Quantitative relative humidity reconstruction combining tree-ring with ice core oxygen isotope records

[1]  N. Stenseth,et al.  Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years , 2021, Proceedings of the National Academy of Sciences.

[2]  N. Pumijumnong,et al.  Teak Tree-Ring Cellulose δ13C, δ18O, and Tree-Ring Width from Northwestern Thailand Capture Different Aspects of Asian Monsoon Variability , 2021, Atmosphere.

[3]  M. Trnka,et al.  Recent European drought extremes beyond Common Era background variability , 2021, Nature Geoscience.

[4]  A. Bräuning,et al.  501 Years of Spring Precipitation History for the Semi-Arid Northern Iran Derived from Tree-Ring δ18O Data , 2020 .

[5]  N. Pumijumnong,et al.  A 338-year tree-ring oxygen isotope record from Thai teak captures the variations in the Asian summer monsoon system , 2020, Scientific Reports.

[6]  Jinbao Li,et al.  A 216‐year tree‐ring reconstruction of April–July relative humidity from Mt. Shiren, central China , 2020, International Journal of Climatology.

[7]  V. Singh,et al.  Does summer precipitation in China exhibit significant periodicities? , 2020, Journal of Hydrology.

[8]  Quan-lin Li Solar forcing of desert vegetation and drought frequency during the last 2700 years in the interior Qaidam Basin, northeastern Tibetan Plateau , 2020, Science China Earth Sciences.

[9]  Changfeng Sun,et al.  A 210-year tree-ring δ18O record in North China and its relationship with large-scale circulations , 2020 .

[10]  Jianglin Wang,et al.  Recent advances in dendroclimatology in China , 2019, Earth-Science Reviews.

[11]  Deliang Chen,et al.  Anthropogenic Aerosols Cause Recent Pronounced Weakening of Asian Summer Monsoon Relative to Last Four Centuries , 2019, Geophysical Research Letters.

[12]  N. Pumijumnong,et al.  Increased Variability of Thailand's Chao Phraya River Peak Season Flow and Its Association With ENSO Variability: Evidence From Tree Ring δ18O , 2019, Geophysical Research Letters.

[13]  D. Qin,et al.  CO2 Fertilization Confounds Tree‐Ring Records of Regional Hydroclimate at Northeastern Qinghai‐Tibetan Plateau , 2019, Earth and Space Science.

[14]  Haifeng Zhu,et al.  A Dual Stable Isotope Approach Unravels Common Climate Signals and Species-Specific Responses to Environmental Change Stored in Multi-Century Tree-Ring Series from the Tibetan Plateau , 2019, Geosciences.

[15]  Xuxiang Li,et al.  Seasonal Palmer drought severity index reconstruction using tree-ring widths from multiple sites over the central-western Da Hinggan Mountains, China since 1825 AD , 2019, Climate Dynamics.

[16]  Jianglin Wang,et al.  A 1556 year-long early summer moisture reconstruction for the Hexi Corridor, Northwestern China , 2019, Science China Earth Sciences.

[17]  E. Cook,et al.  Deciphering Human Contributions to Yellow River Flow Reductions and Downstream Drying Using Centuries‐Long Tree Ring Records , 2019, Geophysical Research Letters.

[18]  Yijian Zeng,et al.  Temperature signals in tree-ring oxygen isotope series from the northern slope of the Himalaya , 2019, Earth and Planetary Science Letters.

[19]  Chengyi Zhao,et al.  Spatial Variations of Climate-Driven Trends of Water Vapor Pressure and Relative Humidity in Northwest China , 2018, Asia-Pacific Journal of Atmospheric Sciences.

[20]  E. Mosley‐Thompson,et al.  Ice core records of climate variability on the Third Pole with emphasis on the Guliya ice cap, western Kunlun Mountains , 2018 .

[21]  Zhengtang Guo,et al.  Interannual to centennial variability of the South Asian summer monsoon over the past millennium , 2017, Climate Dynamics.

[22]  Weijian Zhou,et al.  Recent enhancement of central Pacific El Niño variability relative to last eight centuries , 2017, Nature Communications.

[23]  E. Zorita,et al.  Internal and external forcing of multidecadal Atlantic climate variability over the past 1,200 years , 2017 .

[24]  Yun Wei,et al.  Drylands face potential threat under 2[thinsp][deg]C global warming target , 2017 .

[25]  Xinjia Zhang,et al.  Tree-ring-width-based PDSI reconstruction for central Inner Mongolia, China over the past 333 years , 2017, Climate Dynamics.

[26]  Lifeng Wu,et al.  Climate change effects on reference crop evapotranspiration across different climatic zones of China during 1956–2015 , 2016 .

[27]  R. Oladi,et al.  Climatic forcing of xylem formation in Qilian juniper on the northeastern Tibetan Plateau , 2016, Trees.

[28]  T. Nakatsuka,et al.  Potential utility of tree ring δ18O series for reconstructing precipitation records from the lower reaches of the Yangtze River, southeast China , 2016 .

[29]  Jianping Huang,et al.  Global semi-arid climate change over last 60 years , 2016, Climate Dynamics.

[30]  L. Jian,et al.  Modeling Study on the Characteristics and Causes of East Asian Summer Monsoon Precipitation on Centennial Time Scale over the Past 2000 Years , 2015 .

[31]  Jianglin Wang,et al.  A Millennial Summer Temperature Reconstruction for the Eastern Tibetan Plateau from Tree-Ring Width* , 2015 .

[32]  Yu Liu,et al.  A tree‐ring‐based June–September mean relative humidity reconstruction since 1837 from the Yiwulü Mountain region, China , 2015 .

[33]  N. Pumijumnong,et al.  A tree-ring cellulose δ18O-based July–October precipitation reconstruction since AD 1828, northwest Thailand , 2015 .

[34]  A. Bräuning,et al.  Variability of summer humidity during the past 800 years on the eastern Tibetan Plateau inferred from δ 18 O of tree-ring cellulose , 2015 .

[35]  A. Bräuning,et al.  Drought signals in tree-ring stable oxygen isotope series of Qilian juniper from the arid northeastern Tibetan Plateau , 2015 .

[36]  A. Deslauriers,et al.  Intra-annual stem radial increment response of Qilian juniper to temperature and precipitation along an altitudinal gradient in northwestern China , 2015, Trees.

[37]  Xuezhen Zhang,et al.  Drought/flood spatial patterns in centennial cold and warm periods of the past 2000 years over eastern China , 2014 .

[38]  D. Qin,et al.  Tree‐ring δ18O evidence for the drought history of eastern Tianshan Mountains, northwest China since 1700 AD , 2014 .

[39]  Juan Pedro Ferrio,et al.  Stable isotopes in tree rings: towards a mechanistic understanding of isotope fractionation and mixing processes from the leaves to the wood. , 2014, Tree physiology.

[40]  Meixue Yang,et al.  The dramatic climate warming in the Qaidam Basin, northeastern Tibetan Plateau, during 1961–2010 , 2014 .

[41]  K. Briffa,et al.  A 3,500-year tree-ring record of annual precipitation on the northeastern Tibetan Plateau , 2014, Proceedings of the National Academy of Sciences.

[42]  Ping Zhou,et al.  Spatiotemporal characteristics of dryness/wetness conditions across Qinghai Province, Northwest China , 2013 .

[43]  Jing Gao,et al.  A review of climatic controls on δ18O in precipitation over the Tibetan Plateau: Observations and simulations , 2013 .

[44]  Qiufang Cai,et al.  Reconstruction of the March–August PDSI since 1703 AD based on tree rings of Chinese pine ( Pinus tabulaeformis Carr.) in the Lingkong Mountain, southeast Chinese loess Plateau , 2013 .

[45]  Jianglin Wang,et al.  The relationship between the Atlantic Multidecadal Oscillation and temperature variability in China during the last millennium , 2013 .

[46]  K. Fujita,et al.  May–September precipitation in the Bhutan Himalaya since 1743 as reconstructed from tree ring cellulose δ18O , 2013 .

[47]  D. Qin,et al.  Moisture variations over the past millennium characterized by Qaidam Basin tree-ring δ18O , 2013 .

[48]  T. Nakatsuka,et al.  Tree ring cellulose δ18O of Fokienia hodginsii in northern Laos: A promising proxy to reconstruct ENSO? , 2011 .

[49]  L. Sternberg,et al.  Divergent Biochemical Fractionation, Not Convergent Temperature, Explains Cellulose Oxygen Isotope Enrichment across Latitudes , 2011, PloS one.

[50]  Xiaohong Liu,et al.  Potential linkages between the moisture variability in the northeastern Qaidam Basin, China, since 1800 and the East Asian summer monsoon as reflected by tree ring δ18O , 2011 .

[51]  A. Bräuning,et al.  Late Holocene Asian summer monsoon variability reflected by δ18O in tree‐rings from Tibetan junipers , 2011 .

[52]  Meixue Yang,et al.  Tree ring based streamflow reconstruction for the Upper Yellow River over the past 1234 years , 2010 .

[53]  E. Takle,et al.  Spatial variabilities and their relationships of the trends of temperature, water vapor, and precipitation in the North American Regional Reanalysis , 2010 .

[54]  E. Cook,et al.  Spatial drought reconstructions for central High Asia based on tree rings , 2010 .

[55]  C. Fröhlich,et al.  Total solar irradiance during the Holocene , 2009 .

[56]  Xuxiang Li,et al.  Monsoon precipitation variation recorded by tree-ring δ18O in arid Northwest China since AD 1878 , 2008 .

[57]  T. Yao,et al.  A model-based determination of spatial variation of precipitation δ18O over China , 2008 .

[58]  R. Lu,et al.  Impact of the Atlantic Multidecadal Oscillation on the Asian summer monsoon , 2006 .

[59]  Y. Tandong,et al.  Climatic and environmental changes over the last millennium recorded in the Malan ice core from the northern Tibetan Plateau , 2006 .

[60]  T. Yao,et al.  Recent rapid warming trend revealed from the isotopic record in Muztagata ice core, eastern Pamirs , 2006 .

[61]  D. McCarroll,et al.  Stable isotopes in tree rings. , 2004 .

[62]  E. Mosley‐Thompson,et al.  Tropical Glacier and Ice Core Evidence of Climate Change on Annual to Millennial Time Scales , 2003 .

[63]  I. Robertson,et al.  Oxygen and hydrogen isotope ratios in tree rings: how well do models predict observed values? , 2002 .

[64]  G. Cheng,et al.  The characteristics of water resources and the changes of the hydrological process and environment in the arid zone of northwest China , 2000 .

[65]  J. Wallace,et al.  A Pacific Interdecadal Climate Oscillation with Impacts on Salmon Production , 1997 .

[66]  J. Michaelsen Cross-Validation in Statistical Climate Forecast Models , 1987 .

[67]  H. Förstel,et al.  On the enrichment of H218O in the leaves of transpiring plants , 1974, Radiation and environmental biophysics.

[68]  J. Ehleringer,et al.  A mechanistic model for interpretation of hydrogen and oxygen isotope ratios in tree-ring cellulose , 2000 .

[69]  Jonathan M. Lees,et al.  Robust estimation of background noise and signal detection in climatic time series , 1996 .