Feel free to contact me for a copy of any of my publications.
Agriculture and Land Use:
Emery I, Mueller S, Qin Z, Dunn JB. Evaluating the potential of marginal land for cellulosic feedstock production and carbon sequestration in the United States. Environmental Science and Technology 51(1): 733-741, 2017
Corinne Cooley and Isaac Emery. Ecosystem services from urban agriculture in the city of the future. In: Sowing Seeds in the City. Brown S, McIvor K, Hodges E (Eds). New York, NY, Springer. 1:1-22, 2016
Isaac Emery and Sally Brown. Lettuce to reduce greenhouse gases: A comparative life cycle assessment of conventional and community agriculture. In: Sowing Seeds in the City. Brown S, McIvor K, Hodges E (Eds). New York, NY, Springer. 12:161-169, 2016
Kelliher FM, Sedcole JR, Emery I, Condron LM. Grassland soil microbial respiration responses to urea and litter applications. New Zealand Journal of Agricultural Research, 50, 2007
Biomass and Biofuels:
Emery I, Mbonimpa E, and Thal AE. Climate-based policies may increase life-cycle social costs of vehicle fleet operation. Energy Policy 101: 1-9, 2017
Athmanathan A, Emery I, Kuczek T, Mosier N. Impact of temperature, moisture & storage duration on the chemical composition of switchgrass, corn stover, and sweet sorghum bagasse. BioEnergy Research, 8(2), 2015
Emery I, Dunn JB, Han J, and Wang M. Biomass storage options influence net energy and emissions of cellulosic ethanol. BioEnergy Research, 8(2), 2015
Isaac Emery and Nathan Mosier. Direct emission of methane and nitrous oxide from switchgrass and corn stover: Implications for large-scale biomass storage. GCB Bioenergy, 7(4), 2015
Isaac Emery and Nathan Mosier. The impact of dry matter loss during herbaceous biomass storage on net greenhouse gas emissions from biofuels production. Biomass and Bioenergy 39: 237-246, 2012
Ph.D. Dissertation, “Direct and indirect greenhouse gas emissions during biomass storage: Implications for life cycle assessment of biofuels,” (2013), available via Open Access at PQDT Open
Mechanisms of Atherosclerosis:
Farris S, Hu J H, Krishnan R, Emery I, Chu T, Du L, Kremen M, Dichek H L, Gold E, Ramsey S, Dichek D A. Mechanisms of urokinase plasminogen activator (uPA)-mediated atherosclerosis: Role of the uPA receptor and S100A8/A9 proteins. J Biol Chem. 286(25):22665-77, 2011
Krishnan R, Kremen M, Hu J H, Emery I, Farris S D, Slezicki K I, Chu T, Du L, Dichek H L, Dichek D A. Level of Macrophage uPA Expression Is an Important Determinant of Atherosclerotic Lesion Growth in Apoe -/- Mice. Arterioscler Thromb Vasc Biol 29, 2009
Kremen M, Ranjini K, Emery I, Hu J, Slezicki K, Wu A, Qian K, Du L, Plawman A, Stempien-Otero A, Dichek D. Plasminogen mediates the atherogenic effects of macrophage-expressed urokinase and accelerates atherosclerosis in apoE-null mice. PNAS, 105(44), 2008
Neurodevelopment:
Withers G S, Wallace C S, Gibbs E, Emery I, Applegate M L. Synapses on demand require dendrites at the ready: How defining stages of dendritic development in vitro could inform studies of behaviorally driven information storage in the brain. Dev Psychobiol 53: 443-455, 2011