Author
Listed:
- Olena Pavlova
(Faculty of Management, AGH University of Krakow, Al. Mickiewicz 30, 30-059 Krakow, Poland
Faculty of Economics and Management, Lesya Ukrainka Volyn National University, Voli Ave., 13, 43025 Lutsk, Ukraine)
- Oksana Liashenko
(Faculty of Economics and Management, Lesya Ukrainka Volyn National University, Voli Ave., 13, 43025 Lutsk, Ukraine
Loughborough Business School, Loughborough University, Epinal Way, Loughborough LE11 3TU, UK)
- Kostiantyn Pavlov
(Faculty of Economics and Management, Lesya Ukrainka Volyn National University, Voli Ave., 13, 43025 Lutsk, Ukraine)
- Maryna Nagara
(B.D. Havrylyshyn Educational and Research Institute of International Relations, West Ukrainian National University, Lvivska Str., 11, 46009 Ternopil, Ukraine)
- Iryna Bashynska
(Faculty of Management, AGH University of Krakow, Al. Mickiewicz 30, 30-059 Krakow, Poland
Department of Economics, Odessa Polytechnic National University, Shevchenko Ave., 1, 65044 Odessa, Ukraine)
- Dmytro Harapko
(B.D. Havrylyshyn Educational and Research Institute of International Relations, West Ukrainian National University, Lvivska Str., 11, 46009 Ternopil, Ukraine)
- Tetiana Vlasenko
(Faculty of Social Sciences and Humanities, Academy of Silesia, ul. Rolna 43, 40-555 Katowice, Poland
Business and Administration Department, Simon Kuznets Kharkiv National University of Economics, Nauky Ave., 9-A, 61165 Kharkiv, Ukraine)
- Andrii Dukhnevych
(Law Faculty, Lesya Ukrainka Volyn National University, 13 Volia Avenue, 43025 Lutsk, Ukraine)
Abstract
Industrial symbiosis (IS) research has documented many successful ecosystems but still lacks an empirically grounded typology linking resource flow configurations to environmental outcomes across diverse contexts. This study develops such a typology and tests whether distinct configurations achieve comparable environmental performance through different pathways—the configurational principle of equifinality. Drawing on 68 documented IS ecosystems across 48 countries, we apply k-means clustering to five flow-intensity dimensions—material, energy, water, logistics, and knowledge—and characterise the resulting partition using one-way ANOVA, Tukey HSD post hoc tests, multinomial logistic regression, and a Cox proportional-hazards model. Four configurations emerge: a dominant low-flow group (n = 34) and three coordinated configurations—energy–knowledge (n = 11), material-dominant (n = 16), and water-oriented (n = 7). The three coordinated configurations all significantly outperform the low-flow group on environmental performance (F(3, 57) = 11.60, p < 0.001), with effect sizes very similar and no significant differences among them, providing direct empirical evidence for equifinality. Economic performance does not differ significantly across configurations, and the multinomial model of contextual predictors is jointly insignificant—a pattern we read as consistent with equifinal contextual pathways rather than as a methodological flaw. Robustness checks across alternative clustering algorithms, operationalisations, and sub-samples support the typology’s stability. This study contributes an empirically grounded framework for circular economy practice that moves beyond one-size-fits-all prescriptions and offers a configurational lens for the design of sustainable industrial ecosystems.
Suggested Citation
Olena Pavlova & Oksana Liashenko & Kostiantyn Pavlov & Maryna Nagara & Iryna Bashynska & Dmytro Harapko & Tetiana Vlasenko & Andrii Dukhnevych, 2026.
"Beyond One-Size-Fits-All: A Flow-Based Typology of Circular Industrial Symbiosis Ecosystems and Equifinal Pathways to Environmental Performance,"
Sustainability, MDPI, vol. 18(8), pages 1-38, April.
Handle:
RePEc:gam:jsusta:v:18:y:2026:i:8:p:3820-:d:1918589
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