Circular service management: toward conceptual understanding and service research priorities for a more sustainable future

2.1 Circularity

As for sustainability science, a circular approach takes insights from ecological and living systems and forms the basis for implementing circular business approaches grounded in sustainability science. While the differences between circularity and sustainability are often blurred, the latter is more holistic, emphasizing the crucial role of environmental and social responsibility. As indicated earlier, this gap, however is increasingly closing with stronger considerations of how circular approaches can help address socio-economic challenges (Valencia et al., 2023). Yet, circularity remains a practical solution to sustainability (Corvellec et al., 2022). The concept of circularity generally refers to “an economic system based on business models which replace the ‘end-of-life’ concept with reducing, alternatively reusing, recycling, and recovering materials in production/distribution and consumption processes” (Kirchherr et al., 2017, p. 224). Both scholars and practitioners (Murray et al., 2017; D'Amato et al., 2017) regard a shift toward sustainability through circular systems and resource circularity as imperative. For instance, it has been linked to several of the UN's sustainable development goals (Geng et al., 2019), a prerequisite to achieve the EU's 2050 climate neutrality target and to halt biodiversity loss, and a building block of the European Green Deal, EU's new agenda for sustainable growth.

Circularity can be divided into three overarching circular loops. The first and shortest loop focuses on the useful application of materials (recycle and recover). The second loop focuses on extending the lifespan of products and their parts (reuse, repair, refurbish, remanufacturing and repurpose); and the third and longest loop focuses on smarter product use and manufacturing (refuse, rethink and reduce) (Bocken et al., 2016; Kirchherr et al., 2017). Often the aim is described as maximizing use (e.g. extending lifecycles) and minimizing waste across businesses and product-service solutions.

To achieve these loops, circular services are needed for sustainable business development (Geissdoerfer et al., 2017). Such services are based on circular rather than linear business logics (De Bruyne and Verleye, 2023) by offering innovative loops within each use phase. One way of moving from linear to circular services revolves around reconsidering the service-enabling resources and systems that actors engage with during their use processes. Sarja et al. (2021), in their review of the transition to circularity in business organizations, focus on barriers and enablers of business practice. They argue for the need to transform multiple system elements and even multiple systems per se to support circularity. Scheepens et al. (2016) highlight the importance of infrastructure and system support for circularity and sustainable solutions to reach their full potential. If systemic support is lacking, circularity will not positively affect sustainability.

2.2 Circularity in service research

Sustainability has recently been identified as a research priority in service research (Field et al., 2021; Huang et al., 2021). However, the understanding of circularity in service is still underdeveloped. After reviewing five leading service journals (Journal of Service Research, Journal of Service Management, Service Industries Journal, Journal of Services Marketing and Journal of Service Theory and Practice) in May 2023, with the search terms (in the title, abstract or keywords), “sustainable”, “circular” and “service”, only three articles appeared. We, therefore, broadened the search to academic marketing and business journals that often contain service-related topics (Journal of Marketing, Journal of Business Research, Journal of Product Innovation Management and Industrial Marketing Management), but only two more articles appeared. When broadening the search further to journals that focus on sustainability and circularity, as well as on service or services more broadly, we identified 27 articles that met our criteria in Journal of Cleaner Production.

Thus, it is apparent that a majority of the articles on sustainable, circular services currently appear outside service journals and leading academic marketing or business journals. After reading these articles, we may conclude that although service is included, service research or a service lens does not necessarily inform the papers. Combined with the managerial urgency of circularity, this status quo suggests the need for service scholars to prioritize research in the area. However, it should be noted that the service research community is beginning to take up this challenge; for example through forthcoming special issues in service and marketing journals: Aksoy et al. (2021) call for “sustainable service” in the Journal of Service Research, Alexander, Conduit and Azer (2023) focus on sustainability and “reshaping the world through customer and actor engagement” in the Journal of Service Theory and Practice, while Tronvoll et al. (2023) seek to advance “theories of sustainability” in AMS Review.

When examining the identified articles in the Journal of Cleaner Production, we find that one paper analyzes catering services on a sector level, with a focus on food and their specific challenges related to circular distribution and logistics solutions (e.g. Greer et al., 2020). Other articles focus on particular challenges or products, such as plastics (Paletta et al., 2019) or waste management (e.g. Brydges, 2021). Some papers explore circular business models or product-service-systems (see, e.g. Konietzko et al., 2020; Rosa et al., 2019; Stål and Corvellec, 2018), with emphasis on material or physical resources, including metal circulation (e.g. Wang et al., 2018). This category of articles covers a wide range of topics such as industrial packaging (e.g. Silva and Pålsson, 2022), water circulation performance (e.g. Li et al., 2020), transportation and car sharing (e.g. Esfandabadi et al., 2022) or bioenergy (e.g. Spagnolo et al., 2020). Design for circularity is another topic focused on, often related to system(s) or product design (e.g. Bakırlıoğlu and McMahon, 2021) and vehicle battery change (e.g. Gong et al., 2022).

More recently in business research, Fehrer and Wieland (2021) discuss social and circular business models to improve humanity's well-being by selecting an institutional perspective. They argue that all business practices are part of larger societal and ecological systems. This understanding is needed for a transition toward sustainability and implies collaborative institutional alignment processes by balancing social mission, environmental stewardship and economic growth. In line with this, Koskela-Huotari et al. (2023) offer a systemic conceptualization of sustainability in service that considers a focal organization's ability to support the multiple environments it is embedded in. On the other hand, Ranta et al. (2020) show how B2B firms can change their customer value propositions to offer solutions that address circular economy needs, based on a more systemic logic and addressing various beneficiaries. We believe that this systemic and collaborative approach has the potential to form a basis for sustainable, circular service management, as many of these complex challenges require the support of multiple actors. Furthermore, De Bruyne and Verleye (2023), in the Journal of Service Management, provide a systematic literature review of sharing economy business models and discuss how to engage customers with different levels of sustainability orientation. The authors argue that sharing businesses can realize their economic and circular potential by engaging customers. This is further discussed in an article in the Journal of Service Research by Verleye et al. (2023), zooming in on circular business models and actors (customers, firms, public service providers and governmental bodies) being reluctant to join the transition to circularity. The authors theorize about how to achieve “circular economy engagement” and highlight motivation-related, opportunity-related and ability-related practices. Thus, we may argue that engaging customers and other actors in circular and sustainable management initiatives has potential, focusing on circular service management theorizing or empirical studies, while digital platforms and social communities may support this.

To conclude, although some of the articles in our preliminary review focus on the sharing or circular economy (see, e.g. Gue et al., 2022), it is apparent that service research has not yet sufficiently addressed sustainability through circularity. Despite many studies on various aspects of circular economy, circular business models (e.g. Brax et al., 2018), sharing economy platforms (e.g. Wirtz et al., 2019) and sustainable consumption (e.g. Bruel et al., 2016; Murray et al., 2017), we still lack a theoretical and actionable understanding of how service management can help advance the circular economy. The few articles focusing on sustainability through circularity have a rather macro or meta-level orientation, rather than a specific circular service management lens, elaborated next.

3.1 Toward a definition for circular service management

As argued by Huang et al. (2021), a sustainable future requires managing circular service businesses enabled by value creation through circular service approaches. However, service research has not reached its full potential in this endeavor. As discussed above, current research on sustainability and circularity provides the goals to strive for saving, extending and (re)generating resources and their use across many collaborating actors in the circular service systems. Service research as a broad and interdisciplinary domain can, in turn, contribute knowledge to develop value creation systems with increased regenerative focus and reduced use of natural resources.

However, the limited research on circular service businesses hampers the understanding of circular service management practice. We argue that this reflects the status quo whereby service scholars trail service managers in terms of circularity dialog, maturity and priorities. So what does circular service management potentially look like in practice? How can we make sense of it? Without a more concrete and tangible illustration of such circular strategies, the risk persists that the service research perspective on circularity remains rather abstract and theoretical, without pervasive practical understanding. In our view, to help service researchers embrace circularity and its potential, it is important to help generate an understanding of circular service management.

In simple terms, “service” is the mechanism through which value cocreation unfolds (Lusch and Vargo, 2014), and “service management” is how service providers intentionally design and put that mechanism into practice. Formal definitions of service management are limited (cf., Tronvoll and Edvardsson, 2022), and we build on Kleinaltenkamp (2022, p. 59), who refers to service management as “the coordination of service-related activities and their actors”. Specifically, we propose that circular service management refers to the intentional design and coordination of service activities and processes that preserve, extend and (re)generate resources and related service systems. Beneficiaries here include humans, organizations and natural entities such as animals, trees, rivers and planet Earth. A service lifecycle mirrors the understanding of product lifecycles, including all “stages to be passed/followed/performed … from “its cradle to its grave” (Terzi et al., 2010, p. 364). This highlights that service activities, for example, have a beginning, middle and end in which resources and resource lifecycles can be saved, extended or (re)generated. It also points to the need for coordination across the circular service system.

Circular service management thus enables the implementation of service thinking in the pursuit of sustainability. Importantly, existing sustainability research often focuses on circularity models for natural or manufactured resources. Circular service management, however, recognizes the need to apply circularity principles to any type of resource (natural or manufactured), service operations and service systems. Service research can thus offer an important perspective on how circular systems and operations can be designed and managed to facilitate human behavior supporting material circulation.

3.2 A framework for circular service management strategies

To advance the practical usability of the circular service management concept, we next develop an illustrative framework that outlines four types of strategies through which circular service helps save, extend and (re)generate resources and service systems. The circular service management matrix shown in Figure 1 builds on extensive research (e.g. Bocken et al., 2016) as well as a broad range of state-of-the-art practical examples.

The proposed circular service management matrix examines circularity in service businesses along two axes: the horizontal axis describes whether circularity is leveraged within the existing service offering or is fundamental to establishing a new service offering. Managers thus seek to increase sustainability by embedding greater circularity within their established business models and markets or creating novel business models and markets to achieve circularity. The vertical axis, on the other hand, distinguishes whether service businesses focus on enhancing the circularity of existing resources and accompanying service operations (e.g. processes and workflows, human resource management, training) or whether they substitute these resources for resources that are more circular and modify service operations as necessary, to offer their existing services. Managers thus focus on either increasing circularity by using existing resources differently (e.g. reusing or extending their lifecycles), or by innovating their services to include new resources and/or new service operations to minimize waste at the end of life. This, in combination, leads to four illustrative circularity strategies: increasing the lifecycle of current service by leveraging existing resources (“extending”), redesigning service operations to substitute existing resources with circular ones within existing services (“minimizing”), offering new circular services with existing resources (“transferring”) and developing new services with circular resources (“transforming”). The four strategies combine with a more systemic consideration of how managers seek to develop more circular service solutions across different possible avenues. Naturally, versatile service management topics pertaining to, for example, service culture, human resource management, service operations and technology, are relevant for implementing each strategy, but may play out differently across strategies.

The first strategy—extending—focuses on increasing the lifecycle of the current service and embedded resources. This ensures that the value of service lifecycles is optimized from reusing resources already in circulation, thereby extending the service enabled through these resources. For example, Patagonia, in its B2C operations, provides a “care and repair’ service model, whereby Patagonia offers repair services of their products (garments, equipment) free-of-charge, including covered return shipping costs (Patagonia, 2023). Such initiatives help keep existing resources for longer in use and hence increase the value enabled from original resources, whereby in this case, the service-rendering resource remains with its owner after repair. In contrast, Dell encourages customers to use their refurbishment program called “Dell Reconnect” to minimize e-waste. This service program enables customers, both B2C and B2B, to donate (free) their used products to be refurbished or upgraded and resold, for example, on their Dell Outlet platform. Dell takes over, for instance, the professional cleaning and upgrading of devices from any personal data or damage while generating new revenues in existing markets (Dell, 2023). IKEA, on the other hand, also offers customers the opportunity to extend the life of their product-enabled service by buying back and offering up to 50% of an item's original value (based on condition) to be repaired, refurbished and resold; “from pre-loved to re-loved” (IKEA, 2023). In B2B markets, Mercedes-Benz has established an equal win-win model for its truck customers, whereby Daimler offers a guaranteed buy-back service of Mercedes-Benz trucks at the end of their customers' term (Mercedes-Benz, 2023). Customers can trade, retain or return their truck, while the truck, in the latter case, can be refurbished and resold by Daimler. In all of these cases of “extending”, resource and service lifecycles are significantly extended by circular design.

The second strategy—minimizing—focuses on redesigning service operations to substitute existing resources with circular ones within existing services. For example, Starbucks, with their “environmental stewardship’ program (Starbucks, 2023), along with many independent cafes in B2C markets, have opened up their operating models to enable the integration of more circular resources. Specifically, many cafes enable customers to bring in their reusable coffee cups to maximize the resource usage of circular resources while minimizing or potentially eliminating the deployment of single-use cups. Customers might even benefit from discounts when bringing their reusable cups, while many cafes change their remaining disposable cups to compostable solutions or even sell some version of KeepCups (one of the leading brands in this area). Minimizing resource extraction or consumption might also go hand in hand with sufficiency thinking, which encourages actors to avoid unnecessary consumption or overconsumption, and thus “consuming better and less” (Niessen and Bocken, 2021, p. 1091). In B2B markets, large companies such as RACV are collaborating with circular solution providers to change their internal food and beverage services by seeking to replace existing resources (e.g. internal coffee and food containers) and models with more circular ones. In another example, companies like Interface Carpets (2023), over time, have exclusively used recycled or bio-based materials while offering recycling and reuse opportunities for service-rendering products. In a different version of this strategy, Patagonia also offers education programs within their existing business to teach customers how to fix and innovate their clothing and gear. Many conventional service businesses in beauty industries (e.g. hairdressers), medical industries (e.g. dentists), educational industries (e.g. universities), installation industries (e.g. window installers) and others have switched their operations to embed more circular solutions. The same is evident in transportation and e-commerce services. In all of these cases of “minimizing”, the service operations and deployed resources change to design out waste as much as possible.

The third strategy—transferring—centers on offering new circular service with existing resources. For example, Apple deploys recycling robots as an internal service to disassemble old products such as iPhones to separate components (e.g. aluminum, copper), which then can be recycled and redeployed in new service solutions and/or new markets (Forbes, 2023). This material recovery and recyclability are central to reducing mining and resource extraction for the purpose of enabling and innovating new services, while customers can either trade in products or donate to recycling. While Apple seeks to leverage these existing resources for entirely new service solutions within their portfolio, other companies have been newly founded on the premise of creating novel services and markets by leveraging existing resources. For instance, Rent the Runway (2023) has created a new service platform where customers can rent designer clothes. While establishing a new business with a sustainability purpose, the circular model contributes to designer clothing getting increased wear while extending life cycles. Similarly, OzHarvest (2023) was founded specifically to create new food service solutions by “rescuing” surplus food and redistributing this to people in need. In a different model, Zipcar (2023) emerged by creating a new market with existing resources offering the largest car sharing service platform, products(cars)-as-a-service, thereby seeking to increase usage of the same resource rather than spreading usage across and ownership of many more (unnecessary) resources. This in turn increases the potential for saving and extending service lifecycles and embedded resources. On the other hand, Makerspace was recently founded to offer customers a new service solution to upgrade their existing products: by way of a “repair café”. Indeed, the purposeful facilities offer various technology (e.g. 3D printing), crafting (e.g. sewing) and workshop (e.g. woodworking) possibilities to increase the possibility for the community to repair, update and innovate their existing solutions. In a final example, Cataki in Brazil has become a successful app service that brings individual people who collect waste (waste-pickers) together with people who want their waste to be recycled. While helping to increase Brazil's share of recycled materials, the app also supports waste pickers in accessing markets and potential compensation for their work, while addressing societal stigma by turning waste-picking into a more valuable profession (The Economist, 2017). In all of these cases of “transferring’, businesses or initiatives leverage existing yet circularity-oriented resources in new services and/or markets.

The fourth strategy—transforming—seeks to develop new service with circular resources. For example, Elvis and Kresse (2023) is transforming waste materials into lifestyle accessories such as luxury handbags or purses, thereby upcycling resources into new service-rendering solutions. Similarly, Starbucks, through collaborations, has been trialing opportunities to turn coffee grounds into new service solutions such as cattle feed. The use of residuals for creating new services and/or markets, as well as new circular resource solutions, is particularly exemplary for this strategy. However, this approach also offers an additional sustainability component: regeneration of resources as part of the circular solutions. While many circular approaches manage to reduce waste and extend resource lifecycles, few can generate new sources of income simultaneously. In this case, the residual coffee ground as a feeding resource can help with the growth of natural resources in the form of subsequent fertilizer. In a B2B context, Returnr (2023) was founded as a new service business to offer circular workplace food and beverage solutions so that businesses can eliminate single-use waste and offer novel resource solutions to enable better service. Vestre (2023) is a Norwegian manufacturer of urban furniture dedicated to creating social gathering spaces for people for over 75 years. The organization sought to create new markets by making long-term sustainability a fundamental principle across all its operations, for example, through its manufacturing process by utilizing renewable and recyclable materials, such as sustainably sourced wood and recycled plastics, to drive circularity. Similarly, Planet Protector Packaging (2023), an Australian packaging service company, specifically developed an innovative service solution called Woolpack. With the aim to create sustainable packaging solutions, the organization repurposes wool as an alternative to traditional and often harmful packaging materials like polystyrene foam. The biodegradable, compostable and renewable wool is made from sheep waste wool, highlighting its circular nature while offering high thermal qualities for demanding packaging service (e.g. considering heat, humidity and odors). The organization collaborated with Australian wool growers to create new packaging markets and standards that do not harm the planet, while this service generates economic, environmental and social benefits (e.g. smaller footprint, new jobs, cultural meanings of wool, etc.). In all of these “transforming’ strategy cases, businesses manage to advance new service/markets and new circular solutions. This matrix quadrant often represents the most innovative of the four circular service management strategies.

While service managers might pursue one of the four circular service management strategies, which in this case focus more explicitly on economic and environmental considerations (rather than social), often these can be combined based on the aspiration and readiness of the focal service provider to embed circular solutions. For example, public institutions responsible for significant procurement decisions increasingly seek to turn their purchase power into circular power by combining multiple circularity strategies (Sönnichsen and Clement, 2020). The City of Stockholm, for instance, with a procurement budget of 35 billion Swedish Kronor per year or the Belgian City of Leuven, are seeking to both become circular service systems (e.g. Stockholm.se). Such cities may implement “circularity requirements in public procurement to promote sustainable and circular consumption patterns” (European Union, 2017). This might include tender bidders or suppliers needing to use recycled and recyclable materials (e.g. in construction, office supplies), encouraging them offer take-back/buy-back schemes or resource sharing platforms and developing alternative uses for “waste as material” and creating closed loops with city partners (Vanhuyse et al., 2021). Overall, the four strategies offer a rather systemic potential for organizations to address circularity. To make these strategies meaningful in context, circular service management thus requires both an open mindset toward and a careful consideration of the various circularity strategies. For each business, specific configurations of circular strategies at different points in time seems likely. However, this also highlights the need for a continuous process of actively managing for circularity in service contexts while opening up an entire research agenda that needs to be pursued to help businesses on their journey toward circularity.