Curtin University research has found that a surge in volcanic activity 56 million years ago not only triggered a major global warming event turning polar regions into a lush tropical landscape, but also altered the shape of the Earth\u2019s continents thereby restricting the flow of water between oceans.<\/p>\n
Co-author Dr Milo Barham, from the Timescales of Mineral Systems Group within Curtin\u2019s School of Earth and Planetary Sciences said the research team travelled to remote northeast Greenland to undertake the research.<\/p>\n
\u201cThis remote area is relatively underexplored geologically, despite being at a critical position for understanding volcanic activity and the exchange of water between the Atlantic and Arctic oceans, so it was incredibly important for us to actually be there,\u201d Dr Barham said.<\/p>\n
\u201cOur work during recent Northern Hemisphere summers involved mapping sedimentary and volcanic units over hundreds of kilometres of East Greenland by helicopter and on foot, collecting sediment samples and taking them to the lab to extract micro-fossils of plants and plankton. We combined information from offshore drillcore and seismic images to map the continuation of important boundaries in buried geology.<\/p>\n
\u201cFrom these we found that volcanic activity and the resulting uplift of the edge of the Greenland continent 56 million years ago led to the formation of a new tropical landscape and narrowing of the seaway connecting the Atlantic and Arctic oceans.<\/p>\n
\u201cSo not only did the spike in volcanic activity produce an increase in greenhouse gasses, but the restriction of the seaway also reduced the flow of water between the oceans, disturbing heat distribution and the acidity of the deeper ocean.\u201d<\/p>\n
Lead author Dr Jussi Hovikoski from the Geological Survey of Denmark and Greenland (GEUS) said the findings also helped explain profound changes to the distribution of land-based animal species, which occurred throughout northern hemisphere continents at this time.<\/p>\n
\u201cThe volcanic surge also changed the shape of Earth\u2019s continents, creating \u2018land bridges\u2019 or narrowed straits, and enabling crucial migration responses for mammalian species such as early primates, to survive climate change,\u201d Dr Hovikoski said.<\/p>\n
Dr Barham said improved understanding of this greenhouse interval could help better predict and reduce negative impacts of current human-driven climate change.<\/p>\n
\u201cRecent studies have reported alarming signs of weakening ocean circulation, such as \u00a0the Gulf Stream, which is an ocean current important to global climate and this slowing may lead to climatic \u2018tipping points\u2019 or irreversible changes to weather systems,\u201d Dr Barham said.<\/p>\n
\u201cAs fires and floods increasingly ravage our ever-warming planet, the frozen north of eastern Greenland would seem an unlikely place to yield insights into a greenhouse world. However, the geological record there provides crucial understanding of environmental and ecological responses to complex climate disturbances.\u201d<\/p>\n
Dr Barham is also affiliated with\u00a0The Institute for Geoscience Research (TIGeR), Curtin\u2019s flagship Earth Sciences research institute.<\/p>\n