Publications (at Google Scholar)
16. Slatyer, R. A., Schoville, S. D., Nufio, C., Buckley, L. (2019) Do different rates of gene flow underlie variation in phenotypic and phenological clines in a montane grasshopper community? Ecology and Evolution (in press).
15. Green, K. and Slatyer, R. A. (2019) Arthropod community composition along snowmelt gradients in snowbeds in the Snowy Mountains of south-eastern Australia, Austral Ecology (in press).
14. Hochkirch, A., Umbers, K., Slatyer, R. A., Yadav, S., Hunter, D. & Rentz, D. (2019) Praxibulus uncinatus, The IUCN Red List of Threatened Species 2019, e.T107430934A107431270.
13. Slatyer, R. A., Nash, M. A., Hoffmann, R. A. (2017) Measuring the effects of reduced snow on Australian alpine arthropods, Austral Ecology, 42: 844-857.
12. Greenslade, P. and Slatyer, R. A. (2017) Montane Collembola at risk from climate change in Australia, European Journal of Soil Biology, 80: 85-91.
11. Sexton, J. P., Montiel, J., Shay, J. E., Stephens, M. R., Slatyer, R. A. (2017) Evolution of ecological niche breadth, Annual Review of Ecology, Evolution, and Systematics, 48: 183-206.
10. Slatyer, R. A., Schoville, S.D. (2016) Physiological limits along an elevational gradient in a radiation of montane ground beetles, PLoS ONE, e0151959.
9. Slatyer, R. A., Nash, M. A., Hoffmann, A. A. (2015) Scale-dependent thermal tolerance variation in Australian mountain grasshoppers, Ecography, 38: 001-011.
8. Schoville, S. D., Slatyer, R. A., Bergdahl, J. C., Valdez, G. A. (2015) Conserved and narrow temperature limits in alpine insects: thermal tolerance and supercooling points of the ice-crawlers, Grylloblatta (Insecta: Grylloblattodea: Grylloblattidae), Journal of Insect Physiology, 78: 55-61.
7. Endo, Y., Nash, M.A., Hoffmann, A.A., Slatyer, R.A., Miller, A.D. (2015) Comparative phylogeography of alpine invertebrates indicates deep lineage diversification and historical refugia in the Australian Alps, Journal of Biogeography, 42(1): 89-102.
6. Slatyer, R.A., Nash, M. A., Miller, A.D., Endo, Y., Umbers, K.D.L., Hoffmann, A.A. (2014) Strong genetic structure corresponds to small-scale geographic breaks in the Australian alpine grasshopper Kosciuscola tristis, BMC Evolutionary Biology, 14(1), 204.
5. Slatyer, R.A., Hirst, M., Sexton, J.P. (2013) Niche breadth predicts range size: a general ecological pattern, Ecology Letters, 16: 1104-1114.
4. Slatyer, R.A., Jennions, M.D., Backwell, P.R.Y. (2012) Polyandry occurs because females initially trade sex for protection, Animal Behaviour, 83:1203-1206.
3. Slatyer, R.A., Mautz, B., Backwell, P.R.Y., & Jennions, M.D. (2012) Estimating the genetic benefits of cryptic female choice: a meta-analysis of polyandry experiments, Biological Reviews, 87: 1-33.
2. Slatyer, R.A. (2010) Climate change impacts on Australia’s alpine ecosystems, ANU Undergraduate Research Journal, 2: 81-98.
1. Slatyer, R.A., Fok, E.S.Y., Hocking, R. & Backwell, P.R.Y. (2008) Why do fiddler crabs build chimneys, Biology Letters, 4(6): 616-618.
15. Green, K. and Slatyer, R. A. (2019) Arthropod community composition along snowmelt gradients in snowbeds in the Snowy Mountains of south-eastern Australia, Austral Ecology (in press).
14. Hochkirch, A., Umbers, K., Slatyer, R. A., Yadav, S., Hunter, D. & Rentz, D. (2019) Praxibulus uncinatus, The IUCN Red List of Threatened Species 2019, e.T107430934A107431270.
13. Slatyer, R. A., Nash, M. A., Hoffmann, R. A. (2017) Measuring the effects of reduced snow on Australian alpine arthropods, Austral Ecology, 42: 844-857.
12. Greenslade, P. and Slatyer, R. A. (2017) Montane Collembola at risk from climate change in Australia, European Journal of Soil Biology, 80: 85-91.
11. Sexton, J. P., Montiel, J., Shay, J. E., Stephens, M. R., Slatyer, R. A. (2017) Evolution of ecological niche breadth, Annual Review of Ecology, Evolution, and Systematics, 48: 183-206.
10. Slatyer, R. A., Schoville, S.D. (2016) Physiological limits along an elevational gradient in a radiation of montane ground beetles, PLoS ONE, e0151959.
9. Slatyer, R. A., Nash, M. A., Hoffmann, A. A. (2015) Scale-dependent thermal tolerance variation in Australian mountain grasshoppers, Ecography, 38: 001-011.
8. Schoville, S. D., Slatyer, R. A., Bergdahl, J. C., Valdez, G. A. (2015) Conserved and narrow temperature limits in alpine insects: thermal tolerance and supercooling points of the ice-crawlers, Grylloblatta (Insecta: Grylloblattodea: Grylloblattidae), Journal of Insect Physiology, 78: 55-61.
7. Endo, Y., Nash, M.A., Hoffmann, A.A., Slatyer, R.A., Miller, A.D. (2015) Comparative phylogeography of alpine invertebrates indicates deep lineage diversification and historical refugia in the Australian Alps, Journal of Biogeography, 42(1): 89-102.
6. Slatyer, R.A., Nash, M. A., Miller, A.D., Endo, Y., Umbers, K.D.L., Hoffmann, A.A. (2014) Strong genetic structure corresponds to small-scale geographic breaks in the Australian alpine grasshopper Kosciuscola tristis, BMC Evolutionary Biology, 14(1), 204.
5. Slatyer, R.A., Hirst, M., Sexton, J.P. (2013) Niche breadth predicts range size: a general ecological pattern, Ecology Letters, 16: 1104-1114.
4. Slatyer, R.A., Jennions, M.D., Backwell, P.R.Y. (2012) Polyandry occurs because females initially trade sex for protection, Animal Behaviour, 83:1203-1206.
3. Slatyer, R.A., Mautz, B., Backwell, P.R.Y., & Jennions, M.D. (2012) Estimating the genetic benefits of cryptic female choice: a meta-analysis of polyandry experiments, Biological Reviews, 87: 1-33.
2. Slatyer, R.A. (2010) Climate change impacts on Australia’s alpine ecosystems, ANU Undergraduate Research Journal, 2: 81-98.
1. Slatyer, R.A., Fok, E.S.Y., Hocking, R. & Backwell, P.R.Y. (2008) Why do fiddler crabs build chimneys, Biology Letters, 4(6): 616-618.