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Southernmost discovery of amber allows new insights into Cretaceous forests near the South Pole
Roughly 90 million years ago, climatic conditions in Antarctica were suitable for resin-producing trees. A team of researchers led by the Alfred Wegener Institute and the TU Bergakademie Freiberg have just released a paper in the journal Antarctic Science, in which they describe the southernmost discovery of amber in the world.
Joint press release: Alfred Wegener Institute and TU Bergakademie Freiberg
Until recently, a gap existed in the world map of amber discoveries: the Antarctic continent. But that gap has finally been closed, thanks to a team led by Dr Johann P. Klages from the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research and Dr Henny Gerschel from the TU Bergakademie Freiberg. In a recently released paper, the experts describe the amber they discovered in a sediment core they had recovered on an expedition with the research icebreaker Polarstern in 2017, using the seafloor drill rig MARUM-MeBo70 at a water depth of 946 metres. They have named the discovery “Pine Island amber” after its locality in the Pine Island Bay of the Amundsen Sea Embayment – at 73.57° South, 107.09° West, to be precise.
“The analysed amber fragments allow direct insights into environmental conditions that prevailed in West Antarctica 90 million years ago,” says first author Johann P. Klages. “This fascinating find also indicates in more detail how the forest we reconstructed in our Nature study from 2020 could have functioned,” the AWI marine geologist adds. “It was very exciting to realise that, at some point in their history, all seven continents had climatic conditions allowing resin-producing trees to survive. Our goal now is to learn more about the forest ecosystem – if it burned down, if we can find traces of life included in the amber. This discovery allows a journey to the past in yet another more direct way.”
Those expecting large clumps of amber have to be disappointed: For analyses with reflected-light and fluorescence microscopy, the source material had to be air-dried and carefully sliced up into roughly fragments with 1 mm diameter from which the amber pieces were picked. But nevertheless, exciting structures were to be found: “The Antarctic amber likely contains remains of original tree bark as micro-inclusions. Considering its solid, transparent and translucent particles, the amber is of high quality, indicating its burial near the surface, as amber would dissipate under increasing thermal stress and burial depth,” explains Henny Gerschel, until recently a member of staff at the TU Bergakademie Freiberg and now a consultant at the Saxon State Office for the Environment, Agriculture and Geology.The team also found indications for pathological resin flow – a strategy trees use to seal damaged bark induced by parasites or wildfires, hence creating a chemical and physical barrier protecting from insect attacks and infections. “Our discovery is another piece of the puzzle and will help us gaining a better understanding of the swampy, conifer-rich, temperate rainforest environment identified near the South Pole during the mid-Cretaceous.”
Dr Johann P. Klages, Tel.: +49 (0) 471 4831-1216; email: Johann.Klages@awi.de
Johann P. Klages, Henny Gerschel, U. Salzmann, G. Nehrke, J. Müller, C.-D. Hillenbrand, S. M. Bohaty, and T. Bickert: First discovery of Antarctic amber; Antarctic Science (2024). DOI: 10.1017/S0954102024000208
http://www.awi.de/ueber-uns/service/presse/presse-detailansicht/erster-bernstein... - further images
Macrograph of an approximately 70 µm amber extracted from the lignite in the sediments of the MeBo c ...
V. Schumacher
Alfred-Wegener-Institut / V. Schumacher
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Geowissenschaften, Meer / Klima, Umwelt / Ökologie
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Englisch
Macrograph of an approximately 70 µm amber extracted from the lignite in the sediments of the MeBo c ...
V. Schumacher
Alfred-Wegener-Institut / V. Schumacher
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