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Nachrichten, Termine, Experten
Researchers found that climate change induced glacial melt increases the heavy metal content and changes the microbiome of habitat-forming brown algae in Arctic fjords. As algae are at the basis of the food web, this will likely have cascading ecological and economic consequences.
In an interdisciplinary cooperation project of the EU-projects FACE-IT, ECOTIP, and SEA-Quester, the scientists investigated consequences of climate change in the Arctic. They focused on a group of organisms that form the very basis of Arctic coastal ecosystems – brown macroalgae, known as kelps, which form dense and extensive underwater forests along rocky coastlines. The ecological role of kelps can be compared to trees on land: They provide food, habitat, and a nursery ground for a variety of organisms and thereby maintain complex ecosystems. The researchers focused on the effects of climate change on kelps in order to draw conclusions about the ecological and socio-economic consequences. Their new findings in Arctic coastal ecology have now been published in the international journal Scientific Reports by Sarina Niedzwiedz and Kai Bischof from the University of Bremen and MARUM – Center for Marine Environmental Sciences and their team of co-authors.
Warming Increases Run-off Intensities – And Influences Element Concentrations
The Arctic region is warming at a rate that is far above the global average. Consequently, snow, glaciers, and permafrost are melting – all of which are contributing to coastal run-off plumes. The run-off plumes changes water parameters drastically as large volumes of fresh water reduce the salinity, washed-in sediments reduce the light availability, and, depending on the lithogenic and organic material in the run-off, the elemental composition is changing. While many of the elements that are being washed into the fjords can act as micronutrients for kelps (e.g., sodium, magnesium, potassium), harmful elements, such as heavy metals (e.g., cadmium, lead, mercury) have also been found in higher concentrations. The researchers collected kelps exposed to different levels of run-off intensities and analyzed their elemental composition. Across all investigated elements, the team found the same pattern: As run-off intensity increases, so does element concentrations. In the case of mercury, kelps that were highly influenced by run-off were characterised by a 72 per cent higher mercury content compared to kelps from the control area.
Changing Microbiome
Further, the researchers analyzed how different run-off rates affect the kelp microbiome. The microbiome is highly important for the ecological function of kelps, such as their nutritional value or elemental cycling in the ecosystem. They found that the microbiome also changed with different run-off rates.
Both of these climate-related changes on kelps are likely to have cascading consequences for the entire ecosystem. The ingestion of metal-contaminated kelps was shown to have negative impacts, such as reduced development, growth, and reproduction, and might lead to a bioaccumulation of harmful elements across the Arctic food web. Eventually, this might also have socio-economic consequences. The high biosorption potential of kelps has to be considered in the implementation of maricultures. However, harvesting kelps in fjords with high levels of meltwater and metal contamination might be an environmentally friendly method to harvest rare earths (phytomining). Rare earths are increasingly being used in key technologies such as renewable energies and electronics.
Dr. Sarina Niedzwiedz, Marine Botany, Faculty of Biology/Chemistry
University of Bremen
Email: sarina@uni-bremen.de
Prof. Dr. Kai Bischof
Marine Botany
Faculty of Biology/Chemistry
MARUM – Center for Marine Environmental Sciences
University of Bremen
Email: kbischof@uni-bremen.de
Niedzwiedz S, Schmidt C, Yang, Y, Burgunter-Delamare B, Andersen S, Hildebrandt L, Pröfrock D, Thomas H, Zhang R, Damsgård B, Bischof K (2024): Run-off impacts on Arctic kelp holobionts have strong implications on ecosystem functioning and bioeconomy. Scientific Reports. 14:30506. Doi: 10.1038/s41598-024-82287-w [https://www.nature.com/articles/s41598-024-82287-w]
Kelps, here Saccharina latissima around Nuuk, Greenland, are brown macroalgae that form dense and ex ...
Sarina Niedzwiedz
Sarina Niedzwiedz/ Universität Bremen
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Biology, Environment / ecology, Oceanology / climate
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Kelps, here Saccharina latissima around Nuuk, Greenland, are brown macroalgae that form dense and ex ...
Sarina Niedzwiedz
Sarina Niedzwiedz/ Universität Bremen
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