1. Establishment and formation of fog-dependent tillandsia landbeckii dunes in the atacama desert: evidence from radiocarbon and stable isotopes
- Author
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Pablo A. Marquet, Angélica L. González, Claudio Latorre, Jose Farina, Raquel Pinto, and Jay Quade
- Subjects
Atmospheric Science ,Soil Science ,Climate change ,Aquatic Science ,Oceanography ,law.invention ,Geochemistry and Petrology ,law ,Paleoclimatology ,Earth and Planetary Sciences (miscellaneous) ,Radiocarbon dating ,Holocene ,Earth-Surface Processes ,Water Science and Technology ,Hydrology ,Ecology ,Tillandsia ,biology ,Paleontology ,Forestry ,δ15N ,biology.organism_classification ,Geophysics ,Space and Planetary Science ,Dew ,Physical geography ,Geology ,Chronology - Abstract
[1] Extensive dune fields made up exclusively of the bromeliad Tillandsia landbeckii thrive in the Atacama Desert, one of the most extreme landscapes on earth. These plants survive by adapting exclusively to take in abundant advective fog and dew as moisture sources. Although some information has been gathered regarding their modern distribution and adaptations, very little is known about how these dune systems actually form and accumulate over time. We present evidence based on 20 radiocarbon dates for the establishment age and development of five different such dune systems located along a ∼215 km transect in northern Chile. Using stratigraphy, geochronology and stable C and N isotopes, we (1) develop an establishment chronology of these ecosystems, (2) explain how the unique T. landbeckii dunes form, and (3) link changes in foliar δ15N values to moisture availability in buried fossil T. landbeckii layers. We conclude by pointing out the potential that these systems have for reconstructing past climate change along coastal northern Chile during the late Holocene.
- Published
- 2011