Germanium in the environment: current knowledge and identification of gaps

Trace element germanium (Ge) plays plays a key role in some modern technologies including fibre optics, infrared optics, and semiconductors, but remains under-researched in environmental contexts. Naturally occurring in low concentrations, Ge behaves similarly to silicon (Si) and is often found in m...

Full description

Saved in:
Bibliographic Details
Published in:Soil & Environmental Health 2025-01, p.100132, Article 100132
Main Authors: Filella, Montserrat, Rodríguez-Murillo, Juan Carlos
Format: Article
Language:English
Subjects:
chemical analysis
estuaries
Ge/Si ratios
lakes
methylated species
natural and polluted systems
oceans
rivers
silicon analogue
soils
technology-critical applications
weathering process
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Trace element germanium (Ge) plays plays a key role in some modern technologies including fibre optics, infrared optics, and semiconductors, but remains under-researched in environmental contexts. Naturally occurring in low concentrations, Ge behaves similarly to silicon (Si) and is often found in mineral particles rather than in dissolved form in soils and freshwaters. Its distribution in the environment is largely driven by weathering processes, where it replaces Si in silicate minerals, making it a valuable indicator of weathering intensity through Ge/Si ratios. In oceans, estuaries and lakes, Ge follows the Si cycle, especially in diatom-dominated systems. However, the emphasis on Ge/Si ratios has somewhat overshadowed direct studies on the independent geochemical cycling, mobility and potential ecological impacts of Ge. This has left gaps in understanding the unique aspects of Ge’s behaviour in natural and polluted systems, both at the level of understanding laboratory-scale interactions (e.g. binding by natural organic matter, iron oxyhydroxides) and data collection in environmental compartments (e.g. lack of data on methylated species). The measurement of Ge in the environment is technically challenging due to its low concentrations and the complexity of its chemical forms, which partially explains the lack of data and/or their poor quality. This review is the first comprehensive effort to compile the published data, assessing their reliability and identifying the main processes and gaps in our knowledge. The collected data on environmental compartments are provided ready for use, which will facilitate the completion of the collection and integration of new data. [Display omitted] •Focus on Ge/Si ratios has limited understanding of Ge environmental behaviour.•Quantitative studies on Ge binding to homologous compounds are lacking.•Analytical challenges hamper detailed studies on Ge environmental occurrence.•Published environmental data on Ge often lack consistency.•It is not possible to provide a sound biogeochemical cycle of Ge.
ISSN:2949-9194
2949-9194
DOI:10.1016/j.seh.2025.100132