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Process tracing

Process tracing is a qualitative research method used to develop and test theories.[1][2][3] Process-tracing can be defined as the following: it is the systematic examination of diagnostic evidence selected and analyzed in light of research questions and hypotheses posed by the investigator (Collier, 2011). Process-tracing thus focuses on (complex) causal relationships between the independent variable(s) and the outcome of the dependent variable(s), evaluates pre-existing hypotheses and discovers new ones. It is generally understood as a "within-case" method to draw inferences on the basis of causal mechanisms, but it can also be used for ideographic research or small-N case-studies.[4][5] It has been used in social sciences (such as in psychology[2]), as well as in natural sciences.[5]

Scholars that use process tracing evaluate the weight of evidence on the basis of the strength of tests (notably straw-in-the-wind tests, hoop tests, smoking gun tests, double decisive tests).[5] As a consequence, what matters is not solely the quantity of observations, but the quality and manner of observations.[5][6] By using Bayesian probability, it may be possible to make strong causal inferences from a small sliver of data through process tracing.[5][7] As a result, process tracing is a prominent case study method.[8] Process tracing can be used to study one or a few cases, in order to determine the changes that have occurred over time within these cases and causal mechanisms are responsible for this change.[1]

Process tracing

Process-tracing can be used both for inductive (theory-generating) and deductive (theory-testing) purposes.[5] Process tracing can be divided into three variants. Although all variants trace causal mechanisms, it is necessary to consider these variants in order to align our practices with what we preach.[9] The three variants of process tracing are "theory-testing process tracing," "theory-building process tracing," and "explaining outcome process tracing”. Among themselves, these variants differ from each other on the fact that they are theory- or case-based designs, they test or build theoretical causal mechanisms, they understand the generality of causal mechanisms differently, and they make different inferences. [9] In 'theory-testing process tracing,' the goal is to test existing theories and the causal mechanisms assumed therein. [9][10] On the contrary, 'theory-building process tracing' involves constructing a theory about a causal mechanism that can be applied to a broader population of a particular phenomenon.[9] Through empirical evidence, a theoretical explanation is developed about causal mechanisms. [10] In "explaining outcome process tracing," it is not about testing or building a theoretical mechanism, but it is about finding a satisfactory explanation for a given outcome. [9] This variant constructs a detailed narrative that explains the process through which a specific outcome or series of events came to be. [10]

Process-tracing differs from other qualitative analysis methods because of its focus on "how" causal mechanisms work; other qualitative analysis methods focuses at the correlation between the dependent and independent variable (Beach & Pedersen, 2012). Process-tracing looks beyond the correlation of two variables.

In terms of theory-testing, the process-tracing method works by presenting the observable implications (hypotheses) of a theory, as well as alternative explanations that are inconsistent with the theory. These observable implications and alternative explanations are based on theory-based hypotheses and key events.[11] Once these observable implications are presented, they are then tested empirically to see which of the observable implications can be observed and which cannot.[1][12] It is also important to test if alternative explanations are present. [11] Process-tracing emphasizes the temporal sequence of events, and requires fine-grained case knowledge.[1]

For testing the hypothetical theories, there are different types of requirements within a causal mechanism. There are necessary requirements, where the presence of one variable will always lead to the effect on the dependent variable.[1] This means that the lack of the necessary requirement will also mean a lack of the rest of the mechanism. The second type of requirement is a sufficient requirement, where the presence of the requirement confirms the existence of a possible mechanism.[1] Stephen Van Evera's influential typology of process-tracing tests distinguishes tests depending on how they adjudicate between theoretical expectations:[5][13]

It is often used to complement comparative case study methods. By tracing the causal process from the independent variable of interest to the dependent variable, it may be possible to rule out potentially intervening variables in imperfectly matched cases. This can create a stronger basis for attributing causal significance to the remaining independent variables.[15]

A limitation to process-tracing is the problem of infinite regress.[16][17] While some influential works by methods scholars have argued that the ability of process-tracing to make causal claims is limited by low degrees of freedom,[18] methodologists widely reject that the "degrees of freedom" problem applies to research that uses process-tracing, given that qualitative research entails different logics than quantitative research (where scholars do need to be wary of degrees of freedom).[16][5]. Some other disadvantages are:

One advantage to process-tracing over quantitative methods is that process-tracing provides inferential leverage.[1] In addition to aiding uncovering and testing causal mechanisms, process-tracing also contributes descriptive richness.[1] In addition to that, process-tracing can also present the contextual conditions within certain processes take place.[19] Another important advantage is that process tracing can deal with theoretical pluralism, which means hypotheses or conceptual models have multiple (un)dependent variables and causal relationships. This method of analysis is therefore suitable for understanding inherent complexity (Kay & Baker, 2015). The reason why process-tracing differs from other qualitative research methods is also an advantage.

By assigning probabilities to outcomes under specific conditions, scholars can use Bayesian rules in their process tracing to draw robust conclusions about the causes of outcomes.[20][21][5][8][22][23][7] For example, if a scholar's theory assumes that a number of observable implications will happen under certain conditions, then the repeated occurrence of those outcomes under the theorized conditions lends strong support for the scholar's theory because the observed outcomes would be improbable to occur in the manner expected by the scholar if the theory were false.[20] By using Bayesian probability, it may be possible to make strong causal inferences from a small sliver of data.[5] For example, a video recording of a person committing a bank robbery can be very strong evidence that a particular person committed the robbery while also ruling out that other potential suspects did it, even if it is only a single piece of evidence.[5]

Scholars can also use set theory in their process tracing.[24]

See also

References

  1. ^ a b c d e f g h i j k l m n Collier, David (2011). "Understanding Process Tracing". PS: Political Science & Politics. 44 (4): 823–830. doi:10.1017/s1049096511001429. ISSN 1049-0965.
  2. ^ a b Schulte-Mecklenbeck, M.; Kühberger, A.; Ranyard, R., eds. (2011). A Handbook of Process Tracing Methods for Decision Research: A Critical Review and User's Guide. New York: Taylor & Francis.
  3. ^ Ford, J. Kevin; Schmitt, Neal; Schechtman, Susan L.; Hults, Brian M.; Doherty, Mary L. (1989). "Process Tracing Methods: Contributions, Problems, and Neglected Research Questions". Organizational Behavior and Human Decision Processes. 43 (1): 75–117. doi:10.1016/0749-5978(89)90059-9.
  4. ^ Jacobs, Alan M.; Büthe, Tim; Arjona, Ana; Arriola, Leonardo R.; Bellin, Eva; Bennett, Andrew; Björkman, Lisa; Bleich, Erik; Elkins, Zachary; Fairfield, Tasha; Gaikwad, Nikhar (2021). "The Qualitative Transparency Deliberations: Insights and Implications". Perspectives on Politics. Supplementary materials, Pt 2: 171–208. doi:10.1017/S1537592720001164. ISSN 1537-5927. S2CID 232050726.
  5. ^ a b c d e f g h i j k Bennett, Andrew (2008). Box-Steffensmeier, Janet M; Brady, Henry E; Collier, David (eds.). "Process Tracing: a Bayesian Perspective". The Oxford Handbook of Political Methodology. doi:10.1093/oxfordhb/9780199286546.001.0001. ISBN 978-0-19-928654-6.
  6. ^ Gerring, John (2007). Case Study Research: Principles and Practices. Cambridge University Press. pp. 173, 180. ISBN 978-0-521-85928-8.
  7. ^ a b Fairfield, Tasha; Charman, Andrew E. (2022). Social Inquiry and Bayesian Inference. Cambridge University Press. ISBN 978-1-108-42164-5.
  8. ^ a b Mahoney, James (2016-09-02). "Mechanisms, Bayesianism, and process tracing". New Political Economy. 21 (5): 493–499. doi:10.1080/13563467.2016.1201803. ISSN 1356-3467. S2CID 156167903.
  9. ^ a b c d e Beach, Derek; Pedersen, Rasmus Brun (2013). Process-tracing methods: foundations and guidelines. Ann Arbor: The University of Michigan Press. ISBN 978-0-472-05189-2.
  10. ^ a b c Kay, Adrian; Baker, Phillip (2015). "What Can Causal Process Tracing Offer to Policy Studies? A Review of the Literature". Policy Studies Journal. 43 (1): 1–21. doi:10.1111/psj.12092.
  11. ^ a b Ricks, Jacob I.; Liu, Amy H. (2018). "Process-Tracing Research Designs: A Practical Guide". PS: Political Science & Politics. 51 (4): 842–846. doi:10.1017/S1049096518000975. ISSN 1049-0965.
  12. ^ King, Gary; Keohane, Robert O.; Verba, Sidney. Designing Social Inquiry.
  13. ^ Van Evera, Stephen (1997). Guide to Methods for Students of Political Science. Cornell University Press. ISBN 978-0-8014-5444-8. JSTOR 10.7591/j.ctvrf8bm7.
  14. ^ a b Mahoney, James (November 2012). "The Logic of Process Tracing Tests in the Social Sciences". Sociological Methods & Research. 41 (4): 570–597. doi:10.1177/0049124112437709. ISSN 0049-1241.
  15. ^ George, Alexander L.; Bennett, Andrew (2005). Case studies and theory development in the social sciences. London: MIT Press. pp. 214–15. ISBN 0-262-57222-2.
  16. ^ a b Bennett, Andrew (2010). "Process Tracing and Causal Inference" in Rethinking social inquiry diverse tools, shared standards. Rowman & Littlefield Publishers. ISBN 978-1-4422-0343-3. OCLC 787870333.
  17. ^ Verghese, Ajay (2020-02-24), Who's Afraid of Infinite Regress? A Process-Tracing Exercise, Rochester, NY, SSRN 3484930{{citation}}: CS1 maint: location missing publisher (link)
  18. ^ King, Gary; Keohane, Robert O.; Verba, Sidney (1994). Designing Social Inquiry. Princeton, New Jersey: Princeton University Press. p. 86. doi:10.1515/9781400821211. ISBN 978-1-4008-2121-1.
  19. ^ Beach, Derek (2017-01-25), "Process Tracing Methods in the Social Sciences", Oxford Research Encyclopedia of Politics, doi:10.1093/acrefore/9780190228637.013.176, ISBN 978-0-19-022863-7, retrieved 2024-03-05
  20. ^ a b Humphreys, Macartan; Jacobs, Alan M. (2015). "Mixing Methods: A Bayesian Approach". American Political Science Review. 109 (4): 654. doi:10.1017/s0003055415000453. ISSN 0003-0554. S2CID 1846974.
  21. ^ Fairfield, Tasha; Charman, Andrew E. (2017). "Explicit Bayesian Analysis for Process Tracing: Guidelines, Opportunities, and Caveats". Political Analysis. 25 (3): 363–380. doi:10.1017/pan.2017.14. ISSN 1047-1987. S2CID 8862619.
  22. ^ Bennett, Andrew (2014), Bennett, Andrew; Checkel, Jeffrey T. (eds.), "Disciplining our conjectures", Process Tracing: From Metaphor to Analytic Tool, Strategies for Social Inquiry, Cambridge University Press, pp. 276–298, ISBN 978-1-107-04452-4
  23. ^ Bennett, Andrew; Charman, Andrew E.; Fairfield, Tasha (2021). "Understanding Bayesianism: Fundamentals for Process Tracers". Political Analysis. 30 (2): 298–305. doi:10.1017/pan.2021.23. ISSN 1047-1987.
  24. ^ Barrenechea, Rodrigo; Mahoney, James (2019-08-01). "A Set-Theoretic Approach to Bayesian Process Tracing". Sociological Methods & Research. 48 (3): 451–484. doi:10.1177/0049124117701489. ISSN 0049-1241. S2CID 126255778.

Further reading