Search Results (508)

In the modernization of cities and buildings around the world, megastructures represent the integration of the means of material production and advanced technology. However, there has been little discussion of the reasons for the enthusiastic phenomenon, especially the associative style between humans and megastructures. Among the methodologies for discussing the material environment and the human spiritual world, Associative Cultural Landscape methodology, based on the cultural landscape, is selected, and the “verticality” and the vertical discussion depth of the megastructure are used to optimize Associative Cultural Landscape methodology by utilizing the “orientational metaphors”. This forms Orientational Metaphors—Associative Cultural Landscape methodology for interpreting megastructure worship. Utilizing the optimized methodology, megastructure worship is interpreted from three interpretative paths: body worship, political worship, and relationship worship. Nine applied models and the matrix that meet the applied scenarios are formed. Finally, the paper presents the framework and its main theoretical contributions: (1) it generates the 16 processes from topic selection to model interpretation; (2) it differentiates the three interpretative paths of megastructure worship; (3) it evolves and optimizes Associative Cultural Landscape methodology; (4) it establishes nine applied models, based on the three interpretative paths; (5) it provides a research outlook—combining the nine existing applied models, a total of 21 interpretative potential applied models have been constructed. Using Orientational Metaphors—Associative Cultural Landscape methodology, the spiritual relationship between humans and megastructures is established with “spiritual relevance” as the core, and three interpretative paths of megastructure worship are interpreted. A comprehensive analysis of the megastructure phenomenon is proposed, providing a framework and models for human emotions that are attached to environmental psychology. The study provides an optimized methodological framework with Associative Cultural Landscape methodology and applied models for city and building scenarios involving the emotional connection between humans and megastructures. In particular, at the methodological level, it provides a new discussion paradigm for philosophical and applied megastructures that explain non-quantitative problems. Full article

Rural gentrification is transforming China’s countryside, yet the ways gentrified landscapes shape community co-build willingness across social groups remain unclear. Guided by the Hierarchy Effects Model (HEM) and Martin Phillips’ four-dimensional view of rural landscapes (material, symbolic, social, and living), this study develops a “landscape–emotion–intention” framework linking spatial–environmental continuity, cultural landscape transition, social interaction embeddedness, and new rural livability to community identity, sense of belonging, and co-build willingness. Based on 50 in-depth interviews in She Village, Nanjing, latent Dirichlet allocation (LDA) is used to extract key themes, which are combined with the four-dimensional framework to construct a 25-item questionnaire; 376 valid responses from immigrants and local villagers are then examined through multi-group structural equation modeling and artificial neural networks for robustness and importance analysis. Results indicate that cultural landscape transition and new rural livability are the main drivers of identity and belonging among immigrants, whereas cultural landscape transition, spatial–environmental continuity, and social interaction embeddedness are more critical for local villagers; in both groups, sense of belonging is the strongest predictor of co-build willingness. The study embeds HEM within gentrified rural settings, operationalizes stakeholder perceptions via an LDA–SEM–ANN pipeline, and proposes differentiated strategies for inclusive rural community building and sustainable governance. Full article

Purpose: This study aimed to explore the lived experiences of Saudi female nurses working in mixed-gender healthcare environments and understand how they navigate professional identity while managing cultural expectations in Saudi Arabia’s evolving healthcare landscape. Methods: A descriptive phenomenological qualitative study grounded in symbolic interactionism was conducted using in-depth semi-structured interviews with 20 Saudi female nurses working in mixed-gender healthcare settings in Riyadh. Interviews were conducted in Arabic and systematically translated using forward–backward translation protocols. Data were analyzed using Colaizzi’s phenomenological analysis framework to identify essential themes and meanings. Trustworthiness was established through credibility, dependability, confirmability, and transferability strategies, including member checking with 6 participants, peer debriefing, and comprehensive audit trails. Results: Four major themes emerged: (1) Reconciling Traditional Values with Professional Duties, (2) Negotiating Gender Dynamics in Clinical Practice, (3) Developing Professional Identity Amid Cultural Tensions, and (4) Organizational Support and Environmental Adaptation. Participants demonstrated remarkable resilience in balancing cultural expectations with professional responsibilities while developing sophisticated coping strategies. Conclusions: Saudi female nurses actively construct their professional identities while navigating complex cultural landscapes. The study reveals the need for organizational policies that support cultural sensitivity while promoting professional growth and gender equality in healthcare settings. These findings may inform healthcare workforce development in other Islamic and culturally transitioning contexts. Full article

This paper provides a reality check on circular economy (CE) transitions in the creative industries. Climate change has become a dominant theme across the sector, yet the CE has not emerged as a coherent or widely adopted agenda. While manufacturing and construction are increasingly central to CE policy frameworks, creative production remains marginal and inconsistently represented. Drawing on academic literature (2018–2024), national policy strategies, grey sources, and an exploratory online survey, this study identifies recurring patterns across macro-level drivers, sector norms, and niche innovations. Circular activity is concentrated in downstream, material-focused strategies such as recycling and reuse, whereas more transformative approaches (redesign, refusal, and regenerative practice) remain limited. National government CE strategies largely overlook the sector, resulting in weak policy pressure. Sub-sectors such as advertising, gaming, film, and Createch are notably under-researched despite rising digital resource intensity and environmental impacts. Niche innovations rarely scale, and landscape pressures are not translated into regime change. This paper contributes to CE scholarship by offering the first multi-strand, sector-wide analysis of how circular principles are interpreted, applied, and governed across the creative industries, advancing the understanding of CE transitions in non-industrial, hybrid material–digital contexts. Full article

To address demand–supply mismatches in traditional village human settlements (TVHSs), this study builds on existing human settlement research by introducing cultural landscape theory and constructing a comprehensive framework that includes the hard (infrastructure, living environment, ecological environment, and environmental sanitation) and soft environment (social services, economic environment, and cultural environment). Villagers’ and experts’ perceptions of importance are integrated through a hierarchical weighting system combining AHP, CRITIC, and GRA. In addition, cluster analyses, the importance–satisfaction (IS) model, the obstacle degree model, and mediation analyses are employed to identify village classifications, determine optimization indicators, and assess mechanism effects. The findings indicate the following: (1) The overall satisfaction with TVHSs in Northeast China is moderate, with a stepwise decline from northeast to southwest, and the economic environment significantly lags behind other dimensions. (2) Four village classifications are identified—demonstration, basic-level development, potential-focused, and priority improvement. (3) The optimization indicators across classifications include toilet conditions, village cleanliness, school accessibility, and access to medical services, resulting in strategies such as “cultural landscape empowerment” and “telemedicine coverage”. (4) Mediation analyses show that improvements in the hard environment enhance overall satisfaction both directly and indirectly through social services and the economic environment. These findings highlight the close link between satisfaction and regional development, underscoring the need for dynamic monitoring and greater emphasis on the cultural dimension to support TVHS optimization and rural revitalization. Full article

Urban green spaces are essential components of city ecosystems, providing environmental and social benefits while simultaneously serving as potential entry points for invasive plant pathogens. In recent years, increasing attention has been directed toward the role of urban environments as reservoirs and transmission corridors for oomycetes, a group of highly destructive microorganisms affecting trees and shrubs. This study aimed to investigate the diversity and potential introduction pathways of oomycetes in three Warsaw parks representing distinct ecological settings: a historical city park, a large landscape park with aquatic features, and a newly constructed linear park. Samples of soil, and surface water were collected and analysed using standard isolation and molecular identification methods. Four species were identified: Phytophthora cactorum, P. cambivora, Phytopythium vexans, and Ph. montanum—the latter two representing first records for urban parks in Poland. The results indicate that nursery plant material, surface water systems, and wildlife activity, particularly birds, are likely contributors to the introduction and spread of these pathogens in city landscapes. The findings underscore the growing phytosanitary risk associated with urban greenery, where the interplay of anthropogenic disturbance, high plant turnover, and complex hydrological networks facilitates pathogen establishment. This research highlights the urgent need to integrate urban biosecurity strategies with routine molecular monitoring, nursery inspections, and wildlife surveillance to limit further dissemination of invasive oomycetes and enhance the resilience of urban tree populations. Full article

Birds, as both wetland ecosystem health indicators and highly perceptible forms of wildlife, provide multi-sensory interaction opportunities shaping human health and well-being. However, most studies simplify birds into static landscape metrics, with limited attention to dynamic human–bird interactions and their mental health benefits. Grounded in landscape perception theory, this study constructs an “interaction–perception–restoration” framework and divides human–bird interactions into sensory, cognitive, and participatory levels based on cognitive resource investment. We collected 321 valid samples from Haizhu National Wetland Park. A mixed analytical strategy was adopted, using structural equation modeling to test the framework and moderated mediation models to examine differential pathways. The results showed the following: (1) Restorative environmental perception (REP) plays a partial mediating role between human–bird interactions and mental health, explaining 46.17% of the total effect. (2) All three interaction levels significantly enhance mental health, with cognitive interaction showing the strongest direct effect (β = 0.347 ***) and sensory interaction the largest indirect effect through REP (β = 0.194 ***). (3) Environmental characteristics directly improve REP (β = 0.51 ***) but do not significantly moderate the relationship between human–bird interactions and REP. This study highlights interaction quality and depth as core drivers of mental health, offering insights for optimizing ecological and recreational services in urban wetland parks. Full article

This study systematically investigates settlement sites that record living patterns of ancient humans, aiming to reveal the interactive mechanisms of human–environment relationships. The core issues of landscape archeology research are the surface spatial structure, human spatial cognition, and social practice activities. This article takes the Han Dynasty settlement site in Sanyangzhuang, Neihuang County, Anyang City, Henan Province, as a typical case. It comprehensively uses ArcGIS 10.8 spatial analysis and remote sensing image interpretation techniques to construct spatial distribution models of elevation, slope, and aspect in the study area, and analyzes the process of the Yellow River’s ancient course changes. A regional historical geographic information system was constructed by integrating multiple data sources, including archeological excavation reports, excavated artifacts, and historical documents. At the same time, the sequences of temperature and dry–wet index changes in the study area during the Qin and Han dynasties were quantitatively reconstructed, and a climate evolution map for this period was created based on ancient climate proxy indicators. Drawing on three dimensions of settlement morphology, architectural spatial organization, and agricultural technology systems, this paper provides a deep analysis of the site’s spatial cognitive logic and the ecological wisdom it embodies. The results show the following: (1) The Sanyangzhuang Han Dynasty settlement site reflects the efficient utilization strategy and environmental adaptation mechanism of ancient settlements for land resources, presenting typical scattered characteristics. Its formation mechanism is closely related to the evolution of social systems in the Western Han Dynasty. (2) In terms of site selection, settlements consider practicality and ceremony, which can not only meet basic living needs, but also divide internal functional zones based on the meaning implied by the orientation of the constellations. (3) The widespread use of iron farming tools has promoted the innovation of cultivation techniques, and the implementation of the substitution method has formed an ecological regulation system to cope with seasonal climate change while ensuring agricultural yield. The above results comprehensively reflect three types of ecological wisdom: “ecological adaptation wisdom of integrating homestead and farmland”, “spatial cognitive wisdom of analogy, heaven, law, and earth”, and “agricultural technology wisdom adapted to the times”. This study not only deepens our understanding of the cultural value of the Han Dynasty settlement site in Sanyangzhuang, but also provides a new theoretical perspective, an important paradigm reference, and a methodological reference for the study of ancient settlement ecological wisdom. Full article

The construction of post-industrial landscapes is increasingly regarded as an important pathway for promoting urban sustainability. However, limited attention has been given to the interconnections between post-industrial landscapes and local villagers in rural contexts. From the perspective of environmental justice, the ecological and cultural-tourism goals of post-industrial landscapes may be mismatched with villagers’ place-based needs. This study examines a typical rural post-industrial waterfront area in China to analyze villagers’ environmental justice. Representative project photographs were collected, and villagers’ perceptions were obtained through questionnaires and semi-structured interviews, yielding 98 valid responses (95% response rate). Quantitative measurements of landscape characteristics were combined with pairwise preference evaluations, and the analysis applied the framework of recognition, participatory, and distributive justice. A discrete choice model (DCM) and spatial analysis were then employed to explore the relationships. Quantitative analysis showed that natural vegetation, plazas, industrial heritage, and pedestrian paths had negative effects on villagers’ recognition (β = −0.36 to −0.18), whereas hardscape had a strong positive effect (β = 0.94). Moreover, spatial analysis indicated localized patterns of environmental injustice, highlighting uneven distribution of landscape benefits across the site. Semi-structured interviews revealed villagers’ priorities across landscape design, amenities, local livelihoods, and project implementation, highlighting the importance of safer, more functional, and well-managed spaces. Collectively, these findings underscore the importance of inclusive planning and design strategies that integrate ecological, cultural, and recreational considerations, thereby supporting the sustainable renewal of rural post-industrial waterfronts. Full article

The building industry plays a significant role in global carbon emissions, contributing nearly half of the world’s greenhouse gas emissions during both construction and operation. Within the framework of the “double-low” strategy, addressing energy conservation, emission reduction, and climate adaptation in buildings has become a crucial area of research and practice. In northern China, vernacular dwellings have historically developed passive strategies for climate adaptation; however, their quantified thermal performance has not been thoroughly studied. This research focuses on single-story courtyard vernacular dwellings built in the 1990s, which are inspired by historical Siheyuan forms in Shatun Village, located in Handan, Hebei Province. The study specifically examines their thermal performance during the summer and the relationship between this performance and climate design strategies. To understand how building layout, envelopes, materials, and courtyard landscape design influence the microclimate, six measurement points were established within each dwelling to continuously collect environmental data, including air temperature, humidity, and wind speed. The RayMan model was used to calculate the mean radiant temperature (Tmrt) and physiological equivalent temperature (PET), with subsequent statistical analysis conducted using Origin Pro. The results showed that sustainable design strategies—such as high building envelopes, shaded vegetation, and low-albedo materials—contributed to maintaining a stable microclimate, with over 70% of daytime PET values remaining within a comfortable range. Night-time cooling and the increased humidity from courtyard vegetation significantly enhance thermal resilience. It is important to distinguish this from ambient humidity, which can hinder human evaporative cooling and increase heat stress during extreme heat. This research demonstrates that vernacular dwellings can achieve thermal comfort without relying on mechanical cooling systems. These findings provide strong empirical support for incorporating passive, courtyard-based climate strategies in contemporary rural housing worldwide, contributing to low-carbon and climate-resilient development beyond regional contexts. Full article

Under the dual pressures of rapid urbanization and intense human socioeconomic activities, habitat fragmentation and poor landscape connectivity have become critical issues in cities. Constructing ecological networks is essential for maintaining urban ecosystem health and promoting sustainable environmental development. It represents an effective approach to balancing regional economic growth with ecological conservation. This study focused on the Shenzhen Special Economic Zone. Ecological sources were identified using Morphological Spatial Pattern Analysis (MSPA) and landscape connectivity assessment. Circuit theory was applied to extract ecological corridors, ecological pinch points, and ecological barriers. The importance levels of ecological corridors were classified to form an ecological network. The network was optimized by adding ecological sources, stepping stones, and restoring breakpoints. Its structure and functionality were evaluated before and after optimization. The results indicate the following: (1) The core area in Shenzhen City Area covers 426.67 km², the largest proportion among landscape types. It exhibits high fragmentation, low connectivity, and a spatial pattern characterized as “dense in the east and west, sparse in the center.” (2) Seventeen ecological sources were identified, consisting of 8 key sources, 5 important sources, and 4 general sources, accounting for 17.62% of the total area. Key sources are mainly distributed in forested regions such as Wutong Mountain, Maluan Mountain, Paiya Mountain, and Qiniang Mountain in the southeast. (3) Twenty-six ecological corridors form a woven network, with a total length of 127.44 km. Among these, 13 key corridors are concentrated in the eastern region, while 7 important corridors and 6 general corridors are distributed in the western and central parts. Few corridors exist in the southwest and southeast, leading to ecological flow interruption. (4) The optimized ecological network includes 12 newly added ecological source areas, 20 optimized ecological corridors, 120 ecological pinch points, and 26 ecological barriers. The maximum current value increased from 10.60 to 20.51, indicating significantly enhanced connectivity. The results provide important guidance for green space planning, biodiversity conservation, and ecosystem functionality enhancement in Shenzhen City Area. Full article

As a form of living cultural heritage, local residential landscapes manifest the essence of long-term, resilient human–land interactions. The Wuling Corridor, a vital ethnic and cultural passage connecting the Central Plains with Southwest China in Chinese history, serves as a crucial region for the mixed residence and cultural exchange of Tujia, Miao, Dong, Han, and other ethnic groups. Within this region, Ganlan stands as both the most representative vernacular architectural heritage and a residential form that is still extensively used, constituting a continuous and unique residential landscape. The spatial distribution patterns of Ganlan are the physical witness of the history of ethnic groups adapting to the complex topographic and cultural conditions. Current research focuses on the case description of single Ganlan forms, failing to systematically investigate the spatial formation mechanisms of Ganlan as a residential landscape from a geographical continuum perspective. Therefore, this study establishes a geographical database encompassing 9425 Ganlan samples from the Wuling Corridor. It integrates the geographic information system (GIS) with clustering algorithms to systematically identify the distribution patterns of Ganlan within specific geographic–cultural units and their coupling relationships with natural environments. It conducts quantitative analysis on the key driving factors concerning the emergence and evolution of Ganlan in the study area; the findings reveal the following: (1) Ganlan buildings exhibit a spatially aggregated distribution pattern along major water systems, demonstrating characteristics of multi-ethnic sharing and spatial interweaving. (2) Their distribution is constrained by natural geographical factors and influenced by the transmission pathways of construction techniques during ancient ethnic migrations to the southwest China. (3) Within multi-ethnic settlement structures, inter-ethnic cultural interactions (particularly with Central Plains culture) serve as a key driving force for the typological evolution of Ganlan. (4) The evolutionary lineage of “full-Ganlan,” “semi-Ganlan,” and “courtyard-style Ganlan” systematically demonstrates the dynamic adaptive capacity of local residential systems. Additionally, by integrating massive Ganlan heritage data with multiple spatial analysis methods, the study serves as a typical case study illuminating the adaptive strategies and resilience mechanisms of Ganlan as a local residential landscape formed in response to the environmental conditions and social changes. Also, it provides a scientific basis for the holistic conservation of architectural heritages shared by multiple ethnic groups and the integrated development of local cultural tourism industries. Full article

Urban agglomerations in plateau regions often face severe landscape fragmentation and cross-boundary ecological pressures, highlighting the need for coordinated eco-logical planning for sustainable urban development. We coupled species–landscape interactions and multi-ecological services to construct sustainable ecological security patterns (ESPs) and establish a collaborative optimization framework. Specifically, we integrated MaxEnt-derived habit suitability with InVEST-based ecosystem services to identify ecological sources (ESs) and analysis the environmental impacts on species distribution. Based on this, we built a multi-factor resistance surface and employed circuit theory to extract ecological corridors (ECs) and critical nodes (pinch points and barrier points). Then, we quantitatively compared two simulated scenarios (barrier points restoration and stepping stone augmentation) to assess the spatial priority of ecological nodes. We identified 48 ESs (26,410.48 km², mainly distributed in Chuxiong, Yuxi, Honghe, and Kunming), 115 ECs (2670.02 km, with a west-dense and east-sparse spatial pattern), 43 pinch points, and 39 barrier points. Scenario simulation shows that repairing 39 barrier nodes increases network connectivity by an average of 33.52% and global network efficiency by 19.44%, whereas adding steeping stones yields improvements of 20.09% and 5.56%, respectively, indicating that barrier-node restoration produces larger contribution in both connectivity and efficiency at the global scale. Leveraging EN construction and scenario simulation, we developed an ESP-based sustainable framework for collaborative optimization in plateau urban agglomerations. The framework specifies agglomeration-specific coordination pathways, which are expected to provide a transferable blueprint for biodiversity conservation, ecosystem optimization, and sustainable development. Full article

Particulate matter (PM), particularly PM_2.5, is a major urban air pollution concern globally. While temporary mitigation measures are generally implemented during high-pollution periods, sustainable solutions focusing on forest landscape management are crucial. This study examines the effects of forest landscape types and environmental variables on PM_2.5 concentrations during the high-pollution period (January–March 2022) in South Korea, using data from 40 national air quality monitoring stations. GIS and Fragstats were used to construct spatial variables and landscape indices. Stepwise multiple linear regression analyses were then conducted to identify significant factors affecting PM_2.5 concentrations. The aggregated forest model (i.e., without distinguishing between forest types) explained 72.9% of the variance in PM_2.5 concentrations. Forest percent cover (within 5000 m) and distance from the China national border were found to negatively affect PM_2.5 levels, while population size (within 5000 m) and urbanized area patch density (within 5000 m) had positive effects (p < 0.05). By incorporating forest types as variables, the forest type model improved explanatory power to 83.4%. Specifically, mixed forest percent cover (within 5000 m), mixed forest patch density (within 3000 m), and broad-leaved forest percent cover (within 1000 m) were negatively correlated with PM_2.5, while population size and urbanized area patch density (within 5000 m) showed positive effects (p < 0.05). These results highlight the importance of considering forest types, along with anthropogenic environmental variables, when assessing the mitigating effects of forests on PM_2.5, as both showed scale-dependent relationships with pollution levels. This study informs urban planning and long-term environmental management strategies for reducing PM_2.5 pollution. Full article

The river source region of the Yellow River Basin is a critical ecological barrier in China, yet it is characterized by extreme environmental vulnerability. Human activities, particularly intensive mining, can severely disrupt the landscape ecosystem and alter its spatial patterns. The aim of this study is to conduct a comprehensive landscape ecological risk assessment, analyzing the spatial differentiation and driving factors of these risks to ensure regional ecological security. Employing high-resolution remote sensing technology, a comprehensive assessment of landscape ecological risk in the river source region of the Yellow River Basin was conducted based on the 2020 mining development status. The landscape ecological risk index (ERI_k) was applied to evaluate risk distribution patterns, while the Geodetector model implemented in R was utilized to identify and analyze key driving factors. The results were as follows: (1) The study area exhibited an elevated landscape ecological risk. (2) Anthropogenic disturbances, such as urban construction, residential activities, and mining, combined with a widespread cropland distribution, degraded alpine grasslands, and high landscape fragility, were identified as major contributors to the elevated landscape ecological risk in the study area. (3) Habitat quality and population density remain the most significant factors driving the spatial differentiation of landscape ecological risk, and their interaction strongly governs the spatial distribution of such risk. In contrast, mining development intensity is not a dominant factor influencing the spatial heterogeneity of landscape ecological risk at the regional scale in the study area. This assessment reveals the extent of ecological risk associated with mining and other human activities and its key drivers. Full article