|2.2 Mb of contiguous nucleotide sequence from chromosome III of C. elegans|
R Wilson, R Ainscough, K Anderson, C Baynes, M Berks, J Bonfield, ...
Nature 368 (6466), 32-38, 1994
|A high‐resolution global flood hazard model|
CC Sampson, AM Smith, PD Bates, JC Neal, L Alfieri, JE Freer
Water resources research 51 (9), 7358-7381, 2015
|Utility of whole‐exome sequencing for those near the end of the diagnostic odyssey: time to address gaps in care|
SL Sawyer, T Hartley, DA Dyment, CL Beaulieu, J Schwartzentruber, ...
Clinical genetics 89 (3), 275-284, 2016
|Estimates of present and future flood risk in the conterminous United States|
OEJ Wing, PD Bates, AM Smith, CC Sampson, KA Johnson, J Fargione, ...
Environmental Research Letters 13 (3), 034023, 2018
|Validation of a 30 m resolution flood hazard model of the conterminous U nited S tates|
OEJ Wing, PD Bates, CC Sampson, AM Smith, KA Johnson, TA Erickson
Water Resources Research 53 (9), 7968-7986, 2017
|Timing of community mitigation and changes in reported COVID-19 and community mobility―four US metropolitan areas, February 26–April 1, 2020|
A Lasry, D Kidder, M Hast, J Poovey, G Sunshine, K Winglee, N Zviedrite, ...
Morbidity and Mortality Weekly Report 69 (15), 451, 2020
|Combined modeling of US fluvial, pluvial, and coastal flood hazard under current and future climates|
PD Bates, N Quinn, C Sampson, A Smith, O Wing, J Sosa, J Savage, ...
Water Resources Research 57 (2), e2020WR028673, 2021
|The credibility challenge for global fluvial flood risk analysis|
MA Trigg, CE Birch, JC Neal, PD Bates, A Smith, CC Sampson, ...
Environmental Research Letters 11 (9), 094014, 2016
|Regional flood frequency analysis at the global scale|
A Smith, C Sampson, P Bates
Water Resources Research 51 (1), 539-553, 2015
|New estimates of flood exposure in developing countries using high-resolution population data|
A Smith, PD Bates, O Wing, C Sampson, N Quinn, J Neal
Nature communications 10 (1), 1814, 2019
|Inequitable patterns of US flood risk in the Anthropocene|
OEJ Wing, W Lehman, PD Bates, CC Sampson, N Quinn, AM Smith, ...
Nature Climate Change 12 (2), 156-162, 2022
|Exposure to floods, climate change, and poverty in Vietnam|
M Bangalore, A Smith, T Veldkamp
Economics of Disasters and Climate Change 3, 79-99, 2019
|Cerberus: Autonomous legged and aerial robotic exploration in the tunnel and urban circuits of the darpa subterranean challenge|
M Tranzatto, F Mascarich, L Bernreiter, C Godinho, M Camurri, S Khattak, ...
arXiv preprint arXiv:2201.07067, 2022
|A flood inundation forecast of Hurricane Harvey using a continental-scale 2D hydrodynamic model|
OEJ Wing, CC Sampson, PD Bates, N Quinn, AM Smith, JC Neal
Journal of Hydrology X 4, 100039, 2019
|A first collective validation of global fluvial flood models for major floods in Nigeria and Mozambique|
MV Bernhofen, C Whyman, MA Trigg, PA Sleigh, AM Smith, CC Sampson, ...
Environmental Research Letters 13 (10), 104007, 2018
|The spatial dependence of flood hazard and risk in the United States|
N Quinn, PD Bates, J Neal, A Smith, O Wing, C Sampson, J Smith, ...
Water Resources Research 55 (3), 1890-1911, 2019
|The use of tiltmeters to study the dynamics of Antarctic ice-shelf grounding lines|
Journal of Glaciology 37 (125), 51-58, 1991
|Experimental otitis media in gerbils and chinchillas with Streptococcus pneumoniae, Haemophilus influenzae, and other aerobic and anaerobic bacteria|
RS Fulghum, JE Brinn, AM Smith, HJ Daniel 3rd, PJ Loesche
Infection and Immunity 36 (2), 802-810, 1982
|Subglacial Lake Ellsworth: A candidate for in situ exploration in West Antarctica|
MJ Siegert, R Hindmarsh, H Corr, A Smith, J Woodward, EC King, ...
Geophysical Research Letters 31 (23), 2004
|Ice flow modulated by tides at up to annual periods at Rutford Ice Stream, West Antarctica|
T Murray, AM Smith, MA King, GP Weedon
Geophysical Research Letters 34 (18), 2007