Saintilan, N., Horton, B., Törnqvist, T.E., Khan, N.S., Perry, C., Schuerch, M. Kopp, R.E., Garner, G.G., Ashe, E.L., Rogers, K., Simon Albert, S., Kelleway, J., Shaw, T.A., Woodroffe, C., Khan, N.S., 2023: Coastal habitats approach a sea-level rise tipping point between 2°C and 3°C of warming. Nature.
Upton, M., Parnell, A., Kemp, A., Ashe, E.L., McCarthy, G., Cahill, N., 2023: A noisy-input generalised additive model for relative sea-level change along the Atlantic coast of North America, https://doi.org/10.48550/arXiv.2301.09556
Khan, N.S., Ashe, E.L., Engelhart, S., Kemp, A.C., Moyer, R.P., Brain, M., Roy, K., Toth, L., Chappel, A., Christie, M., Shaw, J., Capar, P., Stathakapolous, A., Horton, B.P., 2022: Relative sea-level change in South Florida during the past ~5 ka. Global and Planetary Change, 216, 103902, https://doi.org/10.1016/j.gloplacha.2022.103902
Saintilan, N., Kovalenko, K.E., Guntenspergen, G., Rogers, K., Lynch, J.C., Cahoon, D.R., Lovelock, C.E., Fries, D.A., Ashe, E.L., et al., 2022: Constraints on the adjustment of tidal marshes to accelerating sea-level rise. Science, 377(6605), 523-527, https://doi.org/10.1126/science.abo7872
Onac, B.P., Mitrovica, J.X., Ginés, J., Asmerom, Y., Polyak, V.J., Tuccimei, P., Fornós, J.J., Hoggard, M.J., Ashe, E.L., Coulson, S., Ginés, A., Soligo, M., Billa, I.M., 2022: Exceptionally stable pre-industrial sea level inferred from the western Mediterranean Sea. Science Advances, 8(26), eabm6185, https://doi.org/10.1126/sciadv.abm6185
Creel, R.C., Austermann, J., Khan, N.S., D'Andrea, J., Balascio, N., Dyer, B., Ashe, E.L., Menke, W., 2022: Postglacial relative sea level in Norway. Quaternary Science Reviews, 282, 107422, https://doi.org/10.1016/j.quascierev.2022.107422
Ashe, E.L., Khan, N., Toth, L., Dutton, A., Kopp, R., 2022: A statistical framework for integrating non-parametric proxy distributions into geological reconstructions of relative sea level. Advances in Statistical Climatology, Meteorology and Oceanography (ASCMO), 8(1), 1–29, https://doi.org/10.5194/ascmo-8-1-2022
DeConto, R.M., Pollard, D., Alley, R.B., Velicongna, I., Gasson, E., Gomez, N., Rogstad, S., Gilford, D.M., Ashe, E.L., Kopp, R.E., 2021: The Paris Climate Agreement and future sea-level rise from Antarctica, Nature, 593(7857), 83-89, https://doi.org/10.1038/s41586-021-03427-0
Walker, J.S., Kopp, R.E., Shaw, T.A., Cahill, N., Khan, N.S., Barber, D., Ashe, E.L., Brain, M., Clear, J., Corbetti, R. Horton, B.P., 2021: Common Era sea-level budgets along the U.S. Atlantic coast. Nature Communications, 12(1), 1-10, https://doi.org/10.1038/s41467-021-22079-2
Gilford, D.M., Ashe, E.L., Kopp, R.E., DeConto, R.M., Pollard, R., Rovere, A., 2020: Could the Last Interglacial Constrain Projections of Future Antarctic Ice Mass Loss and Sea-level Rise? Journal of Geophysical Research: Earth Surface, 125(10), e2019JF005418, https://doi.org/10.1029/2019JF005418
Saintilan, N., Khan N.S., Ashe, E.L., Kelleway J.J., Rogers K., Woodroffe, C.D., Horton B.P, 2020: Thresholds of mangrove survival under future sea-level rise: evidence from the palaeo record. Science, 368(6495), 1118-1121, https://doi.org/10.1126/science.aba2656
Khan, N.S., Horton, B.P., Engelhart, S.E., Rovere, A., Vacchi, M., Ashe, E.L., Törnqvist, T., Dutton, A., Hijma, M.P., Shennan, I., 2019: Inception of a global atlas of sea levels since the Last Glacial Maximum. Quaternary Science Reviews, 220, 359-371, https://doi.org/10.1016/j.quascirev.2019.07.016
Ashe, E.L., Cahill, N., Hay, C., Khan, N.S., Kemp, A.C., Engelhart, S.E., Horton, B.P., Parnell, Kopp, R.E., 2019: Statistical modeling of rates and trends in Holocene relative sea level. Quaternary Science Reviews, 204, 58–77, https://doi.org/10.1016/j.quascirev.2018.10.032
Vacchi, M., Engelhart, S., Nikitina, D., Ashe, E.L., Peltier, W., Roy, K., Kopp, R., Horton, B., 2018: Postglacial relative sea-level histories along the Northeastern Canadian coastline. Quaternary Science Reviews, 201, 124-146, https://doi.org/10.1016/j.quascirev.2018.09.043
Toth, L.T., Cheng, H., Edwards, R.L., Ashe, E.L., Richey, J.N., 2017: Millennial-scale variability in the local radiocarbon reservoir age of south Florida during the Holocene. Quaternary Geochronology, 42, 130-143, https://doi.org/10.1016/j.quageo.2017.07.005
Meltzner, A.J., Switzer, A.D., Horton, B.P., Ashe, E.L., Qiu, Q., Hill, D.F., Bradley, S.L., Kopp, R.E., Hill, E.M., Majewski, J.M., Natawidjaja, D.H., Suwargadi, B.W., 2017: Half-metre sea-level fluctuations on centennial timescales from mid-Holocene corals of Southeast Asia. Nature Communications, 8, 14387, https://doi.org/10.1038/ncomms14387
Khan, N.S., Ashe, E.L., Horton, B.P., Engelhart, S., Peltier, W.R., Kopp, R.E., Dutton, A., Brocard, G., Scatena, F.N., 2017: Drivers of Holocene sea-level change in the Caribbean. Quaternary Science Reviews, 155, 13-36, https://doi.org/10.1016/j.quascirev.2016.08.032
Hawkes, A., Kemp, A., Donnelly, J., Horton, B., Peltier, W., Cahill, N., Hill, D.F., Ashe, E.L., Alexander, C.R, 2016: Relative sea-level change in northeastern Florida (USA) during the last 8.0 ka. Quaternary Geochronology, 142, 90-101, https://doi.org/10.1016/j.quascirev.2016.04.016
Khan, N.S., Ashe, E.L., Shaw, T., Vacchi, M., Walker, J., Peltier, W.R., Kopp, R.E., Horton, B.P., 2015: Holocene relative sea-level changes from near-, intermediate-, and far-field locations. Current Climate Change Reports, 1, 247-262, https://doi.org/10.1007/s40641-015-0029-z
Targeting tool for athletic and academic college search: https://collegetargetapp.onrender.com/
lead developer: https://github.com/ericaashe/Nonparametric. Ashe et al., 2022. ASCMO: A statistical framework for integrating non-parametric proxy distributions into geological reconstructions of relative sea level. MATLAB code.
lead developer: https://github.com/ericaashe/MallorcaCPModel. Onac et al., 2022. Science Advances: Exceptionally stable pre-industrial sea level inferred from the western Mediterranean Sea. Jupyter Notebook and R code.
lead developer: https://github.com/ericaashe/Mangrove_Analysis. Saintilan et al., 2020. Science: Thresholds of mangrove survival under future sea-level rise: evidence from the palaeo record. Jupyter Notebook and Python code.
collaborating developer: https://github.com/dgilford/gilford20_ligais. Gilford et al., 2020. JGR: Could the Last Interglacial Constrain Projections of Future Antarctic Ice Mass Loss and Sea-level Rise? Jupyter Notebook and Python code.
lead developer: https://github.com/ericaashe/AsheEtAl2018. Ashe et al., 2019. QSR Review: Statistical modeling of rates and trends in Holocene relative sea level. MATLAB code.