Late-glacial climate year by year
Sediments from Lake Meerfelder Maar in Germany shows the transition from the Allerød warm phase into the cold Younger Dryas period. Lake varves, tree rings, and ice cores all record past climate conditions year by year.
Seeds reveal past temperatures
Seeds can be found in lake and peat cores. By knowing the requirements of the plants alive today, seed assemblages can tell us about past vegetation, environment, and climate conditions in the vicinity of the sampling site.
Oceans of samples, samples of oceans
Ocean sediments are sampled using heavy equipment on specialized research vessels. The cores are used to reconstruct past times’ ocean temperatures and circulation conditions.
Old snow reveals past climate conditions
Ice cores drilled from the Greenland and Antarctic ice caps contain layers of old snow that are analysed in order to reconstruct past atmospheric conditions more than 100,000 years back in time.
Sediment coring on Lago Enol in Spain
Lake sediments provide detailed and highly resolved information on past local and regional climate conditions. Careful dating and analysis of sediments from many such locations paint a detailed picture of the climate of the past.
Sampling speleothems
Geochemical analysis of dripstones sampled from caves is applied to investigate the climatic and environmental variability on many different time scales.
The North Atlantic: a key area to understand
The strength of the ocean circulation in the North Atlantic has a strong impact on the climate of the surrounding areas. In return, the amount of sea and land ice and melt water from land-based ice influence the North Atlantic circulation.
Physical and chemical analysis of ice cores
Ice cores are analysed in many different ways: the stable water isotopes reveal past temperatures, acidity pinpoints volcanic layers, and impurities in the ice are tracers of e.g. forest fires and dust storms.
Keep on counting …
Lake Suigetsu in Japan contains annually layered sediment reaching 70,000 years back in time that has the potential for both climate reconstructions as well as extending the terrestrial 14C calibration curve.
Sampling volcanic ash in Iceland
Volcanic ash particles (tephras) sampled near the source and geochemical fingerprinting of the tephra makes it possible to relate volcanic layers found in sediments to specific volcanic eruptions.
Mammothian evidence
This mammoth tusk found at a construction site in Switzerland was dated to over 45 ka BP by Accelerator Mass Spectrometry (AMS) 14C dating. Past climate conditions are reconstructed using this type of finds.
Reconstructing past lake ecosystems
Microscopic algae remains, for example from diatoms, are identified in lake sediment cores to reconstruct past environmental changes; especially temperature, nutrients, or lake acidity.
Undercover science
Drilling and analysis of ice cores take place in trenches cut into the ice sheet. In this way, the ice cores laboratories are kept cold and the amount of building materials is minimized.
Modelling past climates
Climate modeling plays an important role in the INTIMATE project, adding to our understanding of the processes that governed past climate and the interpretation of palaeoclimate data.
Samling and analyzing ocean sediments
The polar planktonic foraminifer Neogloboquadrina pachyderma sinistral is abundant in the polar waters around Greenland and in the Arctic Ocean today, but was found as far south as 40°N during glacial periods.
Keep on counting …
Lake Suigetsu in Japan contains annually layered sediment reaching 70,000 years back in time that has the potential for both climate reconstructions as well as extending the terrestrial 14C calibration curve.
