Environmental metabolomics
Introduction - environmental metabolomics
.
.
also see review by Bundy et al. 2009 "Environmental metabolomics: a critical review and future perspectives"
current projects (marine):
Direct analysis of sea water samples (high salt content) for metabolite screening using GC-MS
Aiming to get a biochemical fingerprint of porewater from sediments around the world, specifically from the sites of collection for symbiotic systems.
past projects (terrestrial organisms):
Use of GC-MS and NMR to elucidate the complexity of soil extract as nutrient source for soil microbes.
Earthworms are able to produce phytochelatins and related biochemical precursors in response to arsenic.
Betaine diversity in earthworms revealed by 2D HSQC and HMBC NMR.
Introduction - environmental metabolomics
.
.
also see review by Bundy et al. 2009 "Environmental metabolomics: a critical review and future perspectives"
current projects (marine):
Direct analysis of sea water samples (high salt content) for metabolite screening using GC-MS
Aiming to get a biochemical fingerprint of porewater from sediments around the world, specifically from the sites of collection for symbiotic systems.
past projects (terrestrial organisms):
Use of GC-MS and NMR to elucidate the complexity of soil extract as nutrient source for soil microbes.
Earthworms are able to produce phytochelatins and related biochemical precursors in response to arsenic.
Betaine diversity in earthworms revealed by 2D HSQC and HMBC NMR.