A 60,000-year record of hydrologic variability in the Central Andes from the hydrogen isotopic composition of leaf waxes in Lake Titicaca sediments

Fornace, Kyrstin L.; Hughen, Konrad A; Shanahan, T. M.; Fritz, Sherilyn C.; Baker, Paul A.; Sylva, Sean P.

doi:10.1016/j.epsl.2014.10.024

Cited by 48 publications

(58 citation statements)

References 66 publications

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“…While the Central Andes and southern Brazil experienced a relatively wet LGM, a trend towards drier conditions from ~35-21 ka at LLG suggests a reorganization of monsoon circulation under LGM boundary conditions that led to decreased precipitation in the lowland interior tropics. We do not find any strong evidence of precessional orbital forcing at LLG during the last glacial period, consistent with several Central Andes and western Amazon records (Fornace et al, 2014;Cheng et al, 2013;Mosblech et al, 2012;Kanner et al, 2012) and in contrast to the strong precessional signal in southern Brazilian speleothem records (Cruz et al, 2005, Wang et al, 2007. During the Holocene, however, our record, along with most other SASM records, does support hydrologic change driven by precessional changes in insolation.…”

Section: Paleoclimate Implicationsmentioning

confidence: 42%

“…Relative drought during the LGM at LLG stands in contrast to clear evidence of wet conditions in the Central Andes (Baker et al, 2001;Fornace et al, 2014) at this time. However, speleothem records from western Amazonia do not show increased SASM intensity during the LGM as would be expected during a period of high austral summer insolation (Mosblech et al, 2012;Cheng et al, 2013).…”

Section: Paleoclimate Implicationsmentioning

confidence: 71%

“…Changes in the distribution and intensity of SASM precipitation can alter hydrologic and vegetation patterns across much of the South American continent with potentially significant ramifications for both the global carbon cycle and climate system. An increasingly coherent picture of late Quaternary SASM behavior has begun to emerge from a number of records of SASM precipitation from the Central Andes, western Amazonia and southern Brazil (Cruz et al, 2005;Wang et al, 2007;Mosblech et al, 2012;Kanner et al, 2012;Cheng et al, 2013;Fornace et al, 2014). These records indicate that generally wet conditions prevailed during the Last Glacial Maximum (LGM) and late glacial period, followed by a shift towards drier conditions in the early/mid-Holocene.…”

Section: Introductionmentioning

confidence: 99%

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Late Quaternary environmental change in the interior South American tropics: new insight from leaf wax stable isotopes

Fornace

Whitney

Galy

et al. 2016

Earth and Planetary Science Letters

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Section: Paleoclimate Implicationsmentioning

confidence: 42%

Section: Paleoclimate Implicationsmentioning

confidence: 71%

Section: Introductionmentioning

confidence: 99%

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Late Quaternary environmental change in the interior South American tropics: new insight from leaf wax stable isotopes

Fornace

Whitney

Galy

et al. 2016

Earth and Planetary Science Letters

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“…Relative drought during the LGM at LLG stands in contrast to clear evidence of wet conditions in the Central Andes Fornace et al, 2014) at this time. However, speleothem records from western Amazonia do not show increased SASM intensity during the LGM as would be expected during a period of high austral summer insolation Cheng et al, 2013).…”

Section: Paleoclimate Implicationsmentioning

confidence: 70%

“…As discussed extensively in Fornace et al (2014) (Chapter 2 of this thesis), the Titicaca catchment has experienced large changes in precipitation since the last glacial period. Multiple lines of evidence point to wetter conditions on the Altiplano during the last glacial maximum (LGM) and late glacial period Fornace et al, 2014) compared to the Holocene.…”

Section: Past Climate Variability At Lake Titicacamentioning

confidence: 99%

Late Quaternary climate variability and terrestrial carbon cycling in tropical South America

Fornace¹

2016

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Characterizing global and regional climate variability and climate-carbon cycle interactions in the past provides critical context for evaluating present and future climate trends. In this thesis, I use stable isotope and radiocarbon analysis of vascular plant biomarkers in lacustrine and marine sediment cores to explore late Quaternary climate variability and connections between past climate change and terrestrial carbon cycling in tropical South America. I investigate temporal and spatial trends in South American Summer Monsoon precipitation by reconstructing hydrologic variability over the past 50,000 years at two sites: the Lake Titicaca drainage basin in the Central Andes and the Pantanal wetlands in the interior lowlands. Diverging hydrologic trends at these two sites during the last glacial period suggest altered monsoon circulation patterns under glacial conditions, while changes in summer insolation appear to be an important control of precipitation at both sites during the Holocene. I next assess the relationship between climate change and the age structure of terrestrial biospheric carbon exported from two tropical catchments over the past 20,000 years. Radiocarbon dating of leaf waxes in Cariaco Basin and Lake Titicaca sediment records indicates that waxes preserved in sediments are likely composed of a fresh component transported to sediments within decades of production by vegetation and an old component derived from aged soil organic matter with an average age on the order of millennia at time of deposition. Results from both sites show that past hydrologic variability had a significant impact on the mobilization and export of different pools of terrestrial biospheric carbon. In particular, results from Cariaco Basin suggest that wetter conditions in the past resulted in increased export of fresh biospheric carbon to the ocean, representing a potentially important climate feedback mechanism on geologic timescales.

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Provenance of dust to Antarctica: A lead isotopic perspective

Gili

Gaiero

Goldstein

et al. 2016

Geophysical Research Letters

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Antarctic ice preserves an ~800 kyr record of dust activity in the Southern Hemisphere. Major efforts have been dedicated to elucidate the origin of this material in order to gain greater insight into the atmospheric dust cycle. On the basis of Pb isotopes in Antarctic dust samples and potential sources, this contribution demonstrates for the first time that Patagonia is the main contributor of dust to Antarctica during interglacial periods as well as glacials, although the potential importance of Tierra del Fuego remains unclear because of its geochemical similarities to Patagonia. An important new finding is that the Puna‐Altiplano sector of the continent is a second important dust source to eastern Antarctica during both glacials and interglacials, being more prominent during interglacials. The data indicate South America is the primary dust source to Antarctica during both glacials and interglacials.

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A 60,000-year record of hydrologic variability in the Central Andes from the hydrogen isotopic composition of leaf waxes in Lake Titicaca sediments

Cited by 48 publications

References 66 publications

Late Quaternary environmental change in the interior South American tropics: new insight from leaf wax stable isotopes

Late Quaternary environmental change in the interior South American tropics: new insight from leaf wax stable isotopes

Late Quaternary climate variability and terrestrial carbon cycling in tropical South America

Provenance of dust to Antarctica: A lead isotopic perspective

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