Ian Sue Wing
Ian Sue Wing
Associate Professor, Dept. of Earth & Environment, Boston University
Verified email at bu.edu - Homepage
Cited by
Cited by
Assessing Transformation Pathways. In: Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the …
LE Clarke, K Jiang, K Akimoto, M Babiker, GJ Blanford, K Fisher-Vanden, ...
Pacific Northwest National Lab.(PNNL), Richland, WA (United States), 2015
Hidden costs of energy: unpriced consequences of energy production and use
National Research Council
National Academies Press, 2010
Net carbon uptake has increased through warming-induced changes in temperate forest phenology
TF Keenan, J Gray, MA Friedl, M Toomey, G Bohrer, DY Hollinger, ...
Nature Climate Change 4 (7), 598-604, 2014
The MIT emissions prediction and policy analysis (EPPA) model: revisions, sensitivities, and comparisons of results
MHM Babiker, JM Reilly, M Mayer, RS Eckaus, I Sue Wing, RC Hyman
MIT Joint Program on the Science and Policy of Global Change, 2001
Computable general equilibrium models and their use in economy-wide policy analysis
IS Wing
Joint Program on the Science and Policy of the Global Change, Technical paper 6, 2004
Explaining the declining energy intensity of the US economy
IS Wing
Resource and Energy Economics 30 (1), 21-49, 2008
The synthesis of bottom-up and top-down approaches to climate policy modeling: Electric power technologies and the cost of limiting US CO2 emissions
IS Wing
Energy Policy 34 (18), 3847-3869, 2006
The synthesis of bottom-up and top-down approaches to climate policy modeling: Electric power technology detail in a social accounting framework
IS Wing
Energy Economics 30 (2), 547-573, 2008
Absolute versus intensity-based emission caps
AD Ellerman, IS Wing
Climate Policy 3 (sup2), S7-S20, 2003
Representing induced technological change in models for climate policy analysis
IS Wing
Energy Economics 28 (5-6), 539-562, 2006
Adjustment time, capital malleability and policy cost
HD Jacoby, IS Wing
The Energy Journal 20 (Special Issue-The Cost of the Kyoto Protocol: A Multi …, 1999
Supplementarity: an invitation to monopsony?
AD Ellerman, IS Wing
The Energy Journal 21 (4), 2000
Induced technical change and the cost of climate policy
I Sue Wing
Toward a useful architecture for climate change negotiations
HD Jacoby, R Schmalensee, I Sue Wing
MIT Joint Program on the Science and Policy of Global Change, 1999
Cities, traffic, and CO2: A multidecadal assessment of trends, drivers, and scaling relationships
CK Gately, LR Hutyra, IS Wing
Proceedings of the National Academy of Sciences 112 (16), 4999-5004, 2015
Economic consequences of pollinator declines: a synthesis
DM Bauer, IS Wing
Agricultural and Resource Economics Review 39 (3), 368-383, 2010
A Bottom up Approach to on-Road CO2 Emissions Estimates: Improved Spatial Accuracy and Applications for Regional Planning
CK Gately, LR Hutyra, IS Wing, MN Brondfield
Environmental science & technology 47 (5), 2423-2430, 2013
12 Absolute versus Intensity Limits for CO2 Emission Control: Performance under Uncertainty
IS Wing, A Denny
The Design of Climate Policy, 221, 2008
Computable general equilibrium models for the analysis of energy and climate policies
IS Wing
Prepared for the International Handbook of Energy Economics, 2007
Second-best instruments for near-term climate policy: Intensity targets vs. the safety valve
M Webster, IS Wing, L Jakobovits
Journal of Environmental Economics and Management 59 (3), 250-259, 2010
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