The Arctic is climatically sensitive to global change and therefore climate records from
this region are of key importance. Little, however, is known of the state of the Arctic in
the traditionally “greenhouse” period of the Cretaceous. Climate conditions are often
assumed to have been warm-temperate as evidenced by the presence of conifers and
dinosaur trackways on Svalbard and other Arctic localities. However, isotopic evidence
for cooling episodes, sequence stratigraphic evidence for interpreted glacio-eustatic
sea-level falls, and the presence of more enigmatic deposits such as dropstones and
glendonites has led to a re-evaluation of the question of climatic dynamism during the
Cretaceous.
This project evaluates the climatic and environmental character of Arctic Svalbard
during the Early Cretaceous (palaeo-latitude of c. 65 °N), via a multiproxy
sedimentological, geochemical, sequence- and chemo- stratigraphic study of
Berriasian–Albian strata from the Central Basin of Svalbard. The “outsized clasts”
recorded on Spitsbergen do not show evidence that they were rafted by glacial ice
(e.g. surface striations), although could have been rafted by seasonal sea-ice. The
results show that regionally widespread cold water conditions were the most likely
control on ikaite formation and glendonite preservation. This counters recent studies
that suggest a methane-seep driver for Mesozoic glendonites, and supports the global
extent of Valanginian to Hauterivian and Late Aptian global cooling. Surface
temperatures during cool episodes of < 14 °C, as implied by the presence of
glendonites at the seafloor, are consistent with Polar (90 °N) temperatures being
below freezing (even given reduced pole-to-equator temperature gradients). This
study therefore supports the hypothesis that small polar ice-caps developed during the
Valanginian – Hauterivian and Late Aptian cooling events.
Date of Award | 2017 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Gregory Price (Other Supervisor) |
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- Stratigraphy
- Palaeoclimate
- Geochemistry
- Sedimentology
- Early Cretaceous
Stratigraphic and Geochemical Expression of Early Cretaceous Environmental Change in Arctic Svalbard
Vickers, M. L. (Author). 2017
Student thesis: PhD