Pilot Lipidomics Study of Copepods: Investigation of Potential Lipid-Based Biomarkers for the Early Detection and Quantification of the Biological Effects of Climate Change on the Oceanic Food Chain

Overview
TitlePilot Lipidomics Study of Copepods: Investigation of Potential Lipid-Based Biomarkers for the Early Detection and Quantification of the Biological Effects of Climate Change on the Oceanic Food Chain
AuthorsWood PL, Wood MD, Kunigelis SC
TypeJournal Article
Journal NameLife (Basel, Switzerland)
Volume13
Issue12
Year2023
Page(s)N/A
CitationWood PL, Wood MD, Kunigelis SC. Pilot Lipidomics Study of Copepods: Investigation of Potential Lipid-Based Biomarkers for the Early Detection and Quantification of the Biological Effects of Climate Change on the Oceanic Food Chain. Life (Basel, Switzerland). 2023 Dec 13; 13(12).

Abstract

Maintenance of the health of our oceans is critical for the survival of the oceanic food chain upon which humanity is dependent. Zooplanktonic copepods are among the most numerous multicellular organisms on earth. As the base of the primary consumer food web, they constitute a major biomass in oceans, being an important food source for fish and functioning in the carbon cycle. The potential impact of climate change on copepod populations is an area of intense study. Omics technologies offer the potential to detect early metabolic alterations induced by the stresses of climate change. One such omics approach is lipidomics, which can accurately quantify changes in lipid pools serving structural, signal transduction, and energy roles. We utilized high-resolution mass spectrometry (≤2 ppm mass error) to characterize the lipidome of three different species of copepods in an effort to identify lipid-based biomarkers of copepod health and viability which are more sensitive than observational tools. With the establishment of such a lipid database, we will have an analytical platform useful for prospectively monitoring the lipidome of copepods in a planned long-term five-year ecological study of climate change on this oceanic sentinel species. The copepods examined in this pilot study included a North Atlantic species (

Properties
Additional details for this publication include:
Property NameValue
Journal CountrySwitzerland
Publication TypeJournal Article
Language Abbreng
LanguageEnglish
DOI10.3390/life13122335
Elocation10.3390/life13122335
PII2335
Journal AbbreviationLife (Basel)
Publication Date2023 Dec 13
pISSN2075-1729
ISSN2075-1729
Publication ModelElectronic
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PMID: PMID:38137936