Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate

Annual growth rates and the ratio of dark to light-colored calcite within single annual laminae in three contemporaneously deposited Holocene speleothems from Grotta di Ernesto, an Alpine cave in northern Italy, respond to changes in surface temperature rather than precipitation. Based on monitoring...

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Published in:Earth and Planetary Science Letters
Main Authors: Frisia, Silvia, Borsato, Andrea, Preto, Nereo, McDermott, Frank
Format: Text
Language:unknown
Published: Digital Commons @ University of South Florida 2003
Subjects:
North Atlantic
North Atlantic oscillation
Online Access:https://digitalcommons.usf.edu/kip_articles/7224
https://doi.org/10.1016/S0012-821X(03)00515-6
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spelling ftunisfloridatam:oai:digitalcommons.usf.edu:kip_articles-8224 2023-12-10T09:51:19+01:00 Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate Frisia, Silvia Borsato, Andrea Preto, Nereo McDermott, Frank 2003-01-01T08:00:00Z https://digitalcommons.usf.edu/kip_articles/7224 https://doi.org/10.1016/S0012-821X(03)00515-6 unknown Digital Commons @ University of South Florida https://digitalcommons.usf.edu/kip_articles/7224 doi:10.1016/S0012-821X(03)00515-6 https://doi.org/10.1016/S0012-821X(03)00515-6 KIP Articles text 2003 ftunisfloridatam https://doi.org/10.1016/S0012-821X(03)00515-6 2023-11-16T19:07:43Z Annual growth rates and the ratio of dark to light-colored calcite within single annual laminae in three contemporaneously deposited Holocene speleothems from Grotta di Ernesto, an Alpine cave in northern Italy, respond to changes in surface temperature rather than precipitation. Based on monitoring of present-day calcite growth, and correlation with instrumental data for surface climatic conditions, we interpret a higher ratio of dark to light-colored calcite and the simultaneous thinning of annual laminae as indicative of colder-than-present winters. Such dark and thin laminae occur in those parts of the three stalagmites deposited from AD 1650 to 1713 and from AD 1798 to 1840, as reconstructed through lamina counting. These periods correspond to the well-known Maunder and Dalton Minima of solar activity. An 11-yr cyclicity in growth rate, coupled with reduced calcite deposition during the historic minima of solar activity, is indicative of a solar influence on lamina thickness. Spectral analysis of the lamina thickness data also suggests that the North Atlantic Oscillation variability influenced winter temperatures. Based on the present-day controls on cave calcite formation, we infer that high-frequency changes in solar activity modulated the seasonal duration of soil CO2 production. Text North Atlantic North Atlantic oscillation Digital Commons University of South Florida (USF) Earth and Planetary Science Letters 216 3 411 424
institution Open Polar
collection Digital Commons University of South Florida (USF)
op_collection_id ftunisfloridatam
language unknown
description Annual growth rates and the ratio of dark to light-colored calcite within single annual laminae in three contemporaneously deposited Holocene speleothems from Grotta di Ernesto, an Alpine cave in northern Italy, respond to changes in surface temperature rather than precipitation. Based on monitoring of present-day calcite growth, and correlation with instrumental data for surface climatic conditions, we interpret a higher ratio of dark to light-colored calcite and the simultaneous thinning of annual laminae as indicative of colder-than-present winters. Such dark and thin laminae occur in those parts of the three stalagmites deposited from AD 1650 to 1713 and from AD 1798 to 1840, as reconstructed through lamina counting. These periods correspond to the well-known Maunder and Dalton Minima of solar activity. An 11-yr cyclicity in growth rate, coupled with reduced calcite deposition during the historic minima of solar activity, is indicative of a solar influence on lamina thickness. Spectral analysis of the lamina thickness data also suggests that the North Atlantic Oscillation variability influenced winter temperatures. Based on the present-day controls on cave calcite formation, we infer that high-frequency changes in solar activity modulated the seasonal duration of soil CO2 production.
format Text
author Frisia, Silvia
Borsato, Andrea
Preto, Nereo
McDermott, Frank
spellingShingle Frisia, Silvia
Borsato, Andrea
Preto, Nereo
McDermott, Frank
Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate
author_facet Frisia, Silvia
Borsato, Andrea
Preto, Nereo
McDermott, Frank
author_sort Frisia, Silvia
title Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate
title_short Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate
title_full Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate
title_fullStr Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate
title_full_unstemmed Late Holocene annual growth in three Alpine stalagmites records the influence of solar activity and the North Atlantic Oscillation on winter climate
title_sort late holocene annual growth in three alpine stalagmites records the influence of solar activity and the north atlantic oscillation on winter climate
publisher Digital Commons @ University of South Florida
publishDate 2003
url https://digitalcommons.usf.edu/kip_articles/7224
https://doi.org/10.1016/S0012-821X(03)00515-6
genre North Atlantic
North Atlantic oscillation
genre_facet North Atlantic
North Atlantic oscillation
op_source KIP Articles
op_relation https://digitalcommons.usf.edu/kip_articles/7224
doi:10.1016/S0012-821X(03)00515-6
https://doi.org/10.1016/S0012-821X(03)00515-6
op_doi https://doi.org/10.1016/S0012-821X(03)00515-6
container_title Earth and Planetary Science Letters
container_volume 216
container_issue 3
container_start_page 411
op_container_end_page 424
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