TY - THES T1 - Temperature reconstructions spanning the Continental Divide: Bristlecone and limber pine trees as proxy data T2 - Geology Y1 - 1998 A1 - Diane Douglas KW - Bristlecone KW - Continental divide KW - Limber pine KW - Pinus KW - Temperature reconstructions AB - Variability in the intensity and magnitude of the Pacific North American (PNA) circulation pattern and the reverse-PNA affects high and low frequency temperature variations on either side of the Continental Divide, on the Colorado Plateau. The PNA circulation pattern corresponds with cooler temperatures on the Colorado Plateau, whereas the reverse-PNA circulation pattern corresponds with warmer temperatures on the Colorado Plateau associated with a high pressure ridge over the Rocky Mountains. Temperature was reconstructed using three Pinus aristata (bristlecone pine) chronologies and one Pinus flexilis (limber pine) chronology from subalpine sites located on either side of the Continental Divide in Colorado and Arizona. The standardized ring-indices of the four chronologies (scAD 548-1994) were correlated with historic temperature data from twelve ground stations and upper air temperature data from four radiosonde stations in Arizona, Colorado, New Mexico and Utah. Temperature reconstructions across a transect spanning the Continental Divide on the Colorado Plateau provide valuable insight to temporal changes in large scale circulation patterns. Reconstructions of annual temperature indicate there were several periods when temperatures were below the modern mean east of the Continental Divide when they were above the modern mean west of the Continental Divide. Variability in the direction of temperature change on either side of the Continental Divide may reflect a westward displacement of the high pressure ridge at different times in history. Reconstructions of annual temperature also indicate 850 mb temperature east of the Divide is slightly higher when the PNA circulation pattern occurs as a teleconnection to El Nino Southern Oscillation (ENSO) events. In contrast, annual 700 mb temperature west of the Divide is slightly lower. Temperature reconstructions also indicate higher mean annual temperatures occurred between scAD 550 to 600, scAD 900-980, and scAD 1040-1080, and scAD 1130-150 than between 1950 and the present. These reconstructions suggest low frequency cycles of above average temperatures have occurred throughout history. These results indicate more research is required to determine whether recent warming trends identified by other researchers reflect anthropogenic warming or natural cycles. JF - Geology PB - Arizona State University VL - Phd UR - http://ezproxy.library.arizona.edu/login?url=http://proquest.umi.com/pqdweb?did=732946061&sid=18&Fmt=2&clientId=43922&RQT=309&VName=PQD ER - TY - RPRT T1 - Dendrochronology of Bristlecone Pine Y1 - 1984 A1 - Ferguson, C.W. A1 - Graybill, D.A. KW - anthropology KW - Bristlecone KW - bristlecone pine KW - california KW - carbon isotopes KW - chronology KW - climate KW - dendrochronology KW - Geology KW - white mountains PB - Laboratory of Tree-Ring Research CY - Tucson ER - TY - RPRT T1 - Bristlecone Pine Project Status Y1 - 1983 A1 - Ferguson, C.W. KW - Bristlecone KW - bristlecone pine KW - california KW - chronology KW - white mountains ER - TY - RPRT T1 - Unsolicited Proposal Submitted to the Department of Energy for Dendrochronology of Bristlecone Pine Y1 - 1980 A1 - Ferguson, C.W. KW - Bristlecone KW - bristlecone pine KW - C-14 KW - california KW - chronology KW - dendrochronology KW - department of energy KW - pinus longaeva KW - radiocarbon KW - white mountains AB -

Since 1953 the Laboratory of Tree-Ring Research has conducted dendrochronological studies of bristlecone pine (Pinus longaeva D. K. Bailey, sp. nov.) in the White Mountains of California. This research resulted in the establishment of a continuous tree-ring sequence of 8,680 years which proved to be a unique source of chronological data and provided precisely dated wood specimens essential to certain paleoenvironmental and geophysical investigations. Dendrochronologically dated decade samples of bristlecone pine continue to be supplied to C-14 laboratories for the calibration of the radiocarbon time scale, a development of far reaching consequences in the fields of archaeology and geology. To more fully understand the causative factors, especially the activity of the sun, a critical need exists to better define the fluctuations and trends of the C-14 curve through even stronger and earlier bristlecone pine controls. In addition, recent advances in other methods of analyzing past climatic variability –particularly techniques involving stable isotope ratios—have greatly increased the demand for wood of known age and, hence, for chronology development.

During the past 18 months, the early portions of the chronology have been greatly strengthened and extended. The objective of the proposed research is to continue the extension of the bristlecone pine chronology further into the past and to strengthen it by incorporating additional dated specimens from the White Mountains and nearby areas. Prospects for a 10,000-year chronology appear increasingly possible.

PB - Laboratory of Tree-Ring Research CY - Tucson ER -