|Quantifying global soil carbon losses in response to warming|
T Crowther, et al.
Nature 540 (doi:10.1038/nature20150), 104–108, 2016
|Long-term warming restructures Arctic tundra without changing net soil carbon storage|
SA Sistla, JC Moore, RT Simpson, L Gough, GR Shaver, JP Schimel
Nature 497 (7451), 615, 2013
|Stoichiometric flexibility as a regulator of carbon and nutrient cycling in terrestrial ecosystems under change|
SA Sistla, JP Schimel
New Phytologist 196 (1), 68-78, 2012
|Eco-label conveys reliable information on fish stock health to seafood consumers|
NL Gutiérrez, SR Valencia, TA Branch, DJ Agnew, JK Baum, PL Bianchi, ...
PloS one 7 (8), e43765, 2012
|How the turtle forms its shell: a paracrine hypothesis of carapace formation.|
J Cebra-Thomas, F Tan, S Sistla, E Estes, G Bender, C Kim, P Riccio, ...
Journal of Experimental Zoology Part B Molecular and Developmental Evolution …, 2005
|Detecting microbial N-limitation in tussock tundra soil: implications for Arctic soil organic carbon cycling|
SA Sistla, S Asao, JP Schimel
Soil Biology and Biochemistry 55, 78-84, 2012
|Competition–defense tradeoffs and the maintenance of plant diversity|
DV Viola, EA Mordecai, AG Jaramillo, SA Sistla, LK Albertson, JS Gosnell, ...
Proceedings of the National Academy of Sciences 107 (40), 17217-17222, 2010
|Seasonal patterns of microbial extracellular enzyme activities in an arctic tundra soil: Identifying direct and indirect effects of long-term summer warming|
SA Sistla, JP Schimel
Soil Biology and Biochemistry 66, 119-129, 2013
|Responses of a tundra system to warming using SCAMPS: a stoichiometrically coupled, acclimating microbe-plant-soil model|
SA Sistla, EB Rastetter, JP Schimel
Ecological Monographs 84 (1), 151-170, 2014
|Stoichiometric flexibility in response to fertilization along gradients of environmental and organismal nutrient richness|
SA Sistla, AP Appling, AM Lewandowska, BN Taylor, AA Wolf
Oikos 124 (7), 949-959, 2015
|Hierarchical responses of plant stoichiometry to nitrogen deposition and mowing in a temperate steppe|
X Han, SA Sistla, YH Zhang, XT Lü, XG Han
Plant and Soil, 2014
|Scaling up the diversity-resilience relationship with trait databases and remote sensing data: the recovery of productivity after wildfire|
M Spasojevic, C Bahlai, B Bradley, B Butterfield, MN Tuanmu, S Sistla, ...
Global Change Biology, 2016
|Agroforestry Practices Promote Biodiversity and Natural Resource Diversity in Atlantic Nicaragua.|
SA Sistla, AB Roddy, NE Williams, DB Kramer, K Stevens, SD Allison
PLoS ONE 11 (9), e016252, 2016
|Carbon and nitrogen contents in particle--size fractions of topsoil along a 3000 km aridity gradient in grasslands of northern China|
XGH Xiao-Guang Wang, Seeta A. Sistla, Xiao-Bo Wang, Xiao-Tao Lü
Biogeosciences 13 (12), 3635, 2016
|Carbon Use Efficiency and Its Temperature Sensitivity Covary in Soil Bacteria|
G Pold, LA Domeignoz-Horta, EW Morrison, SD Frey, SA Sistla, ...
mBio 11 (1), 2020
|Coastal livelihood transitions under globalization with implications for trans-ecosystem interactions|
DB Kramer, K Stevens, NE Williams, S Sistla, GR Urquhart
PlOS ONE 12 (10), e0186683, 2017
|Long-term mowing did not alter the impacts of nitrogen deposition on litter quality in a temperate steppe|
H Shuang-Li, JX Yin, S Sistla, JJ Yang, Y Sun, YY Li, XT Lü
Ecological Engineering 102 (http://dx.doi.org/10.1016/j.ecoleng.2017), 404–410, 2017
|Tracking microhabitat temperature variation with iButton data loggers|
S Fawcett, S Sistla, M Dacosta‐Calheiros, A Kahraman, AA Reznicek, ...
Applications in Plant Sciences 4 (e1237), 1 - 12, 2019
|The Evolutionary ecology and genertics of stress resistance syndrome (SRS) traits: Revisiting Chapin, Autumn and Pugnaire (1993)|
EJB von Wettberg, J Ray-Mukherjee, N D’Adesky, D Nesbeth, S Sistla
Plant Ecology and Evolution in Harsh Environments, 201-226, 2014
|Legacy effects of nitrogen deposition on plant nutrient stoichiometry in a temperate grassland|
YY Hu, S Sistla, HW Wei, ZW Zhang, SL Hou, JJ Yang, ZW Wang, ...
Plant and Soil, 1-11, 2019