Jasmin is a Post-doctoral Research Associate at the Future Industries Institute. Jasmin is currently investigating seafood provenance tools and uncovering abundance, diversity and biology of octopus in remote South Australia. She is particularly interested in developing and applying intrinsic chemical markers for reconstructing lifetime histories in aquatic species to support fisheries and sustainable ecosystems.
KEY RESEARCH INTERESTS:
About me
Jasmin is a Post-doctoral Research Associate at the Future Industries Institute. Jasmin is currently investigating seafood provenance tools and uncovering abundance, diversity and biology of octopus in remote South Australia. She is particularly interested in developing and applying intrinsic chemical markers for reconstructing lifetime histories in aquatic species to support fisheries and sustainable ecosystems.
KEY RESEARCH INTERESTS:
About me
Doctor of Philosophy The University of Adelaide
Bachelor of Laws (In Progress) University of South Australia
Bachelor of Science (In Progress) University of South Australia
ACADEMIC QUALIFICATIONS:
University of Adelaide
2019 - Doctor of Philosophy (PhD) in Marine Science
2014 - Bachelor of Science (Honours)
University of South Australia
2013 - Bachelor of Science
2013 - Bachelor of Laws
Recent Publications:
Martino, J.C., Fowler, A.J., Doubleday, Z.A., Grammer, G.L., and Gillanders, B.M. (2019) Using otolith chronologies to understand long-term trends and stressors of growth in fisheries: a case study from southern Australia. Ecological Applications 10, 1.
Martino, J.C., Doubleday, Z.A., and Gillanders, B.M. (2019) Metabolic effects on carbon isotope biomarkers in fish. Ecological Indicators 97, 10-16.
Martino, J.C., Doubleday, Z.A., Woodcock, S.H. and Gillanders, B.M. (2017) Elevated carbon dioxide and temperature affects otolith development, but not chemistry, in a diadromous fish. Journal of Experimental Marine Biology and Ecology 495, 57-64.
Research
Recent Publications:
Martino, J.C., Fowler, A.J., Doubleday, Z.A., Grammer, G.L., and Gillanders, B.M. (2019) Using otolith chronologies to understand long-term trends and stressors of growth in fisheries: a case study from southern Australia. Ecological Applications 10, 1.
Martino, J.C., Doubleday, Z.A., and Gillanders, B.M. (2019) Metabolic effects on carbon isotope biomarkers in fish. Ecological Indicators 97, 10-16.
Martino, J.C., Doubleday, Z.A., Woodcock, S.H. and Gillanders, B.M. (2017) Elevated carbon dioxide and temperature affects otolith development, but not chemistry, in a diadromous fish. Journal of Experimental Marine Biology and Ecology 495, 57-64.