Professor
Faculty of Science
David J. Marshall work on marine invertebrates and estuaries
Teaching Area
Diversity of Life, Animal form and function, Discovering Science, Entomology, Global Change Biology
Current Research
Ecological and evolutionary physiology of marine invertebrates
Research Interests
Ecological and evolutionary physiology of marine invertebrates
- Thermal biology
- Global change biology
- Marine and estuarine benthic community ecology
- Marine pollution biomonitoring and ecotoxicology
- Ecology, biogeography and taxonomy of marine and Antarctic mites
Publications
- Han, G-D., Zhang, S., Marshall, D.J., Ke, C-H. & Dong Y-W. (2013). Metabolic sensors (AMPK and SIRT1) as biomarkers of thermal stress in an intertidal limpet: linking energetic allocation with environmental temperature during aerial emersion. Journal of Experimental Biology 216, 3273-3282.
- Marshall, D.J., Baharuddin, N. & McQuaid, C.D. (2013). Behaviour moderates climate warming vulnerability in high-rocky-shore snails: interactions of habitat use, energy consumption and environmental temperature. Marine Biology 160, 2525-2530.
- Marshall, D.J. & Ng, T.P.T (2013). Shell standing in littorinid snails: a multifunctional behaviour associated with mating? Journal of Molluscan Studies 79, 74-75.
- Marshall, D.J. & Chua, T. (2012). Boundary layer convective heating and thermoregulatory behaviour during aerial exposure in the rocky eulittoral fringe snail Echinolittorina malaccana. Journal of Experimental Marine Biology and Ecology 430, 25-31.
- Marshall, D.J., Dong, Y-W., Williams G.A. & McQuaid C.D. (2011). Thermal adaptation in the intertidal snail Echinolittorina malaccana contradicts current theory by revealing the crucial roles of resting metabolism. Journal of Experimental Biology 214, 3649-3657.