Over the last few decades, societal challenges like the global impact of climate change, secured energy supply and reduced energy consumption according to the principles of Sustainable Development as well as the substitution of nonrenewable materials and energy sources with renewable ones have been growing in public awareness (e.g., WCED, 1987; UN, 2015). Maintaining or improving human living conditions without negatively affecting the environment, requires creating and diffusing innovations that address the Sustainable Development Goals (Voegtling and Scherer, 2017). A transition to bioeconomy is one strategy that has been frequently discussed over the last couple of years and offers the chance to reduce dependency from fossil-based resources (e.g., UNECE/FAO, 2016; Patermann and Aguilar, 2018; Ramcilovic-Suominen and Pülzl, 2018). Bioeconomy, as defined in the EU’s 2012 Bioeconomy Strategy is
Innovations are new or significantly improved products, processes, or organizational structures (OECD/Eurostat, 2005). According to Schumpeter (1934), innovation is a mechanism that deploys new knowledge, technology, products or services in the market and is in the form of creative destruction, a necessary driver for competitiveness and economic dynamics. However, successfully placing innovations in the market constitutes a substantial challenge and ways to do so has been researched by many scholars (e.g., Schaltegger and Wagner, 2011). One substantial reason for lack of economic success is the absence of societal acceptance as, for example, emerging sustainable energy technologies (Assefa and Frostell, 2007), genetically modified food (Araki and Ishii, 2015) or biofuels (Chin et al., 2014). However, the increase of societal acceptance of biobased products resulting in a willingness of consumers to pay for these products is central for their diffusion and market penetration (Scarlat et al., 2015).
Wood-based innovations can be considered as so called
This study aims at providing first insights on the opinion forming process regarding four different wood-based innovations by future-oriented individuals representing potential future opinion leaders. More precisely, the research questions I)
The success of wood-based innovations is limited as they have not penetrated the markets to the expected extent so far (Clark et al., 2012). For example, despite the potential of biorefineries to revitalize the pulp and paper industry, a large-scale implementation of biorefineries is lagging behind (Helsmark and Söderholm, 2017). Furthermore, consumers have shown skepticism and little recognition towards new bio-based products and technologies, like nanocellulose products, composites and building materials (Stern et al., 2018) and market failures lead to inappropriate incentives, which might impede innovations.
Reaching success with material innovations, such as woodbased innovations, is difficult and new products often fail in the market introduction stage despite a good functional performance (Ljungberg and Edwards, 2003). One potential reason is the forest-based sector industries’ weak understanding of end-consumer markets, as they are the producers of large quantities, mainly as intermediates in the B2B-markets (Roos et al., 2014). In addition, while the forest-based sector largely focused on technical process innovations like increasing productivity, other issues, such as diversification by business model innovations, for example, product and services, have not been focused on in the past (Hansen, 2006; Stendahl, 2009). How wood-based innovations are perceived, what consumers expect from them and which information demands can be derived thereof, has not yet been thoroughly studied, resulting in a lack of consumer market orientation (Rametsteiner et al., 2006; Hansen and Juslin, 2011). Therefore, researching consumer-related information can contribute to more competitive products and services (Hetemäki et al., 2014) as it supports the adoption and diffusion of innovations. For example, consumer acceptance regarding innovations has been researched in the context of genetically modified foods (Costa-Font et al., 2008) or information technology (Pantano and Di Pietro, 2012). However, in the early phases of technology and innovation development, it is not the adoption of innovations by purchasing them that is relevant yet but the understanding of and support for, for example, wood-based innovations. If opinion leaders perceive such innovations as desirable and worth to pursue, investments in their development and advertisement are made. This, consequently, could then also lead to products and services offered to the end-consumers in respective markets.
In this context, the acceptance and adoption of innovations is closely related to consumer expectation. Rogers’ theory “diffusions of innovations”, describes the adoption or the acceptance of an innovation as the uptake of an idea, practice, process or product (Rogers, 2003). Usually, an innovation is assessed on its relative advantage compared to actual products, compatibility with existing products or processes, complexity and potential for reinvention (Rogers, 2003). Thus, the perception of wood-based innovation can be strongly influenced by its comparison to a fossilbased counterpart and the expectation regarding its environmental benefit. Consumer expectation can be described as “subjective notions of things to come” (Anderson and Hair, 1972), which affect people’s reactions and decisions (Deliza and MacFie, 1996). Consuming the information about an innovation, that is, read or try, results in a certain perception of the innovation among individuals. According to the selection/consumption/re-selection model, a positive response to the expectations will result in consumer’s satisfaction followed by a repeated choice of the product with increased expectations for it, whereas negative response will lead to dissatisfaction and rejection of the product and decreased expectations (Deliza and MacFie, 1996). As a result, expectation is strongly related to consumer (dis) satisfaction, which is usually measured in expected and perceived product performance (Anderson 1973).
For new wood-based materials to be successful, consumers need to understand and appreciate the potential material’s benefits. Communicating new wood-based innovations’ benefits to consumers places great demands on the producers in understanding consumer needs (Ljungberg and Edwards, 2003; Karana et al., 2010). However, the perception of an innovation can vary strongly between individuals and over the course of time (Karana et al., 2010). In the context of wood-based innovations on B2B-markets, Roos et al. (2014) found that different professions of the companies purchasing the innovation have different priorities regarding the material selection. Similarly, potential future opinion leaders have certain expectations regarding wood-based innovations, which are translated into an information demand regarding the performance of the specific innovation.
Many wood-based innovations intended to substitute conventional, fossil-based products are heavily scrutinized regarding their environmental impact (Hesser, 2015). In addition, previous studies found that society can be skeptical regarding the environmental responsibility of the forest-based sector in general (Ranacher and Stern, 2016; Ranacher et al., 2017), which may be considered a potential bottleneck for market diffusion of wood-based innovations. Similarly, Provasnek et al. (2017) argue that eco-innovations face new challenges within the society as they are not always sound with stakeholders’ expectation regarding sustainability. Thus, companies are increasingly challenged to adapt to numerous, often contradictory societal expectation of their innovations, even if they already have high ecological standards (Provasnek et al., 2017). Thus, perceptions of wood-based innovations are considered to be strongly related to the expectations regarding their environmental performance and may vary significantly between different consumer segments.
Within the forest-based sector, bioplastics, composite materials, engineered wood products, and biorefineries were found to be market-ready product or process innovations that are about to, or have already, found a place in the market (Clark et al., 2012). Moreover, a recent study by Stern et al. (2018) surveyed the public perception of wood-based innovations. In this study, innovations like wood-based building systems or construction materials were largely recognized by the general public, whereas composite materials, material substitution, production processes, and biofuels received only medium, and nanocellulose only little recognition (Stern et al., 2018). Based on the findings of these and other studies highlighting the potential of wood-based innovations (Bajpai, 2013; Ekman et al., 2013; Näyhä et al., 2014; Roos et al., 2014; de Assis et al., 2017; Reid et al., 2017), four complementary innovations are taken into account in this study:
Wooden multi story buildings (WMC) as an example of using an innovative building material such as cross laminated timber
Natural fiber reinforced composites (NFC) as one example of materials, which can have favorable environmental impacts compared with their counterparts by comparable functional performance
Nanocellulose (NC) as an example of a wood-based innovation of high expectations and with many potential future applications, such as composites or packaging (Eichhorn et al., 2009)
The concept of biorefinery (BR), as the sustainable processing of biomass into a spectrum of marketable products and energy substituting fossil resources, of which the lignocellulosic biorefinery is considered to have the biggest market potential.
This explorative qualitative study applies focus group discussions with a subsequent content analysis in order to gather systematic information on how the selected woodbased innovations (NFC, WMC, NC, and BR) are perceived and what further information is requested by the focus group participants.
According to Krueger and Casey (2009), focus groups are a group of individuals who are selected by researchers to have a discussion on a subject of research based on their personal experience. The procedure is practically well suited to check or generate theses or ideas and is used especially for obtaining information about attitudes of certain target groups in a qualitative way, which is considered to be an appropriate method in the field of environment and sustainability research (Henseling et al., 2006). The focus groups were conducted as proposed by Morgan (1998).
Participants were selected through convenience sampling. People were invited by a short text explaining the purpose of the study and organizational key facts (dates, place, time). The invitation was distributed using the personal networks of the researchers addressing friends and colleagues from the University of Natural Resources and Life Sciences, Vienna, and thereby targeting a sample with high level of education and interest in environmental issues and aged 20-40 years. These characteristics are expected to indicate future-oriented individuals representing potential future opinion leaders.
To assess the future orientation of the participants they had to answer a questionnaire about their consideration of future consequences (CFC) (Strathman et al., 1994) before participating in the focus group. The CFS is a survey instrument to assess the extent to which people emphasize short-term or long-term consequences of their behavior. A high score (max. 50) indicates a focus on the future implications of a behavior, whereas a low score (min. 10) indicates a focus on current needs and concerns (Strathman et al., 1994). Furthermore, the questionnaire contained a module on socio-demographic features to characterize the sample.
In total, four focus group discussions with four to six participants each were carried out (Table 1). Out of the 20 participants, 13 were male (65%) and the total average age was 27 years. 55% had a bachelor’s degree and 30% a master’s degree as the highest level of education. 60% of the participants had lived most of their life in a suburb and city or urban area, and 45% stated that they are involved in the forest-based sector due to formal education or profession. On the CFC scale, the focus groups scored between 27 and 41, reflecting a medium to high future orientation. A set of four information cards for each innovation was supplied as stimuli at the beginning of each focus group discussion. Each information card contained a short paragraph on the manufacturing process, benefits, characteristics, or scope of application of the four selected innovations (4 times 4 cards). All participants had to pick two cards that appeared most interesting to them. The main purpose of this was to have a starting point for discussion and to see which kind of information and which innovations were preferably chosen. Then, the moderator, one of the authors of the study, started the discussion asking questions like “Why did you choose this card?”, “Why did you mention (…)?”, “What do you mean by (…)?” to start the discussion. In each focus group, all four previously described innovations were discussed. The moderator encouraged the participants to talk about the issues raised in the discussions by using the questions above; however, people were not forced to give statements, and therefore, a balance between the different innovations could not be achieved. All focus groups took around 90 minutes.
Overview of focus groups
Tabelle 1. Übersicht über die Fokusgruppen
Focus group | Number of participants | Place and Date | Level of future orientation (CFC Scale) |
---|---|---|---|
1 | 6 | Vienna, 22nd July, 2015 | 27 |
2 | 4 | Vienna, 30th July, 2015 | 36 |
3 | 5 | Vienna, 31st July, 2015 | 30 |
4 | 5 | Vienna, 7th August, 2015 | 41 |
All the focus group discussions were audio recorded and transcribed. The transcripts were analyzed with a qualitative content analysis (Mayring, 2003) performed with the software MAXQDA. First a deductive coding scheme based on the information card categories (i.e., manufacturing process, benefits, characteristic, or application) was applied. Second, an inductive coding scheme was created to organize the data according to topics that evolved through the material. In both cases, a summarized content analysis was used that aims at reducing the transcript material in a way, so that the essential content still remains (Mayring, 2003). Codes were generated based on the text material and organized the statements made in the discussions. The unit of analysis for coding ranged from a single sentence to a whole paragraph. The given codes were then assorted to categories, representing the topics discussed in the focus groups. First, the frequency of these categories occurring in the discussions was counted to make a statement about which topics are discussed in which intensity. Second, the most discussed topics for each innovation are described to provide an insight about the main areas of interest regarding the four innovations. Thus, this analysis follows a quantitative and qualitative approach.
In addition to the qualitative approach in this study, the frequency by which the information cards were picked, provides insight into which innovations and which information were appealing to the participants. The participants were asked to choose two information cards each. Therefore, the number of cards picked in each round depends on the size of the focus group. Each card could only be picked once. In the four focus groups sessions, between 8 and 12 cards were picked, resulting in an average of 10 cards. Figure 1 shows that across all innovations and focus groups sessions, the information card “Benefits” was chosen most frequently (14 times), followed by “Manufacturing Process” and “Scope of Application” (both 9 times), and “Characteristics” (8 times). Across all focus group sessions, most cards selected pertained to WMC (13 times), followed by BR (10 times), NC (9 times), and NFC (8 times). Thus, the participants showed most interest for the benefits of innovations as well as multi-story timber construction. However, the differences between the given innovations are smaller than the differences between the given types of information.
Based on the previously described content analysis, 15 categories or topics, were identified and are given in Figure 2. The topics costs, environmental studies, material, and potential were discussed for all innovations, whereas some topics were only discussed for some innovations. The topic of
As Figure 2 depicts that the intensity with which the topics were discussed (measured in frequencies) is not equally distributed among all four innovations, indicating the demand of different areas of information regarding the respective innovation. Thus, in the chapters below, the most frequently discussed topics are described for each innovation, indicating the major areas of concern for each innovation.
Generally speaking, WMC accounts for the most positive perception among the participants. All the participants associate timber constructions with high-quality wood features. Reasons to favor timber over concrete or steel constructions were the positive aspects attached to wood such as health effects as well as societal benefits regarding climate change mitigation. For WMC, 11 different topics were discussed, which in total received 148 hits making it the most discussed innovation. The participants mainly discussed about safety, costs, and ecological aspects regarding the material, in comparison to concrete and steel constructions.
BR was perceived as a very interesting, sustainable opportunity to counteract the depletion of fossil-based resources, although only little knowledge exists amongst the participants. Main points of discussion were about the feedstock that is used, basic knowledge regarding the products, and environmental issues related to the use of these innovations. For BR, 13 topics were identified, which received 101 hits. Required information was mostly due to feedstock (biomass) origin, comparable with wood-construction; although compared to that the knowledge was rather uncertain, leading to the need of more basic information on the concept. Additionally, not only the high relevance of environmental studies on BR products, but also information demand on the process itself occurred. The demand of having accompanying assessments for innovative processes and products is an important approach to achieve sustainable and competitive products in line with the vision of future knowledge based bioeconomy.
The innovation was discussed controversially among the participants. Most of the participants are already familiar with this innovation or have at least heard about NFCs. Some participants associated NFCs as a lightweight construction and packaging material used in the automotive industry. However, questions regarding further applications of NFCs were raised. For NFC, 13 topics were identified that received 88 hits in total. The most discussed topics were costs, possible applications, and ecological issues regarding the recycling capability.
This innovation was hardly known among the participants, which might be a reason why the level of interest was relatively low. Almost none of the respondents had ever heard of NC before. The participants often indicated that their statements were based on guessing. For NC, 11 topics were identified, which received 67 hits, making it the least discussed innovation in the focus groups. The most discussed topics regarding NC were basic information, risks, and environmental studies.
The forest-based sector lacks communication of relevant information for individuals; however, such information is considered essential for societal acceptance in general, and thus, successful market diffusion of wood-based innovations in particular. Therefore, this study investigated the perceptions and related information demands of potential future opinion leaders of the four selected wood-based innovations supporting the transition towards bioeconomy.
Regarding the provided information categories in the introduction round, the results indicate that participants appeared to be slightly more interested in the benefits of innovations in comparison to the manufacturing process, scope of application or characteristics. An explanation for this preference could be that both issues are more closely related to their personal lives (i.e.,
Furthermore, how the innovations were discussed varies by quantity and quality. First, the four selected innovations were discussed at different levels of intensity measured in the frequency hits. WMC was discussed the most, followed by BR, NFC, and NC. Similarly, in the introductory round, the information card on WMC was picked more often in comparison to the other innovations. An explanation for this could be the stronger recognition of WMC (i.e.,
As Deliza and MacFie (1996) argue that innovations are judged based on the comparison of one’s expectation with the actual perception. The level of congruency between expectation and perception influences the level of acceptance (rejection or approval). The results propose that these comparisons can be made on an individual (e.g., technical, commercial) or societal (e.g., environment, economy) level. The results suggest that the more well-known innovations are rather judged on individual level (i.e., personal costs and benefits) than the less-known innovations (i.e., societal costs and benefits). Hence, to communicate the benefits of wood-based innovations, contextual information on individual or societal level is required. This could be due to the fact that the perception of innovations is often accompanied by a hype, a phase characterized by an upsurge of public attention and high rising expectations about the potential of the innovation (Ruef and Markard, 2010). Such hypes are, according to the Gartner hype cycle concept (Fenn, 2006; Fenn and Raskino, 2008), followed by a considerable decline of attention that may be connected with disappointment of the earlier expectations. Thus, it is conclusive that early innovations that are barely visible are accompanied of little expectations (NC), whereas innovations with early maturity and strong visibility have high expectations (BR) and these expectations decrease (NFC), and after being established at the market have a solid level (WMC). However, as companies are increasingly challenged to adapt to numerous, often contradictory societal expectations of their innovations (Provasnek et al., 2017), communicating the benefits to potential future opinion leaders at individual or societal level could result in conflicting messages, especially when considering different consumer segments.
It is noteworthy that this study only considered the participants’ perceptions and information demands, not their actual consumption behavior regarding wood-based innovations, since the research did not take into account the participants´ commercial or technical acceptance of the respective categories of innovations. Furthermore, the participants already had some perception of the innovation, for example, through news media or personal experience. Therefore, the focus group discussion depicts the expectation, the perception as well the information demand regarding the innovation. The expectation of the elements, resulting information demand and perception cannot be described separately from each other. For this, a separate study would be necessary. Furthermore, it is noteworthy that the study is limited due to the sample. Half of the sample is involved in the forest-based sector which is considered to have a positive impact on the perception of innovations. A study with individuals without any relationship to the sector might lead to different results. Furthermore, a sample resulting from the personal networks of the authors might be biased. However, the sample represents individuals with a strong educational background and environmental interest, and therefore, are considered suitable for the purpose of this study.
Acknowledging the drawbacks of the study, the results provide a snapshot regarding the perception and information demand of four wood-based innovations by potential future opinion leaders. We conclude that to communicate the benefits of wood-based innovations, economic and environmental aspects in comparison to conventional products should be addressed. However, depending on the level of awareness, this information should address the societal or individual expectations. Furthermore, the potential benefits of innovations may be a trigger for people to decide on future information demand. Even if innovations are not typical consumer goods, people are interested in costs. People are in general skeptical regarding bio-based innovations by questioning costs, environmental impacts and risks.