A Best Practices Case Study for Scientific Collaboration between Researchers and Managers

Newcomb, Tammy J.; Simonin, Paul W.; Martínez, Félix; Chadderton, W. Lindsay; Bossenbroek, Jon; Cudmore, Becky; Hoff, Michael H.; Keller, Reuben P.; Ridenhour, Berkley D.; Rothlisberger, John D.; Rutherford, Edward S.; Egeren, Scott Van; Lodge, David M.

doi:10.1002/fsh.10536

Cited by 10 publications

(16 citation statements)

References 33 publications

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“…Thoughtful self-reflection five years into implementation of a new Science Transfer Program designed to close the knowledge-action gap allowed us to identify six key success factors for effective knowledge transfer at the program and project levels. While none of the success factors we identified explicitly overlapped with those recently presented by Newcomb et al (2021), several commonalities occur and their model of research-management collaboration (their Fig. 1) is remarkably similar to the relationships supporting the GLFC Science Transfer Program (shown herein as Fig.…”

Section: Reflections and Recommendationssupporting

confidence: 62%

“…Ideally, modern natural resource management is "science-based," insofar as scientific data, evidence, and knowledge are important inputs to these decisions (Ehrlich and Daily 1993) alongside other factors such as stakeholder and rightsholder interests, cultural priorities, economic considerations, and political priorities (Garcia and Cochrane 2005;Ludwig et al 1993;Young 2015). However, it is increasingly clear that significant gaps exist between the data, evidence, and knowledge that are generated by researchers and those that are actually used by natural resource managers to make decisions (Arlettaz et al 2010;Cvitanovic et al 2015;Fabian et al 2019;Newcomb et al 2021). This so-called knowledge-action gap is due in part to the time lag between the generation of new knowledge (heretofore a shorthand term for data, evidence, and knowledge) and its communication and transfer, lack of formal management structures (i.e., statute, administrative code, or policy), as well as institutional inertia to its uptake (reviewed in Cook et al 2013; see Table 1 for glossary of terms used herein).…”

Section: Closing the Knowledge-action Gapmentioning

confidence: 99%

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Insights from a novel, user-driven science transfer program for resource management

Hinderer

Blevins

Cooke

et al. 2021

Socio Ecol Pract Res

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Research results are often not easily accessible or readily digestible for decision-making by natural resource managers. This knowledge-action gap is due to various factors including the time lag between new knowledge generation and its transfer, lack of formal management structures, and institutional inertia to its uptake. Herein, we reflect on the Great Lakes Fishery Commission’s Science Transfer Program and its evolution from ‘Mode 1’ (i.e., scientists conduct research autonomously) toward ‘Mode 2’ (i.e., co-production of knowledge with practitioners) knowledge production to understand and overcome the knowledge-action gap. Six success factors and strategies and tactics used to achieve those factors were critical to the shift from Mode 1 to Mode 2: (1) dedicate funding and staff support; (2) obtain top-down commitment from organizational leadership; (3) break down silos; (4) build relationships through formal and informal interactions; (5) emphasize co-production in program and project implementation; and (6) obtain buy-in among relevant actors. By way of three project case studies, we highlight knowledge transfer approaches, products, and lessons learned. We anticipate this contribution will benefit those working on knowledge mobilization, particularly in boundary-spanning organizations, and those involved in resource program management, administration, and design; it is also intended for resource managers seeking to have their science and information needs met more effectively.

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Section: Reflections and Recommendationssupporting

confidence: 62%

Section: Closing the Knowledge-action Gapmentioning

confidence: 99%

Insights from a novel, user-driven science transfer program for resource management

Hinderer

Blevins

Cooke

et al. 2021

Socio Ecol Pract Res

View full text Add to dashboard Cite

show abstract

“…Finally, engagement outcomes are highly scalar-dependent in terms of time and space. Institutional expectations, combined with time constraints imposed upon grant-funded initiatives (Newcomb et al 2021), may limit the development and/or sustainability of long-term relationships between researchers and stakeholders (Church et al 2022), further confounding collaborative research processes and outcomes (Worosz et al 2022). Therefore, collaborative research designs should strive to match engagement modality and intensity to the goals of the research, recognizing that while stakeholders' deeply held values change slowly, their preferences for policy solutions may be influenced over shorter timescales through social learning (Vincent et al 2021(Vincent et al , 2018Slater and Robinson 2020;Gerlak et al 2019;Djenontin and Meadow 2018) and deliberative knowledge exchange (Koebele 2020;Meadow et al 2015).…”

Section: Designing a Collaborative Research Framework (Crf) For Snowpacsmentioning

confidence: 99%

“…While scientists often perceive that they generate information intended to improve resource management decisions, resource managers often wonder why science does not provide the information they need to make decisions (Cooke 2019 ). Past reliance on top down, unidirectional science research that segregates academic disciplines and the research process from public involvement (Steelman et al 2021 ) has inadvertently led to what has been called the science–policy divide (Steelman et al 2019 ; Newcomb et al 2021 ), knowledge–action gap (Knutti 2019 ), or theory–practice gap (Cooke et al 2021 ). To help remedy this problem, transdisciplinary collaborative science research approaches have emerged to intentionally engage decision-makers and other stakeholders in the research process (Dekker et al 2021 ; Steelman et al 2021 ) with the goal of co-producing new knowledge that can inform and support actionable change on the ground (Caniglia et al 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Evaluating stakeholder engagement in collaborative research: co-producing knowledge for climate resilience

Singletary

Koebele

Evans

et al. 2022

Socio Ecol Pract Res

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This study describes the development, implementation, and evaluation of an initial stakeholder engagement experience designed to facilitate knowledge co-production. The engagement experience is part of a collaborative research framework (CRF), which facilitates iterative interactions among diverse researchers and stakeholders around the topic of enhanced climate resilience. Here, we describe the: (1) need for and development of a CRF as it relates to stakeholder engagement and knowledge co-production; (2) implementation of the initial engagement experience, focused around individual semi-structured interviews, in the context of a snow-dependent, arid river basin where historical water over allocation, climate change, and diversified water uses challenge the basin’s resilience; and (3) formative evaluation of the engagement experience using an online survey to inform the development of more effective engagement practices. Results of the evaluation indicate that, after participating, most stakeholders understand and recognize the importance of research goals, demonstrate positive attitudes toward collaborative research and researchers, view their contribution of knowledge and expertise as critical to research, and perceive researchers as eager to use their expertise. Moreover, stakeholders emphasized various context-specific goals for knowledge co-production, such as finding innovative ways to adapt to increased competition for diminishing water supplies. To achieve these goals, stakeholders suggested researchers learn about their basin, including its water allocation history and agricultural practices. These results highlight the importance of centering stakeholder engagement experiences within a broader CRF and formatively evaluating such experiences to adapt them to achieve research goals.

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“…Subsequently, various informal academic information interaction and cooperation are formed in academic social networks [ 11 ]. Scientific collaboration can appear in different scholars, disciplines, institutions, regions or countries [ 12 , 13 ].…”

Section: Literature Reviewmentioning

confidence: 99%

Research disciplinary interactions on scientific collaboration network in photocatalytic hydrogen evolution: Characteristics and dynamics

Yao

Zou

et al. 2022

PLoS ONE

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Interdisciplinary scientific collaboration promotes the innovative development of scientific research. Photocatalytic hydrogen evolution (PHE) is a typical interdisciplinary subject. This study aims to explore the characteristics of discipline interaction and the temporal evolution in the field. Bibliometric analysis could be used to understand the stage of research in a particular subject. In this work, the publications on the topic in Web of Science (WoS) platform from 1999 to 2020 were selected. On the basis of social network theory, the characteristics of interdisciplinary were revealed from three perspectives. First, the disciplinary interaction network is constructed through disciplinary co-occurrence to detect the characteristics of interaction structure among different disciplines. Then the node centrality index is employed to explore the influence of disciplines in the interactive network by using network centrality analysis. Moreover, the dynamic of discipline interaction evolution is studied using blockmodeling analysis. In the field of PHE, the number of disciplines and the intensity of interaction among different subjects gradually increased in the past 20 years. Chemistry and Material Sciences are the core discipline, and they play an important role in the network. The whole network is divided into different discipline groups. The scale of the discipline group is becoming large, and the disciplinary interaction is becoming more complex. The obtained results are helpful for guiding scholars to carry out interdisciplinary interaction. The methods of detecting interdisciplinary interactive relationship could provide paths for interdisciplinary research in other fields.

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A Best Practices Case Study for Scientific Collaboration between Researchers and Managers

Cited by 10 publications

References 33 publications

Insights from a novel, user-driven science transfer program for resource management

Insights from a novel, user-driven science transfer program for resource management

Evaluating stakeholder engagement in collaborative research: co-producing knowledge for climate resilience

Research disciplinary interactions on scientific collaboration network in photocatalytic hydrogen evolution: Characteristics and dynamics

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