about
Can increasing carbon dioxide cause climate change?A common-sense climate index: is climate changing noticeably?The persistently variable "background" stratospheric aerosol layer and global climate change.In situ and space-based observations of the Kelud volcanic plume: The persistence of ash in the lower stratosphereA microfluidic cell culture device (μFCCD) to culture epithelial cells with physiological and morphological properties that mimic those of the human intestine.Stratospheric aerosol-Observations, processes, and impact on climateTwo major volcanic cooling episodes derived from global marine air temperature, AD 1807-1827Volcanic sulfur emissions: Estimates of source strength and its contribution to the global sulfate distributionThe Consensus on Anthropogenic Global Warming MattersSolar radiative forcing at selected locations and evidence for global lower tropospheric cooling following the eruptions of El Chichón and PinatuboRobust global ocean cooling trend for the pre-industrial Common EraCOMMENT ON "FALSIFICATION OF THE ATMOSPHERIC CO2 GREENHOUSE EFFECTS WITHIN THE FRAME OF PHYSICS"Monitoring the Mt. Pinatubo aerosol layer with NOAA/11 AVHRR dataCounteracting the climate effects of volcanic eruptions using short-lived greenhouse gasesStratospheric aerosol particles and solar-radiation managementStratospheric Aerosols from Major Volcanic Eruptions: A Composition-Climate Model Study of the Aerosol Cloud Dispersal and e-folding TimeStratospheric ozone response to sulfate geoengineering: Results from the Geoengineering Model Intercomparison Project (GeoMIP)The 15 June 1991 Eruption of Mount Pinatubo. I. Phase Equilibria and Pre-eruption P-T-fO2-fH2O Conditions of the Dacite MagmaPractice and philosophy of climate model tuning across six US modeling centersSensitivity of volcanic aerosol dispersion to meteorological conditions: A Pinatubo case studyRadiative and Chemical Response to Interactive Stratospheric Sulfate Aerosols in Fully Coupled CESM1(WACCM)Impacts of a Pinatubo-size volcanic eruption on ENSORadiative impact of the Mount Pinatubo volcanic eruption: Lower stratospheric responseThe contribution of Hubert H. Lamb to the study of volcanic effects on climateClimate and nitrogen controls on the geography and timescales of terrestrial biogeochemical cyclingSensitivity of the regional climate in the Middle East and North Africa to volcanic perturbationsMeteorological responses to Mt. Baekdu volcanic eruption over east asia in an offline global climate-chemistry model: A pilot studyA practical philosophy of complex climate modellingThe role of long-lived greenhouse gases as principal LW control knob that governs the global surface temperature for past and future climate changeImpact of Stratospheric Volcanic Aerosols on Age-of-Air and Transport of Long-Lived SpeciesPossible regional climate consequences of the Pinatubo eruption: An empirical approach
P2860
Q24604189-C6A10FFF-3266-44B2-91E2-FCFBFC34C8E4Q28776483-CF5EA589-B933-444B-9A2E-BF83E2A976EFQ33967723-79917B36-1996-4CC5-BF30-F09AA1463388Q42682233-A71E6112-91C8-42DC-9868-64D9BEA3E652Q51491739-D124B6AB-A2EE-4FB6-8255-AB17E5211D32Q56066639-5C32B13F-5783-4CBC-937C-F2B8AC4628EBQ56068655-4785B324-995F-4B8B-A2FF-9A3A1BE9B37CQ56083063-55380452-3C90-42C6-93EF-486E587A550DQ56226663-94A9D2C7-4CC6-47CB-9B94-DD4BE6E33151Q56443367-2AEA13FA-E6F7-4D5F-B377-D828BEE31C8BQ56680688-4C9FF1F8-3404-40C4-B25B-480C92D5E746Q56875432-47D68EAC-8459-483E-8038-D86F126C7DB4Q57277837-5B3006A4-20E6-4C66-8DF1-974155C01221Q57402959-8F8851DA-DC67-475F-87DA-FFC8521AD1B4Q57534050-DDA9C1CE-1013-4734-B4BD-0A35386BF9D7Q57536785-B43D6402-1CE2-4264-843E-E9BC9C705645Q57536800-4D3FE34F-15AD-4F19-9A20-B3477D0CA9ACQ57872302-098CBF57-A08E-4A3F-9787-61368FDEF7C4Q57894840-E381B014-3B96-49F4-936A-885EE2535F1AQ57915001-A3972534-2678-484D-9455-BEBFF46674F4Q58070024-AA001A5C-051A-4419-8EC8-95201D775F62Q58073040-8802D482-15D3-4DAD-A650-F904AD999080Q58262192-685B04C0-A5BE-4B10-8B22-76854A02851BQ58262481-568A9CEE-D124-4868-B63E-95A435B386E5Q58315710-6E5F1FEF-CA6B-4B6F-8478-4A902C9950E0Q58382432-0C5905FA-4A17-49D8-AA25-23127734ED30Q58383515-20A88D97-E64F-4155-A88D-AC95C29F180BQ58384456-DC108BE2-279F-48FF-A79C-29585F550708Q58402908-586CF764-F816-4ADB-8AC5-598CC846BC57Q58404516-F2D54429-FF19-4FA0-8E75-CF3E8AE39D36Q59164921-7EB94D83-65F9-4D36-887D-F70F9FEDC1C8
P2860
description
im Januar 1992 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 1992
@uk
name
Potential climate impact of Mount Pinatubo eruption
@en
Potential climate impact of Mount Pinatubo eruption
@nl
type
label
Potential climate impact of Mount Pinatubo eruption
@en
Potential climate impact of Mount Pinatubo eruption
@nl
prefLabel
Potential climate impact of Mount Pinatubo eruption
@en
Potential climate impact of Mount Pinatubo eruption
@nl
P2860
P50
P356
P1476
Potential climate impact of Mount Pinatubo eruption
@en
P2093
Andrew Lacis
P2860
P304
P356
10.1029/91GL02788
P407
P577
1992-01-24T00:00:00Z