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  Subjects -> METEOROLOGY (Total: 106 journals)
Showing 1 - 36 of 36 Journals sorted by number of followers
Journal of Atmospheric and Solar-Terrestrial Physics     Hybrid Journal   (Followers: 164)
Nature Climate Change     Full-text available via subscription   (Followers: 151)
Journal of the Atmospheric Sciences     Hybrid Journal   (Followers: 80)
Atmospheric Environment     Hybrid Journal   (Followers: 72)
Atmospheric Research     Hybrid Journal   (Followers: 72)
Climatic Change     Open Access   (Followers: 71)
Bulletin of the American Meteorological Society     Open Access   (Followers: 62)
Advances in Climate Change Research     Open Access   (Followers: 59)
Climate Policy     Hybrid Journal   (Followers: 56)
Journal of Climate     Hybrid Journal   (Followers: 55)
Climate Change Economics     Hybrid Journal   (Followers: 50)
Climate Dynamics     Hybrid Journal   (Followers: 44)
Atmospheric Chemistry and Physics (ACP)     Open Access   (Followers: 43)
Advances in Atmospheric Sciences     Hybrid Journal   (Followers: 43)
Journal of Applied Meteorology and Climatology     Hybrid Journal   (Followers: 42)
Weather and Forecasting     Hybrid Journal   (Followers: 42)
American Journal of Climate Change     Open Access   (Followers: 41)
Atmospheric Science Letters     Open Access   (Followers: 40)
Nature Reports Climate Change     Full-text available via subscription   (Followers: 39)
Journal of Hydrology and Meteorology     Open Access   (Followers: 39)
International Journal of Climate Change Strategies and Management     Hybrid Journal   (Followers: 33)
Atmosphere     Open Access   (Followers: 33)
Journal of Atmospheric and Oceanic Technology     Hybrid Journal   (Followers: 33)
The Quarterly Journal of the Royal Meteorological Society     Hybrid Journal   (Followers: 31)
Journal of Space Weather and Space Climate     Open Access   (Followers: 30)
Boundary-Layer Meteorology     Hybrid Journal   (Followers: 29)
Monthly Weather Review     Hybrid Journal   (Followers: 29)
Climate Resilience and Sustainability     Open Access   (Followers: 29)
Meteorology and Atmospheric Physics     Hybrid Journal   (Followers: 28)
International Journal of Climatology     Hybrid Journal   (Followers: 28)
Climate Change Responses     Open Access   (Followers: 27)
Space Weather     Full-text available via subscription   (Followers: 27)
Energy & Environment     Hybrid Journal   (Followers: 26)
Journal of Climate Change     Full-text available via subscription   (Followers: 25)
International Journal of Environment and Climate Change     Open Access   (Followers: 24)
International Journal of Atmospheric Sciences     Open Access   (Followers: 24)
Environmental Dynamics and Global Climate Change     Open Access   (Followers: 24)
Advances in Meteorology     Open Access   (Followers: 23)
Journal of Atmospheric Chemistry     Hybrid Journal   (Followers: 23)
Current Climate Change Reports     Hybrid Journal   (Followers: 22)
Tellus A     Open Access   (Followers: 21)
Tellus B     Open Access   (Followers: 20)
Agricultural and Forest Meteorology     Hybrid Journal   (Followers: 20)
Journal of Meteorology and Climate Science     Full-text available via subscription   (Followers: 19)
Journal of Economic Literature     Hybrid Journal   (Followers: 19)
Weatherwise     Hybrid Journal   (Followers: 18)
Dynamics of Atmospheres and Oceans     Hybrid Journal   (Followers: 18)
Global Meteorology     Open Access   (Followers: 17)
Economics of Disasters and Climate Change     Hybrid Journal   (Followers: 17)
Weather and Climate Extremes     Open Access   (Followers: 17)
Atmosphere-Ocean     Full-text available via subscription   (Followers: 15)
Atmospheric Chemistry and Physics Discussions (ACPD)     Open Access   (Followers: 14)
Theoretical and Applied Climatology     Hybrid Journal   (Followers: 13)
Monthly Notices of the Royal Astronomical Society     Hybrid Journal   (Followers: 13)
Climate Risk Management     Open Access   (Followers: 12)
Advances in Statistical Climatology, Meteorology and Oceanography     Open Access   (Followers: 11)
Atmospheric and Oceanic Science Letters     Open Access   (Followers: 10)
Journal of Hydrometeorology     Hybrid Journal   (Followers: 9)
Climate Research     Hybrid Journal   (Followers: 8)
The Cryosphere (TC)     Open Access   (Followers: 8)
Climate and Energy     Full-text available via subscription   (Followers: 7)
Journal of the Meteorological Society of Japan     Partially Free   (Followers: 7)
Oxford Open Climate Change     Open Access   (Followers: 7)
Climate of the Past (CP)     Open Access   (Followers: 7)
Aeolian Research     Hybrid Journal   (Followers: 7)
Climate     Open Access   (Followers: 6)
Climate Law     Hybrid Journal   (Followers: 6)
Journal of Climate Change and Health     Open Access   (Followers: 6)
Carbon Balance and Management     Open Access   (Followers: 6)
Dynamics and Statistics of the Climate System     Open Access   (Followers: 6)
Bulletin of Atmospheric Science and Technology     Hybrid Journal   (Followers: 6)
Open Journal of Modern Hydrology     Open Access   (Followers: 5)
Open Atmospheric Science Journal     Open Access   (Followers: 5)
Climate Services     Open Access   (Followers: 4)
Frontiers in Climate     Open Access   (Followers: 4)
Meteorological Applications     Open Access   (Followers: 4)
Journal of Integrative Environmental Sciences     Hybrid Journal   (Followers: 4)
Urban Climate     Hybrid Journal   (Followers: 4)
npj Climate and Atmospheric Science     Open Access   (Followers: 4)
Meteorologische Zeitschrift     Full-text available via subscription   (Followers: 4)
Acta Meteorologica Sinica     Hybrid Journal   (Followers: 4)
Russian Meteorology and Hydrology     Hybrid Journal   (Followers: 3)
Journal of Weather Modification     Full-text available via subscription   (Followers: 3)
Journal of Meteorological Research     Full-text available via subscription   (Followers: 3)
International Journal of Image and Data Fusion     Hybrid Journal   (Followers: 3)
International Journal of Biometeorology     Hybrid Journal   (Followers: 3)
Journal of Climatology     Open Access   (Followers: 3)
Environmental and Climate Technologies     Open Access   (Followers: 3)
Atmospheric Environment : X     Open Access   (Followers: 3)
GeoHazards     Open Access   (Followers: 2)
Atmósfera     Open Access   (Followers: 2)
Mediterranean Marine Science     Open Access   (Followers: 2)
Meteorologica     Open Access   (Followers: 2)
气候与环境研究     Full-text available via subscription   (Followers: 2)
Nīvār     Open Access   (Followers: 1)
Weather and Climate Dynamics     Open Access   (Followers: 1)
Modeling Earth Systems and Environment     Hybrid Journal   (Followers: 1)
Studia Geophysica et Geodaetica     Hybrid Journal   (Followers: 1)
Climate of the Past Discussions (CPD)     Open Access   (Followers: 1)
Revista Iberoamericana de Bioeconomía y Cambio Climático     Open Access   (Followers: 1)
Tropical Cyclone Research and Review     Open Access   (Followers: 1)
Ciencia, Ambiente y Clima     Open Access   (Followers: 1)
Earth Perspectives - Transdisciplinarity Enabled     Open Access   (Followers: 1)
Michigan Journal of Sustainability     Open Access   (Followers: 1)
Meteorological Monographs     Hybrid Journal   (Followers: 1)
Journal of Agricultural Meteorology     Open Access  
Mètode Science Studies Journal : Annual Review     Open Access  

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GeoHazards
Number of Followers: 2  

  This is an Open Access Journal Open Access journal
ISSN (Online) 2624-795X
Published by MDPI Homepage  [84 journals]
  • GeoHazards, Vol. 3, Pages 371-394: Analysis of Faster-Than-Real-Time
           (FTRT) Tsunami Simulations for the Spanish Tsunami Warning System for the
           Atlantic

    • Authors: Beatriz Gaite, Jorge Macías, Juan Vicente Cantavella, Carlos Sánchez-Linares, Carlos González, Luis Carlos Puertas
      First page: 371
      Abstract: Real-time local tsunami warnings embody uncertainty from unknowns in the source definition within the first minutes after the tsunami generates. In general, Tsunami Warning Systems (TWS) provide a quick estimate for tsunami action from deterministic simulations of a single event. In this study, variability in tsunami source parameters has been included by running 135 tsunami simulations; besides this, four different computational domains in the northeastern Atlantic ocean have been considered, resulting in 540 simulations associated with a single event. This was done for tsunamis generated by earthquakes in the Gulf of Cadiz with impact in the western Iberian peninsula and the Canary Islands. A first answer is provided after one minute, and 7 min are required to perform all the simulations in the four computational domains. The fast computation allows alert levels all along the coast to be incorporated into the Spanish National Tsunami Early Warning System. The main findings are that the use of a set of scenarios that account for the uncertainty in source parameters can produce higher tsunami warnings in certain coastal areas than those obtained from a single deterministic reference scenario. Therefore, this work shows that considering uncertainties in tsunami source parameters helps to avoid possible tsunami warning level underestimations. Furthermore, this study demonstrates that this is possible to do in real time in an actual TWS with the use of high-performance computing resources.
      Citation: GeoHazards
      PubDate: 2022-07-01
      DOI: 10.3390/geohazards3030019
      Issue No: Vol. 3, No. 3 (2022)
       
  • GeoHazards, Vol. 3, Pages 395-411: Conceptual and Analytical Framework as
           Flood Risk Mapping Subsidy

    • Authors: Larissa Ferreira D. R. Batista, Alfredo Ribeiro Neto
      First page: 395
      Abstract: There are still gaps in defining values and category classifications of exposed items in quantitative damage analysis. This paper proposes a framework that refines the development of flood risk analysis at a local scale. This study first performs a quantitative risk analysis, based mainly on secondary data; it then attempts to communicate the results graphically, aiming to reduce the financial and human resources required. We propose an easily standardized database in a GIS environment, analyzing the influence of a reservoir for flood control and the construction of replicable local-scale risk curves. Hydrological (HEC-HMS) and 2D hydrodynamic (HEC-RAS) models were used to simulate hydrographs considering different return periods. For damage estimation, the processing included vectorization of lots, building use definition with Google Street View, classification of standard designs, and a field survey to validate those classes. In monetary value, this study calculated the effect of the construction of a reservoir for damage reduction, showing the potential to determine the effectiveness of measures adopted to mitigate flood impacts. In addition, for each simulated return period, exposure, hazard, and damage maps can be established, making it possible to perform a complete risk analysis.
      Citation: GeoHazards
      PubDate: 2022-07-27
      DOI: 10.3390/geohazards3030020
      Issue No: Vol. 3, No. 3 (2022)
       
  • GeoHazards, Vol. 3, Pages 412-427: Determinants of Displacement and
           Displacement Duration Following Hurricanes Katrina and Rita: A Hurdle
           Model Approach

    • Authors: James I. Price, Alok K. Bohara, Wendy L. Hansen
      First page: 412
      Abstract: In 2005, Hurricanes Katrina and Rita caused widespread destruction and displacement in parts of Louisiana, Alabama, and Mississippi. This research evaluates determinants of displacement and, conditional on being displaced, the duration of displacement for households living in areas affected by these hurricanes. Hurdle Models, which assume that different processes govern zero outcomes (i.e., no displacement) and positive outcomes (i.e., amount of time displaced), are used to model the likelihood of household displacement and its duration as a function of socioeconomic characteristics, hurricane-caused property and neighborhood damage, social support, and financial assistance. Results show that mobile home residence, marital status, educational attainment, the presence of children, and property and neighborhood damage affect the likelihood and expected length of displacement among sample respondents. Financial assistance and social support are also correlated with displacement and its duration, but endogeneity concerns complicate the interpretation of these results. The findings highlight the diversity of factors that slow households’ return following displacement and underscore the need for additional research on the role of social capital in determining hazard-related outcomes.
      Citation: GeoHazards
      PubDate: 2022-08-11
      DOI: 10.3390/geohazards3030021
      Issue No: Vol. 3, No. 3 (2022)
       
  • GeoHazards, Vol. 3, Pages 428-451: Comparing Root Cohesion Estimates from
           Three Models at a Shallow Landslide in the Oregon Coast Range

    • Authors: Collin Cronkite-Ratcliff, Kevin M. Schmidt, Charlotte Wirion
      First page: 428
      Abstract: Although accurate root cohesion model estimates are essential to quantify the effect of vegetation roots on shallow slope stability, few means exist to independently validate such model outputs. One validation approach for cohesion estimates is back-calculation of apparent root cohesion at a landslide site with well-documented failure conditions. The catchment named CB1, near Coos Bay, Oregon, USA, which experienced a shallow landslide in 1996, is a prime locality for cohesion model validation, as an abundance of data and observations from the site generated broad insights related to hillslope hydrology and slope stability. However, previously published root cohesion values at CB1 used the Wu and Waldron model (WWM), which assumes simultaneous root failure and therefore likely overestimates root cohesion. Reassessing published cohesion estimates from this site is warranted, as more recently developed models include the fiber bundle model (FBM), which simulates progressive failure with load redistribution, and the root bundle model-Weibull (RBMw), which accounts for differential strain loading. We applied the WWM, FBM, and RBMw at CB1 using post-failure root data from five vegetation species. At CB1, the FBM and RBMw predict values that are less than 30% of the WWM-estimated values. All three models show that root cohesion has substantial spatial heterogeneity. Most parts of the landslide scarp have little root cohesion, with areas of high cohesion concentrated near plant roots. These findings underscore the importance of using physically realistic models and considering lateral and vertical spatial heterogeneity of root cohesion in shallow landslide initiation and provide a necessary step towards independently assessing root cohesion model validity.
      Citation: GeoHazards
      PubDate: 2022-09-01
      DOI: 10.3390/geohazards3030022
      Issue No: Vol. 3, No. 3 (2022)
       
  • GeoHazards, Vol. 3, Pages 144-161: A Non-Signalized Junction Model for
           Agent-Based Simulations of Car–Pedestrian Mode Mass Evacuations

    • Authors: Maddegedara Lalith, Wasuwat Petprakob, Muneo Hori, Tsuyoshi Ichimura, Kohei Fujita
      First page: 144
      Abstract: During major disasters, such as a subduction earthquake and the associated tsunami, combinations of uncommon conditions such as non-functioning traffic signals, a large number of pedestrians on traffic lanes, and debris scattered on roads can be widespread. It is vital to take these uncommon conditions into account since they can significantly influence the evacuation progress. Agent-Based Models (ABMs) with capabilities to reproduce evacuees’ behaviors as emergent phenomena is promising method to simulate combinations of such rare conditions. This paper presents a new model to cover the current research gap in accurately modeling car–car and car–pedestrian interactions at non-signalized junctions. Specifically, the details of accurately approximating car trajectories at junctions and automated construction, approximating free-flow speed of cars along curved trajectories, and accurately calculating the points of collision and time to collision are presented. As a demonstrative application, we simulated a hypothetical evacuation scenario with non-functioning traffic signals in which different numbers of slow evacuees are allowed to use cars. While the ABM is yet to be thoroughly validated, the presented demonstrative scenarios indicates that a considerable number of the needy can be allowed to use cars for evacuation if their routes and evacuation start time window are well planned.
      Citation: GeoHazards
      PubDate: 2022-03-30
      DOI: 10.3390/geohazards3020008
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 162-177: Impact of Ambiguity of Physical
           Properties of Three-Dimensional Crustal Structure Model on Coseismic Slip
           and Interseismic Slip Deficit in the Nankai Trough Region

    • Authors: Sota Murakami, Tsuyoshi Ichimura, Kohei Fujita, Takane Hori, Yusaku Ohta
      First page: 162
      Abstract: Since huge earthquakes are expected along plate subduction zones such as the Japan Trench and Nankai Trough, the estimation of coseismic slip and interseismic slip deficit is essential for immediate response and preliminary measures to reduce damage. Recently, analysis considering the complex topography and underground structure of the plate subduction zone has been performed for improving the estimation performance. However, the three-dimensional (3D) crustal structural model needs to be improved continuously. In this paper, we obtained Green’s functions for 3D crustal structural models with ambiguity by 3D crustal deformation analysis, and the coseismic slip and interseismic slip deficit were estimated. Here we enabled the calculation of many Green’s functions with different physical properties of the 3D crustal structure by utilizing a GPU-based 3D crustal deformation analysis method that significantly reduces the analysis cost. The physical properties on the upper plate’s side, which are located above the plate boundary fault, were changed. We found no significant difference in the estimation performance, except for the upper crust, which most of the fault slip area is in contact with, in the case of coseismic slip estimation. In contrast, the coseismic slip estimation when the properties of the upper crust was changed had a significant error, and a negative slip was estimated at the deep part of the plate boundary where no slip was originally given.
      Citation: GeoHazards
      PubDate: 2022-04-06
      DOI: 10.3390/geohazards3020009
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 178-198: Modelling the Roles of Community-Based
           Organisations in Post-Disaster Transformative Adaptation

    • Authors: Oluwadunsin Ajulo, Ishmael Adams, Ali Asgary, Patrick Tang, Jason Von-Meding
      First page: 178
      Abstract: Disasters result where hazards and vulnerabilities intersect. The concept of vulnerability itself is mainly a social construct and the extent to which this can be overcome while transforming disaster-prone systems has often been emphasised in the critical hazard literature. However, the extent to which community-based organisations contribute to post-disaster transformation at the community level remains unexamined. This paper is aimed at examining the extent of the role of community-based organisations (CBOs) in the transformative adaptation of post-earthquake Lyttelton. Quantitative data was obtained from community members using a questionnaire survey of 107 respondents, supporting interviews, and secondary data to explain the phenomenon in this study. System dynamics and agent-based modelling tools were applied to analyse the data. The results show that while CBOs played a major role in Lyttelton’s transformation by fostering collaboration, innovation, and awareness, the extent of their impact was determined by differences in their adaptive capacities. The transformation was influenced by the impacts of community initiatives that were immediate, during, and a long time after the disaster recovery activities in the community. Our research extends the discourse on the role of community-based organisations in disaster recovery by highlighting the extent of CBOs’ impacts in community post-disaster transformation.
      Citation: GeoHazards
      PubDate: 2022-04-11
      DOI: 10.3390/geohazards3020010
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 199-226: Earthquake Nowcasting with Deep
           Learning

    • Authors: Geoffrey Charles Fox, John B. Rundle, Andrea Donnellan, Bo Feng
      First page: 199
      Abstract: We review previous approaches to nowcasting earthquakes and introduce new approaches based on deep learning using three distinct models based on recurrent neural networks and transformers. We discuss different choices for observables and measures presenting promising initial results for a region of Southern California from 1950–2020. Earthquake activity is predicted as a function of 0.1-degree spatial bins for time periods varying from two weeks to four years. The overall quality is measured by the Nash Sutcliffe efficiency comparing the deviation of nowcast and observation with the variance over time in each spatial region. The software is available as open source together with the preprocessed data from the USGS.
      Citation: GeoHazards
      PubDate: 2022-04-15
      DOI: 10.3390/geohazards3020011
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 227-241: Correlation Dimension in Sumatra Island
           Based on Active Fault, Earthquake Data, and Estimated Horizontal Crustal
           Strain to Evaluate Seismic Hazard Functions (SHF)

    • Authors: Wahyu Triyoso, David P. Sahara, Dina A. Sarsito, Danny H. Natawidjaja, Sigit Sukmono
      First page: 227
      Abstract: This study intends to evaluate the possible correlation between the correlation dimension (DC) and the seismic moment rate for different late Quaternary active fault data, shallow crustal earthquakes, and GPS on the island of Sumatra Probabilistic Seismic Hazard Analysis (PSHA). The seismicity smoothing was applied to estimate the DC of active faults (DF) and earthquake data (DE) and then to correlate that with the b-value, which will be used to identify seismic hazard functions (SHF) along with the Sumatra Fault Zone (SFZ). The seismicity based on GPS data was calculated by the seismic moment rate that is estimated based on pre-seismic horizontal surface displacement data. The correlation between DF, DE, and the b-value was analyzed, and a reasonable correlation between the two seismotectonic parameters, DF-b, and DE-b, respectively, could be found. The relatively high DC coincides with the high seismic moment rate model derived from the pre-seismic GPS data. Furthermore, the SHF curve of total probability of exceedance versus the mean of each observation point’s peak ground acceleration (PGA) shows that the relatively high correlation dimension coincides with the high SHF. The results of this study might be very beneficial for seismic mitigation in the future.
      Citation: GeoHazards
      PubDate: 2022-04-22
      DOI: 10.3390/geohazards3020012
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 242-251: Construction and Usefulness
           Verification of Modeling Method of Subsurface Soil Layers for Numerical
           Analysis of Urban Area Ground Motion

    • Authors: Hiroki Motoyama, Muneo Hori
      First page: 242
      Abstract: Estimation of urban seismic damage using numerical simulation needs an automatic modeling method of surface layers and residential buildings. This study focuses on modeling of surface layers and shows a method of constructing models by interpolating boring data. An important property of the modeling method is robustness, that means that the method works for boring data with inconsistent soil layers. To satisfy this, we developed the method using artificial layers. We applied the method to a test site and checked its robustness. This test also showed that the method gave realistic models. Finally, we applied the method to the estimation of urban seismic damage and discussed the usefulness by comparing the result with one obtained by a conventional method.
      Citation: GeoHazards
      PubDate: 2022-05-09
      DOI: 10.3390/geohazards3020013
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 252-276: Forensic Geology Applied to Decipher
           the Landslide Dam Collapse and Outburst Flood of the Santa Cruz River (12
           November 2005), San Juan, Argentina

    • Authors: Juan Pablo Milana, Philipp Geisler
      First page: 252
      Abstract: A well-known landslide dam that collapsed and generated a large outburst flood is used to show the importance of forensic geology analysis, which is the on-site multidisciplinary study of geohazards carries out as soon as possible after their occurrence; this study is focused on understanding the complete spectrum of all mechanisms that caused the disaster. Diagnostic elements of all natural processes fade with time, allowing for progressively divergent interpretations that may impact the appropriateness of potential mitigation actions, as we demonstrate. The multidisciplinary field control of the abrupt rupture of a natural dam on the Santa Cruz River on 12 November 2005, that released c. 37 million m3 of water and sediment, can radically change the interpretation of how this dam collapsed. In situ sedimentological, geomorphological and topographical analyses of the remains of the collapsed natural dam suggest it was built in two mass-wasting episodes instead of one, as previously interpreted, involving different slide materials. The first episode matches previous interpretations; a landslide that evolved into a rock avalanche, generating an initial dam of high stability due to its density, and observed angles of repose. This dam was not removed completely during the rupture, but rather suffered minor erosion at its top by the flood drag effect. The second episode is interpreted as a snow-dominated mixed avalanche, reaching much greater heights on the opposite side of the valley. This avalanche is estimated to be 85% snow, 8% debris and 7% ice-cemented permafrost fragments, and is evidenced by a thin residual deposit draping the valley sides, as most of this deposit melted out before any field control was undertaken. The growth of the lake level, along with the dam weight loss due to ablation, generated the hydrostatic instability that caused the floating of the central sector of this second dam and the violent evacuation of the water, similar to a jökulhlaup. This analysis explains the partial dam collapse, sudden water release and the preserved field evidence. This different interpretation suggests that the mitigation actions already taken can be improved and that monitoring systems are urgently needed. A rapid and professional assessment of any large-scale geohazard site would be the way to avoid interpretation discrepancies, and to guarantee that mitigation actions taken are adequate. Learning from this event may help decision makers to take better mitigation measures and potentially save lives.
      Citation: GeoHazards
      PubDate: 2022-05-12
      DOI: 10.3390/geohazards3020014
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 277-293: Prospective Fault Displacement Hazard
           Assessment for Leech River Valley Fault Using Stochastic Source Modeling
           and Okada Fault Displacement Equations

    • Authors: Katsuichiro Goda, Parva Shoaeifar
      First page: 277
      Abstract: In this study, an alternative method for conducting probabilistic fault displacement hazard analysis is developed based on stochastic source modeling and analytical formulae for evaluating the elastic dislocation due to an earthquake rupture. It characterizes the uncertainty of fault-rupture occurrence in terms of its position, geometry, and slip distribution and adopts so-called Okada equations for the calculation of fault displacement on the ground surface. The method is compatible with fault-source-based probabilistic seismic hazard analysis and can be implemented via Monte Carlo simulations. The new method is useful for evaluating the differential displacements caused by the fault rupture at multiple locations simultaneously. The proposed method is applied to the Leech River Valley Fault located in the vicinity of Victoria, British Columbia, Canada. Site-specific fault displacement and differential fault displacement hazard curves are assessed for multiple sites within the fault-rupture zone. The hazard results indicate that relatively large displacements (∼0.5 m vertical uplift) can be expected at low probability levels of 10−4. For critical infrastructures, such as bridges and pipelines, quantifying the uncertainty of fault displacement hazard is essential to manage potential damage and loss effectively.
      Citation: GeoHazards
      PubDate: 2022-05-21
      DOI: 10.3390/geohazards3020015
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 294-322: Pseudo-Probabilistic Design for
           High-Resolution Tsunami Simulations in the Southwestern Spanish Coast

    • Authors: Alejandro González, Marta Fernández, Miguel Llorente, Jorge Macías, Carlos Sánchez-Linares, Julián García-Mayordomo, Carlos Paredes
      First page: 294
      Abstract: The application of simulation software has proven to be a crucial tool for tsunami hazard assessment studies. Understanding the potentially devastating effects of tsunamis leads to the development of safety and resilience measures, such as the design of evacuation plans or the planning of the economic investment necessary to quickly mitigate their consequences. This article introduces a pseudo-probabilistic seismic-triggered tsunami simulation approach to investigate the potential impact of tsunamis in the southwestern coast of Spain, in the provinces of Huelva and Cádiz. Selected faults, probabilistic distributions and sampling methods are presented as well as some results for the nearly 900 Atlantic-origin tsunamis computed along the 250 km-long coast.
      Citation: GeoHazards
      PubDate: 2022-05-23
      DOI: 10.3390/geohazards3020016
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 323-344: Use of Neural Networks for Tsunami
           Maximum Height and Arrival Time Predictions

    • Authors: Juan F. Rodríguez, Jorge Macías, Manuel J. Castro, Marc de la Asunción, Carlos Sánchez-Linares
      First page: 323
      Abstract: Operational TEWS play a key role in reducing tsunami impact on populated coastal areas around the world in the event of an earthquake-generated tsunami. Traditionally, these systems in the NEAM region have relied on the implementation of decision matrices. The very short arrival times of the tsunami waves from generation to impact in this region have made it not possible to use real-time on-the-fly simulations to produce more accurate alert levels. In these cases, when time restriction is so demanding, an alternative to the use of decision matrices is the use of datasets of precomputed tsunami scenarios. In this paper we propose the use of neural networks to predict the tsunami maximum height and arrival time in the context of TEWS. Different neural networks were trained to solve these problems. Additionally, ensemble techniques were used to obtain better results.
      Citation: GeoHazards
      PubDate: 2022-06-13
      DOI: 10.3390/geohazards3020017
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 345-370: Systematic Comparison of Tsunami
           Simulations on the Chilean Coast Based on Different Numerical Approaches

    • Authors: Sven Harig, Natalia Zamora, Alejandra Gubler, Natalja Rakowsky
      First page: 345
      Abstract: Tsunami inundation estimates are of crucial importance to hazard and risk assessments. In the context of tsunami forecast, numerical simulations are becoming more feasible with the growth of computational power. Uncertainties regarding source determination within the first minutes after a tsunami generation might be a major concern in the issuing of an appropriate warning on the coast. However, it is also crucial to investigate differences emerging from the chosen algorithms for the tsunami simulations due to a dependency of the outcomes on the suitable model settings. In this study, we compare the tsunami inundation in three cities in central Chile (Coquimbo, Viña del Mar, and Valparaíso) using three different models (TsunAWI, Tsunami-HySEA, COMCOT) while varying the parameters such as bottom friction. TsunAWI operates on triangular meshes with variable resolution, whereas the other two codes use nested grids for the coastal area. As initial conditions of the experiments, three seismic sources (2010 Mw 8.8 Maule, 2015 Mw 8.3 Coquimbo, and 1730 Mw 9.1 Valparaíso) are considered for the experiments. Inundation areas are determined with high-resolution topo-bathymetric datasets based on specific wetting and drying implementations of the numerical models. We compare each model’s results and sensitivities with respect to parameters such as bottom friction and bathymetry representation in the varying mesh geometries. The outcomes show consistent estimates for the nearshore wave amplitude of the leading wave crest based on identical seismic source models within the codes. However, with respect to inundation, we show high sensitivity to Manning values where a non-linear behaviour is difficult to predict. Differences between the relative decrease in inundation areas and the Manning n-range (0.015–0.060) are high (11–65%), with a strong dependency on the characterization of the local topo-bathymery in the Coquimbo and Valparaíso areas. Since simulations carried out with such models are used to generate hazard estimates and warning products in an early tsunami warning context, it is crucial to investigate differences that emerge from the chosen algorithms for the tsunami simulations.
      Citation: GeoHazards
      PubDate: 2022-06-20
      DOI: 10.3390/geohazards3020018
      Issue No: Vol. 3, No. 2 (2022)
       
  • GeoHazards, Vol. 3, Pages 16-53: Global Precedent-Based Extrapolation
           Estimate of the M8+ Earthquake Hazard (According to USGS Data as of 1 June
           2021)

    • Authors: Aleksandr Malyshev, Lidiia Malysheva
      First page: 16
      Abstract: The paper describes the algorithm and the results of the seismic hazard estimate based on the data of the seismological catalog of the US Geological Survey (USGS). The prediction algorithm is based on the search for clusters of seismic activity in which current activity trends correspond to foreshock sequences recorded before strong earthquakes (precedents) that have already occurred. The time of potential hazard of a similar earthquake is calculated by extrapolating the detected trends to the level of activity that took place at the time of the precedent earthquake. It is shown that the lead time of such a forecast reaches 10–15 years, and its implementation is due to the preservation and stability of the identified trends. The adjustment of the hazard assessment algorithm was carried out in retrospect for seven earthquakes (M8+) that had predictability in foreshock preparation. The evolution of the potential seismic hazard from 1 January 2020 to 1 June 2021 has been traced. It is concluded that precedent-based extrapolation assessments have prospects as a tool designed for the early detection and monitoring of potentially hazardous seismic activity.
      Citation: GeoHazards
      PubDate: 2022-01-23
      DOI: 10.3390/geohazards3010002
      Issue No: Vol. 3, No. 1 (2022)
       
  • GeoHazards, Vol. 3, Pages 54: Acknowledgment to Reviewers of GeoHazards in
           2021

    • Authors: GeoHazards Editorial Office GeoHazards Editorial Office
      First page: 54
      Abstract: Rigorous peer-reviews are the basis of high-quality academic publishing [...]
      Citation: GeoHazards
      PubDate: 2022-01-27
      DOI: 10.3390/geohazards3010003
      Issue No: Vol. 3, No. 1 (2022)
       
  • GeoHazards, Vol. 3, Pages 55-87: A Concise Appraisal of Cameroon’s
           Hazard Risk Profile: Multi-Hazard Inventories, Causes, Consequences and
           Implications for Disaster Management

    • Authors: Henry Ngenyam Bang
      First page: 55
      Abstract: The paucity of a comprehensive document on Cameroon’s hazard/disaster risk profile is a limitation to the country wide risk assessment and adequate disaster resilience. This article narrows this gap by retrospectively exploring Cameroon’s hazard/disaster profile. This has been achieved through an investigative approach that applies a set of qualitative methods to derive and articulate an inventory and analysis of hazards/disasters in Cameroon. The findings indicate that Cameroon has a wide array and high incidence/frequency of hazards that have had devastating consequences. The hazards have been structured along four profiles: a classification of all hazard types plaguing Cameroon into natural, potentially socio-natural, technological, and social and anthropogenic hazards; occurrence/origin of the hazards; their impacts/effects to the ‘at risk’ communities/populace and potential disaster management or mitigation measures. In-depth analysis indicate that natural hazards have the lowest frequency but the potential to cause the highest fatalities in a single incident; potentially socio-natural hazards affect the largest number of people and the widest geographical areas, technological hazards have the highest frequency of occurrence; while social/anthropogenic hazards are the newest in the country but have caused the highest population displacement. Arguably, the multi-hazard/disaster inventory presented in this article serves as a vital preliminary step to a more comprehensive profile of Cameroon’s disaster risk profile.
      Citation: GeoHazards
      PubDate: 2022-02-11
      DOI: 10.3390/geohazards3010004
      Issue No: Vol. 3, No. 1 (2022)
       
  • GeoHazards, Vol. 3, Pages 88-105: Predictive Simulation for Surface Fault
           Occurrence Using High-Performance Computing

    • Authors: Masataka Sawada, Kazumoto Haba, Muneo Hori
      First page: 88
      Abstract: Numerical simulations based on continuum mechanics are promising methods for the estimation of surface fault displacements. We developed a parallel finite element method program to perform such simulations and applied the program to reproduce the 2016 Kumamoto earthquake, where surface rupture was observed. We constructed an analysis model of the 5 × 5 × 1 km domain, including primary and secondary faults, and inputted the slip distribution of the primary fault, which was obtained through inversion analysis and the elastic theory of dislocation. The simulated slips on the surface were in good agreement with the observations. We then conducted a predictive simulation by inputting the slip distributions of the primary fault, which were determined using a strong ground motion prediction method for an earthquake with a specified source fault. In this simulation, no surface slip was induced in the sub-faults. A large surface slip area must be established near a sub-fault to induce the occurrence of a slip on the surface.
      Citation: GeoHazards
      PubDate: 2022-02-24
      DOI: 10.3390/geohazards3010005
      Issue No: Vol. 3, No. 1 (2022)
       
  • GeoHazards, Vol. 3, Pages 106-124: The Crete Isl. (Greece) Mw6.0
           Earthquake of 27 September 2021: Expecting the Unexpected

    • Authors: Ioanna Triantafyllou, Andreas Karavias, Ioannis Koukouvelas, Gerassimos A. Papadopoulos, Issaak Parcharidis
      First page: 106
      Abstract: The 27 September 2021 damaging mainshock (Mw6.0) is the first known strong earthquake that ruptured the Arkalochori area, Crete Isl., Greece, during the entire historical period, making it an unexpected event in the long-term sense. The area is characterized by the presence of the normal active Kastelli Fault (KF) striking NNE-SSW and dipping towards ~WNW. The KF, of surface exposure only ~6 km, at its southern tip is truncated by the nearly perpendicular active Nipiditos fault. The main shock was preceded by foreshock activity lasting for ~3.9 months, thus the mainshock turned out to be an expected event in the short-term sense. Maximum ground subsidence of ~20 cm was estimated from InSAR images, but this also incorporates deformation that may have been caused by the largest aftershock (Mw5.1) of 28 September 2021. The fault model produced from the inversion of InSAR observations indicated strike 216°, dip towards ~NW at angle 53°, rake −95°, and is consistent with fault-plane solutions obtained from routine moment tensor analysis. The geodetic seismic moment calculated from the Okada’s formalism is 1.14 × 1018 N·m (Mw6.0), while a maximum slip of 1.03 m was found at depths from 3.5 km to 5 km. The entire aftershock epicenters cloud strikes in a ~SW-NE direction but is distributed in two clusters, the southern and the northern ones. The foreshock cloud, the main slip patch, the deformation area, and the strongest aftershocks all fall within the southern cluster. The foreshocks concentration at the deepest edge of the main slip patch was a foreshadow of the mainshock nucleation area. The northern cluster, which is very likely due to the gradual expansion of aftershocks, is situated in the KF hanging wall block. To interpret the main seismic slip in the southern cluster area we propose the existence of a buried KF segment at the SSW-wards prolongation of the emerged at the surface segment. Assuming a rectangular seismic fault stress drop Δσ~7 bars was found. However, for a circular fault area, which in this case is more realistic, we get Δσ = 55 bars. This is a relatively large value for Greek earthquakes but is explainable by increased fault rigidity as a result of the long repeat time of strong earthquakes in KF.
      Citation: GeoHazards
      PubDate: 2022-02-25
      DOI: 10.3390/geohazards3010006
      Issue No: Vol. 3, No. 1 (2022)
       
  • GeoHazards, Vol. 3, Pages 125-143: Investigation of Tsunami Waves in a
           Wave Flume: Experiment, Theory, Numerical Modeling

    • Authors: Boris Vladimirovich Boshenyatov
      First page: 125
      Abstract: To protect the coastal areas of the seas and oceans from the destructive force of tsunami waves, coastal and surface barriers are usually built. However, for high waves, these barriers turn into underwater barriers through which tsunami waves pass practically without losing their energy. In this paper, we study a new principle of suppression of the energy of tsunami waves by underwater barriers. The problems of experimental and numerical modeling of the processes of generation, propagation, and interaction of gravity wave of the tsunami type with underwater barriers are considered. It is shown that, under certain conditions near the underwater barriers, large-scale vortex structures occur that accumulate a significant part of the energy of the incident wave. Here, if the barriers parameter h/(H + A) = 0.84 ÷ 0.85 (h—height of the barriers, A—amplitude of incident wave on a barrier, H—depth of the reservoir), then the vortex structures accumulate up to 50% of the wave energy incident on the barrier. A theoretical model explaining the effect of anomalous vortex suppression of tsunami wave energy by underwater barriers has been developed. Theoretical calculations and results of numerical modeling based on the Navier–Stokes Equations are consistent with experimental studies in a hydrodynamic wave flume.
      Citation: GeoHazards
      PubDate: 2022-03-03
      DOI: 10.3390/geohazards3010007
      Issue No: Vol. 3, No. 1 (2022)
       
 
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