The December 2018 Anak Krakatau Volcano Tsunami as Inferred from Post-Tsunami Field Surveys and Spectral Analysis

AbstractWe present analysis of the December 2018 Anak Krakatau tsunami in Sunda Strait, Indonesia, from a combination of post-tsunami field surveys, bathymetric changes and spectral analysis of the tsunami tide gauge records. Post-tsunami surveys revealed moderate tsunami height along the coast of Sumatra and Java with maximum surveyed runup of 13.5 m and maximum inundation distance of 330 m. At small islands located close to the volcano, extreme tsunami impacts were observed indicating not only a huge tsunami was generated by large amounts of collapse material which caused notable changes of seafloor bathymetry, but also indicates the role of those small islands in reducing tsunami height that propagated to the mainland of Indonesia. Our spectral analysis of tide gauge records showed that the tsunami’s dominant period was 6.6–7.4 min, indicating the short-period nature of the 2018 Sunda Strait tsunami.

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Field Survey of Tsunami Heights and Runups Following the 22 December 2018 Anak Krakatau Volcano Tsunami, Indonesia

Pure and Applied Geophysics ◽

10.1007/s00024-020-02587-w ◽

2020 ◽

Vol 177 (10) ◽

pp. 4577-4595 ◽

Cited By ~ 1

Author(s):

Mohammad Heidarzadeh ◽

Purna Sulastya Putra ◽

Septriono Hari Nugroho ◽

Doud Ben Zubair Rashid

Keyword(s):

Rare Event ◽

Tsunami Height ◽

Field Surveys ◽

Tsunami Runup ◽

Tsunami Risk ◽

Western Shore ◽

Wave Heights ◽

One Year ◽

Instrumental Records ◽

Krakatau Volcano

Abstract The 22 December 2018 Anak Karakatau tsunami in Indonesia was a rare event in that few instrumental records existed of tsunamis generated by volcanic sources before this event. The tsunami, which left a death toll of 437, is of global importance as it provides opportunities to develop knowledge on generation, propagation and coastal effects of volcanic tsunamis. Here, we report results of field surveys along the coast of the Sunda Strait, Indonesia to study tsunami wave heights and coastal damage. We surveyed 29 locations and measured ranges of tsunami runup from 0.9 to 5.2 m, tsunami heights from 1.4 to 6.3 m, flow depths from 0.2 m to 3.0 m and inundation distances from 18 to 212 m. The largest tsunami heights and concentration of damage and fatalities occurred on the western shore of Java from Tanjung Lesung to Sumur. The largest cluster of fatalities occurred at Tanjung Lesung, where more than 50 people died while attending an outdoor music being held at the shoreline. The tsunami runup and tsunami height in Tanjung Lesung were 4.0 and 2.9–3.8 m, respectively. We believe this tragedy could have been avoided if the event organizers were more aware of the hazard posed by the Anak Krakatau volcano, as it had been actively erupting for several months prior to the tsunami, and simply moved the concert stage 100 m inland. Many of the locations surveyed demonstrated a similar pattern where the majority of casualties and destruction occurred within 100 m of the coast; in several locations, lives were saved where buildings were located at least this distance inland. The significant damage and numerous deaths which occurred in Sumur, despite the moderate tsunami height of 2.3–2.5 m, can be attributed to the extremely low-lying coastal land there. Flow depth in Sumur was 0.9–2.0 m. During our field surveys, nearly one year after the event, we noted that some of the damaged buildings were being rebuilt in the same locations just 10–30 m from the shoreline. We question this practice since the new buildings could be at the same tsunami risk as those damaged in the 2018 event.

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Field surveys and numerical modeling of the December 2018 Anak Krakatau volcanic tsunami

10.5194/egusphere-egu2020-13314 ◽

2020 ◽

Cited By ~ 1

Author(s):

Mohammad Heidarzadeh ◽

Purna Sulastya Putra ◽

Abdul Muhari ◽

Septriono Hari Nugroho

Keyword(s):

Numerical Modeling ◽

Source Model ◽

Tsunami Source ◽

Tsunami Height ◽

Tsunami Inundation ◽

Field Surveys ◽

Source Models ◽

Krakatau Volcano ◽

Source Dimension ◽

Maximum Tsunami Height

We report results of field surveys and numerical modeling of the tsunami generated by the Anak Krakatau volcano eruption on 22 December 2018. We conducted two sets of field surveys of the coastal areas destroyed by the Anak Krakatau tsunami in 26-30 December 2018 and 4-10 January 2020. Field surveys provided information about the maximum tsunami height as well as the most damaged area. The maximum tsunami height was up to 13 m. Most locations registered a wave height of 3-4 m. Tsunami inundation was limited to approximately 100 m. For modeling, we considered 12 source models and conducted numerical modeling. The scenarios have source dimensions of 1.5&#8211;4&#8239;km and initial tsunami amplitudes of 10&#8211;200&#8239;m. By comparing observed and simulated waveforms, we constrained the tsunami source dimension and initial amplitude in the ranges of 1.5&#8211;2.5&#8239;km and 100&#8211;150&#8239;m, respectively. The best source model involves potential energy of 7.14&#8239;&#215;&#8239;1013&#8211;1.05&#8239;&#215;&#8239;1014&#8239;J which is equivalent to an earthquake of magnitude 6.0&#8211;6.1.

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The North Sea surge of 31 October–1 November 2006 during Storm Britta

Advances in Geosciences ◽

10.5194/adgeo-45-273-2018 ◽

2018 ◽

Vol 45 ◽

pp. 273-279 ◽

Cited By ~ 1

Author(s):

Anthony James Kettle

Keyword(s):

The Netherlands ◽

Storm Surge ◽

North Sea ◽

Tide Gauge ◽

Storm Surges ◽

Tide Gauge Records ◽

The North ◽

Short Period ◽

The North Sea ◽

Sea Storm

Abstract. Offshore energy infrastructure, including the petroleum and wind energy sectors, are susceptible to damage and interruption by extreme meteorological events. In northwest Europe and especially the North Sea, these extreme meteorological events are mostly associated with severe storms in the autumn and winter seasons. In the North Sea, storm surges have an impact on the offshore energy sector mainly from the flooding of port facilities and from strong ocean currents causing extra structural loading and bottom scouring. Storm Britta on 31 October–1 November 2006 was an important North Sea storm with a high surge along the coast of the Netherlands and Germany and a significant number of high wave reports. The paper presents an analysis of the national tide gauge records of the United Kingdom, the Netherlands, Germany, and Denmark to spectrally isolate and reconstruct time series components corresponding to the storm surge, semi-diurnal tide, and short period contribution. The semi-diurnal tides and storm surge during Storm Britta are tracked counter-clockwise around the North Sea from Scotland to northern Denmark. The storm surge was remarkable for its pronounced peak in the coastal area between the Netherlands and Germany with no precedent in the ∼100 year measurement record. The short period component of the tide gauge records show large oscillations during the height of the storm that may correspond with reports of unusually high waves at nearby coastal locations.

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GEOTHERMAL GROUND‐NOISE SURVEYS

Geophysics ◽

10.1190/1.1440302 ◽

1972 ◽

Vol 37 (5) ◽

pp. 813-824 ◽

Cited By ~ 6

Author(s):

E. J. Douze ◽

G. G. Sorrells

Keyword(s):

Heat Flow ◽

High Surface ◽

Noise Levels ◽

Imperial Valley ◽

Geothermal Resources ◽

Field Surveys ◽

Short Period ◽

Gravity Measurements ◽

Ground Noise

In recent years there has been increasing interest in the role of geothermal steam as a source of energy. Only recently has geophysical exploration begun to play a major role in the exploration for geothermal resources; heat flow, gravity, and resistivity measurements have been the techniques most used. One recent development is the discovery that high surface‐noise levels are associated with the presence of geothermal reservoirs below the surface. Field surveys using short‐period seismographs have been conducted in the Imperial Valley of California in areas where heatflow measurements or drilling have indicated the presence of a geothermal deposit. In all three surveys abnormally high noise levels were found above the reservoir in the frequency range of 0.5 to 5.0 hz. The ground‐noise anomalies show a more complex pattern than the associated heat flow and gravity measurements. A theoretical model has been developed in which small, random pressure variations in a convecting geothermal reservoir are suggested as the source of the noise. Using this model, the noise level above one of the anomalies was duplicated, using a reasonably sized reservoir with pressure variations of less than 1 millibar.

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Coronary Intervention with the Excimer Laser: Review of the Technology and Outcome Data

Interventional Cardiology Review ◽

10.15420/icr.2016.11.01.27 ◽

2016 ◽

Vol 11 (1) ◽

pp. 27

Author(s):

John Rawlins ◽

◽

...

Keyword(s):

Excimer Laser ◽

Coronary Intervention ◽

Outcome Data ◽

Boston Scientific ◽

Technical Aspects ◽

Safety And Efficacy ◽

Percutaneous Coronary ◽

Short Period ◽

Complex Lesions

Excimer laser coronary atherectomy (ELCA) is a long-established adjunctive therapy that can be applied during percutaneous coronary intervention (PCI). Technical aspects have evolved and there is an established safety and efficacy record across a number of clinical indications in contemporary interventional practice where complex lesions are routinely encountered. The role of ELCA during PCI for thrombus, non-crossable or non-expandable lesions, chronic occlusions and stent under-expansion are discussed in this review. The key advantage of ELCA over alternative atherectomy interventions is delivery on a standard 0.014-inch guidewire. Additionally, the technique can be mastered by any operator after a short period of training. The major limitation is presence of heavy calcification although when rotational atherectomy (RA) is required but cannot be applied due to inability to deliver the dedicated RotaWire™ (Boston Scientific), ELCA can create an upstream channel to permit RotaWire passage and complete the case with RA – the RASER technique.

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Role of increased sympathetic activity in the genesis of ambulatory ischemia: Spectral analysis of heart rate variability

Journal of the American College of Cardiology ◽

10.1016/s0735-1097(96)82526-5 ◽

1996 ◽

Vol 27 (2) ◽

pp. 398-399

Author(s):

Tohru Kaji ◽

Tetsuro Kohya ◽

Fumishi Tomita ◽

Tomohide Ono ◽

Akira Kitabatake

Keyword(s):

Heart Rate ◽

Heart Rate Variability ◽

Spectral Analysis ◽

Sympathetic Activity

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Evaluation of ocean circulation models in the computation of the mean dynamic topography for geodetic applications. Case study in the Greek seas

Journal of Geodetic Science ◽

10.1515/jogs-2019-0015 ◽

2019 ◽

Vol 9 (1) ◽

pp. 154-173

Author(s):

I. Mintourakis ◽

G. Panou ◽

D. Paradissis

Keyword(s):

Sea Level ◽

Ocean Circulation ◽

Tide Gauge ◽

Dynamic Topography ◽

Tide Gauge Records ◽

Mean Dynamic Topography ◽

Case Study Area ◽

Extensive Evaluation ◽

Precise Knowledge

Abstract Precise knowledge of the oceanic Mean Dynamic Topography (MDT) is crucial for a number of geodetic applications, such as vertical datum unification and marine geoid modelling. The lack of gravity surveys over many regions of the Greek seas and the incapacity of the space borne gradiometry/gravity missions to resolve the small and medium wavelengths of the geoid led to the investigation of the oceanographic approach for computing the MDT. We compute two new regional MDT surfaces after averaging, for given epochs, the periodic gridded solutions of the Dynamic Ocean Topography (DOT) provided by two ocean circulation models. These newly developed regional MDT surfaces are compared to three state-of-theart models, which represent the oceanographic, the geodetic and the mixed oceanographic/geodetic approaches in the implementation of the MDT, respectively. Based on these comparisons, we discuss the differences between the three approaches for the case study area and we present some valuable findings regarding the computation of the regional MDT. Furthermore, in order to have an estimate of the precision of the oceanographic approach, we apply extensive evaluation tests on the ability of the two regional ocean circulation models to track the sea level variations by comparing their solutions to tide gauge records and satellite altimetry Sea Level Anomalies (SLA) data. The overall findings support the claim that, for the computation of the MDT surface due to the lack of geodetic data and to limitations of the Global Geopotential Models (GGMs) in the case study area, the oceanographic approach is preferable over the geodetic or the mixed oceano-graphic/geodetic approaches.

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The Role of Technology in Greenhouse Agriculture: Towards a Sustainable Intensification in Campo de Dalías (Almería, Spain)

Agronomy ◽

10.3390/agronomy11010101 ◽

2021 ◽

Vol 11 (1) ◽

pp. 101

Author(s):

Antonio J. Mendoza-Fernández ◽

Araceli Peña-Fernández ◽

Luis Molina ◽

Pedro A. Aguilera

Keyword(s):

Land Use ◽

Economic Development ◽

Water Resources ◽

Natural Resources ◽

Temporal Evolution ◽

Technological Development ◽

Sustainable Intensification ◽

Short Period ◽

Cultivation Techniques

Campo de Dalías, located in southeastern Spain, is the greatest European exponent of greenhouse agriculture. The development of this type of agriculture has led to an exponential economic development of one of the poorest areas of Spain, in a short period of time. Simultaneously, it has brought about a serious alteration of natural resources. This article will study the temporal evolution of changes in land use, and the exploitation of groundwater. Likewise, this study will delve into the technological development in greenhouses (irrigation techniques, new water resources, greenhouse structures or improvement in cultivation techniques) seeking a sustainable intensification of agriculture under plastic. This sustainable intensification also implies the conservation of existing natural areas.

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Potential Role of Vitamins and Zinc on Acute Respiratory Infections Including Covid-19

Global Pediatric Health ◽

10.1177/2333794x211021739 ◽

2021 ◽

Vol 8 ◽

pp. 2333794X2110217

Author(s):

Indah K. Murni ◽

Endy P. Prawirohartono ◽

Rina Triasih

Keyword(s):

Vitamin A ◽

Vitamin C ◽

Large Dose ◽

Common Cold ◽

Potential Role ◽

Respiratory Infections ◽

Acute Respiratory Infections ◽

Under Five ◽

Short Period

Background. Vitamin C, E, D, A, zinc are considered to be essential in preventing and treating of acute respiratory infections (ARI) including COVID-19. Methods. We reviewed published studies evaluating the potential roles of these vitamin and zinc for ARIs and COVID-19 using Medline database, medRxiv, and bibliographic references. Results. Vitamins C, D, and E did not reduce incidence of common cold in general, but vitamin C reduced by half in population with physical and environment stresses. Vitamins C and E shortened duration and reduced severity of common cold. A large-dose vitamin A had no effect on recovery from pneumonia. Zinc improved clinical deterioration and pneumonia duration in under five. The effect on preventing COVID-19 morbidity and related-death was lacking. Conclusions. Although the effects of vitamins and zinc on ARIs including COVID-19 were inconclusive, taking these for a short period during pandemic may be beneficial when there is risks of deficiency.

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