Seguir
Emily Austin
Emily Austin
Dirección de correo verificada de utk.edu
Título
Citado por
Citado por
Año
Soil microbial community responses to multiple experimental climate change drivers
HF Castro, AT Classen, EE Austin, RJ Norby, CW Schadt
Applied and environmental microbiology 76 (4), 999-1007, 2010
8522010
Cover crop root contributions to soil carbon in a no‐till corn bioenergy cropping system
EE Austin, K Wickings, MD McDaniel, GP Robertson, AS Grandy
Gcb Bioenergy 9 (7), 1252-1263, 2017
1552017
Assessment of 10 years of CO2 fumigation on soil microbial communities and function in a sweetgum plantation
EE Austin, HF Castro, KE Sides, CW Schadt, AT Classen
Soil Biology and Biochemistry 41 (3), 514-520, 2009
1042009
Development and validation of a citrate synthase directed quantitative PCR marker for soil bacterial communities
HF Castro, AT Classen, EE Austin, KM Crawford, CW Schadt
Applied Soil Ecology 61, 69-75, 2012
142012
Wood decomposition in a warmer world
EE Austin
62013
SOIL CARBON TRANSFORMATIONS: with Karl E. Peters,“Living with the Wicked Problem of Climate Change”; Paul H. Carr,“What Is Climate Change Doing to Us and for Us?”; James …
EE Austin
Zygon® 53 (2), 507-514, 2018
22018
All cover crops build soil organic matter, mostly from root inputs
EE Austin, AS Grandy
2017 ESA Annual Meeting (August 6--11), 2017
2017
Cover crop root, shoot, and rhizodeposit contributions to soil carbon in a no-till corn bioenergy cropping system
E Austin, S Grandy, K Wickings, MD McDaniel, P Robertson
AGU Fall Meeting Abstracts 2016, B41E-0495, 2016
2016
Development and validation of a citrate synthase directed quantitative PCR marker for soil bacterial communities
HF Castro Gonzalez, AT Classen, EE Austin, KM Crawford, CW Schadt
Applied and Environmental Microbiology 61 (1), 2012
2012
PS 32-76: Variation in lignocellulosic fungal community structure on decomposing wood of two species Liquidambar styraciflua and Pinus taeda across 3 sites in Oak Ridge, TN
EE Austin
The 95th ESA Annual Meeting, 2010
2010
THERE IS LITTLE VARIATION IN LIGNOCELLULOSIC FUNGAL COMMUNITY STRUCTURE ON DECOMPOSING WOOD OF TWO SPECIES LIQUIDAMBAR STYRACIFLUA AND PINUS TAEDA ACROSS 3 SITES IN OAK RIDGE, TN.
EE Austin
JOURNAL OF NEMATOLOGY 41 (4), 304-304, 2009
2009
PS 2-32: Microbial community structure shifts in a multifactor climate change experiment
EE Austin, HF Castro, AT Classen, CW Schadt
The 93rd ESA Annual Meeting, 2008
2008
OOS 51-9: Toward approaches for disentangling root from microbial contributions to total soil respiration measurements using molecular genetic approaches
HF Castro-Gonzalez, EE Austin, KM Crawford, AT Classen, RJ Norby, ...
2007
Harvard Forest Symposium Abstract 2011
E Austin, A Classen
Variation in lignocellulosic fungal community structure on decomposing wood of two species Liquidambar styraciflua and Pinus taeda across 3 sites in Oak Ridge, TN
EE Austin
Soil microbes as predictors of ecosystem functional responses to global climate change
A Classen, EE Austin, VA Brown, JAM Bryant, A Buchan, H Castro, ...
Wood decomposing fungal community structure and function differ across decay stages of wood, but respond similarly to temperature
EE Austin, CW Schadt, A Classen
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–17