Transdisciplinary research in natural resources management: Towards an integrative and transformative use of co‐concepts

Hakkarainen, Viola; Mäkinen‐Rostedt, Katri; D'amato, Dalia; Jämsä, Johanna; Soini, Katriina

doi:10.1002/sd.2276

Cited by 42 publications

(45 citation statements)

References 159 publications

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“…The results of our interviews showed that interviewees shared a common understanding of co‐design in the context of agricultural biodiversity conservation, reflecting the definitions in the current literature (Hakkarainen et al., 2021; Marin et al., 2016; Page et al., 2016). Co‐design was described in the interviews as a process of shared learning that facilitates a continuous eye‐to‐eye exchange between farmers, scientists and other stakeholders over time.…”

Section: Resultssupporting

confidence: 72%

“…Hakkarainen et al. (2021) recently compared the different ‘co‐concepts’ and conceptualized co‐design, following Mauser et al. (2013), as a first step in the process of co‐creating knowledge, ‘where actors articulate their positions, determine the concepts, the skills and the solutions’.…”

Section: Introductionmentioning

confidence: 99%

“…Co-design is a term that, similarly to co-production or cocreation, often appears in transdisciplinary research in sustainability science and describes intensive collaboration between practitioners and researchers (Kurle et al, 2022;Lacombe et al, 2018;Lang et al, 2012;Mauser et al, 2013;Norström et al, 2020;Wyborn et al, 2019). Hakkarainen et al (2021) recently compared the different 'co-concepts' and conceptualized co-design, following Mauser et al (2013), as a first step in the process of co-creating knowledge, 'where actors articulate their positions, determine the concepts, the skills and the solutions' . However, scholars in design studies (e.g.…”

Section: Introductionmentioning

confidence: 99%

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Co‐design: Working with farmers in Europe to halt the loss of biological diversity

Hölting

Busse

Bülow³

et al. 2022

Ecol Sol and Evidence

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Biodiversity loss in European agricultural landscapes is progressing rapidly despite a growing number of conservation efforts. One of the reasons for this is that farmers do not have enough decision‐making power and do not receive adequate advice to tailor conservation measures to local conditions and regional biodiversity targets. In this paper, we therefore address the potential and practical implementation of co‐designing conservation measures through close collaboration between farmers and other stakeholders (e.g. other practitioners, conservation experts, agricultural advisors, scientists and policymakers). Based on interviews with four researchers from ongoing European co‐design projects, one national and one European farmers’ organizations, we discuss the challenges and provide recommendations for co‐design in the context of biodiversity conservation in agricultural landscapes. Our aim is to reach scientists, practitioners and local decision makers working on innovative and locally adapted conservation efforts.

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Section: Resultssupporting

confidence: 72%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Co‐design: Working with farmers in Europe to halt the loss of biological diversity

Hölting

Busse

Bülow³

et al. 2022

Ecol Sol and Evidence

View full text Add to dashboard Cite

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“…It has grown into a diverse field, evolving from largely hypothetical contributions on how to coordinate and carry out concerted processes, including interaction of actors from in- and outside of academia, to concrete examinations of particular cases located around the globe (Lang et al 2012 ; Darbellay 2015 ; Polk 2015 ; Zscheischler and Rogga 2015 ; Turnhout et al 2019 ; Bergmann et al 2021 ; Jahn et al 2021 ). Methods have also advanced to focus on the process of knowledge co-production and co-design as well as the testing of sustainability solutions (Pohl and Hirsh-Hadorn 2007 ; 2008 ; Giuseppe 2015 ; Moser 2016 ; Felt et al 2016 ; Renn 2021 ; Hakkarainen et al 2021 ). This has also opened doors to the development of approaches and frameworks for the design, evaluation, and proper financing of more robust collaborative processes (Roux et al 2010 ; Taylor et al 2016 ; Luederitz et al 2017 ; Bernert et al forthcoming; Simon et al 2018 ; Williams and Robinson 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Getting personal with collaborative sustainability experimentation: Reflections and recommendations from a transdisciplinary partnership with the Swedish craft beer sector

Ness

Wahl

2022

Ambio

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This paper provides reflections on transdisciplinary knowledge coproduction and experimentation processes from sustainability researcher perspectives. It centers on a 5-year period of collaborative research with small- and medium-sized enterprises in an Urban Living Lab in the Swedish craft beer sector. Nine reflections cover a variety of issues and potentials encountered during numerous interactions with societal partners, and are structured by three levels: organizational, interpersonal and intrapersonal. Based on the reflections, authors then propose a set of seven considerations and recommendations for how to more effectively collaborate in such transdisciplinary constellations. The recommendations apply across the three levels, and describe an approach to collaborative research that asks the researcher to be open, transparent, self-aware and intentional, reflective and reflexive, and both adaptive and flexible. Furthermore, they aim to create soft structures to facilitate understanding and mutual learning, such as designating “organizational champions”, as well as to embed collaborative reflections into recurring meetings with partners to maintain trust and capture sustainability knock-on opportunities as they arise.

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“…Therefore, gathering knowledge from a diverse group of stakeholders is pertinent for mapping out these cause-effect chains. Firsthand knowledge from the people that live with and use the lake systems can be significant sources of information (Hakkarainen et al, 2021), with co-creation processes allowing the different actors to appreciate epistemological differences. From outlining the user groups within the system to detailing the history of the system, personal accounts of the residents can "fill in" gaps about how the lake is integrated into the local community and economy (e.g.…”

Section: Existing Knowledge Sources 511 Local Indigenous and Stakehol...mentioning

confidence: 99%

On a razor’s edge : Maintaining lake ecosystem services and functions in an extreme world

Armstrong¹

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General introduction11 climate-based pressures are capable of hampering lake functions, and subsequently thwarting the possibility of reaching the established WFD goal, has become a pertinent question. This is particularly of interest for regions such as Europe wherein many lakes have been exposed to sources of continuous degradation, such as extensive urbanization. Abiotic repercussions of extreme eventsChanges to lake chemical processes as a consequence of climatic pressures have the potential to instigate significant ecosystem disruptions (Calderó-Pascual et al., 2020). Between extreme precipitation and warming events there can be ramifications on, for example, lake nutrient loading, water coloring, turbidity and water temperature. The increased runoff from extreme precipitation (Jennings et al., 2012) can affect surface water systems in a number of ways and is hypothesized to vary with the amount of anthropogenic land use in the watershed (Stockwell et al., 2020). Nutrient influxes can occur due to the runoff-instigated soil mobilization within the catchment, leading to large, diffuse depositions into receiving water systems (Ockenden et al., 2016). For example, a single extreme precipitation event can account for a significant portion of the total annual nutrient loading (Zwart et al., 2017). Nutrient pulses can boost phytoplankton growth on a short-term temporal scale, especially in oligotrophic systems (Carrillo et al., 2017;Morabito et al., 2018). Runoff into a system can also cause brownification (Feuchtmayr et al., 2019), which can lead to a decrease in light availability and an increase in water temperature (Weyhenmeyer et al., 2004). Similarly, the turbidity of a system could be altered due to runoff, stimulating the re-suspension of in situ sediments (Kasprzak et al., 2017). In turn, this can instigate decreases in water transparency (Kasprzak et al., 2017) and in light availability (Stockwell et al., 2020). Contingent on the hydrological and catchment composition, extreme precipitation will also impact the lake residence time of water and thereby nutrients and phytoplankton in a water system. A large influx of water into the system, for instance, can dilute the concentrations of nutrients within the lake (Cobbaert et al., 2014). Further, surface water bodies with outlets can experience a flushing effect with outflowing waters carrying nutrients from the system (Ho & Michalak, 2020). In such cases, an extreme precipitation event could assist with improvement of the overall water quality.Warming, such as through heatwaves, can influence chemical processes through different routes. These events can have a direct and noticeable impact on water temperature, which in turn can strengthen stratification within the water columns (Chen et al., 2019). Nutrients stored in sediments can also become bioavailable at higher water temperatures. This can occur when a stabilized water column promotes the release of nutrients from the substrate, which can then be redistributed in the lake from subsequent mixing of the ...

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Transdisciplinary research in natural resources management: Towards an integrative and transformative use of co‐concepts

Cited by 42 publications

References 159 publications

Co‐design: Working with farmers in Europe to halt the loss of biological diversity

Co‐design: Working with farmers in Europe to halt the loss of biological diversity

Getting personal with collaborative sustainability experimentation: Reflections and recommendations from a transdisciplinary partnership with the Swedish craft beer sector

On a razor’s edge : Maintaining lake ecosystem services and functions in an extreme world

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