Reconstructing high-resolution climate using CT scanning of unsectioned stalagmites: A case study identifying the mid-Holocene onset of the Mediterranean climate in southern Iberia
Reconstructing high-resolution climate using CT scanning of unsectioned stalagmites: A case study identifying the mid-Holocene onset of the Mediterranean climate in southern Iberia
The forcing mechanisms responsible for the mid-Holocene onset of the Mediterranean-type climate in south-western Europe are currently unclear, but understanding these is critical for accurate climate projections under future greenhouse gas warming. Additionally, regional studies that present conflicting patterns for the onset and advancement of Mediterranean climatic conditions complicate definitively ascribing causality. Here, we use a new high resolution stalagmite density record obtained non-destructively using Computed Tomography (CT scanning) to reconstruct southern Iberian climate between 9.3 and 2.9 ka BP. We suggest that stalagmite density can be used as a water-excess proxy, with lower densities associated with more variable drip rates, possibly reflecting increased seasonality consistent with expectations from previous studies of speleothem textures and crystal fabrics. Our results reveal an early Holocene humid interval and mid-Holocene year-round aridity that preceded the onset of Mediterranean climate at 5.3 ka BP in southern Iberia. Using this new dataset combined with previously published results, we link the gradual advancement of the Mediterranean climate to the southward migration of the North Atlantic Subtropical High induced by an orbitally driven decrease in Northern Hemisphere insolation. Future anthropogenic warming could result in a reversal of this trend, a northward migration of the North Atlantic Subtropical High, and a return to year-round aridity in south-western Europe.
CT scanning, Holocene, Mediterranean, Speleothem, Palaeoclimatology, NASH
117-128
Walczak, I.W.
3440d45b-92f7-46b2-bc59-a6df06e59788
Baldini, J.U.L.
69a8f1aa-aece-4bfd-b06a-a341a0a828d2
Baldini, L.M.
2171b8cb-6f93-48ce-a307-87b298b791e8
McDermott, F.
052537bc-08bf-4437-b05a-44fb153581d0
Marsden, S.
8e0cca65-0f71-4df0-95c7-139a8374c4ea
Standish, C.D.
0b996271-da5d-4c4f-9e05-a2ec90e8561d
Richards, D.A.
cc49a2e9-810f-4ff1-b018-c8c9d70f4695
Andreo, B.
67b9051b-0bae-4fa2-a44f-e2021c772fc0
Slater, J.
3832296d-98ff-4f91-be3b-1981ce6e42f0
1 November 2015
Walczak, I.W.
3440d45b-92f7-46b2-bc59-a6df06e59788
Baldini, J.U.L.
69a8f1aa-aece-4bfd-b06a-a341a0a828d2
Baldini, L.M.
2171b8cb-6f93-48ce-a307-87b298b791e8
McDermott, F.
052537bc-08bf-4437-b05a-44fb153581d0
Marsden, S.
8e0cca65-0f71-4df0-95c7-139a8374c4ea
Standish, C.D.
0b996271-da5d-4c4f-9e05-a2ec90e8561d
Richards, D.A.
cc49a2e9-810f-4ff1-b018-c8c9d70f4695
Andreo, B.
67b9051b-0bae-4fa2-a44f-e2021c772fc0
Slater, J.
3832296d-98ff-4f91-be3b-1981ce6e42f0
Walczak, I.W., Baldini, J.U.L., Baldini, L.M., McDermott, F., Marsden, S., Standish, C.D., Richards, D.A., Andreo, B. and Slater, J.
(2015)
Reconstructing high-resolution climate using CT scanning of unsectioned stalagmites: A case study identifying the mid-Holocene onset of the Mediterranean climate in southern Iberia.
Quaternary Science Reviews, 127, .
(doi:10.1016/j.quascirev.2015.06.013).
Abstract
The forcing mechanisms responsible for the mid-Holocene onset of the Mediterranean-type climate in south-western Europe are currently unclear, but understanding these is critical for accurate climate projections under future greenhouse gas warming. Additionally, regional studies that present conflicting patterns for the onset and advancement of Mediterranean climatic conditions complicate definitively ascribing causality. Here, we use a new high resolution stalagmite density record obtained non-destructively using Computed Tomography (CT scanning) to reconstruct southern Iberian climate between 9.3 and 2.9 ka BP. We suggest that stalagmite density can be used as a water-excess proxy, with lower densities associated with more variable drip rates, possibly reflecting increased seasonality consistent with expectations from previous studies of speleothem textures and crystal fabrics. Our results reveal an early Holocene humid interval and mid-Holocene year-round aridity that preceded the onset of Mediterranean climate at 5.3 ka BP in southern Iberia. Using this new dataset combined with previously published results, we link the gradual advancement of the Mediterranean climate to the southward migration of the North Atlantic Subtropical High induced by an orbitally driven decrease in Northern Hemisphere insolation. Future anthropogenic warming could result in a reversal of this trend, a northward migration of the North Atlantic Subtropical High, and a return to year-round aridity in south-western Europe.
This record has no associated files available for download.
More information
e-pub ahead of print date: 22 August 2015
Published date: 1 November 2015
Keywords:
CT scanning, Holocene, Mediterranean, Speleothem, Palaeoclimatology, NASH
Organisations:
Paleooceanography & Palaeoclimate
Identifiers
Local EPrints ID: 380851
URI: http://eprints.soton.ac.uk/id/eprint/380851
ISSN: 0277-3791
PURE UUID: 1cc96176-e9ef-4247-a539-2526ea1986ec
Catalogue record
Date deposited: 25 Aug 2015 09:02
Last modified: 15 Mar 2024 03:50
Export record
Altmetrics
Contributors
Author:
I.W. Walczak
Author:
J.U.L. Baldini
Author:
L.M. Baldini
Author:
F. McDermott
Author:
S. Marsden
Author:
D.A. Richards
Author:
B. Andreo
Author:
J. Slater
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
