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The Current Tension Electric Field in the Generalized Ohm's Law

Lei LuoORCID; Xiaojun XuORCID; Liangjin SongORCID; Meng ZhouORCID; Zilu ZhouORCID; Hengyan Man; Xing Wang; Yu Zhang; Peishan HeORCID; Siqi Yi; Hui LiORCID

<jats:title>Abstract</jats:title><jats:p>In the prevailing form of the generalized Ohm's law (GOL), is often neglected. Because of the resemblance to the magnetic tension, we refer to this term as the current tension electric field (<jats:bold><jats:italic>E</jats:italic></jats:bold><jats:sub>CT</jats:sub>). Our theoretical analysis reveals that <jats:bold><jats:italic>E</jats:italic></jats:bold><jats:sub>CT</jats:sub> with a characteristic length of dominates the electron inertia terms in the electron diffusion region (EDR) and is comparable to the electron pressure term in low‐<jats:italic>β</jats:italic><jats:sub><jats:italic>e</jats:italic></jats:sub> conditions. Using particle‐in‐cell simulations, we demonstrate that <jats:bold><jats:italic>E</jats:italic></jats:bold><jats:sub>CT</jats:sub> can contribute significantly to the reconnection electric field and energy dissipation at the boundaries of the inner EDR and in the outer EDR. Positive and negative <jats:bold><jats:italic>J</jats:italic></jats:bold> ⋅ <jats:bold><jats:italic>E</jats:italic></jats:bold><jats:sub>CT</jats:sub> can be used to identify inner and outer electron diffusion regions, respectively.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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Basin‐Wide Shift in Bowhead Whale Migration in the Pacific Arctic

Angela R. SzesciorkaORCID; Kathleen M. StaffordORCID; Catherine L. Berchok

<jats:title>Abstract</jats:title><jats:p>In a rapidly changing Arctic, multiple lines of evidence suggest that bowhead whale migration is changing. To explore these changes further, we used passive acoustic data to examine bowhead whale presence in the western Beaufort Sea (12 years) and Chukchi Plateau (11 years) spanning 2008 to 2022. Departure from the western Beaufort Sea shifted 45 days later over the 12‐year period. Summer presence increased at both sites, suggesting feeding areas within the Chukchi Sea are becoming more favorable. Likewise, findings from the Bering Strait suggest that some whales are remaining north of the Bering Strait for the winter instead of in the Bering Sea. These Pacific Arctic‐wide changes to migration have occurred over only one decade. Questions remain about prey availability in the Chukchi Sea, implications of migratory changes, such as a northward shift in the core overwintering area, and impact to communities south of the Bering Strait.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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The Surface Water and Ocean Topography Mission: A Breakthrough in Radar Remote Sensing of the Ocean and Land Surface Water

Lee‐Lueng FuORCID; Tamlin PavelskyORCID; Jean‐Francois Cretaux; Rosemary MorrowORCID; J. Thomas FarrarORCID; Parag Vaze; Pierre Sengenes; Nadya Vinogradova‐Shiffer; Annick Sylvestre‐Baron; Nicolas PicotORCID; Gerald DibarboureORCID

<jats:title>Abstract</jats:title><jats:p>The elevations of water surfaces hold important information on the earth's oceans and land surface waters. Ocean sea surface height is related to the internal change of the ocean's density and mass associated with ocean circulation and its response to climate change. The flow rates of rivers and volume changes of lakes are crucial to freshwater supplies and the hazards of floods and drought resulting from extreme weather and climate events. The Surface Water and Ocean Topography (SWOT) Mission is a new satellite using advanced radar technology to make headway in observing the variability of the elevation of water surfaces globally, providing fundamentally new information previously not available to the study of earth's waters. Here, we provide the first results of SWOT over oceans, rivers, and lakes. We demonstrate the potential of the mission to address science questions in oceanography and hydrology.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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Isopycnal Submesoscale Stirring Crucially Sustaining Subsurface Chlorophyll Maximum in Ocean Cyclonic Eddies

Haijin CaoORCID; Mara FreilichORCID; Xiangzhou Song; Zhiyou JingORCID; Baylor Fox‐KemperORCID; Bo QiuORCID; Robert D. HetlandORCID; Fei Chai; Simón RuizORCID; Dake ChenORCID

<jats:title>Abstract</jats:title><jats:p>Mesoscale and submesoscale processes have crucial impacts on ocean biogeochemistry, importantly enhancing the primary production in nutrient‐deficient ocean regions. Yet, the intricate biophysical interplay still holds mysteries. Using targeted high‐resolution in situ observations in the South China Sea, we reveal that isopycnal submesoscale stirring serves as the primary driver of vertical nutrient transport to sustain the dome‐shaped subsurface chlorophyll maximum (SCM) within a long‐lived cyclonic mesoscale eddy. Density surface doming at the eddy core increased light exposure for phytoplankton production, while along‐isopycnal submesoscale stirring disrupted the mesoscale coherence and drove significant vertical exchange of tracers. These physical processes play a crucial role in maintaining the elevated phytoplankton biomass in the eddy core. Our findings shed light on the universal mechanism of how mesoscale and submesoscale coupling enhances primary production in ocean cyclonic eddies, highlighting the pivotal role of submesoscale stirring in structuring marine ecosystems.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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Paleoproterozoic Reworking of Archean Crust and Extreme Back‐Arc Metamorphism in the Enigmatic Southern Trans‐Hudson Orogen

Ian W. HillenbrandORCID; Amy K. GilmerORCID; Michael L. WilliamsORCID; A. Kate SoudersORCID; Michael J. Jercinovic; Heather A. LowersORCID; Jorge A. VazquezORCID

<jats:title>Abstract</jats:title><jats:p>The crustal evolution of the southernmost ∼2000–1800 Ma Trans‐Hudson orogen (THO) is enigmatic due to burial by Phanerozoic sediments. We provide new insights through petrochronologic analysis of a paragneiss drill core sample. Detrital zircon age peaks at 2625, 2340, and 1880 Ma and Hf isotopes suggest Paleoproterozoic arc development proximal to Archean source(s). Phase equilibria modeling and ternary feldspar thermometry suggest peak conditions of ≥1 GPa, ≥900°C, the first recognition of extreme, ultra‐high temperature metamorphism in the THO. The largely isobaric P‐T path, rapid heating rate, and ∼20 Myr duration (1872–1850 Ma) of peak conditions suggest that this metamorphism occurred in a back‐arc tectonic setting. The sample records post‐peak (1850–1815 Ma) mid‐crustal residence, slow cooling, and exhumation. Further retrogression occurred during Proterozoic regional exhumation (1630–1470 Ma) and Phanerozoic (360–220 Ma) reheating and/or fluid influx. Evidence for Paleoproterozoic arc(s) supports geophysical data for Archean cratonic and Paleoproterozoic arc crust in this region.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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Unveiling the Global Extent of Land Subsidence: The Sinking Crisis

Tsimur Davydzenka; Pejman TahmasebiORCID; Nima ShokriORCID

<jats:title>Abstract</jats:title><jats:p>Land subsidence, referring to the vertical sinking of land surface, is a significant geohazard posing serious risks to security of infrastructure, natural resources, built environment, and businesses in numerous places worldwide. Using deep learning approaches combined with more than 46,000 subsidence data, we predicted global land subsidence based on 23 environmental parameters. The generated global map of land subsidence covers historically documented and new subsiding areas. We estimate that more than 6.3 million square kilometers of the global land is influenced by significant subsidence rates. That includes 231,000 square kilometers of urban and dense settlement areas and a population of nearly 2 billion. The model revealed a positive correlation between the intensity of groundwater abstraction and the subsidence rate. Our results offer new insights regarding potential hotspots of land subsidence and provide the information required to devise necessary action plans and develop effective policies to mitigate this growing challenge worldwide.</jats:p>

Palabras clave: General Earth and Planetary Sciences; Geophysics.

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