Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous

This thesis documents four discoveries of mid-Cretaceous amber from the high southern and northern latitudes of Australia and Canada, respectively. These deposits occur primarily in Turonian marginal marine/deltaic sediments and are important for their representation of a) high latitude forests, and...

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Main Author:	Quinney, Ann Edgerton
Format:	Thesis
Language:	unknown
Published:	2017
Subjects:	Amber Mid-Cretaceous monash:162290 Palaeoenvironments Palaeoclimates FTIR thesis(doctorate) 1959.1/1217466 Stable isotopes Resin Open access Pseudoinclusion 2015 ethesis-20150825-021651 Antarctic Arctic Canada Antarc*
Online Access:	https://doi.org/10.4225/03/58b7605a0ba55 https://figshare.com/articles/thesis/Characterising_amber_from_the_Arctic_and_Antarctic_circles_factors_affecting_the_production_and_preservation_of_resin_at_high_latitudes_during_the_mid-Cretaceous/4711678

id	ftmonashunivfig:oai:figshare.com:article/4711678
record_format	openpolar
spelling	ftmonashunivfig:oai:figshare.com:article/4711678 2023-05-15T14:01:32+02:00 Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous Quinney, Ann Edgerton 2017-05-15T07:26:44Z https://doi.org/10.4225/03/58b7605a0ba55 https://figshare.com/articles/thesis/Characterising_amber_from_the_Arctic_and_Antarctic_circles_factors_affecting_the_production_and_preservation_of_resin_at_high_latitudes_during_the_mid-Cretaceous/4711678 unknown doi:10.4225/03/58b7605a0ba55 https://figshare.com/articles/thesis/Characterising_amber_from_the_Arctic_and_Antarctic_circles_factors_affecting_the_production_and_preservation_of_resin_at_high_latitudes_during_the_mid-Cretaceous/4711678 In Copyright Amber Mid-Cretaceous monash:162290 Palaeoenvironments Palaeoclimates FTIR thesis(doctorate) 1959.1/1217466 Stable isotopes Resin Open access Pseudoinclusion 2015 ethesis-20150825-021651 Text Thesis 2017 ftmonashunivfig https://doi.org/10.4225/03/58b7605a0ba55 2022-06-06T15:42:11Z This thesis documents four discoveries of mid-Cretaceous amber from the high southern and northern latitudes of Australia and Canada, respectively. These deposits occur primarily in Turonian marginal marine/deltaic sediments and are important for their representation of a) high latitude forests, and b) terrestrial environments during a greenhouse period characterised by globally elevated sea levels, for which terrestrial outcrops are lacking. Whereas the Australian localities are particularly important for their representation of the oldest in situ deposits from Australia and the southern-most deposits from Gondwana, the fortuitous discovery of coeval deposits from northern Canada provides a unique opportunity to compare and contrast resin production and preservation from the high latitude forests during the mid-Cretaceous greenhouse. Like many amber deposits world-wide, the high latitude ambers are generally devoid of bioinclusions, but Otway amber contains abundant pseudoinclusion. All of the amber is cupressaceous-araucarian, permitting comparisons of stable C and H isotopic data. The results indicate that, like other ambers globally, values of δ13Cmean for the high latitude ambers are enriched in ¹³C by 3–4‰ relative to their modern equivalents due to a global decrease in pO2 during the mid-Cretaceous greenhouse. Notably, high latitude ambers are depleted in ¹³C by approximately 1.9‰ relative to coeval amber from the middle latitudes due to latitudinal changes in light regime. Further, because of the inverse relationship documented between light exposure and ²H fractionation in plant lipids, exposure to continuous (24 h) low intensity light during the Arctic and Antarctic summers is thought to reduce the amount of ²H fractionation during resin biosynthesis relative to the middle and low latitudes. Seasonal changes in light availability may also account for some of the variation in δD among high latitude amber samples. Additionally, the southern high latitude forest may have experienced seasonal aridity, ... Thesis Antarc* Antarctic Arctic Monash University: Figshare Antarctic Arctic Canada
institution	Open Polar
collection	Monash University: Figshare
op_collection_id	ftmonashunivfig
language	unknown
topic	Amber Mid-Cretaceous monash:162290 Palaeoenvironments Palaeoclimates FTIR thesis(doctorate) 1959.1/1217466 Stable isotopes Resin Open access Pseudoinclusion 2015 ethesis-20150825-021651
spellingShingle	Amber Mid-Cretaceous monash:162290 Palaeoenvironments Palaeoclimates FTIR thesis(doctorate) 1959.1/1217466 Stable isotopes Resin Open access Pseudoinclusion 2015 ethesis-20150825-021651 Quinney, Ann Edgerton Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous
topic_facet	Amber Mid-Cretaceous monash:162290 Palaeoenvironments Palaeoclimates FTIR thesis(doctorate) 1959.1/1217466 Stable isotopes Resin Open access Pseudoinclusion 2015 ethesis-20150825-021651
description	This thesis documents four discoveries of mid-Cretaceous amber from the high southern and northern latitudes of Australia and Canada, respectively. These deposits occur primarily in Turonian marginal marine/deltaic sediments and are important for their representation of a) high latitude forests, and b) terrestrial environments during a greenhouse period characterised by globally elevated sea levels, for which terrestrial outcrops are lacking. Whereas the Australian localities are particularly important for their representation of the oldest in situ deposits from Australia and the southern-most deposits from Gondwana, the fortuitous discovery of coeval deposits from northern Canada provides a unique opportunity to compare and contrast resin production and preservation from the high latitude forests during the mid-Cretaceous greenhouse. Like many amber deposits world-wide, the high latitude ambers are generally devoid of bioinclusions, but Otway amber contains abundant pseudoinclusion. All of the amber is cupressaceous-araucarian, permitting comparisons of stable C and H isotopic data. The results indicate that, like other ambers globally, values of δ13Cmean for the high latitude ambers are enriched in ¹³C by 3–4‰ relative to their modern equivalents due to a global decrease in pO2 during the mid-Cretaceous greenhouse. Notably, high latitude ambers are depleted in ¹³C by approximately 1.9‰ relative to coeval amber from the middle latitudes due to latitudinal changes in light regime. Further, because of the inverse relationship documented between light exposure and ²H fractionation in plant lipids, exposure to continuous (24 h) low intensity light during the Arctic and Antarctic summers is thought to reduce the amount of ²H fractionation during resin biosynthesis relative to the middle and low latitudes. Seasonal changes in light availability may also account for some of the variation in δD among high latitude amber samples. Additionally, the southern high latitude forest may have experienced seasonal aridity, ...
format	Thesis
author	Quinney, Ann Edgerton
author_facet	Quinney, Ann Edgerton
author_sort	Quinney, Ann Edgerton
title	Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous
title_short	Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous
title_full	Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous
title_fullStr	Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous
title_full_unstemmed	Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous
title_sort	characterising amber from the arctic and antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-cretaceous
publishDate	2017
url	https://doi.org/10.4225/03/58b7605a0ba55 https://figshare.com/articles/thesis/Characterising_amber_from_the_Arctic_and_Antarctic_circles_factors_affecting_the_production_and_preservation_of_resin_at_high_latitudes_during_the_mid-Cretaceous/4711678
geographic	Antarctic Arctic Canada
geographic_facet	Antarctic Arctic Canada
genre	Antarc* Antarctic Arctic
genre_facet	Antarc* Antarctic Arctic
op_relation	doi:10.4225/03/58b7605a0ba55 https://figshare.com/articles/thesis/Characterising_amber_from_the_Arctic_and_Antarctic_circles_factors_affecting_the_production_and_preservation_of_resin_at_high_latitudes_during_the_mid-Cretaceous/4711678
op_rights	In Copyright
op_doi	https://doi.org/10.4225/03/58b7605a0ba55
_version_	1766271374324662272

Characterising amber from the Arctic and Antarctic circles: factors affecting the production and preservation of resin at high latitudes during the mid-Cretaceous

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