Mutagenesis in land plants during the end-Triassic mass extinction
Research output: Contribution to conference › Conference abstract for conference › Research › peer-review
During the last 600 million years of Earth history, four out of five major extinction events were synchronous with
volcanism in large igneous provinces. Despite improved temporal frameworks for these events, the mechanisms
causing extinctions remain unclear. Volcanic emissions of greenhouse gases, SO2 and halocarbons are generally
considered as major factors in these biotic crises, resulting in global warming, acid rain and ozone-layer depletion.
The occurrence of increased abundances of malformed land plant spores and pollen during the end-Permian and
end-Devonian events have mainly been attributed to increased UV-B radiation due to ozone layer depletion. Here,
we report exceptionally abundant malformed fern spores in Triassic–Jurassic boundary successions in Denmark,
Sweden, and Germany. The high occurrences of abnormal fern spores during and after the mass extinction interval
indicate severe environmental stress and genetic disturbance in the parent plants. This coincides with increased
levels of mercury – the most genotoxic element on Earth – in both marine and terrestrial Triassic–Jurassic boundary
successions, and offers compelling evidence that emissions of toxic volcanogenic substances contributed to the
end-Triassic biotic crisis
volcanism in large igneous provinces. Despite improved temporal frameworks for these events, the mechanisms
causing extinctions remain unclear. Volcanic emissions of greenhouse gases, SO2 and halocarbons are generally
considered as major factors in these biotic crises, resulting in global warming, acid rain and ozone-layer depletion.
The occurrence of increased abundances of malformed land plant spores and pollen during the end-Permian and
end-Devonian events have mainly been attributed to increased UV-B radiation due to ozone layer depletion. Here,
we report exceptionally abundant malformed fern spores in Triassic–Jurassic boundary successions in Denmark,
Sweden, and Germany. The high occurrences of abnormal fern spores during and after the mass extinction interval
indicate severe environmental stress and genetic disturbance in the parent plants. This coincides with increased
levels of mercury – the most genotoxic element on Earth – in both marine and terrestrial Triassic–Jurassic boundary
successions, and offers compelling evidence that emissions of toxic volcanogenic substances contributed to the
end-Triassic biotic crisis
| Original language | English |
|---|---|
| Publication date | 2019 |
| Number of pages | 1 |
| Publication status | Published - 2019 |
| Event | EGU Galileo Conference: Mass extinctions, recovery and resilience - Utrecht, Netherlands Duration: 28 Aug 2019 → 31 Aug 2019 Conference number: 5 https://meetingorganizer.copernicus.org/gc5-mass/sessionprogramme |
Conference
| Conference | EGU Galileo Conference |
|---|---|
| Number | 5 |
| Country | Netherlands |
| City | Utrecht |
| Period | 28/08/2019 → 31/08/2019 |
| Internet address |
- Faculty of Science - mass extinction, Triassic, Jurassic, palynology, mutations, mercury toxicity
Research areas
Links
- https://meetingorganizer.copernicus.org/GC5-Mass/GC5-Mass-50.pdf
Final published version
ID: 359341776