Monash

Geomorphology

Laboratory

In review

17. Marks, T., G. Leader, A. Stone, D. Stratford, K. Efraim, R. Bynoe, R. Smedley, A. Gunn, E. Marais, Landscape evolution and hydrology at the Late Pleistocene Site of Narabeb in the Namib Sand Sea, Namibia, Quaternary Science Advances.

16. Tran, T., R. Reef, X. Zhu, A. Gunn, Characterising the mangrove distribution of the Vietnamese southern coast using multi-spectral indices and a deep learning model, Science of the Total Environment.

15. Courrech du Pont, P., D. Rubin, C. Narteau, M. Lapôtre, M. Day, P. Claudin, I. Livingstone, M. Telfer, J. Radebaugh, C. Gadal, A. Gunn, P. Hesp, S. Carpy, C. Bristow, A. Baas, R. Ewing, G. Wiggs, Complementary classifications of aeolian dunes based on morphology, dynamics, and fluid mechanics, Earth-Science Reviews (EarthArXiv:6020).

2023

14. Gunn, A., R. Dargaville, C. Jakob, S. McGregor, 2023, Spatial optimality and temporal variability in Australia’s wind resource, Environmental Research Letters (doi:10.1088/1748-9326/ad0253). 

13. Rubanenko, L., A. Gunn, S. Pérez-López, L. Fenton, R. Ewing, A. Soto, M. Lapôtre, Global surface winds and aeolian sediment pathways on Mars from the morphology of barchan dunes, Geophysical Research Letters (doi:10.1029/2022GL102610).

12. Marvin, M. C., M. Lapôtre, A. Gunn, M. Day, A. Soto, Dune interactions record changes in boundary conditions, Geology (doi:10.1130/G51264.1).

11. Hasson, M., M. C. Marvin, A. Gunn, A. Ielpi, and M. Lapôtre, A depositional model for meandering rivers without land plants. Sedimentology (doi:10.1111/sed.13121).

10. Gunn, A., Formation and reorganization timescales of aeolian landscapes. Geology (doi:10.1130/G50837.1).

2022

9. Rubanenko, L., M. Lapôtre, R. Ewing, L. Fenton, and A. Gunn, A distinct dune-formation regime on Mars. Nature Communications (doi:10.1038/s41467-022-34974-3).

8. Gunn, A., A. East and D. Jerolmack, 21st-century stagnation in sand-sea activity. Nature Communications (doi:10.1038/s41467-022-31123-8).

7. Gunn, A. and D. Jerolmack, Conditions for aeolian transport in the Solar System, Nature Astronomy (doi.org:10.1038/s41550-022-01669-0).

6. Gunn, A., G. Casasanta, L. Di Liberto, F. Falcini, N. Lancaster and D. Jerolmack, What sets aeolian dune height? Nature Communications (doi:10.1038/s41467-022-30031-1).

5. Gunn, A., L. Rubanenko, M. Lapôtre, Accumulation of windblown sand in impact craters on Mars. Geology (doi:10.1130/G49936.1).

2021

4. Gunn, A., M. Wanker, N. Lancaster, D. Edmonds, R. Ewing, and D. Jerolmack, 2021, Circadian rhythm of dune-field activity, Geophysical Research Letters (doi:10.1029/2020GL090924).

3. Seiphoori, A., A. Gunn, S. Kosgodagan Acharige, P. Arratia and D. Jerolmack, 2021, Tuning sedimentation through surface charge and particle shape, Geophysical Research Letters (doi:10.1029/2020GL091251).

2020

2. Gunn, A., P. Schmutz, M. Wanker, D. Edmonds, R. Ewing, and D. Jerolmack, 2020, Macroscopic flow disequilibrium over aeolian dune fields, Geophysical Research Letters (doi:10.1029/2020GL088773).

1. Gadal, C., C. Narteau, R. Ewing, A. Gunn, D. Jerolmack, B. Andreotti, P. Claudin, 2020, Spatial and temporal development of the dune instability, Geophysical Research Letters (doi:10.1029/2020GL088919).