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When combined with data from tree-ring records, stalagmites can open up a unique archive to study natural climate fluctuations, a research team including geoscientists from Heidelberg University and the Karlsruhe Institute of Technology have demonstrated. The researchers analysed the isotopic composition of oxygen in a stalagmite formed from calcareous water in a cave in southern Germany. In conjunction with the data acquired from tree rings, they were able to reconstruct short-term climate fluctuations over centuries and correlate them with historically documented environmental events.
Press Release
Heidelberg, 17 January 2024
Stalagmites as Climate Archive
Researchers from Heidelberg and Karlsruhe use stalagmite to reconstruct regional and global climate history
When combined with data from tree-ring records, stalagmites can open up a unique archive to study natural climate fluctuations across hundreds of years, a research team including geoscientists from Heidelberg University and the Karlsruhe Institute of Technology have demonstrated. The researchers analysed the isotopic composition of oxygen in a stalagmite formed from calcareous water in a cave in southern Germany. In conjunction with the data acquired from tree rings, they were able to reconstruct short-term climate fluctuations over centuries and correlate them with historically documented environmental events.
Until now, short-term climate fluctuations over hundreds of years could be analysed only by means of tree-ring records by combining independent measurements from a number of studies, explains geoscientist Dr Tobias Kluge of the Karlsruhe Institute of Technology (KIT). The size of the tree rings, which varies by a few millimetres, provides information on the dynamics of seasonal precipitation, in turn pointing to climatic conditions in the specific growth period. According to Dr Kluge, summers with heavy rainfall are expected particularly in cold years, whereas very wet winters are expected in warm years.
In contrast to tree rings, stalagmites have only been used in exceptional cases to systematically measure climate data and their annual variations. The decisive factor is the rainwater infiltrating a cave, whose dissolved lime forms the stalagmites. This water comes from local precipitation in the cold and warm seasons, and each is characterised by a special isotopic composition of oxygen. From this, analyses can be derived indicating whether and in which years winter or summer precipitation dominated.
The researchers from Heidelberg and Karlsruhe studied a stalagmite – a dripstone that grows upward from the floor of a cave – from the “Kleine Teufelshöhle” in Franconian Switzerland. With a growth rate of one to four centimetres per millennium, or an annual growth rate of about the width of a single hair, this stalagmite grew much more slowly than comparable ones. The growth zones of the stalagmite are a hundred times thinner than a tree ring, so just a few centimetres can provide data on the climatic conditions over a thousand years. The composition of oxygen isotopes was measured using the ion probe at the Institute of Earth Sciences of Heidelberg University. “The analyses required precise measurements within the annual growth zones of just a few micrometres, which is possible only with this type of large-scale research device,” explains Prof. Dr Mario Trieloff, head of the Heidelberg Ion Probe laboratory.
The researchers report that the climate data acquired from the “Kleine Teufelshöhle” stalagmite revealed regional as well as global environmental events. The unusually cold year of 1816, which went down in history as the Year Without a Summer, stemmed from an eruption of the Tambora volcano in Indonesia in April of 1815, possibly exacerbated by a hitherto unknown volcanic eruption six years before. The data from the stalagmite measurements show that summers were cold and winters very wet during this time, which combined with year-round flooding led to poor harvests and famine.
The information stored in the stalagmite also provides evidence on long-term climate fluctuations such as the Little Ice Age, whose core period began at the end of the 16th century and lasted until the late 17th century. According to the researchers, this period was marked by frequent flooding, which is historically documented in the city of Nuremberg not far from the “Teufelshöhle”. The climate data from the cave was verified using a tree-ring archive from the vicinity. The data point to cold dry winters that delayed the annual ice and snow melts, leading to major short-term floods with catastrophic consequences, explains Dr Kluge from the Institute of Applied Geosciences at the KIT.
The research results were published in the journal “Earth and Planetary Science Letters”. Along with the scientists from Heidelberg and Karlsruhe, researchers from Berlin, Hohenheim, and Mannheim participated in the investigations.
Contact:
Heidelberg University
Communications and Marketing
Press Office, phone +49 6221 54-2311
presse@rektorat.uni-heidelberg.de
Prof. Dr Mario Trieloff
Institute of Earth Sciences
Phone +49 6221 54-6022
mario.trieloff@geow.uni-heidelberg.de
T. Kluge, P. Holz, T. Neumann, E. Eiche, M. Schuh, N. Frank, R. Friedrich, R. Mertz-Kraus, A. Land, M. Trieloff, A. K. Schmitt: Assessment of climate extremes at the regional scale during the last millennium using an annually resolved stalagmite record. Earth and Planetary Science Letters, 624 (2023), 118458 (available online 4 November 2023), https://doi.org/10.1016/j.epsl.2023.118458
http://www.geow.uni-heidelberg.de/researchgroups/trieloff – Mario Trieloff research group
http://www.geow.uni-heidelberg.de/HIP/index_en.html – Heidelberg Ion Probe
Active dripstone formation in a side area of the “Kleine Teufelshöhle”.
KIT (taken as part of the HEiKA Project Check Extrema)
Criteria of this press release:
Journalists
Geosciences, Oceanology / climate
transregional, national
Research results, Scientific Publications
English
Active dripstone formation in a side area of the “Kleine Teufelshöhle”.
KIT (taken as part of the HEiKA Project Check Extrema)
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