|Explaining variation in tropical plant community composition: influence of environmental and spatial data quality|
MM Jones, H Tuomisto, D Borcard, P Legendre, DB Clark, PC Olivas
Oecologia 155 (3), 593-604, 2008
|Effects of mesoscale environmental heterogeneity and dispersal limitation on floristic variation in rain forest ferns|
MM Jones, H Tuomisto, DB Clark, P Olivas
Journal of ecology 94 (1), 181-195, 2006
|First direct landscape‐scale measurement of tropical rain forest Leaf Area Index, a key driver of global primary productivity|
DB Clark, PC Olivas, SF Oberbauer, DA Clark, MG Ryan
Ecology letters 11 (2), 163-172, 2008
|Methane fluxes during the initiation of a large‐scale water table manipulation experiment in the Alaskan Arctic tundra|
D Zona, WC Oechel, J Kochendorfer, KT Paw U, AN Salyuk, PC Olivas, ...
Global Biogeochemical Cycles 23 (2), 2009
|Losing your edge: climate change and the conservation value of range‐edge populations|
EM Rehm, P Olivas, J Stroud, KJ Feeley
Ecology and evolution 5 (19), 4315-4326, 2015
|Comparison of direct and indirect methods for assessing leaf area index across a tropical rain forest landscape|
PC Olivas, SF Oberbauer, DB Clark, DA Clark, MG Ryan, JJ O’Brien, ...
Agricultural and forest meteorology 177, 110-116, 2013
|Responses of CO2 flux components of Alaskan Coastal Plain tundra to shifts in water table|
PC Olivas, SF Oberbauer, CE Tweedie, WC Oechel, A Kuchy
Journal of Geophysical Research: Biogeosciences 115 (G4), 2010
|Environmental and neighbourhood effects on tree fern distributions in a neotropical lowland rain forest|
MM Jones, P Olivas Rojas, H Tuomisto, DB Clark
Journal of Vegetation Science 18 (1), 13-24, 2007
|Effects of Fine-Scale Topography on CO2 Flux Components of Alaskan Coastal Plain Tundra: Response to Contrasting Growing Seasons|
PC Olivas, SF Oberbauer, C Tweedie, WC Oechel, D Lin, A Kuchy
Arctic, Antarctic, and Alpine Research 43 (2), 256-266, 2011
|Differences in the degree of environmental control on large and small tropical plants: just a sampling effect?|
MM Jones, H Tuomisto, PC Olivas
Journal of Ecology 96 (2), 367-377, 2008
|Increased CO2 loss from vegetated drained lake tundra ecosystems due to flooding|
D Zona, DA Lipson, KT Paw U, SF Oberbauer, P Olivas, B Gioli, ...
Global Biogeochemical Cycles 26 (2), 2012
|Integrated carbon budget models for the Everglades terrestrial-coastal-oceanic gradient: Current status and needs for inter-site comparisons|
TG Troxler, E Gaiser, J Barr, JD Fuentes, R Jaffe, DL Childers, ...
Oceanography 26 (3), 98-107, 2013
|Intensified inundation shifts a freshwater wetland from a CO2 sink to a source|
J Zhao, SL Malone, SF Oberbauer, PC Olivas, JL Schedlbauer, ...
Global change biology, 2019
|Is conservation research money being spent wisely? Changing trends in conservation research priorities|
JT Stroud, E Rehm, M Ladd, P Olivas, KJ Feeley
Journal for nature conservation 22 (5), 471-473, 2014
|El Nino Southern Oscillation (ENSO) enhances CO2 exchange rates in freshwater marsh ecosystems in the Florida Everglades|
SL Malone, CL Staudhammer, SF Oberbauer, P Olivas, MG Ryan, ...
PloS one 9 (12), e115058, 2014
|Seasonal patterns in energy partitioning of two freshwater marsh ecosystems in the Florida Everglades|
SL Malone, CL Staudhammer, HW Loescher, P Olivas, SF Oberbauer, ...
Journal of Geophysical Research: Biogeosciences 119 (8), 1487-1505, 2014
|Ecosystem resistance in the face of climate change: a case study from the freshwater marshes of the Florida Everglades|
SL Malone, C Keough, CL Staudhammer, MG Ryan, WJ Parton, P Olivas, ...
Ecosphere 6 (4), 1-23, 2015
|Comparison of sensible heat flux measured by large aperture scintillometer and eddy covariance in a seasonally-inundated wetland|
J Zhao, PC Olivas, S Kunwor, SL Malone, CL Staudhammer, G Starr, ...
Agricultural and forest meteorology 259, 345-354, 2018
|Water uptake of Alaskan tundra evergreens during the winter–spring transition|
JG Moser, SF Oberbauer, LSL Sternberg, PZ Ellsworth, G Starr, ...
American journal of botany 103 (2), 298-306, 2016
|A common‐mesocosm experiment recreates sawgrass (Cladium jamaicense) phenotypes from Everglades marl prairies and peat marshes|
JH Richards, PC Olivas
American Journal of Botany, 2019