Machine learning uncovers the most robust self-report predictors of relationship quality across 43 longitudinal couples studies

Samantha Joel; Paul W. Eastwick; Colleen J. Allison; Ximena B. Arriaga; Zachary G. Baker; Eran Bar-Kalifa; Sophie Bergeron; Gurit E. Birnbaum; Rebecca L. Brock; Claudia C. Brumbaugh; Cheryl L. Carmichael; Serena Chen; Jennifer Clarke; Rebecca J. Cobb; Michael K. Coolsen; Jody Davis; David C. de Jong; Anik Debrot; Eva C. DeHaas; Jaye L. Derrick; Jami Eller; Marie Joelle Estrada; Ruddy Faure; Eli J. Finkel; R. Chris Fraley; Shelly L. Gable; Reuma Gadassi-Polack; Yuthika U. Girme; Amie M. Gordon; Courtney L. Gosnell; Matthew D. Hammond; Peggy A. Hannon; Cheryl Harasymchuk; Wilhelm Hofmann; Andrea B. Horn; Emily A. Impett; Jeremy P. Jamieson; Dacher Keltner; James J. Kim; Jeffrey L. Kirchner; Esther S. Kluwer; Madoka Kumashiro; Grace Larson; Gal Lazarus; Jill M. Logan; Laura B. Luchies; Geoff MacDonald; Laura V. Machia; Michael R. Maniaci; Jessica A. Maxwell; Moran Mizrahi; Amy Muise; Sylvia Niehuis; Brian G. Ogolsky; C. Rebecca Oldham; Nickola C. Overall; Meinrad Perrez; Brett J. Peters; Paula R. Pietromonaco; Sally I. Powers; Thery Prok; Rony Pshedetzky-Shochat; Eshkol Rafaeli; Erin L. Ramsdell; Maija Reblin; Michael Reicherts; Alan Reifman; Harry T. Reis; Galena K. Rhoades; William S. Rholes; Francesca Righetti; Lindsey M. Rodriguez; Ron Rogge; Natalie O. Rosen; Darby Saxbe; Haran Sened; Jeffry A. Simpson; Erica B. Slotter; Scott M. Stanley; Shevaun Stocker; Cathy Surra; Hagar Ter Kuile; Allison A. Vaughn; Amanda M. Vicary; Mariko L. Visserman; Scott Wolf

doi:10.1073/pnas.1917036117

Machine learning uncovers the most robust self-report predictors of relationship quality across 43 longitudinal couples studies

Samantha Joel, Paul W. Eastwick, Colleen J. Allison, Ximena B. Arriaga, Zachary G. Baker, Eran Bar-Kalifa, Sophie Bergeron, Gurit E. Birnbaum, Rebecca L. Brock, Claudia C. Brumbaugh, Cheryl L. Carmichael, Serena Chen, Jennifer Clarke, Rebecca J. Cobb, Michael K. Coolsen, Jody Davis, David C. de Jong, Anik Debrot, Eva C. DeHaas, Jaye L. DerrickJami Eller, Marie Joelle Estrada, Ruddy Faure, Eli J. Finkel, R. Chris Fraley, Shelly L. Gable, Reuma Gadassi-Polack, Yuthika U. Girme, Amie M. Gordon, Courtney L. Gosnell, Matthew D. Hammond, Peggy A. Hannon, Cheryl Harasymchuk, Wilhelm Hofmann, Andrea B. Horn, Emily A. Impett, Jeremy P. Jamieson, Dacher Keltner, James J. Kim, Jeffrey L. Kirchner, Esther S. Kluwer, Madoka Kumashiro, Grace Larson, Gal Lazarus, Jill M. Logan, Laura B. Luchies, Geoff MacDonald, Laura V. Machia, Michael R. Maniaci, Jessica A. Maxwell, Moran Mizrahi, Amy Muise, Sylvia Niehuis, Brian G. Ogolsky, C. Rebecca Oldham, Nickola C. Overall, Meinrad Perrez, Brett J. Peters, Paula R. Pietromonaco, Sally I. Powers, Thery Prok, Rony Pshedetzky-Shochat, Eshkol Rafaeli, Erin L. Ramsdell, Maija Reblin, Michael Reicherts, Alan Reifman, Harry T. Reis, Galena K. Rhoades, William S. Rholes, Francesca Righetti, Lindsey M. Rodriguez, Ron Rogge, Natalie O. Rosen, Darby Saxbe, Haran Sened, Jeffry A. Simpson, Erica B. Slotter, Scott M. Stanley, Shevaun Stocker, Cathy Surra, Hagar Ter Kuile, Allison A. Vaughn, Amanda M. Vicary, Mariko L. Visserman, Scott Wolf

Psychology (Twin Cities)

Research output: Contribution to journal › Article › peer-review

149 Scopus citations

Abstract

Given the powerful implications of relationship quality for health and well-being, a central mission of relationship science is explaining why some romantic relationships thrive more than others. This large-scale project used machine learning (i.e., Random Forests) to 1) quantify the extent to which relationship quality is predictable and 2) identify which constructs reliably predict relationship quality. Across 43 dyadic longitudinal datasets from 29 laboratories, the top relationship-specific predictors of relationship quality were perceived-partner commitment, appreciation, sexual satisfaction, perceived-partner satisfaction, and conflict. The top individual-difference predictors were life satisfaction, negative affect, depression, attachment avoidance, and attachment anxiety. Overall, relationship-specific variables predicted up to 45% of variance at baseline, and up to 18% of variance at the end of each study. Individual differences also performed well (21% and 12%, respectively). Actor-reported variables (i.e., own relationship-specific and individual-difference variables) predicted two to four times more variance than partner-reported variables (i.e., the partner's ratings on those variables). Importantly, individual differences and partner reports had no predictive effects beyond actor-reported relationship-specific variables alone. These findings imply that the sum of all individual differences and partner experiences exert their influence on relationship quality via a person's own relationship-specific experiences, and effects due to moderation by individual differences and moderation by partner-reports may be quite small. Finally, relationship-quality change (i.e., increases or decreases in relationship quality over the course of a study) was largely unpredictable from any combination of self-report variables. This collective effort should guide future models of relationships.

Original language	English (US)
Pages (from-to)	19061-19071
Number of pages	11
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	117
Issue number	32
DOIs	https://doi.org/10.1073/pnas.1917036117
State	Published - Aug 11 2020

Bibliographical note

Publisher Copyright:
© 2020 National Academy of Sciences. All rights reserved.

Keywords

Ensemble methods
Machine learning
Random Forests
Relationship quality
Romantic relationships

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10.1073/pnas.1917036117

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Joel, S., Eastwick, P. W., Allison, C. J., Arriaga, X. B., Baker, Z. G., Bar-Kalifa, E., Bergeron, S., Birnbaum, G. E., Brock, R. L., Brumbaugh, C. C., Carmichael, C. L., Chen, S., Clarke, J., Cobb, R. J., Coolsen, M. K., Davis, J., de Jong, D. C., Debrot, A., DeHaas, E. C., ... Wolf, S. (2020). Machine learning uncovers the most robust self-report predictors of relationship quality across 43 longitudinal couples studies. Proceedings of the National Academy of Sciences of the United States of America, 117(32), 19061-19071. https://doi.org/10.1073/pnas.1917036117

Machine learning uncovers the most robust self-report predictors of relationship quality across 43 longitudinal couples studies. / Joel, Samantha; Eastwick, Paul W.; Allison, Colleen J. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 117, No. 32, 11.08.2020, p. 19061-19071.

Research output: Contribution to journal › Article › peer-review

Joel, S, Eastwick, PW, Allison, CJ, Arriaga, XB, Baker, ZG, Bar-Kalifa, E, Bergeron, S, Birnbaum, GE, Brock, RL, Brumbaugh, CC, Carmichael, CL, Chen, S, Clarke, J, Cobb, RJ, Coolsen, MK, Davis, J, de Jong, DC, Debrot, A, DeHaas, EC, Derrick, JL, Eller, J, Estrada, MJ, Faure, R, Finkel, EJ, Chris Fraley, R, Gable, SL, Gadassi-Polack, R, Girme, YU, Gordon, AM, Gosnell, CL, Hammond, MD, Hannon, PA, Harasymchuk, C, Hofmann, W, Horn, AB, Impett, EA, Jamieson, JP, Keltner, D, Kim, JJ, Kirchner, JL, Kluwer, ES, Kumashiro, M, Larson, G, Lazarus, G, Logan, JM, Luchies, LB, MacDonald, G, Machia, LV, Maniaci, MR, Maxwell, JA, Mizrahi, M, Muise, A, Niehuis, S, Ogolsky, BG, Rebecca Oldham, C, Overall, NC, Perrez, M, Peters, BJ, Pietromonaco, PR, Powers, SI, Prok, T, Pshedetzky-Shochat, R, Rafaeli, E, Ramsdell, EL, Reblin, M, Reicherts, M, Reifman, A, Reis, HT, Rhoades, GK, Rholes, WS, Righetti, F, Rodriguez, LM, Rogge, R, Rosen, NO, Saxbe, D, Sened, H, Simpson, JA, Slotter, EB, Stanley, SM, Stocker, S, Surra, C, Kuile, HT, Vaughn, AA, Vicary, AM, Visserman, ML & Wolf, S 2020, 'Machine learning uncovers the most robust self-report predictors of relationship quality across 43 longitudinal couples studies', Proceedings of the National Academy of Sciences of the United States of America, vol. 117, no. 32, pp. 19061-19071. https://doi.org/10.1073/pnas.1917036117

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abstract = "Given the powerful implications of relationship quality for health and well-being, a central mission of relationship science is explaining why some romantic relationships thrive more than others. This large-scale project used machine learning (i.e., Random Forests) to 1) quantify the extent to which relationship quality is predictable and 2) identify which constructs reliably predict relationship quality. Across 43 dyadic longitudinal datasets from 29 laboratories, the top relationship-specific predictors of relationship quality were perceived-partner commitment, appreciation, sexual satisfaction, perceived-partner satisfaction, and conflict. The top individual-difference predictors were life satisfaction, negative affect, depression, attachment avoidance, and attachment anxiety. Overall, relationship-specific variables predicted up to 45% of variance at baseline, and up to 18% of variance at the end of each study. Individual differences also performed well (21% and 12%, respectively). Actor-reported variables (i.e., own relationship-specific and individual-difference variables) predicted two to four times more variance than partner-reported variables (i.e., the partner's ratings on those variables). Importantly, individual differences and partner reports had no predictive effects beyond actor-reported relationship-specific variables alone. These findings imply that the sum of all individual differences and partner experiences exert their influence on relationship quality via a person's own relationship-specific experiences, and effects due to moderation by individual differences and moderation by partner-reports may be quite small. Finally, relationship-quality change (i.e., increases or decreases in relationship quality over the course of a study) was largely unpredictable from any combination of self-report variables. This collective effort should guide future models of relationships.",

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AU - Eastwick, Paul W.

AU - Allison, Colleen J.

AU - Arriaga, Ximena B.

AU - Baker, Zachary G.

AU - Bar-Kalifa, Eran

AU - Bergeron, Sophie

AU - Birnbaum, Gurit E.

AU - Brock, Rebecca L.

AU - Brumbaugh, Claudia C.

AU - Carmichael, Cheryl L.

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AU - Clarke, Jennifer

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AU - Eller, Jami

AU - Estrada, Marie Joelle

AU - Faure, Ruddy

AU - Finkel, Eli J.

AU - Chris Fraley, R.

AU - Gable, Shelly L.

AU - Gadassi-Polack, Reuma

AU - Girme, Yuthika U.

AU - Gordon, Amie M.

AU - Gosnell, Courtney L.

AU - Hammond, Matthew D.

AU - Hannon, Peggy A.

AU - Harasymchuk, Cheryl

AU - Hofmann, Wilhelm

AU - Horn, Andrea B.

AU - Impett, Emily A.

AU - Jamieson, Jeremy P.

AU - Keltner, Dacher

AU - Kim, James J.

AU - Kirchner, Jeffrey L.

AU - Kluwer, Esther S.

AU - Kumashiro, Madoka

AU - Larson, Grace

AU - Lazarus, Gal

AU - Logan, Jill M.

AU - Luchies, Laura B.

AU - MacDonald, Geoff

AU - Machia, Laura V.

AU - Maniaci, Michael R.

AU - Maxwell, Jessica A.

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AU - Muise, Amy

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AU - Ogolsky, Brian G.

AU - Rebecca Oldham, C.

AU - Overall, Nickola C.

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AU - Peters, Brett J.

AU - Pietromonaco, Paula R.

AU - Powers, Sally I.

AU - Prok, Thery

AU - Pshedetzky-Shochat, Rony

AU - Rafaeli, Eshkol

AU - Ramsdell, Erin L.

AU - Reblin, Maija

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AU - Reifman, Alan

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AU - Rhoades, Galena K.

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AU - Rogge, Ron

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AU - Stanley, Scott M.

AU - Stocker, Shevaun

AU - Surra, Cathy

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AU - Vaughn, Allison A.

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AU - Visserman, Mariko L.

AU - Wolf, Scott

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N2 - Given the powerful implications of relationship quality for health and well-being, a central mission of relationship science is explaining why some romantic relationships thrive more than others. This large-scale project used machine learning (i.e., Random Forests) to 1) quantify the extent to which relationship quality is predictable and 2) identify which constructs reliably predict relationship quality. Across 43 dyadic longitudinal datasets from 29 laboratories, the top relationship-specific predictors of relationship quality were perceived-partner commitment, appreciation, sexual satisfaction, perceived-partner satisfaction, and conflict. The top individual-difference predictors were life satisfaction, negative affect, depression, attachment avoidance, and attachment anxiety. Overall, relationship-specific variables predicted up to 45% of variance at baseline, and up to 18% of variance at the end of each study. Individual differences also performed well (21% and 12%, respectively). Actor-reported variables (i.e., own relationship-specific and individual-difference variables) predicted two to four times more variance than partner-reported variables (i.e., the partner's ratings on those variables). Importantly, individual differences and partner reports had no predictive effects beyond actor-reported relationship-specific variables alone. These findings imply that the sum of all individual differences and partner experiences exert their influence on relationship quality via a person's own relationship-specific experiences, and effects due to moderation by individual differences and moderation by partner-reports may be quite small. Finally, relationship-quality change (i.e., increases or decreases in relationship quality over the course of a study) was largely unpredictable from any combination of self-report variables. This collective effort should guide future models of relationships.

AB - Given the powerful implications of relationship quality for health and well-being, a central mission of relationship science is explaining why some romantic relationships thrive more than others. This large-scale project used machine learning (i.e., Random Forests) to 1) quantify the extent to which relationship quality is predictable and 2) identify which constructs reliably predict relationship quality. Across 43 dyadic longitudinal datasets from 29 laboratories, the top relationship-specific predictors of relationship quality were perceived-partner commitment, appreciation, sexual satisfaction, perceived-partner satisfaction, and conflict. The top individual-difference predictors were life satisfaction, negative affect, depression, attachment avoidance, and attachment anxiety. Overall, relationship-specific variables predicted up to 45% of variance at baseline, and up to 18% of variance at the end of each study. Individual differences also performed well (21% and 12%, respectively). Actor-reported variables (i.e., own relationship-specific and individual-difference variables) predicted two to four times more variance than partner-reported variables (i.e., the partner's ratings on those variables). Importantly, individual differences and partner reports had no predictive effects beyond actor-reported relationship-specific variables alone. These findings imply that the sum of all individual differences and partner experiences exert their influence on relationship quality via a person's own relationship-specific experiences, and effects due to moderation by individual differences and moderation by partner-reports may be quite small. Finally, relationship-quality change (i.e., increases or decreases in relationship quality over the course of a study) was largely unpredictable from any combination of self-report variables. This collective effort should guide future models of relationships.

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KW - Machine learning

KW - Random Forests

KW - Relationship quality

KW - Romantic relationships

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Machine learning uncovers the most robust self-report predictors of relationship quality across 43 longitudinal couples studies

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