James Patrick Megonigal
James Patrick Megonigal
Smithsonian Environmental Research Center
Verified email at - Homepage
Cited by
Cited by
Tidal wetland stability in the face of human impacts and sea-level rise
ML Kirwan, JP Megonigal
Nature 504 (7478), 53-60, 2013
The carbon balance of North American wetlands
SD Bridgham, J Patrick Megonigal, JK Keller, NB Bliss, C Trettin
Wetlands 26 (4), 889-916, 2006
Anaerobic metabolism: linkages to trace gases and aerobic processes
JP Megonigal, ME Hines, PT Visscher
Treatise on geochemistry 8, 317-424, 2003
The future of Blue Carbon science
PI Macreadie, A Anton, JA Raven, N Beaumont, RM Connolly, DA Friess, ...
Nature communications 10 (1), 1-13, 2019
Salinity influence on methane emissions from tidal marshes
HJ Poffenbarger, BA Needelman, JP Megonigal
Wetlands 31 (5), 831-842, 2011
Altered soil microbial community at elevated CO2 leads to loss of soil carbon
KM Carney, BA Hungate, BG Drake, JP Megonigal
Proceedings of the National Academy of Sciences 104 (12), 4990-4995, 2007
Moving beyond global warming potentials to quantify the climatic role of ecosystems
SC Neubauer, JP Megonigal
Ecosystems 18 (6), 1000-1013, 2015
Below‐ground process responses to elevated CO2 and temperature: a discussion of observations, measurement methods, and models
E Pendall, S Bridgham, PJ Hanson, B Hungate, DW Kicklighter, ...
New Phytologist 162 (2), 311-322, 2004
Natural climate solutions for the United States
JE Fargione, S Bassett, T Boucher, SD Bridgham, RT Conant, ...
Science Advances 4 (11), eaat1869, 2018
Wetland carbon storage controlled by millennial-scale variation in relative sea-level rise
K Rogers, JJ Kelleway, N Saintilan, JP Megonigal, JB Adams, ...
Nature 567 (7746), 91-95, 2019
Iron-oxidizing bacteria are associated with ferric hydroxide precipitates (Fe-plaque) on the roots of wetland plants
D Emerson, JV Weiss, JP Megonigal
Applied and Environmental Microbiology 65 (6), 2758-2761, 1999
Sap-flux-scaled transpiration responses to light, vapor pressure deficit, and leaf area reduction in a flooded Taxodium distichum forest
R Oren, N Phillips, BE Ewers, DE Pataki, JP Megonigal
Tree Physiology 19 (6), 337-347, 1999
Elevated CO2 stimulates marsh elevation gain, counterbalancing sea-level rise
JA Langley, KL McKee, DR Cahoon, JA Cherry, JP Megonigal
Proceedings of the National Academy of Sciences 106 (15), 6182-6186, 2009
The potential impacts of climate change on the mid-Atlantic coastal region
RG Najjar, HA Walker, PJ Anderson, EJ Barron, RJ Bord, JR Gibson, ...
Climate Research 14 (3), 219-233, 2000
Aboveground production in southeastern floodplain forests: a test of the subsidy-stress hypothesis
JP Megonigal, WH Conner, S Kroeger, RR Sharitz
Ecology 78 (2), 370-384, 1997
Ecosystem response to elevated CO2 levels limited by nitrogen-induced plant species shift
JA Langley, JP Megonigal
Nature 466 (7302), 96-99, 2010
Life at the energetic edge: kinetics of circumneutral iron oxidation by lithotrophic iron-oxidizing bacteria isolated from the wetland-plant rhizosphere
SC Neubauer, D Emerson, JP Megonigal
Applied and Environmental Microbiology 68 (8), 3988-3995, 2002
Enumeration of Fe (II)-oxidizing and Fe (III)-reducing bacteria in the root zone of wetland plants: implications for a rhizosphere iron cycle
JV Weiss, D Emerson, SM Backer, JP Megonigal
Biogeochemistry 64 (1), 77-96, 2003
Characterization of Neutrophilic Fe (II)-Oxidizing Bacteria Isolated from the Rhizosphere of Wetland Plants and Description of Ferritrophicum radicicola gen. nov. sp. nov., and …
JV Weiss, JA Rentz, T Plaia, SC Neubauer, M Merrill-Floyd, T Lilburn, ...
Geomicrobiology Journal 24 (7-8), 559-570, 2007
Seasonal patterns and plant-mediated controls of subsurface wetland biogeochemistry
SC Neubauer, K Givler, SK Valentine, JP Megonigal
Ecology 86 (12), 3334-3344, 2005
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