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{{#referencelist:

|references=van vuuren2013a;

vanVuuren2013; Denning:1991:CUA:102616; Zhai:2016:TDM:2915031; vanVuuren2014; Hof2012; APAexample1;|+sep=;

|listtype=ol
|browselinks=yes
|columns=1
|header=All references

}} Use "Edit" to view the examples {{#scite: |reference=van vuuren2013a |type=Journal-article |title=A new scenario framework for Climate Change Research: scenario matrix architecture |author=Detlef P. van Vuuren;Elmar Kriegler;Brian C. O’Neill;Kristie L. Ebi;Keywan Riahi;Timothy R. Carter;Jae Edmonds;Stephane Hallegatte;Tom Kram;Ritu Mathur;Harald Winkler|+sep=; |journal=Climatic Change |publisher=Springer Science + Business Media |year=2013 |volume=122 |number=3 |pages=373-386 |doi=10.1007/s10584-013-0906-1 |subject=Atmospheric Science;Global and Planetary Change|+sep=; |issn=0165-0009;1573-1480|+sep=; }}

{{#scite: |bibtex=@ARTICLE{vanVuuren2013, author="van Vuuren, Detlef P. and Kriegler, Elmar and O'Neill, Brian C.", title="A new scenario wiki", journal="Climatic Change", year="2014", volume="122", number="3", pages="373--386", abstract="This paper describes the scenario matrix architecture that underlies a framework for developing new scenarios for climate change research. The matrix architecture facilitates addressing key questions related to current climate research and policy-making: identifying the effectiveness of different adaptation and mitigation strategies (in terms of their costs, risks and other consequences) and the possible trade-offs and synergies. The two main axes of the matrix are: 1) the level of radiative forcing of the climate system (as characterised by the representative concentration pathways) and 2) a set of alternative plausible trajectories of future global development (described as shared socio-economic pathways). The matrix can be used to guide scenario development at different scales. It can also be used as a heuristic tool for classifying new and existing scenarios for assessment. Key elements of the architecture, in particular the shared socio-economic pathways and shared policy assumptions (devices for incorporating explicit mitigation and adaptation policies), are elaborated in other papers in this special issue.", issn="1573-1480", doi="10.1007/s10584-013-0906-2", url="http://dx.doi.org/10.1007/s10584-013-0906-1" } }} {{#scite: |bibtex= @book{Denning:1991:CUA:102616, editor = {Peter J. Denning}, title = {Computers Under Attack: Intruders, Worms, and Viruses}, year = {1990}, isbn = {0-201-53067-8}, source = {ACM member price \$21.50, order number 706900}, publisher = {ACM}, address = {New York, NY, USA}, } }}

{{#scite: |bibtex= @book{Zhai:2016:TDM:2915031,

author = {Zhai, ChengXiang and Massung, Sean},
title = {Text Data Management and Analysis: A Practical Introduction to Information Retrieval and Text Mining},
year = {2016},
isbn = {978-1-97000-117-4},
publisher = {Association for Computing Machinery and Morgan & Claypool},
address = {New York, NY, USA},

} }} {{#scite:vanVuuren2014 |type=incollection |author=Detlef P. van Vuuren; Bas van Ruijven; David Gernaat; Harmen-Sytze de Boer|+sep=; |title=Energy conversion |year=2014 |chapter=4.1.2 |pages=89-98 |booktitle=Integrated assessment of global change with IMAGE 3.0 |editor=Elke Stehfest; Detlef van Vuuren;Tom Kram;Lex Bouwman|+sep=; |publisher=PBL Netherlands Environmental Assessment Agency |address=The Hague, Netherlands }}

{{#scite:Hof2012

|type=report
|author=A. F. Hof; C. Brink;A. Mendoza Beltrán; M. G. J. Den Elzen|+sep=;
|year=2012
|title=Greenhouse gas emission reduction targets for 2030: Conditions for a EU target of 40%
|institution=PBL Netherlands Environmental Assessment Agency
|address=The Hague, Netherlands

}}

{{#scite:APAexample1 |type=webpage |title=APA Citation Examples |year=2016 |url=http://www.umuc.edu/library/libhow/apa_examples.cfm |accessyear=2016 |accessdate=August 1 }}