TY - JOUR T1 - Postglacial climate reconstruction based on compound-specific D/H ratios of fatty acids from Blood Pond, New England JF - Geochemistry Geophysics Geosystems Y1 - 2006 A1 - Hou, J. Z. A1 - Huang, Y. S. A1 - Wang, Y. A1 - Shuman, B. A1 - Oswald, W. W. A1 - Faison, E. A1 - Foster, D. R. KW - atmospheric processes : paleoclimatology KW - eastern north-america KW - fatty acids KW - geochemistry : organic and biogenic geochemistry KW - geochemistry : stable isotope geochemistry KW - Holocene KW - hydrogen isotope KW - hydrogen isotope ratios KW - lacustrine organic-matter KW - lake-sediments KW - Paleoclimate KW - record KW - Stable isotopes KW - united-states KW - vegetation history KW - younger-dryas AB - We determined hydrogen isotope ratios of individual fatty acids in a sediment core from Blood Pond, Massachusetts, USA, in order to reconstruct climate changes during the past 15 kyr. In addition to palmitic acid (C-16 n-acid), which has been shown to record lake water D/H ratios, our surface sediments and down core data indicate that behenic acid (C-22 n-acid), produced mainly by aquatic macrophytes, is also effective for capturing past environmental change. Calibration using surface sediments from two transects across eastern North America indicates that behenic acid records delta D variation of lake water. Down core variations in delta D values of behenic acid and pollen taxa are consistent with the known climate change history of New England. By evaluating the hypothesis that D/H fractionations of long chain even numbered fatty acids (C-24-C-32 n-acids) relative to lake water provide independent estimates of relative humidity during the growing season, we find that differences between lake-level records and isotopically inferred humidity estimates may provide useful insight into seasonal aspects of the hydrologic cycle. Combined analyses of D/H of short and long chain fatty acids from lake sediment cores thus allow reconstructions of both past temperature and growing season relative humidity. Comparison of delta D records from two lakes in New England provides critical information on regional climate variation and abrupt climate change, such as the 8.2 ka event. VL - 7 SN - 1525-2027 IS - 3 N1 - 031uaTimes Cited:32 Cited References Count:43 JO - Geochem Geophy Geosy ER -