After defining the study's research questions, the second step of a bibliometric study is to determine which keywords must be used to collect raw data. Consistent with previous studies related to the SD topic (Darabi & Hosseinichimeh, 2020; Oladimeji et al., 2020; Sedarati et al., 2019) and the broad investigation aim of this study (Chen & Xiao, 2016), high-level keywords related to systems thinking, SD, and related methods such as causal loops and stock and flow diagrams were used.

Third, the database to be investigated to collect the necessary metadata related to publications on SD had to be selected. In the social sciences, the two largest and most reliable databases are Clarivate Analytics’ Web of Science (WoS) and Elsevier's Scopus (Forliano et al., 2021). Therefore, according to the syntax of the two databases, the string was developed using wildcards to truncate the keywords and capture singular and plural variants of the search terms, while it was possible to search for alternatives through the Boolean operator “OR.” The search was conducted in January 2023 to search for documents’ titles, abstracts, and keywords, returning 37,605 results to WoS and 55,241 results to Scopus. As shown in Fig. 1, different exclusion criteria were applied, excluding studies not written in English or that passed through a peer-review process. To answer the research questions of this study, all articles that were not classified in the “Business” or “Management” domain were further excluded (Massaro et al., 2016; Tranfield et al., 2003). Although representing a possible limitation of this study, applying these selection criteria also allowed us to perform a more accurate comparison of different productivity and relevance metrics. Indeed, other relevant subdomains concern “STEM” disciplines (i.e., science, technology, engineering, and mathematics) or medicine, whose productivity and relevance metrics are completely different from those of the social sciences. Finally, as in previous systematic literature reviews (Battisti et al., 2021; Zheng et al., 2022), the search was restricted to only articles published in journals ranked 2 or above in the 2021 Academic Journal Guide (formerly the Chartered Association of Business Schools, ABS). In this way, the most relevant and rigorous articles could be collected and analyzed. Hence, after the two databases were merged, 3404 articles were identified, of which 1065 duplicates were removed. Finally, by analyzing the articles’ titles and abstracts while maintaining a broad perspective, it was possible to restrict the data collection to a final sample of 2091 records.

Fig. 1.

PRISMA flow diagram showing the different phases of data extraction activity.

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The final sample of 2091 articles was analyzed through bibliometric analysis. Thus, open-source RStudio software (RStudio Team, 2016) was used for conducting a performance analysis of the scientific literature related to the topic, especially the Bibliometrix package (Aria & Cuccurullo, 2017), which has been increasingly adopted by researchers in similar studies (Forliano et al., 2021; Secinaro & Calandra, 2020) because it enables the creation of a normalized matrix comprising all records extracted from Scopus and the performance of a bibliometric analysis. A performance analysis of studies related to SD was completed by leveraging several indicators built on metadata related to articles, scholars, countries, and journals (Massaro et al., 2016). In this sense, both their productivity and impact on the scientific community could be captured by evaluating general trends characterizing this research field in the business and management domains.

Another widely used technique in bibliometric studies is network analysis, which maps the underlying structures characterizing a given research field and their evolution over time (Cobo et al., 2012). This analysis is crucial for identifying research trends and gaps in a given field. Thus, the social and conceptual structures of studies on SD were reconstructed. Notably, the former was analyzed by considering the authors’ coauthorships. Conversely, assuming that keywords used together refer to themes that are relevant to each other and can be combined into a thematic cluster (Van Eck & Waltman, 2009), the latter was analyzed by investigating keywords’ co-occurrences. In particular, both the authors’ keywords and index keywords were used. However, to do so, the original sample of 6343 different authors’ keywords (out of 10,120 in total) and 7108 different index keywords (out of 16,044 in total) had to be normalized. Indeed, keywords written in different ways but referring to the same term because of singular/plural forms, upper or lowercase letters, British/American English variants, acronyms, hyphens, and similarities had to be reconciled. This analysis was conducted using OpenRefine (ver. 3.3), an open-source tool originally developed by Google for managing and cleaning big data, and successfully utilized in several similar studies (e.g., Montoya et al., 2016). Considering the size of the database, the different specific algorithms embedded in the software and designated for data reconciliation enabled us to obtain more rigorous and replicable results than manual analysis. At the end of the data cleaning phase, 5627 authors’ keywords and 6512 index keywords were retained. Thus, the refined dataset was processed in VOSviewer (ver. 1.6.13), which is a powerful tool for visualizing the structure and dynamics of large networks. Indeed, VOSviewer creates distance-based maps of networks based on the similarity measure of the nodes (Van Eck & Waltman, 2010).

Studies on SD started in the late 1950s, when Forrester (1958) leveraged a feedback view and a computer simulation model to investigate complex issues related to order oscillations and subsequent supply chain management. Forrester's efforts in applying SD in industrial contexts led to his seminal book Industrial Dynamics (Forrester, 1961). Since those prominent studies, research on this topic has been published for more than 70 years, and SD studies have been translated from the engineering and computer science domains to analyze different research areas at varying analysis levels. Additionally, after industrial applications of SD, Forrester focused his attention on managing urban planning issues and applying SD principles to guide the sustainable development of economies, which gave rise to two other seminal books, Urban Dynamics (Forrester, 1970) and World Dynamics (Forrester, 1971). In this sense, as Fig. 2 shows, starting in the late 1990s, scholars began devoting increasing interest to SD, which reached its first peak in terms of the number of papers published. This increase was further spurred by the formation of a SD research group around Jay W. Forrester's figure at the MIT Sloan School of Management. Indeed, some of the most influential scholars from this group have emerged in this research stream. For example, Peter Senge, who wrote The Fifth Discipline (Senge, 1990), a central book in divulgating systems thinking and SD principles to the broad public; John Sterman, who wrote another seminal handbook in explaining SD applied to businesses and organizational learning processes (Sterman, 2000); and John Morecroft, who mainly investigated bounded rationality decision-making problems (Morecroft, 2015). In particular, Morecroft played a fundamental role in spreading SD in Europe by reinvigorating the link between SD and strategic management studies. Although scholars’ interest in SD has increased over the years, it has received significant attention only recently, and more than half of the total articles related to this topic have been published only in the last 10 years. This trend can also be explained by considering industry and practitioners’ recognition of the relevance of thinking systemically and leveraging SD to address complex and dynamic problems. In conclusion, it can be assumed that SD is still an underdeveloped research stream that offers plenty of progress and studies that can take place.

Fig. 2.

Distribution of publications related to SD over time.

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To determine which articles most influenced the scientific debate around SD in the investigated research fields, the number of citations received by each article was considered. Indeed, citations can adequately synthesize the influence of a publication among scholars (Merigó et al., 2015). Table 1 shows the 10 most cited documents of the sample, showing the total citations (TCs) received by other papers in the dataset as accounted for by Scopus and the average citations received per year (TC/Y). Surprisingly, Sterman occurs four times in this ranking and can be considered one of the seminal authors in advancing SD knowledge in the business and management domains. Moreover, as a reference journal for SD studies, it is not surprising that “System Dynamics Review” appears six times in the list of the top ten most influential articles. The most cited paper is a methodological one from Barlas (1996) addressing model validation issues, such as structural and behavioral issues, and counting 950 citations. The second most cited article comes from Daim et al. (2006), in which the authors mixed bibliometric techniques and patent analysis with SD to model the ecosystem surrounding disruptive technologies and forecast their future diffusion. Third, it is possible to find a reflection from Forrester (1994) about the usefulness of SD models to advance theory in the operation research field, followed by two conceptual papers from Sterman (2001, 2002), both of which aimed at reinforcing the general awareness about the relevance of adopting a systemic lens to interpret complex systems, as well as using formal models to test decision-makers’ mental models and simulating the implementation of different policies.

A total of 3552 authors from 65 countries and 2050 different institutions contributed to publishing the 2622 articles in the analyzed dataset. Thus, by leveraging authors as a unit of analysis, their productivity and impact were considered to investigate which scholars mainly influenced business and management studies on SD. Fig. 3 visually portrays the 15 most influential authors, matching their productivity, represented by the number of papers published each year (i.e., bubble size), and impact, represented in terms of citations per year received (i.e., bubble darkness). The TCs per year were preferred to TCs, not to penalize scholars whose careers started in more recent years. Therefore, Saeed, Sterman, Richardson, Andersen, and Morecroft show the most extended timelines, with an unbroken series of publications starting in the early 1980s to date. However, considering the h-index, Sterman (24), Richardson (19), and Lane (18) are among the most influential authors. Indeed, the h-index indicates the minimum number of publications cited at least h times by other scholars in the dataset (Hirsch, 2005) and is considered a well-established and robust indicator that simultaneously combines productivity and relevance (Vanclay, 2007). It is also interesting to note that Rahmandad started publishing in recent years (his first publication in the dataset was released in 2008) but ranks second in terms of citations per year received by the 15 most influential authors. To offer a more precise view of the performance indicators associated with each scholar represented in Fig. 3, the productivity (i.e., total publications in the dataset) and impact measures (i.e., TCs received, h-index, and TCs per year received) are also reported in Table 2.

Fig. 3.

Top 15 authors in terms of productivity and impact.

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Furthermore, considering the authors’ affiliations, both countries’ productivity and impact were analyzed. Hence, the top 15 countries, here based on their productivity, are plotted in Fig. 4. In particular, productivity was differentiated to capture the rate of intracountry collaboration (i.e., single-country publication or SCP) and intercountry collaboration (i.e., multiple-country publication or MCP). Thus, the SCP includes publications with all authors affiliated with the same country, while the MCP includes publications with authors from different countries. Out of the 65 total countries involved, only 457 documents were single-authored (approximately 21.86 % of the dataset), meaning that collaboration is a significant aspect of authors adopting or investigating SD. This assumption is further corroborated by Fig. 4, which shows how both advanced economies (e.g., the USA, the UK, Germany) and developing ones (e.g., China, India, Iran) appear among the most productive countries and are all open to multinational collaboration. Interestingly, neither African nor Latin American (except for Colombia) countries appear on this list.

Fig. 4.

The 15 most productive countries based on authors’ affiliations.

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Table 3 reports the top 15 countries in terms of the total number of citations received. Therefore, as shown in Fig. 4, the USA proves to be a leader in both productivity and relevance, followed by the UK. Interestingly, almost all the most prolific countries are also the most influential, with only India and Spain giving way to Sweden and Greece.

The 15 most prolific journals in which the dataset's documents were published are presented in Table 4. Not surprisingly, System Dynamics Review ranks first, with 495 publications (i.e., approximately one-quarter of the dataset). Indeed, this journal focuses exclusively on advancing systems thinking and SD and their applications in a broad range of areas (e.g., societal, technical, managerial, and environmental). However, it is interesting to note that the Journal of Cleaner Production also performs very well in terms of publications related to SD used as a theoretical lens and practical approach to investigating sustainability-related issues. The analysis of the other most productive journals present on the list shows that great attention was given by scholars to manufacturing, industrial engineering, and operations research, together with the sociotechnical implications of adopting a systemic view. In addition to journals’ productivity, Table 4 also considers their impact in terms of TCs. In this sense, however, there are no significant differences compared with sorting journals for their productivity, except in the case of Management Science. Indeed, some very influential articles coauthored by Sterman (e.g., Oliva & Sterman, 2001; Rahmandad & Sterman, 2008; Sterman et al., 1997) have been published in that outlet.

Moreover, in Fig. 5, the publication trends of the six most productive journals are shown. In this sense, it can be easily noted that, excluding the System Dynamics Review, the Journal of Cleaner Production's publication trend outstands all other journals. On the other hand, the Journal of the Operational Research Society and Systems Research and Behavioral Science shows an increasing trend, followed by the European Journal of Operational Research and the Technological Forecasting and Social Change.

Fig. 5.

The publication trends of the six most productive journals.

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Concerning the social structure of studies related to SD, the co-occurrences of the top 50 authors (i.e., coauthorship) were analyzed (Forliano et al., 2021). Fig. 6 shows the network resulting from applying the normalization of association strength (Van Eck & Waltman, 2009). In particular, the greater the number of documents authored by a scholar, the greater its node; the greater the number of documents coauthored by two or more scholars, the closer their bubbles appear, and the more robust the links connecting them are. Interestingly, by applying Louvain's cluster algorithm (Blondel et al., 2008), Fig. 6 shows the existence of 15 clusters (each defined by a different color) among the 50 most influential authors. In this sense, most of them act as isolated nodes or as niche research groups, suggesting the existence of few influential communities of scholars. It must be noted that the largest SD community includes some of the fathers of this discipline (e.g., John Sterman, David Andersen, George Richardson) and the founders of the System Dynamic Review, the reference journal in this research field. Interestingly, most of them studied as Ph.D. students at MIT (such as Saeed or Morecroft, which appear in a different cluster), where Forrester started to teach SD in the early years of such a discipline.

Fig. 6.

Coauthorship analysis depicting the social structure of the discipline.

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Moreover, considering the authors’ affiliations, in line with the performance analysis results, a high level of engagement exists around SDs worldwide. This collaboration rate is represented by more robust lines connecting countries in Fig. 7, while the countries’ productivity is portrayed based on color intensity. Thus, a very high collaboration rate exists between China and English-speaking countries (i.e., the USA, Australia, Hong Kong, and the UK), which also collaborate with each other. With respect to Europe, except for the UK, the most active communities can be found in Norway, the Netherlands, and Italy, three countries where some consistent research groups on SD are located (i.e., especially Norway, which hosted the first international conference on SD in 1976). In contrast, there is still a paucity of engagement from Latin American (apart from Colombia) and African authors.

Fig. 7.

The rate of collaboration between countries, here based on authors’ affiliations.

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This analysis highlights the relational patterns among keywords that frequently co-occur within our dataset, which are known as co-occurrences (Van Eck & Waltman, 2009). In our study, we examined both authors' keywords and index keywords, with the latter added by professional indexers and sometimes deemed more informative than the authors’ keywords (Campedelli, 2020). With VOSviewer, we concentrated on the 100 most co-occurring keywords, each occurring at least 18 times. Using the Louvain algorithm with a resolution parameter of one across 10 iterations (Blondel et al., 2008), we identified four distinct thematic clusters, each represented by a different color in Fig. 8. The size of a keyword's node in the network signifies its frequency of use by scholars, and the proximity and line thickness between keywords indicate their co-occurrence rates. These clusters serve as preliminary automatic structuring facilitated by VOSviewer's use of the Louvain algorithm, a community detection method that optimizes modularity to partition the network into clusters of densely interconnected nodes with sparser connections between clusters. According to the analysis presented in Fig. 8, the following four thematic clusters emerged:

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  Cluster 1: Operations research and strategy formulation (blue cluster);

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  Cluster 2: Behavioral studies and collaborative approaches (yellow cluster);

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  Cluster 3: Dynamic performance management (red cluster);

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  Cluster 4: Systems thinking to support sustainable development (green cluster).

Fig. 8.

The conceptual structure of the dataset, here based on co-occurrence keywords.

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Following other bibliometric studies and systematic literature reviews (e.g., Bertello et al., 2023; Martínez-Climent et al., 2018; Sánchez-Robles et al., 2023), after this algorithmic clustering, we conducted a manual content analysis of the 30 most cited articles in each cluster to extract deeper thematic insights. This manual analysis allowed us to further unveil how the core topics defined the conceptual structure of the topics under investigation. The findings from this detailed manual examination form the basis of the discussions presented in the following subsections.

In terms of theoretical implications, this research offers a multifaceted contribution to the field of systems thinking and SD, which has evolved significantly since its inception in the late 1950s. Initially, underrecognized, SD gained broader appeal through advancements in technology and the pioneering work of the System Dynamics Group, underscoring the importance of transforming complex theories into practical tools for a wider audience.

First, the current paper contributes to the theoretical discourse on complexity science by emphasizing the critical role of systems thinking and SD in navigating dynamic and complex environments heightened by disruptive social and technological changes. The burgeoning relevance of SD over the past two decades indicates its integral role in addressing modern challenges and calls for interdisciplinary problem-solving approaches.

Second, the research underlines the expanding interdisciplinary appeal of SD, as evidenced by its coverage across various academic journals. Each journal's thematic focus on SD, from environmental and ecological issues to real-world applications and the exploration of mental models, demonstrates the adaptability of SD methodologies. This versatility extends the theoretical significance of SD beyond traditional domains and suggests a trend of integrating SD principles with other disciplinary insights, potentially bridging cognitive psychology and systems thinking.

Third, the present paper contributes to the strategic management literature by highlighting the enhanced role of SD in capturing the complexities of modern volatile markets, as suggested by the first thematic cluster. The corresponding propositions argue for a theoretical shift toward dynamic modeling techniques that reflect the rapid changes and uncertainties of contemporary economic systems, thus expanding the traditional frameworks of supply chain management and capability development. An additional contribution arises from the second cluster, which emphasizes the theoretical intersection of SD with cognitive sciences and collaborative governance. This suggests a foundational role for SD in enhancing learning environments and decision-making processes, potentially reshaping educational models and governance structures. The propositions developed here call for an extended theory of learning that integrates systems thinking into the cognitive processes of individuals and groups interacting with complex systems. The present paper has contributed to an expanded theory of organizational performance informed by the third cluster, which advocates for performance management frameworks that account for nonfinancial results and systemic health, challenging traditional quantifiable metrics. This work also contributes to the sustainability and public policy literature, suggesting the utility of SD as a theoretical framework for understanding innovation ecosystems and societal grand challenges, as delineated in the fourth cluster. It proposes a method to examine the complex interplay of stakeholders and processes within entrepreneurial ecosystems, offering a basis for inclusive policymaking.

Finally, the current paper calls for more diverse geographical contributions to SD research, particularly from underrepresented regions. This represents an opportunity to deepen the theoretical foundations of SD with a variety of cultural and contextual perspectives, potentially leading to new models and concepts that are globally inclusive and reflective of diverse challenges. Contributions from these regions could redefine existing assumptions and contribute to a more comprehensive understanding of system dynamics.

The practical implications of the present research extend directly to the operational and strategic initiatives of managers and the policymaking processes of government leaders, embedding the insights of SD into the fabric of organizational and societal change.

For managers, the practical application of SD models offers a tangible pathway to strategic adaptability in an era defined by volatile markets and complex supply chains. The current research provides managers with a robust framework for simulating various scenarios, allowing them to anticipate and navigate nonlinearities and time delays effectively. Such foresight is crucial for making informed decisions that can steer organizations through turbulent times. In addition, the integration of cognitive sciences with SD provides managers with a unique opportunity to enhance collaborative decision-making. By understanding the underlying behavioral patterns that SD models can unveil, managers are better positioned to engage teams in sense-making processes, aligning individual and group actions with broader organizational goals. This approach empowers managers to design interventions that are both effective and harmonious with the organizational culture. Moreover, in the realm of performance management, the expanded framework proposed by this research encourages managers to go beyond traditional financial metrics. By adopting a more comprehensive view that includes nonfinancial indicators, managers can ensure a holistic assessment of their organization's health and drive more sustainable business practices. This dual focus on financial and nonfinancial outcomes fosters a more nuanced approach to measuring and managing performance.

Finally, within entrepreneurial ecosystems, managers can utilize SD models to predict and manage intricate interactions between stakeholders. This capability is particularly crucial for fostering resilience and spurring innovation, enabling managers to create environments where new ideas can flourish and organizational agility can be maintained.

Along with its implications for managers and decision-makers, the present research also aims to provide guidance to policymakers. For policymakers, the application of SD takes on a strategic dimension, providing a robust platform for policy design and evaluation. By using SD models, policymakers can develop and implement policies that accurately capture the complexity of societal systems, thus enhancing the impact and sustainability of their initiatives. These models serve as valuable tools for anticipating the broader implications of policy decisions, helping to avoid unintended consequences that could undermine policy goals. SD also aids policymakers in creating public value, particularly through the development of collaborative models that consider systemic impacts. This approach ensures that policy initiatives contribute positively to the public domain, fostering community resilience and aligning with broader societal objectives. Furthermore, the operationalization of sustainable development goals through SD offers policymakers a clear framework for identifying strategic points of intervention. This research underlines the significance of SD in assessing the long-term effects of policies on sustainable development, ensuring that policy choices are aligned with those goals. Finally, the call for culturally and contextually sensitive policy formulation is emphasized through the encouragement of SD research and its application in diverse geographical regions. This inclusivity ensures that a wide array of perspectives are reflected in policy decisions, leading to outcomes that are relevant and effective across different cultural and societal contexts.

In sum, the present research equips managers and policymakers with the insights and tools necessary to effectively address the complexity of modern challenges. By embracing the principles of SD, they can enhance their foresight, strategic planning, and policy formulation, leading to more resilient organizations and societies.

Despite its implications, the current study is not free from limitations. First, the dataset was collected considering only articles retrievable in Scopus and WoS, excluding books, proceedings, and the so-called gray literature (e.g., reports or business cases). Second, as stated in the Methodology section, some indicators can lead to inconsistencies when used to compare different publications or authors. Therefore, each indicator should be read together with the other indicators, for example, as in the case of the h-index, if used to compare authors at different advancements in their careers or coming from different research fields. Finally, to provide better comparability and be in line with the research questions of the present study, only the business and management fields were chosen as units of analysis, excluding disciplines from the hard sciences (e.g., engineering, environmental science) and health-related research fields. Each of these limitations provides opportunities for future work by scholars and practitioners interested in the advancement of such a promising future research area.