Modern pollen rain in Canary Island ecosystems and its implications for the interpretation of fossil records
Modern pollen rain in Canary Island ecosystems and its implications for the interpretation of fossil records
Vegetation history in the Canary Islands, one of the most biodiverse regions within Europe, has recently and for the first time, been the subject of palaeoecological studies. The interpretation of fossil records may be limited by several uncertainties regarding how well the different vegetation types are represented in the pollen rain. In this study we address this key knowledge gap within Canarian vegetation science, taking the island of Tenerife as a model. Based on quantitative and qualitative data we analysed pollen–vegetation relationships to test whether different vegetation types can be discriminated by means of their pollen rain composition, to identify under- and over-represented taxa, and to test the match between modern pollen rain and fossil pollen assemblages. We found clear differences in pollen composition and abundance among major Canarian vegetation types. We also identified good indicator taxa of the local occurrence of their source plants by their high fidelity and low dispersibility index scores. Extra-regional types (taxa without potential source plants in the Canary Islands) were not detected in our traps. However, several important floristic elements are either over-represented (Pinus, Morella and Ericaceae trees, Chenopodiaceae, Poaceae, Rumex and Urticaceae herbs and shrubs) or under-represented (Lauraceae trees, Fabaceae and Euphorbia shrubs). Results indicate that pollen composition is a good reflection of vegetation in Canarian ecosystems and can be used effectively to reconstruct past environments.
canary islands, elevation gradient, laurel forest, palaeoecology, pollen, vegetation
27-39
de Nascimento, Lea
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Nogue, Sandra
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Fernández-Lugo, Silvia
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Méndez, Javier
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Otto, Rüdiger
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Whittaker, Robert J.
5129fcff-2ef3-436f-bef6-88c520e4aae9
Willis, Kathy J.
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Fernández-Palacios, José María
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March 2015
de Nascimento, Lea
5bb40153-b7a1-495e-b0ac-302307b930b7
Nogue, Sandra
5b464cff-a158-481f-8b7f-647c93d7a034
Fernández-Lugo, Silvia
92cb77e9-c392-433b-a37f-30b7ec3c33bb
Méndez, Javier
0666eb84-947d-47e2-9f96-b35e03c20727
Otto, Rüdiger
870a6d95-0a63-4fde-abaf-06e153fc5cb7
Whittaker, Robert J.
5129fcff-2ef3-436f-bef6-88c520e4aae9
Willis, Kathy J.
624f209e-f827-49b2-b703-dd10841aff33
Fernández-Palacios, José María
94464d8e-4695-4942-af72-1fd91d0b1624
de Nascimento, Lea, Nogue, Sandra, Fernández-Lugo, Silvia, Méndez, Javier, Otto, Rüdiger, Whittaker, Robert J., Willis, Kathy J. and Fernández-Palacios, José María
(2015)
Modern pollen rain in Canary Island ecosystems and its implications for the interpretation of fossil records.
Review of Palaeobotany and Palynology, 214, .
(doi:10.1016/j.revpalbo.2014.11.002).
Abstract
Vegetation history in the Canary Islands, one of the most biodiverse regions within Europe, has recently and for the first time, been the subject of palaeoecological studies. The interpretation of fossil records may be limited by several uncertainties regarding how well the different vegetation types are represented in the pollen rain. In this study we address this key knowledge gap within Canarian vegetation science, taking the island of Tenerife as a model. Based on quantitative and qualitative data we analysed pollen–vegetation relationships to test whether different vegetation types can be discriminated by means of their pollen rain composition, to identify under- and over-represented taxa, and to test the match between modern pollen rain and fossil pollen assemblages. We found clear differences in pollen composition and abundance among major Canarian vegetation types. We also identified good indicator taxa of the local occurrence of their source plants by their high fidelity and low dispersibility index scores. Extra-regional types (taxa without potential source plants in the Canary Islands) were not detected in our traps. However, several important floristic elements are either over-represented (Pinus, Morella and Ericaceae trees, Chenopodiaceae, Poaceae, Rumex and Urticaceae herbs and shrubs) or under-represented (Lauraceae trees, Fabaceae and Euphorbia shrubs). Results indicate that pollen composition is a good reflection of vegetation in Canarian ecosystems and can be used effectively to reconstruct past environments.
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More information
Accepted/In Press date: 5 November 2014
e-pub ahead of print date: 20 November 2014
Published date: March 2015
Keywords:
canary islands, elevation gradient, laurel forest, palaeoecology, pollen, vegetation
Organisations:
Palaeoenvironment Laboratory (PLUS)
Identifiers
Local EPrints ID: 383731
URI: http://eprints.soton.ac.uk/id/eprint/383731
ISSN: 0034-6667
PURE UUID: a3c2eda2-6a4b-4a40-b179-5508d99d887a
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Date deposited: 25 Nov 2015 14:27
Last modified: 15 Mar 2024 03:53
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Author:
Lea de Nascimento
Author:
Silvia Fernández-Lugo
Author:
Javier Méndez
Author:
Rüdiger Otto
Author:
Robert J. Whittaker
Author:
Kathy J. Willis
Author:
José María Fernández-Palacios
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