The concept of the regional innovation niche refers to the integrated characteristics of the natural and socio-economic environment within a specific geographical area that influence innovation activities. Previous research has predominantly focused on the components and influencing factors of regional innovation niches [
1,
2,
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4,
5,
6,
7]. Smith et al. proposed mechanisms by which regional resource endowments, scientific and technological investments, talent agglomeration, and industrial clustering impact the innovation niche. Li et al. discovered that innovation policies, industrial upgrading, and scientific and technological innovation significantly influence the evolution and adjustment of regional innovation niches. Deng et al. demonstrated that the application of digital technology in innovation activities across different regions markedly affects the landscape of innovation niches. Xu et al. found that inter-regional cooperation and competition have a bidirectional impact on innovation niches. Hedong and Jie analyzed the impact mechanism of niche suitability on high-quality economic development, using innovation capability as an intermediary variable and constructing a threshold effect model. Li et al. measured and analyzed the impact of the innovation ecosystem’s niche suitability on the innovation efficiency of public R&D organizations. Huiyong et al. utilized the spatial Durbin model to study the spatial relationship between the suitability of high-tech industry innovation ecosystems and innovation performance.
Scholars have also begun to examine regional innovation ecosystems from the perspective of digitalization [
8,
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11]. Zhihui and Jie, from an ecosystem perspective, analyzed the main components of regional innovation ecosystems and constructed an evaluation system for regional innovation ecosystems that considers the impact of digital development factors. Wei et al. empirically analyzed the impact mechanism of digital transformation on the suitability of regional innovation ecosystems based on panel data from 30 provinces in mainland China from 2008 to 2021.The aim of the research was to obtain a better understanding of the ecosystems that foster digital evolution at the regional scale. An empirical observation campaign in three European regions (Grand Est in France, Styria in Austria, and Värmland in Sweden) helped to provide a description of the nature of digitalization ecosystems, their practices, and internal collaborative dynamics. The results suggested that DIHs, despite their emerging and trial-and-error stage, were designed for promoting multi-actor collaborative platforms including non-local actors to stimulate the transition into Industry 4.0 by promoting place-based collaboration alliances that respond to local/regional contextual specificities and demands. These regional-based platforms facilitate public–private partnerships that co-design policy initiatives resulting from co-participation and the negotiation of spatially bounded oriented initiatives for digitizing.
In recent years, some scholars have started to study regional innovation niches from an ecological standpoint. One paper, therefore, maps out a field of future research—the geography of sustainability transitions—that might be beneficially labored by both traditions. The paper introduces the core concepts, but also the limitations of the transitions literature [
12]. The concept of ‘motors of creative destruction’ is introduced to expand innovation and technology policy debates to go beyond policy mixes consisting of technology push and demand pull instruments, and to consider a wider range of policy instruments combined in a suitable mix which may contribute to sustainability transitions [
13]. Brown introduced niche theory into regional innovation research and proposed the concepts of “resource utilization mode” and “competition mechanism” to explore the differences in innovation resource utilization between regions and the impact of resource competition on the pattern of regional innovation niches [
14]. Research has also focused on the sustainable development of regional innovation niches, with Wang et al. noting that the rational use of innovation resources, the protection of the ecological environment, and the promotion of coordinated socio-economic development are key factors in achieving the sustainable development of regional innovation niches [
15]. Additionally, the influence of globalization on regional innovation niches has become an important research direction, as Miao et al. found that deep involvement in global value chains accelerates the reconstruction and transformation of regional innovation niches, positively impacting the enhancement of innovation capabilities in different regions [
16]. Scholars have also turned their attention to the contribution of innovation niches to regional economic growth [
17,
18], with Gao highlighting that optimizing the structure of innovation niches, improving innovation efficiency, and strengthening innovation policy support are crucial pathways for fostering regional economic growth. Hua and Ming, in their review, identified key factors affecting regional innovation niches, which are closely related to resource allocation, policy environment, and industrial structure. Furthermore, Hong and Tao discussed the path of digital transformation of regional innovation niches, emphasizing the significant role of digital technology in optimizing the structure of regional innovation niches [
19]. Recently, scholars have also focused on the sustainable development of regional innovation niches. The research by Liang and Ting showed that the sustainable development of regional innovation niches is essential in the context of a low-carbon economy. They stressed that protecting the ecological environment and promoting coordinated economic development are key pathways to achieving sustainable development of regional innovation niches [
20]. Scholars have conducted research on the evaluation of regional innovation ecosystems from the perspective of strategic niche management [
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23]. Hongqi and Ping established an evaluation index system for the suitability of innovation niches in strategic emerging industries and used a comprehensive and phased suitability evaluation model to assess the innovation and development status of 30 regional strategic emerging industries from 2011 to 2020. Hongyan constructed innovation environment indicators based on the three stages of industrial value chain evolution and used the theoretical model of niche suitability to study the supply and demand gap of the regional innovation environment in 30 provinces and municipalities directly under the central government. Aishan et al. constructed a regional innovation ecosystem suitability evaluation system that includes both species and non-species dimensions, and evaluated the innovation ecosystems of 30 provinces in China from 2010 to 2019, and, based on the Fourier series modified-OGM model (FOGM), predicted the development status of China’s innovation ecosystem during the “14th Five-Year Plan” period. Jing and Ruyu found that there are two main differences in the evaluation index of niche suitability: the dynamic and static balance of innovation elements are different, and the measurement range is different; they conducted a root cause analysis from three aspects: different perspectives on understanding the connotation of the innovation ecosystem, different research content and objectives, and the difficulty of obtaining data [
24]. Peili et al., based on the measurement of niche suitability and innovation value, constructed a panel data regression model and empirically tested data from 31 provinces, autonomous regions, and municipalities in mainland China from 2010 to 2020 [
25].
In summary, research on regional innovation niches continues to expand its theoretical depth and breadth, with in-depth discussions from dimensions such as ecology, sustainable development, globalization, digital technology, and inter-regional cooperation. The focus has gradually shifted from discussions on static influencing factors to analyses of dynamic mechanisms, providing theoretical and practical guidance for enhancing regional innovation capabilities and sustainable regional economic development. Based on the aforementioned research, this paper studies regional innovation ecosystems from both micro and macro perspectives and, drawing on the niche model mentioned by scholars Yidan and Yimeng, innovatively constructs an index system from four basic dimensions and 20 basic variables to analyze and research the suitability and evolutionary momentum of regional innovation niches in nine prefecture-level cities in Hubei Province, China. This fills the research gap in niche studies between small-area cities under different indicator systems.