Add to ORKGAbstract. Two independent calibrated and verified climate reconstructions from ecologically contrasting tree-ring sites in the southern Colorado Plateau, U.S.A. reveal decadal-scale climatic trends during the past two millennia. Combining precisely dated annual mean-maximum temperature and October through July precipitation reconstructions yields an unparalleled record of climatic variability. The approach allows for the identification of thirty extreme wet periods and thirty-five extreme dry periods in the 1,425-year precipitation reconstruction and 30 extreme cool periods and 26 extreme warm periods in 2,262-year temperature reconstruction. In addition, the reconstructions were integrated to identify intervals when conditions were extreme...
Final Technical Report / Grant No. AFOSR 72-2406 / March 1, 1976Results are reported from the first ...
The lack of instrumental data before the mid-19th-century limits our understanding of present warmin...
It is virtually certain that the mean surface temperature of the Earth will continue to increase und...
Cool- and warm-season precipitation totals have been reconstructed on a gridded basis for North Amer...
Millennial length temperature and precipitation reconstructions from tree rings are developed for th...
July temperature (TJUL) and total annual precipitation (ANNP) are reconstructed to better understand...
We present a significant update to a millennial summer temperature reconstruction (1073-1983) that w...
We review evidence for climate change over the past several millennia from instrumental and high-res...
Previous studies have either exclusively used annual tree-ring data or have combined tree-ring serie...
Abstract. Rainfall during the warm season (June 15-October 15) is the most important of the year in ...
The context of megadrought, drought more severe than any we have experienced over the past 100 years...
A tree-ring-based reconstruction for 1 April snow water equivalent (SWE) is generated for the Gunnis...
A millennium-long tree-ring-width chronology from the middle Qilian Mountains in northwestern China ...
We describe a new method for making palaeoclimate reconstructions. The method produces seasonal pala...
[1] Previous tree-ring-based Northern Hemisphere temperature reconstructions portray a varying ampli...
Final Technical Report / Grant No. AFOSR 72-2406 / March 1, 1976Results are reported from the first ...
The lack of instrumental data before the mid-19th-century limits our understanding of present warmin...
It is virtually certain that the mean surface temperature of the Earth will continue to increase und...
Cool- and warm-season precipitation totals have been reconstructed on a gridded basis for North Amer...
Millennial length temperature and precipitation reconstructions from tree rings are developed for th...
July temperature (TJUL) and total annual precipitation (ANNP) are reconstructed to better understand...
We present a significant update to a millennial summer temperature reconstruction (1073-1983) that w...
We review evidence for climate change over the past several millennia from instrumental and high-res...
Previous studies have either exclusively used annual tree-ring data or have combined tree-ring serie...
Abstract. Rainfall during the warm season (June 15-October 15) is the most important of the year in ...
The context of megadrought, drought more severe than any we have experienced over the past 100 years...
A tree-ring-based reconstruction for 1 April snow water equivalent (SWE) is generated for the Gunnis...
A millennium-long tree-ring-width chronology from the middle Qilian Mountains in northwestern China ...
We describe a new method for making palaeoclimate reconstructions. The method produces seasonal pala...
[1] Previous tree-ring-based Northern Hemisphere temperature reconstructions portray a varying ampli...
Final Technical Report / Grant No. AFOSR 72-2406 / March 1, 1976Results are reported from the first ...
The lack of instrumental data before the mid-19th-century limits our understanding of present warmin...
It is virtually certain that the mean surface temperature of the Earth will continue to increase und...