Global ETD Search

11	Modern New Zealand Tree-Ring Chronologies III. Agathis australis (Salisb.) - Kauri Ahmed, Moinuddin, Ogden, John January 1985 (has links) Dendrochronological sampling of sixteen stands of kauri (Agathis australis) covering almost the whole range of the species in northern New Zealand is described. Eight new chronologies were obtained and compared to previous results from the same species. It is concluded that north-facing slopes are most suitable for tree-ring studies in this species. The chronologies cover a maximum period from A.D. 1580 to 1981 and show from 20 to 35 percent common chronology variance over the sample period 1790 to 1976. All the chronologies are significantly correlated with all others, and the degree of correlation appears unrelated to the spatial separation between the sites. Some longer-term (15 to 30 year) trends are also shared by most chronologies; narrow rings and high between-tree and between-site correlations were a feature of the first two decades of the Twentieth Century. Similar tree ring patterns, and similar site characteristics suggest that the chronology network described here is suitable for palaeoclimatic reconstruction back to at least 1750. Dendrochronology Tree Rings Dendroclimatology
12	Dendroclimatological Study of Pinus Sylvestris L. in Southern Catalonia (Spain) Gutiérrez, Emilia January 1989 (has links) Two modem tree-ring width chronologies of Pinus sylvestris L. have been established in an area near the southern limit of the species' distribution. Trees were sampled in the South of Catalonia in northeastern Spain where Mediterranean climatic conditions are of primary influence. To better understand climate ring-width relationships, tree-ring index series have been studied in relation to local climate. Ring-widths are strongly related to low precipitation at the beginning of the growing season in March, in June of the current growth year, and in September prior to tree-ring growth. High temperatures mainly affect growth in summer during the growing season and in autumn of the year prior to growth. During the winter, mainly in December, mean monthly temperatures show a significant positive correlation with growth. Major factors controlling the southern distribution of P. sylvestris may be related not only to water stress in summer but also to the amount of precipitation at the beginning of the growing season and in autumn, even in mild winters. Dendrochronology Tree Rings Dendroclimatology
13	Fine-scale modeling of bristlecone pine treeline position in the Great Basin, USA Bruening, Jamis M, Tran, Tyler J, Bunn, Andrew G, Weiss, Stuart B, Salzer, Matthew W 10 January 2017 (has links) Great Basin bristlecone pine (Pinus longaeva) and foxtail pine (Pinus balfouriana) are valuable paleoclimate resources due to their longevity and climatic sensitivity of their annually-resolved rings. Treeline research has shown that growing season temperatures limit tree growth at and just below the upper treeline. In the Great Basin, the presence of precisely dated remnant wood above modern treeline shows that the treeline ecotone shifts at centennial timescales tracking long-term changes in climate; in some areas during the Holocene climatic optimum treeline was 100 meters higher than at present. Regional treeline position models built exclusively from climate data may identify characteristics specific to Great Basin treelines and inform future physiological studies, providing a measure of climate sensitivity specific to bristlecone and foxtail pine treelines. This study implements a topoclimatic analysis-using topographic variables to explain patterns in surface temperatures across diverse mountainous terrain-to model the treeline position of three semi-arid bristlecone and/or foxtail pine treelines in the Great Basin as a function of growing season length and mean temperature calculated from in situ measurements. Results indicate: (1) the treeline sites used in this study are similar to other treelines globally, and require a growing season length of between 147-153 days and average temperature ranging from 5.5 degrees C-7.2 degrees C, (2) site-specific treeline position models may be improved through topoclimatic analysis and (3) treeline position in the Great Basin is likely out of equilibrium with the current climate, indicating a possible future upslope shift in treeline position. dendroclimatology topoclimate dendrochronology
14	Climate variability in the Southwestern United States as reconstructed from tree-ring chronologies Woodhouse, Connie Ann, 1957- January 1996 (has links) The primary goal of this research is to gain a better understanding of the spatial and temporal relationships between atmospheric circulation features and winter climate variability in the southwestern United States, and to investigate the variations in these relationships over the past three centuries. A set of six circulation indices is compiled that describes circulation features important to winter climate variability in this region. This set includes pre-existing indices such as the SOI and a modified PNA index, as well as regionally-tailored indices. A network of 88 tree-ring chronologies is then used to reconstruct the indices and the regional winter climate variables: numbers of rainy days (a variable not previously reconstructed with tree rings) and mean maximum temperature. Analyses suggest that three types of circulation features have influenced winter climate in the Southwest over the past three centuries. Although ENSO-related circulation patterns have been an important factor, especially in the 20th century, circulation patterns featuring a southwestern low appear to be as important if not more important to climate in some time periods. Results suggest that low frequency variations in atmospheric circulation patterns have occurred over the past three centuries and have had spatially and temporally varying impacts on winter climate in the Southwest. Hydrology. Dendroclimatology -- Southwest, New.
15	Dendroclimatology in the northeastern United States Conkey, Laura Elizabeth January 1979 (has links) No description available.
16	North American Monsoon Paleoclimatology From Tree Rings Griffin, Richard Daniel January 2013 (has links) The North American monsoon is central to Southwestern climate and is a research focus in climatology. Of the various monsoon paleoclimate proxies, precisely dated and seasonally resolved tree-ring records offer unique opportunity for contextualizing modern instrumental observations and climate model projections. Focused on latewood, the dark-colored sub-annual component of conifer tree rings that forms in the late growing season, this dissertation research represents a systematic effort to diagnose the tree-growth response to monsoon climate, to develop a replicated network of monsoon-sensitive chronologies, and to characterize monsoon paleoclimate variability in the southwestern United States. A pilot study using latewood measurements from five locations assessed seasonal climate response sensitivity to various chronology development techniques. Results informed a protocol for chronology development, which was used to produce a unique network of 53 monsoon-sensitive latewood chronologies for the southwestern United States. A chronology subset was used to develop the first monsoon precipitation reconstruction for a large and important region of the southwestern United States and northwestern Mexico. This reconstruction revealed monsoon paleodroughts more persistent and extreme than any during the instrumental era and indicated that the southwestern decadal droughts of the last 470 years were characterized not just by cool-season precipitation deficits, but also by persistently dry monsoon conditions. The previously noted tendency for winter and summer precipitation to be out of phase was found to be unstable through time and anomalously strong during the recent instrumental era. The paleoclimatic significance of the new sub-annual chronology network was characterized in terms of chronology signal strength, climate response seasonality, and dominant spatiotemporal structure. With only a few exceptions, the latewood chronologies were found to contain monsoon-specific climate signal that was not available from previously existing records of annual tree-ring width. Principal components analysis revealed that the chronology network captures both temporal variability and spatial structure inherent to monsoon precipitation. As such, proxy data developed in this dissertation are unique are uniquely suited for studying spatiotemporal variability in monsoon paleoclimate. Outcomes from this dissertation are broadly relevant in environmental research and could potentially inform long-term strategies for adaptive management of natural resources. dendroclimatology Geography American Southwest
17	An application of climatological water balance modeling to dendroclimatology in the Black Hills of South Dakota Ni, Wanmei. January 1993 (has links) (PDF) Thesis (M.S.)--University of Arizona, 1993. / Includes abstract. Includes bibliographical references (p. 134-138). Dendroclimatology Climatology Tree-rings
18	Dendroclimatological investigation of river red gum (Eucalyptus camaldulensis Dehnhardt) / Argent, Robert Murray. January 1995 (has links) Thesis (Ph. D.)--University of Melbourne, 1995. / Typescript. Includes bibliographical references (leaves [279]-287). Also available in electronic version via the World Wide.
19	Climate variability in the Southwestern United States as reconstructed from tree-ring chronologies Woodhouse, Connie Ann, January 1900 (has links) (PDF) Thesis (Ph. D.-- Geosciences) University of Arizona, 1996. / Includes bibliographical references (leaves 175-187). Dendroclimatology Southwest, New
20	Wind River Basin, Wyoming streamflow reconstructions Watson, Thomas J. January 2007 (has links) Thesis (M.S.)--University of Wyoming, 2007. / Title from PDF title page (viewed on July 26, 2010). Includes bibliographical references (p. 19-23). Streamflow Droughts Dendroclimatology.

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