AnaEE-ERIC at EGU General Assembly 2026

Three presentations in Vienna showcase the breadth of AnaEE-ERIC — from pan-European experimental infrastructure to high-resolution tree-ring science and microbial research access.

This year, AnaEE-ERIC and its partners are present across three distinct contributions at the EGU General Assembly 2026, one of Europe’s most prominent forums for Earth and environmental science. Together, the presentations reflect the range of research that AnaEE facilities and services make possible — from coordinated multi-site experimentation to molecular-level isotope analysis.

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If your research is related to AnaEE-ERIC, using one of our facilities, you may use the AnaEE-ERIC presentations, logo and name. Just reach out to us and we provide you with more material.

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AnaEE-ERIC: Advancing Experimental Ecosystem Research through Aligned Research Infrastructures

Oral · Session BG3.8

This oral contribution presents AnaEE-ERIC’s pan-European network of experimental and analytical facilities, its approach to harmonising protocols and data across sites, and the digital services — including standardised data catalogues and API-based access — currently being developed to enable interoperable, cross-platform research workflows.

Dorra Gharbi (Central Access Manager, AnaEE-ERIC) · Thursday 7 May, 11:45–11:55 CEST · Room 2.95

Session details

MICROBES-4-CLIMATE: Advancing climate change research using microbial resources

Poster · Session BG3.8

The MICROBES-4-CLIMATE (M4C) Horizon Europe INFRASERV project offers transnational access to four research infrastructures and 144 services across 20 countries, with a focus on microorganism–plant–soil interactions under climate change. The poster presents the project structure, access pathways, and selected early research outcomes.

Youssef Haidala (IT Engineer, AnaEE-ERIC / M4C) · Wednesday 6 May, 16:15–18:00 CEST · Hall X1, X1.40

Session details

Drought adaptation and recovery in Scots pine: δ¹³C evidence from laser ablation and CSIA

Poster · Session BG2.3

Using AnaEE Finland’s Stable Isotope Laboratory (SILL) at Luke, this study traces drought and recovery responses in Pinus sylvestris from leaf to tree-ring level using high-resolution intra-annual δ¹³C analysis by laser ablation and compound-specific isotope analysis. The findings highlight both the limitations of conventional tree-ring approaches and the potential of high-resolution methods for understanding tree stress under climate change.

Dr. Katja Rinne-Garmston (Principal Scientist, Luke / AnaEE Finland) · Session BG2.3

Session details