Potential and limitation of combining terrestrial and marine growth records from Iceland

Seasonally formed, perennial growth increments of various organisms may possibly contain information about past environmental changes, well before instrumental measurements occurred. Such annually resolved proxy records have been mainly obtained from terrestrial archives, with a paucity of similar d...

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Bibliographic Details
Published in:Global and Planetary Change
Main Authors: Piermattei, A., Urbinati, C., Tonelli, E., Eggertsson, O., Levanič, T., Kaczka, R. J., Andrew, C., Schoene, B. R., Büntgen, U. (Ulf)
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
north-atlantic oscillation
quahog arctica-islandica
lived bivalve mollusk
climate variability
last millennium
shell growth
past millennium
tree-rings
ocean
sea
Annual growth increments
Arctica islandica
Betula pubescens
Multi-proxy approach
North Atlantic
Sorbus aucuparia
Iceland
North Atlantic oscillation
Ocean quahog
Online Access:https://doi.org/10.1016/j.gloplacha.2017.07.010
http://hdl.handle.net/11104/0305852
Description
Summary:Seasonally formed, perennial growth increments of various organisms may possibly contain information about past environmental changes, well before instrumental measurements occurred. Such annually resolved proxy records have been mainly obtained from terrestrial archives, with a paucity of similar data originating from marine habitats. Iceland represents ideal conditions to develop both, tree ring (dendro) and bivalve shell (sclero) chronologies from adjacent sites. Here we introduce the first network of Icelandic birch (Betuk pubescens Ehrh.) and rowan (Sorbus aucuparia) dendrochronologies, as well as ocean quahog (Arctica islandica L.) sclerochronologies. In order to identify the dominant external drivers of tree and shell growth, we assess the common growth trends and growth extremes within and between the terrestrial and marine records, as well as relationships of both archives with instrumental-based meteorological indices. Capturing a strong signal of June August mean air temperature, the dendrochronologies are significantly positively correlated to each other. The sclerochronologies, however, reveal much lower growth coherency, which likely results from different sampling strategies and growth habitats. Disagreement between the dendro- and sclerochronologies possibly originates from unequal sample size, offset in the seasonal timing and rate of the growth, as well as varying sensitivities to different environmental factors. Our results emphasize the importance of considering a wide range of species and taxa to reconstruct a more complete picture of terrestrial and marine ecosystem functioning and productivity across various spatiotemporal scales.

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