Contribution of changes in atmospheric circulation patterns to extreme temperature trends.
about
Trends in atmospheric patterns conducive to seasonal precipitation and temperature extremes in California.Climate Change Increases Drought Stress of Juniper Trees in the Mountains of Central Asia.Record Balkan floods of 2014 linked to planetary wave resonance.Coldest Temperature Extreme Monotonically Increased and Hottest Extreme Oscillated over Northern Hemisphere Land during Last 114 Years.Increasing Confidence of Proteomics Data Regarding the Identification of Stress-Responsive Proteins in Crop Plants.Projected changes in prevailing winds for transatlantic migratory birds under global warming.Strengthening North Pacific Influences on United States Temperature Variability.Quantifying the influence of global warming on unprecedented extreme climate eventsVegetation changes and land surface feedbacks drive shifts in local temperatures over Central Asia.Making better maize plants for sustainable grain production in a changing climateRecent amplification of the North American winter temperature dipole.Trade-offs for food production, nature conservation and climate limit the terrestrial carbon dioxide removal potential.The influence of mid-latitude storm tracks on hot, cold, dry and wet extremes.On the causes of trends in the seasonal amplitude of atmospheric CO2.Dynamic Regimes of El Niño Southern Oscillation and Influenza Pandemic Timing.Amplification of heat extremes by plant CO2 physiological forcing.Warm Arctic episodes linked with increased frequency of extreme winter weather in the United States.Increasing occurrence of cold and warm extremes during the recent global warming slowdown.Natural hazards in Australia: heatwavesThe influence of Arctic amplification on mid-latitude summer circulationThe implications of mid-latitude climate extremes for North American migratory bird populationsOn the use of self-organizing maps for studying climate extremesEvaluating synoptic systems in the CMIP5 climate models over the Australian regionProjected changes in synoptic weather patterns over New Zealand examined through self-organizing mapsEvidence for wave resonance as a key mechanism for generating high-amplitude quasi-stationary waves in boreal summerRegional responses of surface ozone in Europe to the location of high-latitude blocks and subtropical ridgesAtmospheric Dynamics Leading to West European Summer Hot Temperatures Since 1851Can tree-ring density data reflect summer temperature extremes and associated circulation patterns over Fennoscandia?Remote Linkages to Anomalous Winter Atmospheric Ridging Over the Northeastern PacificWhat caused the recent “Warm Arctic, Cold Continents” trend pattern in winter temperatures?Weakened Flow, Persistent Circulation, and Prolonged Weather Extremes in Boreal SummerA Review of Recent Advances in Research on Extreme Heat EventsTwenty-five winters of unexpected Eurasian cooling unlikely due to Arctic sea-ice lossRegional warming of hot extremes accelerated by surface energy fluxesAtmospheric drivers of Greenland surface melt revealed by self-organizing mapsPodcast: Diagnosing cancer early, and Antarctica’s surprising biodiversitySevere weather linked more strongly to global warming
P2860
Q31070299-D1DA4C53-A814-4AD1-8065-9E7699A51671Q31082414-EA4F8239-4E08-4F6B-8787-4DB97AB3C1D0Q31092000-EB998894-0D58-4F3A-A04C-45764764BFB7Q31095657-D72DDEDB-48D7-441E-A8A5-E2587ECD3139Q31104859-9DCE10EE-E766-420E-BBB5-25A0A2029912Q31148792-FC4E64BB-A3F1-43AF-AFDD-4DA18E009725Q33669022-560E8720-5D22-4EB6-8019-C403A7F29DC5Q33719344-169E550F-5E23-482E-89D7-A7CC8B5C8F55Q33789685-B49CE931-7405-440C-89B9-F961D8100F93Q36123238-C18CD377-81A7-4099-BA14-29B9B9DF0159Q36191380-60029238-8C8F-492C-86B0-3AB2038CB44BQ36361014-EAACF2D2-80B8-4FF8-A767-841EC94BFEF5Q36363845-441F71EF-1F28-43B2-A8C4-480ECBF10EE5Q46306444-E4F52672-25FC-4E33-93D5-9AB4DA413210Q47102146-B6821CDA-CF75-4AB8-B4BF-80D4EE506E2AQ52653210-B0139664-3718-4CC0-86B0-78384997BD3BQ52657338-C45D89D4-55A3-47D3-83CA-492E2579B30BQ53282547-BBF1C348-9DA6-4BD3-AE77-2B20FD5EE0F6Q56575669-9608FDD5-E156-4882-B06F-668969CFF814Q57091353-C3453E47-CE6C-4C66-965B-2BC1B6D8D01CQ57562624-50801B2A-C7A4-4BC8-AFE2-D634F66A869AQ57590691-2C20897B-9B2D-4A9E-B275-8CF95916D97FQ57590706-9744FF23-0F1F-49E5-B933-60AD27813E4FQ57590707-C41F2926-B398-4F91-9417-57353D990FD0Q57728215-F87E71C7-F4E3-490F-8243-48460FB59C0BQ57882249-C768B3AB-9163-49F0-8227-0CCA475453CDQ57886089-9E4FDD43-1A37-4D12-9E2A-C1F4DC12ADA1Q58007265-5BFAB9EB-0C2D-4DBC-84FC-A2964D43E950Q58056236-5B591CA1-22A9-4696-8D26-E0D28242939CQ58057837-FB3AE401-AFFD-4E4C-B5D9-0405FE31B62EQ58067495-C64DE1A5-14D7-4F1F-AF6E-1D981249B181Q58068583-3FD95696-767F-4098-ADE1-697F4D89C6E4Q58076740-C406E621-8AEA-4DEC-A3E9-FDA7D6E36E5FQ58404207-3709F739-1B4A-4051-B0BD-FF1831A21C0AQ58410538-9E8C6AEA-ACD8-49A9-887F-3B536E7A08E0Q74440220-D322BD18-9D5D-493A-B0DE-B921EFA68671Q74440753-18A50E27-F66D-4EEC-B358-FA0A9D7EBAEC
P2860
Contribution of changes in atmospheric circulation patterns to extreme temperature trends.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh
2015年學術文章
@zh-hant
name
Contribution of changes in atm ...... to extreme temperature trends.
@en
type
label
Contribution of changes in atm ...... to extreme temperature trends.
@en
prefLabel
Contribution of changes in atm ...... to extreme temperature trends.
@en
P2093
P2860
P50
P356
P1433
P1476
Contribution of changes in atmospheric circulation patterns to extreme temperature trends
@en
P2093
Bala Rajaratnam
Deepti Singh
Nathaniel C Johnson
P2860
P2888
P304
P356
10.1038/NATURE14550
P407
P577
2015-06-01T00:00:00Z
P6179
1012664146