Archive des événements passés du site Earth and Life Institute
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High-resolution simulations of NEMO on the fastest supercomputer in Europe (LUMI) by Antoine Barthélemy19 Nov
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From Phenotypic Adaptations to Bioinspired Design: Insights from Reptile and Phasmid eggs by Gerben Debruyn14 Nov
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Optimizing deficit irrigation and fertilizer application for off-season maize production in Northern Benin by Gloriose Allakonon14 Nov
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Brussels' urban fabric: Unravelling socio-environmental inequality at the street level by Madeleine Guyot12 Nov
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Benchmarking of land cover change detection algorithms in Wallonia using Lifewatch and Sentinel-2 data by Audric Bos12 Nov
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Time-lapse monitoring with drone-borne Ground-Penetrating Radar unveils spatiotemporal moisture dynamics in peatland root zone by Maud Henrion07 Nov
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Within-field Spatial Heterogeneity of Crop Growth from Multi-year Green Area Index Time Series Analysis by Tom Kenda05 Nov
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Exploring habitat suitability using track surveys: A case study on large wildlife species in Wildlife Management Areas of the Kalahari, Botswana by Marie-Charlotte Gielen31 Oct
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Introduction to Google Earth Engine by Nathan Carlier29 Oct
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On the core-mantle coupling of terrestrial planets and moons : effects of boundary layer turbulence and roughness by Sheng-Anh Shih28 OctPrecise measurements of the Earth's rotation have led to estimates of energy dissipation near the core-mantle boundary, revealing a mismatch between the observed and theoretical values. This discrepancy suggests that studying the Earth's rotational motion can offer insights into its internal physical processes.En savoir plus
On the core-mantle coupling of terrestrial planets and moons : effects of boundary layer turbulence and roughness by Sheng-Anh Shih28 OctPrecise measurements of the Earth's rotation have led to estimates of energy dissipation near the core-mantle boundary, revealing a mismatch between the observed and theoretical values. This discrepancy suggests that studying the Earth's rotational motion can offer insights into its internal physical processes.