Adam C Watts
Adam C Watts
US Forest Service Pacific Wildland Fire Sciences Lab
Verified email at
Cited by
Cited by
Unmanned aircraft systems in remote sensing and scientific research: Classification and considerations of use
AC Watts, VG Ambrosia, EA Hinkley
Remote Sensing 4 (6), 1671-1692, 2012
Global vulnerability of peatlands to fire and carbon loss
MR Turetsky, B Benscoter, S Page, G Rein, GR Van Der Werf, A Watts
Nature Geoscience 8 (1), 11, 2015
The myths of restoration ecology
RH Hilderbrand, AC Watts, AM Randle
Ecology and Society 10 (1), 19, 2005
Fire as a fundamental ecological process: Research advances and frontiers
KK McLauchlan, PE Higuera, J Miesel, BM Rogers, J Schweitzer, ...
Journal of Ecology 108 (5), 2047-2069, 2020
Small unmanned aircraft systems for low‐altitude aerial surveys
AC Watts, JH Perry, SE Smith, MA Burgess, BE Wilkinson, Z Szantoi, ...
The Journal of Wildlife Management 74 (7), 1614-1619, 2010
The science of firescapes: achieving fire-resilient communities
A Smith, CA Kolden, TB Paveglio, MA Cochrane, DMJS Bowman, ...
Bioscience 66 (2), 130-146, 2016
Polycyclic aromatic hydrocarbons in biomass-burning emissions and their contribution to light absorption and aerosol toxicity
V Samburova, J Connolly, M Gyawali, RLN Yatavelli, AC Watts, ...
Science of the Total Environment 568, 391-401, 2016
Prescribed fire science: The case for a refined research agenda
JK Hiers, JJ O’Brien, JM Varner, BW Butler, M Dickinson, J Furman, ...
Fire Ecology 16, 1-15, 2020
Brown carbon aerosols from burning of boreal peatlands: microphysical properties, emission factors, and implications for direct radiative forcing
RK Chakrabarty, M Gyawali, RLN Yatavelli, A Pandey, AC Watts, J Knue, ...
Atmospheric Chemistry and Physics 16 (5), 3033-3040, 2016
Perspectives on Trends, Effectiveness, and Impediments to Prescribed Burning in the Southern US
LN Kobziar, D Godwin, L Taylor, AC Watts
Forests 6 (3), 561-580, 2015
Scaling ecological resilience
DA Falk, AC Watts, AE Thode
Frontiers in Ecology and Evolution 7, 275, 2019
Smoldering combustion and ground fires: ecological effects and multi-scale significance
AC Watts, LN Kobziar
Fire ecology 9 (1), 124-132, 2013
The Fire and Smoke Model Evaluation Experiment—A Plan for Integrated, Large Fire–Atmosphere Field Campaigns
S Prichard, NS Larkin, R Ottmar, NHF French, K Baker, T Brown, ...
Atmosphere 10 (2), 66, 2019
Light absorption by polar and non-polar aerosol compounds from laboratory biomass combustion
D Sengupta, V Samburova, C Bhattarai, E Kirillova, L Mazzoleni, ...
Atmospheric Chemistry and Physics 18 (15), 10849-10867, 2018
Global vulnerability of peatlands to fire and carbon loss, Nat. Geosci., 8, 11–14
MR Turetsky, B Benscoter, S Page, G Rein, GR van der Werf, A Watts
Wildland Fire Detection and Monitoring Using a Drone-Collected RGB/IR Image Dataset
X Chen, B Hopkins, H Wang, L O’Neill, F Afghah, A Razi, P Fulé, J Coen, ...
IEEE Access 10, 121301-121317, 2022
Organic soil combustion in cypress swamps: moisture effects and landscape implications for carbon release
AC Watts
Forest Ecology and Management 294, 178-187, 2013
Polycyclic aromatic hydrocarbons in post-fire soils of drained peatlands in western Meshchera (Moscow region, Russia)
A Tsibart, A Gennadiev, T Koshovskii, A Watts
Solid Earth 5 (2), 1305-1317, 2014
Fire behaviour and smoke modelling: model improvement and measurement needs for next-generation smoke research and forecasting systems
Y Liu, A Kochanski, KR Baker, W Mell, R Linn, R Paugam, J Mandel, ...
International Journal of Wildland Fire 28 (8), 570-588, 2019
Physical and chemical characterization of aerosol in fresh and aged emissions from open combustion of biomass fuels
C Bhattarai, V Samburova, D Sengupta, M Iaukea-Lum, AC Watts, ...
Aerosol Science and Technology 52 (11), 1266-1282, 2018
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