|ISS observations offer insights into plant function|
EN Stavros, D Schimel, R Pavlick, S Serbin, A Swann, L Duncanson, ...
Nature Ecology & Evolution 1 (7), 0194, 2017
|Regional projections of the likelihood of very large wildland fires under a changing climate in the contiguous Western United States|
EN Stavros, JT Abatzoglou, D McKenzie, NK Larkin
Climatic Change 126, 455-468, 2014
|NASA's surface biology and geology designated observable: A perspective on surface imaging algorithms|
K Cawse-Nicholson, PA Townsend, D Schimel, AM Assiri, PL Blake, ...
Remote Sensing of Environment 257, 112349, 2021
|Hyperspectral remote sensing of fire: State-of-the-art and future perspectives|
S Veraverbeke, P Dennison, I Gitas, G Hulley, O Kalashnikova, T Katagis, ...
Remote Sensing of Environment 216, 105-121, 2018
|Flux towers in the sky: global ecology from space|
D Schimel, FD Schneider, JPL Carbon and Ecosystem Participants
New Phytologist 224 (2), 570-584, 2019
|Climate and very large wildland fires in the contiguous western USA|
EN Stavros, J Abatzoglou, NK Larkin, D McKenzie, EA Steel
International Journal of Wildland Fire 23 (7), 899-914, 2014
|Deconstructing the King megafire|
JL Coen, EN Stavros, JA Fites‐Kaufman
Ecological applications 28 (6), 1565-1580, 2018
|Smoke consequences of new wildfire regimes driven by climate change|
D McKenzie, U Shankar, RE Keane, EN Stavros, WE Heilman, DG Fox, ...
Earth's Future 2 (2), 35-59, 2014
|Assessing fire severity using imaging spectroscopy data from the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) and comparison with multispectral capabilities|
S Veraverbeke, EN Stavros, SJ Hook
Remote Sensing of Environment 154, 153-163, 2014
|Use of imaging spectroscopy and LIDAR to characterize fuels for fire behavior prediction|
EN Stavros, J Coen, B Peterson, H Singh, K Kennedy, C Ramirez, ...
Remote Sensing Applications: Society and Environment 11, 41-50, 2018
|Photoelectrons as a tool to evaluate spectral variations in solar EUV irradiance over solar cycle timescales|
WK Peterson, EN Stavros, PG Richards, PC Chamberlin, TN Woods, ...
Journal of Geophysical Research: Space Physics 114 (A10), 2009
|The climate–wildfire–air quality system: interactions and feedbacks across spatial and temporal scales|
EN Stavros, D McKenzie, N Larkin
Wiley Interdisciplinary Reviews: Climate Change 5 (6), 719-733, 2014
|Unprecedented remote sensing data over King and Rim megafires in the Sierra Nevada Mountains of California|
EN Stavros, Z Tane, VR Kane, S Veraverbeke, RJ McGaughey, JA Lutz, ...
Ecology 97 (11), 3244-3244, 2016
|THEO concept mission: testing the habitability of Enceladus’s Ocean|
SM MacKenzie, TE Caswell, CM Phillips-Lander, EN Stavros, ...
Advances in Space Research 58 (6), 1117-1137, 2016
|Evaluating the potential of LiDAR data for fire damage assessment: A radiative transfer model approach|
M García, P North, A Viana-Soto, NE Stavros, J Rosette, MP Martín, ...
Remote Sensing of Environment 247, 111893, 2020
|Satellite hydrology observations as operational indicators of forecasted fire danger across the contiguous United States|
A Farahmand, EN Stavros, JT Reager, A Behrangi, JT Randerson, ...
Natural Hazards and Earth System Sciences 20 (4), 1097-1106, 2020
|Comparison of thermal infrared-derived maps of irrigated and non-irrigated vegetation in urban and non-urban areas of Southern California|
RW Coleman, N Stavros, G Hulley, N Parazoo
Remote Sensing 12 (24), 4102, 2020
|A simplified framework for high-resolution urban vegetation classification with optical imagery in the Los Angeles Megacity|
RW Coleman, N Stavros, V Yadav, N Parazoo
Remote Sensing 12 (15), 2399, 2020
|NASA's Surface Biology and Geology Concept Study: Status and Next Steps|
DR Thompson, DS Schimel, B Poulter, I Brosnan, SJ Hook, RO Green, ...
IGARSS 2020-2020 IEEE International Geoscience and Remote Sensing Symposium …, 2020
|Soil Moisture Active Passive Mission L4_C Data Product Assessment (Version 2 Validated Release)|
JS Kimball, LA Jones, J Glassy, EN Stavros, N Madani, RH Reichle, ...