Search Results (3,966)

Research on information and communication technologies (ICTs) in sustainable agriculture has largely been technocentric, focusing on effectiveness, efficiency, and adoption, with limited consideration of end-user perceptions in practice. This study addresses this gap by examining perceptions of mobile gardening apps as accessible ICT tools that may support sustainable behaviours. Based on over 180,000 user reviews from Google Play and the Apple App Store, Contextualized Topic Modeling (CTM) was used to identify key themes and interpret them within the Theory of Consumption Value (TCV) framework. This approach allows for the analysis of functional, emotional, and epistemic dimensions of user experiences based on large-scale, real-world data. The results indicate that functional aspects, such as reliability and usability, dominate app evaluation, but emotional engagement and knowledge acquisition also play a significant role. By combining a data-driven approach with a well-established behavioural framework, this study bridges the gap between technological and user perspectives. It simultaneously extends the application of the TCV to the field of ICT solutions supporting sustainable development and provides practical guidance for designing more effective gardening apps. Full article

Accurate tea-shoot detection in real tea gardens is essential for intelligent harvesting, yet dynamic illumination (low light, strong light, and shadows) can cause brightness/contrast fluctuations and feature distribution shifts, degrading detection stability and localization accuracy. This paper proposes LA-YOLO, a dynamic-light tea-shoot detector based on YOLOv11. First, we construct a dynamic-light benchmark dataset and a difficulty-stratified evaluation protocol with four single-light subsets (A–D) and a mixed-light subset (E). Second, we design LA-CSNorm, an input-side brightness-adaptive preprocessing module that applies gated enhancement to dark samples followed by channel-selective normalization to reduce illumination-induced drift. Third, we propose RECA, a residual efficient channel-attention module to enhance discriminative channels and improve localization stability. Ablation studies show that LA-CSNorm and RECA provide complementary gains, and their combination improves the YOLOv11 baseline to 0.831 mAP@0.5 and 0.621 mAP@0.5:0.95, with only 0.01 M additional parameters. On the mixed-light subset E, LA-YOLO achieves 0.816 mAP@0.5 and 0.613 mAP@0.5:0.95, and consistently outperforms mainstream YOLO variants (e.g., YOLOv11m) under dynamic lighting conditions. These results demonstrate that LA-YOLO offers a robust and deployment-friendly solution for tea-shoot detection in complex natural illumination. Full article

The concepts of circular economy increase the need to recycle bio-waste. Effective implementation requires knowledge about associated risks and environmental concerns. This study examines the composition and heavy metal content of bio-waste from municipal waste in western Poland, considering waste type, location, and season. Food waste constituted 36.7% to 47.6% of the total bio-waste, while garden waste accounted for 35.8% to 52.8%, with a strong seasonal dependency. Impurities such as plastics and glass were significant issues for urban and multi-family houses (16.6%), whereas rural and single-family home bio-waste had much lower impurity levels (10.0%). Heavy metals were identified in bio-waste, with the highest concentrations found in inedible food and garden waste. The ecological risk and cumulative effects of heavy metals were assessed using the contamination factor (CF), pollution index (PI), Nemerow Pollution Index (NPI), potential ecological risk index (Ef), and potential toxicity response index (RI). Urban bio-waste exhibited slightly higher levels of heavy metals and impurities compared to rural bio-waste. Zinc was the most abundant heavy metal, while cadmium had the lowest concentration. A seasonal pattern was observed, with winter bio-waste showing the lowest heavy metal concentrations. The results indicate that, despite localized elevated ecological risks, bio-waste recycling can be considered a conditionally safe waste management strategy, although localized and fraction-specific ecological risks, particularly related to cadmium and chromium, were identified. Full article

Coffee production, particularly in shade-grown farms, plays a crucial role in the livelihoods of Mexican farmers. Shade-grown coffee systems are also recognised for supporting biodiversity and enhancing carbon capture. Nevertheless, the geographical heterogeneity of Mexico makes the selection of tree species in these agroforestry systems challenging. This study develops region-specific priority lists to conserve biodiversity, improve carbon capture, and support the livelihoods of producers across nine coffee-growing regions within the state of Chiapas. We identified the tree species distributed in each region using an extensive dataset from the Global Biodiversity Information Facility and a novel approach that enhanced spatial resolution of the prioritisation process, despite biases in collection efforts. A set of 23 criteria, including conservation status, carbon content, and documented uses by local communities, was compiled from databases and literature reviews and used to calculate a priority score for each species. Based on these scores, a list of 20 recommended species was generated for each region. However, additional participatory validation is needed to translate these lists into practice. A similarity analysis revealed that geographically proximate regions shared similar species composition. Overall, this study provides a transparent framework for regionally tailored shade-tree selection to inform conservation and restoration planning in coffee agroforestry landscapes. Full article

Baird’s tapir (Tapirus bairdii) plays an important ecological role in Mesoamerican forests as a browser and seed disperser, earning it the nickname of “gardener of the forest”. However, knowledge of its diet composition remains scattered. We reviewed and analysed the available literature on the composition of Baird’s tapir diet throughout its geographic distribution, compiling data from 27 studies. Baird’s tapir was found to consume 515 plant taxa belonging to 410 genera and 123 families. Five types of dietary components have been identified: fibre (stems), leaves, fruit, bark, and flowers. The influence of seasonality on the tapir diet is unclear due to the underestimation of some components, notably fruits. We identified limitations in the techniques used to determine diet components and study designs. Future research should focus on developing techniques to improve the quantification of dietary components. Additionally, the direct and indirect effects of the Baird’s tapir’s diet and plant consumption on ecosystem dynamics should be investigated to clearly understand the functional role of this species. Full article

The rare and threatened pleurocarpous semi-aquatic moss Drepanocladus sendtneri (Amblystegiaceae) was the focus of an integrative conservation approach aimed at improving knowledge of its biological and ecological characteristics and enhancing its survival prospects. The results provide insights into both the axenic and xenic propagation of this species, as well as its biomass production under ex situ conditions. The KNOP medium proved to be the most suitable for propagation, particularly when demeristemized shoot tips were cultured in an upright orientation. Exogenous application of IBA increased the production of new shoots and reduced the time required to obtain substantial biomass under axenic conditions. Following successful acclimatisation to controlled xenic laboratory conditions, the moss was able to fully develop and spread in experimental basins maintained under outdoor botanical garden conditions, with humidity carefully regulated during dry periods. Within one year, a small number of initial plantlets expanded to cover approximately 4 dm², spreading efficiently over rainwater-soaked filter paper covered with an inert plastic mesh. These results provide practical guidance for the production and ex situ maintenance of D. sendtneri, thereby supporting the development and improvement of conservation action plans for this rare and threatened moss species. Full article

The Beiyue Temple in Quyang County, Hebei Province, served as the host temple for worshipping the Northern Peak Deity (Beiyue shen) from its establishment during the reign of Emperor Xuanwu (483–515) of Northern Wei until the reign of Emperor Shunzhi (1638–1661) of the Qing dynasty. The temple currently houses over 200 inscribed stone steles that predate the founding of the Republic of China in 1912. This study addresses how the sacrificial space inside the Beiyue Temple evolved and transformed. By examining historical and archaeological evidence—including archival documents, epigraphic texts, diagrams, and architectural remnants—and focusing on the ‘front altar, rear garden’, the ‘hall for presenting sacrificial offerings of the common people’, and the ‘overhanging eave’, it demonstrates that the temple’s ritual space developed a dual character shaped by both official and folk practices. This duality reflects the interaction between official and folk practices against the backdrop of ‘the downward diffusion of ritual norms’ (lizhi xiayi) from the Tang and Song dynasties onwards. The findings challenge the conventional view that there was no specific space for folk ritual worship inside state-sanctioned temples during the Northern Song dynasty. It also provides vital evidence for the historical development of the sacrificial hall (xiandian) and the layout of pavilion-style stages (wuting) immediately in front of the main hall in temples built during the Song and Jin dynasties. Full article

The need to investigate ecological and sustainable approaches to weed management, as well as to reduce the negative environmental impact of chemical herbicides, is becoming increasingly important in modern agriculture and land management. Among alternative strategies, allelopathy is a natural mechanism by which particular plant species release bioactive compounds that can influence the germination, growth, and development of neighboring plants. Harnessing allelopathic interactions offers an opportunity to develop environmentally friendly alternatives to synthetic herbicides and helps preserve ecological balance within agroecosystems. This review examines the potential of allelopathic plant-derived substances for weed control in agricultural systems, with particular emphasis on managing weed populations in vegetable crops and gardens in urban and peri-urban areas. This study introduces the concept of allelopathy with definitions and general information. Subsequently, the paper analyzes the phenomenon’s presence at the plant level, its interactions, and the extracts obtained from allelopathic plants. The paper focuses on essential oils and fatty acid-derived compounds, such as pelargonic acid, which have demonstrated significant inhibitory effects on weed germination and biomass accumulation. Overall, the presented results establish a scientific basis for developing bioherbicides and support implementing sustainable, environmentally responsible horticultural practices. Full article

Against frequent extreme heat, landscaped green spaces cool, humidify, and mitigate urban heat islands, also boosting thermal comfort. Classical Chinese garden “gray spaces” are transitional gathering zones with strong microclimate-regulating potential, yet systematic research on their mechanisms in Western Sichuan memorial gardens remains limited. This study first reveals their thermal characteristics; establishes a refined classification system; uncovers nonlinear links between garden elements, spatial form, and thermal comfort; and proposes optimization strategies. Key findings: (1) Gray spaces show notable microclimate regulation. Internal air temperatures drop by 0.8–4.3 °C, relative humidity rises by 2.2–22.33%, and average PET decreases by 3.1 °C, effectively relieving thermal stress. (2) Thermal comfort is closely related to gray space types, with open halls performing best due to their strong sense of enclosement and shading. (3) Plant-dominated and hybrid spaces are superior to water-dominated ones. PET is negatively correlated with 40–70% plant canopy and 20–30% water coverage, while excess water leads to stuffiness. Hybrid spaces reach ideal blue–green synergy at 50–60% canopy and 20–30% water. (4) The summer PET comfort threshold for Western Sichuan gray spaces is 29.1–31.5 °C (neutral at 30.2 °C), higher than European standards, reflecting local adaptation to a hot–humid climate and guiding microclimate-adaptive design. Full article

Soil- and plant-associated fungi and bacteria are an important part of many ecosystems as they can affect plant health, growth and stress tolerance. However, it remains poorly understood whether the microbiomes differ between conifer species growing in the same site conditions and between tree ecosystem compartments. The main aim of the study was to describe and compare the microbiomes of Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) H. Karst.), growing in a boreal forest common garden experiment on adjacent forest plots, to analyse the tree species effect on the composition of the needle and surface soil organic-mineral horizon microbiomes. The needle and surface soil organic-mineral horizon bacterial and fungal microbiomes were simultaneously analysed by full-length 16S and ITS sequencing on a long-read sequencing platform; however, the bacterial analysis was restricted to soil samples. The highly abundant bacterial phyla in both pine and spruce soil were Actinomycetota, Pseudomonadota, Planctomycetota and Acidobacteriota. The dominant fungal phyla in pine and spruce surface organic-mineral soil was Basidiomycota, while the needles were dominated by Ascomycota. The results showed an effect of tree species on the soil bacterial and fungal microbiomes and needle fungal microbiomes based on alpha diversity, which was higher for Norway spruce compared to Scots pine. The results indicated that Norway spruce might be able to support higher microbial diversity, which could potentially be due to differences in needle longevity, root exudates, litter input and its degradation, between pine and spruce. Furthermore, the results indicated distinct microbiomes between the soil and needle compartments. Full article

Medical literature is replete with diagrammatic representations of systems, yet lacks standardised nomenclature and consistent symbolic conventions. In an introductory system dynamics course for health science students, causal loop diagrams (CLDs) are used to support systems thinking. Notwithstanding recognised limitations, CLDs provide a coherent heuristic for representing multivariate systems with feedback. We studied 55 first-year volunteers enrolled in the course to compare understanding of systems presented as CLDs versus typical journal diagrams. Two endocrine systems were selected from open-access, peer-reviewed literature: calcium homeostasis and glucose homeostasis. Participants were shown either the original journal diagram for one system and a CLD for the other, or vice versa, and answered twelve true/false questions—six per system. A mixed-model, two-way repeated measures ANOVA revealed a significant interaction between Diagram (CLD vs. journal diagram) and System (Calcium vs. Glucose). Post hoc comparisons showed significantly higher performance with CLDs for both Calcium (0.84 vs. 0.38) and Glucose (0.83 vs. 0.63), p < 0.001. A Fisher’s Exact Test also indicated a higher proportion of questions favouring CLDs. These findings suggest that training in CLDs may enhance understanding of complex systems compared to standard journal diagrams. Further work is needed to address limitations including the small sample size, use of a single cohort, and a restricted set of diagrams. Full article

Background: Disease outbreaks remain a major constraint on aquaculture production, making vaccination essential for disease management in farmed fish. However, injectable oil-adjuvanted vaccines can be costly and may induce adverse inflammatory reactions and welfare concerns, motivating investigations into alternative injectable adjuvant materials. Methods: We conducted an in vivo safety evaluation of shear-thinning, amidated TEMPO-oxidized cellulose nanofiber (TO-CNF) hydrogels formulated with an inactivated Vibrio anguillarum bacterin. Formulations were administered intraperitoneally to Atlantic salmon (Salmo salar L.) using a common garden design with cohabitated treatment groups across triplicate tanks. Fish were monitored and sampled at pre-injection baseline and at 300-, and 600-degree days post-injection. Safety endpoints included mortality, macroscopic and histopathological outcomes, and growth evaluated relative to sham controls, unmodified TO-CNF, and a commercial oil-adjuvanted vaccine. Results: Amidated TO-CNF formulations were associated with increased mortality (up to 16–18% in higher reagent-loading groups) compared to commercial oil-adjuvanted vaccine, material, and sham controls. Affected fish exhibited adverse outcomes, including adhesions, proliferative lesions, ascites, edema, hemorrhage, and secondary opportunistic infections. In contrast, controls showed minimal mortality and pathology. Growth and immune response endpoints were variable and did not demonstrate consistent treatment-associated effects. Physicochemical analyses indicated differences in formulation stability and qualitative compositional differences across modification levels, but these were not quantified nor linked to specific causal mechanisms in this study. Conclusions: The amidated TO-CNF formulations tested here were associated with formulation-dependent safety risks under the conditions evaluated and are not yet suitable as injectable vaccine adjuvants in Atlantic salmon. These findings define important safety constraints for this material class and highlight the need for improved modification and purification strategies. More broadly, this work underscores the importance of establishing in vivo safety boundaries prior to efficacy optimization for emerging biomaterial-based vaccine adjuvants. Full article

Yam is a tuberous crop with great potential for enhancing food security and rural development thus contributing significantly to the lives of people in production areas. Despite its importance, productivity is low, with poor adoption rates of released commercial varieties. Yam exhibits complex growth patterns, including tuberization and dormancy. The yield, food quality and consumer preferences differ by variety. Understanding the dynamics of yam production system and best practices is critical for its improvement. Our review delved into the flowering dynamics as well as yield determinants. We dissected the phenomena of dormancy, photosynthesis, photoperiodism and food quality with a view to adding values on crop improvement efforts. Yam production systems can be repositioned to play a greater role in sustainable food security and poverty alleviation through the development and deployment of more productive, profitable and resilient yam varieties and sustainable technologies that will improve the current yam cropping system and value chain. Future research perspectives focusing on yield improvement, climate-smart adaptations/cultivation practices, and value chain development to ensure sustainable yam production and utilization are thus highlighted. Full article

Berberis darwinii is a native Chilean berry distributed across contrasting agro-ecological zones, highlighting its broad ecological amplitude and agronomic relevance. The objective of this study was to identify productive, functional, and balanced elite accessions of B. darwinii by integrating phenotypic, fruit quality, nutritional, and antioxidant traits under contrasting water availability. Ninety-six accessions were evaluated in a common-garden experiment over two consecutive growing seasons (irrigated and rainfed) for morphological, productive, and fruit quality traits. Substantial variation was observed in plant height, shoot number, leaf area, and spine density. Across seasons, some accessions combined high yields (up to 8.5 t ha⁻¹), fruit diameters exceeding 8 mm, and elevated soluble solids (up to 33 °Brix). Because water regime, season, and plant age were not experimentally separated, these contrasts indicate adaptive performance under contrasting water availability rather than direct irrigation effects. Functional analyses revealed high biochemical diversity, with total polyphenols reaching 18,168.7 mg GAE 100 g⁻¹ dry weight, anthocyanins up to 5747.7 mg cyanidin-3-glucoside 100 g⁻¹ dry weight, and ORAC values up to 35.4 mmol Trolox 100 g⁻¹ fresh weight. Multivariate analyses supported the selection of elite candidates for low-input domestication and functional ingredient development. This integrated common-garden framework links intra-specific phenotypic variation with phenolic/antioxidant diversity, supporting trait-based selection and interpretation of stress-associated secondary metabolism. Full article

The protection of landscape and biological diversity on small Mediterranean islands represents a significant challenge in the context of intensive anthropogenic pressure and land-use change. The aim of this study was to determine the composition of ornamental flora in private gardens on the island of Koločep (IPA, Natura 2000 site), the smallest inhabited island in the Croatian part of the Adriatic, with special emphasis on invasive (IAS) and potentially invasive (PIAS) plant species, and to analyse their relationship with landscape changes and property types. A total of 161 private gardens were analysed, representing all private gardens on the island. In total, 2095 plant records corresponded to 255 unique horticultural taxa from 82 families. Allochthonous species dominate in the gardens (73%). Private gardens represent the primary pathway for the introduction of IAS and PIAS taxa on the island. The taxa with the highest invasion intensity were Ailanthus altissima and Carpobrotus edulis, while among PIAS species, high invasive potential was observed for Mirabilis jalapa and Diospyros virginiana. The study highlights the need for systematic monitoring of ornamental flora and landscape transformation, and the promotion of horticultural practices focused on autochthonous species in gardens, in order to preserve island biological and landscape diversity. Full article