|Linking the historic 2011 Mississippi River flood to coastal wetland sedimentation|
F Falcini, NS Khan, L Macelloni, BP Horton, CB Lutken, KL McKee, ...
Nature Geoscience 5 (11), 803, 2012
|Holocene relative sea-level changes from near-, intermediate-, and far-field locations|
NS Khan, E Ashe, TA Shaw, M Vacchi, J Walker, WR Peltier, RE Kopp, ...
Current Climate Change Reports 1 (4), 247-262, 2015
|Drivers of Holocene sea-level change in the Caribbean|
NS Khan, E Ashe, BP Horton, A Dutton, RE Kopp, G Brocard, ...
Quaternary Science Reviews 155, 13-36, 2017
|Stable carbon isotope and C/N geochemistry of coastal wetland sediments as a sea-level indicator|
NS Khan, CH Vane, BP Horton
Handbook of sea-level research 1, 295-311, 2015
|Mapping sea-level change in time, space, and probability|
BP Horton, RE Kopp, AJ Garner, CC Hay, NS Khan, K Roy, TA Shaw
Annual Review of Environment and Resources 43, 481-521, 2018
|Tracking sedimentation from the historic AD 2011 Mississippi River flood in the deltaic wetlands of Louisiana, USA|
NS Khan, BP Horton, KL McKee, D Jerolmack, F Falcini, MD Enache, ...
Geology 41 (4), 391-394, 2013
|Micropaleontology of the 2013 Typhoon Haiyan overwash sediments from the Leyte Gulf, Philippines|
JE Pilarczyk, BP Horton, JLA Soria, AD Switzer, F Siringan, HM Fritz, ...
Sedimentary Geology 339, 104-114, 2016
|Annual and seasonal distribution of intertidal foraminifera and stable carbon isotope geochemistry, Bandon Marsh, Oregon, USA|
Y Milker, BP Horton, CH Vane, SE Engelhart, AR Nelson, RC Witter, ...
The Journal of Foraminiferal Research 45 (2), 146-155, 2015
|Degradation of mangrove tissues by arboreal termites (Nasutitermes acajutlae) and their role in the mangrove C cycle (Puerto Rico): Chemical characterization and organic matter …|
CH Vane, AW Kim, V Moss‐Hayes, CE Snape, MC Diaz, NS Khan, ...
Geochemistry, Geophysics, Geosystems 14 (8), 3176-3191, 2013
|Typhoon Haiyan overwash sediments from Leyte Gulf coastlines show local spatial variations with hybrid storm and tsunami signatures|
JLA Soria, AD Switzer, JE Pilarczyk, FP Siringan, NS Khan, HM Fritz
Sedimentary Geology 358, 121-138, 2017
|Palaeo-sea-level and palaeo-ice-sheet databases: problems, strategies, and perspectives|
A Dusterhus, A Rovere, A Carlson, B Horton, V Klemann, L Tarasov, ...
Climate of the Past 12 (4), 911-921, 2016
|The application of δ13C, TOC and C/N geochemistry to reconstruct Holocene relative sea levels and paleoenvironments in the Thames Estuary, UK|
NS Khan, CH Vane, BP Horton, C Hillier, JB Riding, CP Kendrick
Journal of Quaternary Science 30 (5), 417-433, 2015
|Holocene sea-level database from the Atlantic coast of Europe|
A García-Artola, P Stéphan, A Cearreta, RE Kopp, NS Khan, BP Horton
Quaternary Science Reviews 196, 177-192, 2018
|Mangrove damage, delayed mortality, and early recovery following Hurricane Irma at two landfall sites in southwest Florida, USA|
KR Radabaugh, RP Moyer, AR Chappel, EE Dontis, CE Russo, KM Joyse, ...
Estuaries and Coasts, 1-15, 2019
|A North American hydroclimate synthesis (NAHS) of the Common Era|
JR Rodysill, L Anderson, TM Cronin, MC Jones, RS Thompson, DB Wahl, ...
Global and Planetary Change 162, 175-198, 2018
|Statistical modeling of rates and trends in Holocene relative sea level|
EL Ashe, N Cahill, C Hay, NS Khan, A Kemp, SE Engelhart, BP Horton, ...
Quaternary Science Reviews 204, 58-77, 2019
|Microfossil measures of rapid sea-level rise: Timing of response of two microfossil groups to a sudden tidal-flooding experiment in Cascadia|
BP Horton, Y Milker, T Dura, K Wang, WT Bridgeland, L Brophy, M Ewald, ...
Geology 45 (6), 535-538, 2017
|A postglacial relative sea-level database for the Russian Arctic coast|
AV Baranskaya, NS Khan, FA Romanenko, K Roy, WR Peltier, BP Horton
Quaternary Science Reviews 199, 188-205, 2018
|The role of sediment compaction and groundwater withdrawal in local sea-level rise, Sandy Hook, New Jersey, USA|
CS Johnson, KG Miller, JV Browning, RE Kopp, NS Khan, Y Fan, ...
Quaternary Science Reviews 181, 30-42, 2018
|Environmental and Sea-Level Reconstruction in Temperate, Subtropical, and Tropical Coastal Wetlands Using Bulk Stable Carbon Isotope Geochemistry and Microfossils|