The Permian/Triassic (P/Tr) boundary is widely assumed to have been a time of extreme
environmental upheaval and change. In the terrestrial realm, a negative anomaly in 813C
isotope values has been reported from organic carbon in Antarctica, Australia, India and
Madagascar, and from marine carbonate in the Karoo Basin. However, these sections are all
from southern palaeolatitudes.
Analysis from the Permian-Triassic terrestrial sedimentary record of the South Urals, in
Russia, comprising of many Aridisol and Vertisol horizons has revealed that, like the
Southern Hemisphere, there is a dramatic change in paleosol morphology across the P/Tr
boundary linked to a shift from meandering rivers to conglomeratic alluvial fans. Most of the
paleosols include pedogenic carbonates at different stages of development, both above and
below the P/Tr boundary. By the Triassic there is evidence of depressed water tables and
increased seasonality. Analyses of the S13Qarba nd S18Ocarbsi gnatures of these pedogenic
carbonates have revealed a number of negative excursions in 813Ccarabn d 5180carbin the Late
Permian, including a negative excursion in the mid-Changhsingian, the first time such an
event has been recorded in a terrestrial environment. Associated with this excursion are
indicators of increasing extremes of climate, including pedogenic dolomite, which suggest a
dramatic change in climate up to the P/Tr boundary. Equally, there is an increase in the range
of precipitation, suggesting that what caused this mid-Changhsingian event also had a
profound effect on the atmosphere.
There is also evidence, in the form of the 818Ocaeßx, cursion, of a rise in temperaturej ust prior
to the onset of the conglomeratic alluvial fan deposits, which mark the P/Tr boundary in
Russia. Although in the Russian paleosols this excursion could be explained by a rise in the
effect of seasonal rain or atmospheric temperature, estimates from unaltered brachiopods from
the Italian Dolomites confirm that there is a rise in temperature and suggests that this is in the
region of 7-8°C. These paleosols also record a dramatic rise in pCO2 in the Earliest Triassic
similar to what has been recorded in stomatal records across this period suggesting a dramatic
input of CO2 in to the atmosphere.
Date of Award | 2009 |
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Original language | English |
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Awarding Institution | |
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Multi-proxy palaeoclimate reconstruction of the permian-triassic mass extinction event
Kearsey, T. (Author). 2009
Student thesis: PhD