| NCEI/WDS Global Significant Earthquake Database, 2150 BC to Present | identificationInfo|
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| (MI_Metadata) fileIdentifier: gov.noaa.ngdc.mgg.hazards:G012153 language: eng; USA characterSet: (MD_CharacterSetCode) utf8 hierarchyLevel: (MD_ScopeCode) dataset contact: (CI_ResponsibleParty) organisationName: NOAA National Centers for Environmental Information positionName: Hazards Data Manager contactInfo: (CI_Contact) address: (CI_Address) electronicMailAddress: haz.info@noaa.gov role: (CI_RoleCode) pointOfContact dateStamp: 2021-07-08 metadataStandardName: ISO 19115-2 Geographic Information - Metadata - Part 2: Extensions for Imagery and Gridded Data metadataStandardVersion: ISO 19115-2:2009(E) return to top identificationInfo: (MD_DataIdentification) citation: (CI_Citation) title: NCEI/WDS Global Significant Earthquake Database, 2150 BC to Present date: (CI_Date) date: 1972-01-01 dateType: (CI_DateTypeCode) publication identifier: (MD_Identifier) code: Anchor: DOI doi:10.7289/V5TD9V7K citedResponsibleParty: (CI_ResponsibleParty) organisationName: NOAA National Centers for Environmental Information role: (CI_RoleCode) publisher citedResponsibleParty: (CI_ResponsibleParty) organisationName: National Geophysical Data Center / World Data Service (NGDC/WDS) role: (CI_RoleCode) originator citedResponsibleParty: (CI_ResponsibleParty) individualName: Nicolas Arcos organisationName: DOC/NOAA/NESDIS/NCEI > National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce contactInfo: (CI_Contact) phone: (CI_Telephone) voice: (303) 497-3158 facsimile: (303) 497-6513 address: (CI_Address) deliveryPoint: 325 Broadway, Mail Code E/NE42 city: Boulder administrativeArea: CO postalCode: 80305-3328 country: USA electronicMailAddress: haz.info@noaa.gov role: (CI_RoleCode) pointOfContact presentationForm: (CI_PresentationFormCode) mapDigital presentationForm: (CI_PresentationFormCode) tableDigital abstract: The Significant Earthquake Database is a global listing of over 5,700 earthquakes from 2150 BC to the present. A significant earthquake is classified as one that meets at least one of the following criteria: caused deaths, caused moderate damage (approximately $1 million or more), magnitude 7.5 or greater, Modified Mercalli Intensity (MMI) X or greater, or the earthquake generated a tsunami. The database provides information on the date and time of occurrence, latitude and longitude, focal depth, magnitude, maximum MMI intensity, and socio-economic data such as the total number of casualties, injuries, houses destroyed, and houses damaged, and $ dollage damage estimates. References, political geography, and additional comments are also provided for each earthquake. If the earthquake was associated with a tsunami or volcanic eruption, it is flagged and linked to the related tsunami event or significant volcanic eruption. purpose: These data are necessary for earthquake hazard assessments and mitigation efforts. status: (MD_ProgressCode) underDevelopment pointOfContact: (CI_ResponsibleParty) individualName: Nicolas Arcos organisationName: DOC/NOAA/NESDIS/NCEI > National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce contactInfo: (CI_Contact) phone: (CI_Telephone) voice: (303) 497-3158 facsimile: (303) 497-6513 address: (CI_Address) deliveryPoint: 325 Broadway, Mail Code E/NE42 city: Boulder administrativeArea: CO postalCode: 80305-3328 country: USA electronicMailAddress: haz.info@noaa.gov role: (CI_RoleCode) pointOfContact resourceMaintenance: (MD_MaintenanceInformation) maintenanceAndUpdateFrequency: (MD_MaintenanceFrequencyCode) asNeeded graphicOverview: (MD_BrowseGraphic) fileName: https://www.ngdc.noaa.gov/hazard/icons/sigeqsm.jpg fileDescription: Global plot of significant earthquakes fileType: jpg descriptiveKeywords: (MD_Keywords) keyword: Earth Science > Interior & Crust keyword: Earth Science > Solid Earth > Seismology > Earthquake Occurrences type: (MD_KeywordTypeCode) theme thesaurusName: (CI_Citation) title: Global Change Master Directory (GCMD) Science Keywords date: (CI_Date) date: 2020-01-09 dateType: (CI_DateTypeCode) publication edition: 9.1 citedResponsibleParty: (CI_ResponsibleParty) organisationName: NASA Goddard Space Flight Center, Earth Science Data and Information System contactInfo: (CI_Contact) onlineResource: (CI_OnlineResource) linkage: https://www.earthdata.nasa.gov/learn/find-data/idn/gcmd-keywords name: Global Change Master Directory (GCMD) Keywords description: The information provided on this page seeks to define how the GCMD Keywords are structured, used and accessed. It also provides information on how users can participate in the further development of the keywords. function: (CI_OnLineFunctionCode) information role: (CI_RoleCode) custodian descriptiveKeywords: (MD_Keywords) keyword: INFOTERRA > Disasters > Catastrophic phenomena > Earthquakes keyword: INFOTERRA > Lithosphere > Seismic activity > Seismic activity keyword: INFOTERRA > Lithosphere > Seismic monitoring > Seismic monitoring keyword: INFOTERRA > Disasters > Catastrophic phenomena > Tsunami type: (MD_KeywordTypeCode) theme thesaurusName: (CI_Citation) title: INFOTERRA Keyword Thesaurus date: (unknown) descriptiveKeywords: (MD_Keywords) keyword: Epicenter keyword: Hypocenter keyword: Seismology type: (MD_KeywordTypeCode) theme thesaurusName: (CI_Citation) title: Uncontrolled Keywords date: (unknown) descriptiveKeywords: (MD_Keywords) keyword: ICSU-WDS > International Council for Science - World Data System type: (MD_KeywordTypeCode) project thesaurusName: (CI_Citation) title: Global Change Master Directory (GCMD) Project Keywords date: (CI_Date) date: 2020-01-09 dateType: (CI_DateTypeCode) publication edition: 9.1 citedResponsibleParty: (CI_ResponsibleParty) organisationName: NASA Goddard Space Flight Center, Earth Science Data and Information System contactInfo: (CI_Contact) onlineResource: (CI_OnlineResource) linkage: https://www.earthdata.nasa.gov/learn/find-data/idn/gcmd-keywords name: Global Change Master Directory (GCMD) Keywords description: The information provided on this page seeks to define how the GCMD Keywords are structured, used and accessed. It also provides information on how users can participate in the further development of the keywords. function: (CI_OnLineFunctionCode) information role: (CI_RoleCode) custodian descriptiveKeywords: (MD_Keywords) keyword: Global type: (MD_KeywordTypeCode) place thesaurusName: (CI_Citation) title: Global Change Master Directory (GCMD) Location Keywords date: (CI_Date) date: 2020-01-09 dateType: (CI_DateTypeCode) publication edition: 9.1 citedResponsibleParty: (CI_ResponsibleParty) organisationName: NASA Goddard Space Flight Center, Earth Science Data and Information System contactInfo: (CI_Contact) onlineResource: (CI_OnlineResource) linkage: https://www.earthdata.nasa.gov/learn/find-data/idn/gcmd-keywords name: Global Change Master Directory (GCMD) Keywords description: The information provided on this page seeks to define how the GCMD Keywords are structured, used and accessed. It also provides information on how users can participate in the further development of the keywords. function: (CI_OnLineFunctionCode) information role: (CI_RoleCode) custodian descriptiveKeywords: (MD_Keywords) keyword: DOC/NOAA/NESDIS/NCEI > National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce keyword: DOC/NOAA/NESDIS/NGDC > National Geophysical Data Center, NESDIS, NOAA, U.S. Department of Commerce type: (MD_KeywordTypeCode) dataCentre thesaurusName: (CI_Citation) title: Global Change Master Directory (GCMD) Data Center Keywords date: (CI_Date) date: 2020-01-09 dateType: (CI_DateTypeCode) publication edition: 9.1 citedResponsibleParty: (CI_ResponsibleParty) organisationName: NASA Goddard Space Flight Center, Earth Science Data and Information System contactInfo: (CI_Contact) onlineResource: (CI_OnlineResource) linkage: https://www.earthdata.nasa.gov/learn/find-data/idn/gcmd-keywords name: Global Change Master Directory (GCMD) Keywords description: The information provided on this page seeks to define how the GCMD Keywords are structured, used and accessed. It also provides information on how users can participate in the further development of the keywords. function: (CI_OnLineFunctionCode) information role: (CI_RoleCode) custodian resourceConstraints: (MD_LegalConstraints) useLimitation: (MD_RestrictionCode) otherRestrictions otherConstraints: Cite as: National Geophysical Data Center / World Data Service (NGDC/WDS): NCEI/WDS Global Significant Earthquake Database. NOAA National Centers for Environmental Information. doi:10.7289/V5TD9V7K [access date] resourceConstraints: (MD_LegalConstraints) accessConstraints: (MD_RestrictionCode) otherRestrictions otherConstraints: Access to this dataset is unrestricted. resourceConstraints: (MD_LegalConstraints) useConstraints: (MD_RestrictionCode) otherRestrictions otherConstraints: While every effort has been made to ensure that these data are accurate and reliable within the limits of the current state of the art, NOAA cannot assume liability for any damages caused by any errors or omissions in the data, nor as a result of the failure of the data to function on a particular system. NOAA makes no warranty, expressed or implied, nor does the fact of distribution constitute such a warranty. aggregationInfo: (MD_AggregateInformation) aggregateDataSetName: (CI_Citation) title: NCEI/WDS Global Historical Tsunami Database, 2100 BC to Present date: (CI_Date) date: 1974-01-01 dateType: (CI_DateTypeCode) publication identifier: (MD_Identifier) code: Anchor: DOI doi:10.7289/V5PN93H7 associationType: (DS_AssociationTypeCode) partOfSeamlessDatabase initiativeType: (DS_InitiativeTypeCode) collection aggregationInfo: (MD_AggregateInformation) aggregateDataSetName: (CI_Citation) title: NCEI/WDS Global Significant Volcanic Eruptions Database, 4360 BC to Present date: (CI_Date) date: 2001-03-23 dateType: (CI_DateTypeCode) publication identifier: (MD_Identifier) code: Anchor: DOI doi:10.7289/V5JW8BSH associationType: (DS_AssociationTypeCode) partOfSeamlessDatabase initiativeType: (DS_InitiativeTypeCode) collection aggregationInfo: (MD_AggregateInformation) aggregateDataSetName: (CI_Citation) title: Modified Mercalli Intensity Scale of 1931 date: (CI_Date) date: 1931-12-01 dateType: (CI_DateTypeCode) publication citedResponsibleParty: (CI_ResponsibleParty) organisationName: Wood, Harry O. role: (CI_RoleCode) author citedResponsibleParty: (CI_ResponsibleParty) organisationName: Neumann, Frank role: (CI_RoleCode) author series: (CI_Series) name: Bulletin of the Seismological Society of America issueIdentification: 21(4) otherCitationDetails: pp. 277-283 associationType: (DS_AssociationTypeCode) crossReference initiativeType: (DS_InitiativeTypeCode) sciencePaper language: eng; USA topicCategory: (MD_TopicCategoryCode) oceans topicCategory: (MD_TopicCategoryCode) geoscientificInformation extent: (EX_Extent) geographicElement: (EX_GeographicBoundingBox) westBoundLongitude: -179 eastBoundLongitude: 180 southBoundLatitude: -63 northBoundLatitude: 71 temporalElement: (EX_TemporalExtent) extent: TimePeriod: beginPosition: -2150 endPosition: return to top contentInfo: (MI_CoverageDescription) attributeDescription: RecordType: Event Date contentType: (MD_CoverageContentTypeCode) physicalMeasurement return to top contentInfo: (MI_CoverageDescription) attributeDescription: RecordType: Location contentType: (MD_CoverageContentTypeCode) coordinate dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Latitude attributeType: (unknown) descriptor: Distance measured north or south from the equator. Distance north is positive, distance south is negative. maxValue: Real: 90.00000 minValue: Real: -90.00000 units: UnitDefinition: identifier: decimal degrees name: decimal degrees dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Longitude attributeType: (unknown) descriptor: Longitude is measured from the Prime Meridian (which is the north/south line that runs through Greenwich, England), values measured east are positive and values measured west are negative. maxValue: Real: 180.00000 minValue: Real: -180.00000 units: UnitDefinition: identifier: decimal degrees name: decimal degrees dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Focal Depth attributeType: (unknown) descriptor: The depth of the earthquake is given in kilometers, positive downward. maxValue: Real: 0 minValue: Real: 700 units: UnitDefinition: identifier: kilometers name: kilometers dimension: (MD_Band) sequenceIdentifier: MemberName: aName: State attributeType: (unknown) descriptor: The state in the country in which the volcano is located. dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Country attributeType: (unknown) descriptor: The country in which the volcano is located. dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Region attributeType: (unknown) descriptor: The global region in which the volcano is located. return to top contentInfo: (MI_CoverageDescription) attributeDescription: RecordType: Earthquake Characteristics contentType: (MD_CoverageContentTypeCode) physicalMeasurement dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Magnitude attributeType: (unknown) descriptor: The value in this column contains the primary earthquake magnitude. Magnitude measures the energy released at the source of the earthquake. Magnitude is determined from measurements on seismographs. For pre-instrumental events, the magnitudes are derived from intensities. There are several different scales for measuring earthquake magnitudes. The primary magnitude is chosen from the available magnitude scales in this order: Mw Magnitude, Ms Magnitude, Mb Magnitude, Ml Magnitude, Mfa Magnitude, Unknown Magnitude dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Associated Hazard attributeType: (unknown) descriptor: Whether or not the earthquake caused a tsunami and/or occurred in conjunction with a volcanic eruption. rangeElementDescription: (MI_RangeElementDescription) name: Modified Mercalli Intensity (MMI) definition: The Modified Mercalli Intensity (Int) is given in Roman Numerals (converted to numbers in the digital database). rangeElement: Record: I. Not felt except by a very few under especially favorable circumstances. rangeElement: Record: II. Felt only by a few persons at rest, especially on upper floors of buildings. Delicately suspended objects may swing. rangeElement: Record: III. Felt quite noticeably indoors, especially on upper floors of buildings, but many people do not recognize it as an earthquake. Standing motor cars may rock slightly. Vibration like passing truck. Duration estimated. rangeElement: Record: IV. During the day felt indoors by many, outdoors by few. At night some awakened. Dishes, windows, and doors disturbed; walls make creaking sound. Sensation like heavy truck striking building. Standing motorcars rock noticeably. rangeElement: Record: V. Felt by nearly everyone; many awakened. Some dishes, windows, etc., broken; a few instances of cracked plaster; unstable objects overturned. Disturbance of trees, poles, and other tall objects sometimes noticed. Pendulum clocks may stop. rangeElement: Record: VI. Felt by all; many frightened and run outdoors. Some heavy furniture moved; a few instances of fallen plaster or damaged chimneys. Damage slight. rangeElement: Record: VII. Everybody runs outdoors. Damage negligible in buildings of good design and construction slight to moderate in well built ordinary structures; considerable in poorly built or badly designed structures. Some chimneys broken. Noticed by persons driving motor cars. rangeElement: Record: VIII. Damage slight in specially designed structures; considerable in ordinary substantial buildings, with partial collapse; great in poorly built structures. Panel walls thrown out of frame structures. Fall of chimneys, factory stacks, columns, monuments, walls. Heavy furniture overturned. Sand and mud ejected in small amounts. Changes in well water. Persons driving motor cars disturbed. rangeElement: Record: IX. Damage considerable in specially designed structures; well-designed frame structures thrown out of plumb; great in substantial buildings, with partial collapse. Buildings shifted off foundations. Ground cracked conspicuously. Underground pipes broken. rangeElement: Record: X. Some well-built wooden structures destroyed; most masonry and frame structures destroyed with foundations; ground badly cracked. Rails bent. Landslides considerable from river banks and steep slopes. Shifted sand and mud. Water splashed over banks rangeElement: Record: XI. Few, if any (masonry), structures remain standing. Bridges destroyed. Broad fissures in ground. Underground pipelines completely out of service. Earth slumps and land slips in soft ground. Rails bent greatly. rangeElement: Record: XII. Damage total. Waves seen on ground surfaces. Lines of sight and level distorted. Objects thrown upward into the air. return to top contentInfo: (MI_CoverageDescription) attributeDescription: RecordType: Earthquake Effects contentType: (MD_CoverageContentTypeCode) physicalMeasurement dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Number of Deaths from the Earthquake attributeType: (unknown) descriptor: Whenever possible, numbers of deaths are listed. When references give different death tolls, each death toll and corresponding reference is listed as a separate record. dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Number of Injuries from the Earthquake attributeType: (unknown) descriptor: Whenever possible, numbers of injuries from the earthquake are listed. dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Damage in Millions of Dollars from the Earthquake attributeType: (unknown) descriptor: The value in the Damage column should be multipled by 1,000,000 to obtain the actual dollar amount. When a dollar amount for damage was found in the literature, it was listed in the Damage column in millions of U.S. dollars. The dollar value listed is the value at the time of the event. To convert the damage to current dollar values, please use the Consumer Price Index Calculator. Monetary conversion tables for the time of the event were used to convert foreign currency to U.S. dollars. dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Number of Houses Destroyed by the Earthquake attributeType: (unknown) descriptor: Whenever possible, numbers of houses destroyed are listed. dimension: (MD_Band) sequenceIdentifier: MemberName: aName: Number of Houses Damaged by the Earthquake attributeType: (unknown) descriptor: Whenever possible, numbers of houses damaged are listed. rangeElementDescription: (MI_RangeElementDescription) name: Description of Number of Deaths from the Earthquake definition: When a description was found in the historical literature instead of an actual number of deaths, this value was coded and listed in the Deaths De column. If the actual number of deaths was listed, a descriptor was also added for search purposes. rangeElement: Record: 0 = None rangeElement: Record: 1 = Few (~1 to 50 deaths) rangeElement: Record: characterString: 2 = Some (~51 to 100 deaths) rangeElement: Record: 3 = Many (~101 to 1000 deaths) rangeElement: Record: 4 = Very Many (~1001 or more deaths) rangeElementDescription: (MI_RangeElementDescription) name: Description of Number of Injuries from the Earthquake definition: When a description was found in the historical literature instead of an actual number of injuries, this value was coded and listed in the Injuries De column. If the actual number of injuries was listed, a descriptor was also added for search purposes. rangeElement: Record: 0 = None rangeElement: Record: 1 = Few (~1 to 50 injuries) rangeElement: Record: characterString: 2 = Some (~51 to 100 injuries) rangeElement: Record: 3 = Many (~101 to 1000 injuries) rangeElement: Record: 4 = Very Many (~1001 or more injuries) rangeElementDescription: (MI_RangeElementDescription) name: Description of Damage from the Earthquake definition: For those events not offering a monetary evaluation of damage, the following five-level scale was used to classify damage (1990 dollars) and was listed in the Damage De column. If the actual dollar amount of damage was listed, a descriptor was also added for search purposes. When possible, a rough estimate was made of the dollar amount of damage based upon the description provided, in order to choose the damage category. In many cases, only a single descriptive term was available. These terms were converted to the damage categories based upon the authors apparent use of the term elsewhere. In the absence of other information, LIMITED is considered synonymous with slight, minor, and light, SEVERE as synonymous with major, extensive, and heavy, and EXTREME as synonymous with catastrophic. Note: The descriptive terms relate approximately to current dollar values. rangeElement: Record: 0 = NONE rangeElement: Record: 1 = LIMITED (roughly corresponding to less than $1 million) rangeElement: Record: 2 = MODERATE (~$1 to $5 million) rangeElement: Record: 3 = SEVERE (~>$5 to $24 million) rangeElement: Record: 4 = EXTREME (~$25 million or more) rangeElementDescription: (MI_RangeElementDescription) name: Description of Number of Houses Destroyed by the Earthquake definition: For those events not offering an exact number of houses destroyed, the following four-level scale was used to classify the destruction and was listed in the Houses Destroyed De column. If the actual number of houses destroyed was listed, a descriptor was also added for search purposes. rangeElement: Record: 0 = None rangeElement: Record: 1 = Few (~1 to 50 houses) rangeElement: Record: 2 = Some (~51 to 100 houses) rangeElement: Record: 3 = Many (~101 to 1000 houses) rangeElement: Record: 4 = Very Many (~1001 or more houses) rangeElementDescription: (MI_RangeElementDescription) name: Description of Number of Houses Damaged by the Earthquake definition: For those events not offering an exact number of houses damaged, the following four-level scale was used to classify the damage and was listed in the Houses Damaged De column. If the actual number of houses destroyed was listed, a descriptor was also added for search purposes. rangeElement: Record: 0 = None rangeElement: Record: 1 = Few (~1 to 50 houses) rangeElement: Record: 2 = Some (~51 to 100 houses) rangeElement: Record: 3 = Many (~101 to 1000 houses) rangeElement: Record: 4 = Very Many (~1001 or more houses) return to top distributionInfo: (MD_Distribution) distributionFormat: (MD_Format) name: ASCII version: (unknown) distributionFormat: (MD_Format) name: ArcGIS version: (unknown) distributor: (MD_Distributor) distributorContact: (CI_ResponsibleParty) organisationName: NOAA National Centers for Environmental Information positionName: Hazards Data Manager contactInfo: (CI_Contact) address: (CI_Address) electronicMailAddress: haz.info@noaa.gov role: (CI_RoleCode) pointOfContact distributionOrderProcess: (MD_StandardOrderProcess) fees: Free online transferOptions: (MD_DigitalTransferOptions) onLine: (CI_OnlineResource) linkage: https://www.ngdc.noaa.gov/hazel/view/hazards/earthquake/search protocol: http name: NCEI/WDS Global Significant Earthquake Database description: The database contains information for each earthquake such as the date, time, location, focal depth, magnitude, intensity, and socio-economic data including the total number of fatalities, injuries, houses damaged, and houses destroyed and $ dollar damage estimates if available. If the earthquake was associated with a tsunami or volcanic eruption, it is flagged and linked to the related tsunami event or significant volcanic eruption. function: (CI_OnLineFunctionCode) search onLine: (CI_OnlineResource) linkage: https://www.ncei.noaa.gov/maps/hazards/?layers=2 protocol: http name: Natural Hazards Map Viewer - Significant Earthquakes Layer description: Tsunami source and runup locations, significant earthquake epicenters, significant volcanic eruption locations. function: (CI_OnLineFunctionCode) search onLine: (CI_OnlineResource) linkage: https://gis.ngdc.noaa.gov/export/hazards/hazards.kmz protocol: http name: Google Earth KML description: Tsunami source and runup locations, significant earthquake epicenters, significant volcanic eruption locations. function: (CI_OnLineFunctionCode) download onLine: (CI_OnlineResource) linkage: https://www.ngdc.noaa.gov/hazard/ name: NGDC Natural Hazards Website description: Data, products and services for natural hazards. function: (CI_OnLineFunctionCode) information return to top dataQualityInfo: (DQ_DataQuality) scope: (DQ_Scope) level: (MD_ScopeCode) dataset lineage: (LI_Lineage) statement: The Significant Earthquake database originated from the Significant Earthquake Catalog (Ganse, Robert A., John B. Nelson, 1981). The aforementioned catalog was an expansion of a file originally created to produce the World Map of Significant Earthquakes 1900 to Present (1979). The database is now updated regularly from sources such as U.S. Geological Survey, national and government databases and reports, earthquake and tsunami catalogs, post-event reconnaissance reports, journal articles, newspapers, internet pages, email and other written documents. processStep: (LI_ProcessStep) description: The database is updated upon the availability of new earthquake data. processor: (CI_ResponsibleParty) individualName: Natural Hazards Data Manager organisationName: DOC/NOAA/NESDIS/NCEI > National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce role: (CI_RoleCode) custodian source: (LI_Source) description: The Significant Earthquake database originated from the Significant Earthquake Catalog (Ganse, Robert A., John B. Nelson, 1981). sourceCitation: (CI_Citation) title: Catalog of Significant Earthquakes 2000 B.C. - 1979, Including Quantitative Casualties and Damage date: (CI_Date) date: 1981-01-01 dateType: (CI_DateTypeCode) publication citedResponsibleParty: (CI_ResponsibleParty) organisationName: Ganse, Robert A. role: (CI_RoleCode) author citedResponsibleParty: (CI_ResponsibleParty) organisationName: Nelson, John B. role: (CI_RoleCode) author series: (CI_Series) name: World Data Center A for Solid Earth Geophysics Report issueIdentification: SE-27 otherCitationDetails: 155 p. return to top dataQualityInfo: (DQ_DataQuality) scope: (DQ_Scope) level: (MD_ScopeCode) dataset report: (DQ_CompletenessCommission) evaluationMethodDescription: Erroneous statistical conclusions can be drawn from the numbers of earthquakes taken from Catalog of Significant Earthquakes, 2150 B.C. to the present. The reporting of large or destructive earthquakes is not homogeneous in space or time, particularly for periods prior to the 1900s. Because this publication mainly lists those earthquakes that have caused death or damage, the number of earthquake reports is dependent on the written history available for a particular region, as well as on the rate of development of population centers and related structures. Therefore, it is misleading to use the numbers of significant earthquakes in that publication to suggest statistically that there has been an increase in worldwide seismic activity since 1900 or for any time period. that "apparent" increase in activity: Instrumental seismology is a young science. The first calibrated instruments to measure seismic waves traveling through the earth did not appear until the late 1800s. At that time, seismologists became aware of the vast numbers of earthquakes occurring throughout the world, but because of the insensitivity of their instruments they were able to locate only the large magnitude events. The 1960s saw two major advances. First, a network of seismological observatories, the Worldwide Standardized Seismograph Network (WWSSN), was installed by the United States Government, principally to monitor underground nuclear tests. These sensitive instruments could detect and identify earthquakes anywhere in the world from about magnitude 4.5. Second computers became available in the late 1960s. Computers allowed seismologists to leave inaccurate and cumbersome graphical methods of locating earthquakes, and to process the increasing volume of new network data more rapidly than ever before. Prior to 1962, only hundreds of earthquake epicenters were determined each year by Government and academic institutions, but the number increased to the thousands using computerized location methods. In some special local studies, more than 100,000 earthquakes per year were identified and located. In summary, using the data in Catalog of Significant Earthquakes, 2150 B.C. to the present to suggest that there has been an increase in worldwide earthquake activity is misleading and erroneous. The above observations and reporting factors must also be considered when making statistical studies based on that historical data report. The same problems that can lead to erroneous statistics discussed above, also introduce uncertainties in the earthquake and tsunami databases for events prior to the late 1800s, and in some areas for events prior to the installation of the WWSSN in 1962. Before the invention of seismographs in the late 1800s magnitudes, times and locations of earthquakes and tsunami sources were determined from descriptions of earthquake damage and tsunami effects. Earthquake epicenters and tsunami source locations may have been assigned to the wrong places when the names of localitieis were incorrectly transcribed or when some localities had identical or very similar names. Errors may have also been introduced when the local times of earthquakes and tsunami reports were incorrectly converted to Universal Coordinated Time by catalogers. Earthquake and tsunami events can also be listed twice when the dates are recorded in different sources according to the Julian or the Gregorian calendars. As a result, the earthquake and tsunami databases may include listings of events on different dates that are actually descriptions of the same event. For a more complete discussion of these errors please see Historical Seismograms and Earthquakes of the World, edited by W.H.K. Lee, H. Meyers and K. Shimzaki, 1988, Academic Press, Inc., San Diego, California, 513 p. The tsunami database may also include errors that are unique to that database. One of the most important measurements associated with a tsunami event is the maximum runup height or water height reached above sea level in meters. Unfortunately, it is not always clear which reference level was used. The tsunami database also includes locations where the tsunami was observed, called runup locations. The same problem that occurs when identifying earthquake epicenters can occur when assigning runup locations, where the names of localities were incorrectly transcribed or where some localities had identical or very similar names. In addition, names of locations can change over time adding to the possibility of errors. If tsunami arrival and travel times are available for specific runup locations, they are included in the database. These data are valuable in verifying tsunami travel time models. The definition used in this database is the arrival or travel time of the first wave that arrives at a runup location. The first wave may not have been the largest wave, therefore the travel time reported in the original source may have been the second or third wave. result: (unknown) report: (DQ_ConceptualConsistency) measureDescription: Erroneous statistical conclusions can be drawn from the numbers of earthquakes taken from Catalog of Significant Earthquakes, 2150 B.C. to the present. The reporting of large or destructive earthquakes is not homogeneous in space or time, particularly for periods prior to the 1900s. Because this publication mainly lists those earthquakes that have caused death or damage, the number of earthquake reports is dependent on the written history available for a particular region, as well as on the rate of development of population centers and related structures. Therefore, it is misleading to use the numbers of significant earthquakes in that publication to suggest statistically that there has been an increase in worldwide seismic activity since 1900 or for any time period. that "apparent" increase in activity: Instrumental seismology is a young science. The first calibrated instruments to measure seismic waves traveling through the earth did not appear until the late 1800s. At that time, seismologists became aware of the vast numbers of earthquakes occurring throughout the world, but because of the insensitivity of their instruments they were able to locate only the large magnitude events. The 1960s saw two major advances. First, a network of seismological observatories, the Worldwide Standardized Seismograph Network (WWSSN), was installed by the United States Government, principally to monitor underground nuclear tests. These sensitive instruments could detect and identify earthquakes anywhere in the world from about magnitude 4.5. Second computers became available in the late 1960s. Computers allowed seismologists to leave inaccurate and cumbersome graphical methods of locating earthquakes, and to process the increasing volume of new network data more rapidly than ever before. Prior to 1962, only hundreds of earthquake epicenters were determined each year by Government and academic institutions, but the number increased to the thousands using computerized location methods. In some special local studies, more than 100,000 earthquakes per year were identified and located. In summary, using the data in Catalog of Significant Earthquakes, 2150 B.C. to the present to suggest that there has been an increase in worldwide earthquake activity is misleading and erroneous. The above observations and reporting factors must also be considered when making statistical studies based on that historical data report. The same problems that can lead to erroneous statistics discussed above, also introduce uncertainties in the earthquake and tsunami databases for events prior to the late 1800s, and in some areas for events prior to the installation of the WWSSN in 1962. Before the invention of seismographs in the late 1800s magnitudes, times and locations of earthquakes and tsunami sources were determined from descriptions of earthquake damage and tsunami effects. Earthquake epicenters and tsunami source locations may have been assigned to the wrong places when the names of localitieis were incorrectly transcribed or when some localities had identical or very similar names. Errors may have also been introduced when the local times of earthquakes and tsunami reports were incorrectly converted to Universal Coordinated Time by catalogers. Earthquake and tsunami events can also be listed twice when the dates are recorded in different sources according to the Julian or the Gregorian calendars. As a result, the earthquake and tsunami databases may include listings of events on different dates that are actually descriptions of the same event. For a more complete discussion of these errors please see Historical Seismograms and Earthquakes of the World, edited by W.H.K. Lee, H. Meyers and K. Shimzaki, 1988, Academic Press, Inc., San Diego, California, 513 p. The tsunami database may also include errors that are unique to that database. One of the most important measurements associated with a tsunami event is the maximum runup height or water height reached above sea level in meters. Unfortunately, it is not always clear which reference level was used. The tsunami database also includes locations where the tsunami was observed, called runup locations. The same problem that occurs when identifying earthquake epicenters can occur when assigning runup locations, where the names of localities were incorrectly transcribed or where some localities had identical or very similar names. In addition, names of locations can change over time adding to the possibility of errors. If tsunami arrival and travel times are available for specific runup locations, they are included in the database. These data are valuable in verifying tsunami travel time models. The definition used in this database is the arrival or travel time of the first wave that arrives at a runup location. The first wave may not have been the largest wave, therefore the travel time reported in the original source may have been the second or third wave. result: (unknown) return to top dataQualityInfo: (DQ_DataQuality) scope: (DQ_Scope) level: (MD_ScopeCode) repository levelDescription: (MD_ScopeDescription) other: NOAA National Centers for Environmental Information lineage: (LI_Lineage) processStep: (LE_ProcessStep) description: NOAA created the National Centers for Environmental Information (NCEI) by merging NOAA's National Climatic Data Center (NCDC), National Geophysical Data Center (NGDC), and National Oceanographic Data Center (NODC), including the National Coastal Data Development Center (NCDDC), per the Consolidated and Further Continuing Appropriations Act, 2015, Public Law 113-235. NCEI launched publicly on April 22, 2015. dateTime: DateTime: 2015-04-22T00:00:00 return to top metadataMaintenance: (MD_MaintenanceInformation) maintenanceAndUpdateFrequency: (MD_MaintenanceFrequencyCode) unknown maintenanceNote: This record was automatically modified on 2015-10-01 to include references to NCEI where applicable. contact: (CI_ResponsibleParty) organisationName: NOAA National Centers for Environmental Information positionName: Metadata Specialist role: (CI_RoleCode) editor | |
