Understanding one health challenges in marginalized urban settings: A patient and public involvement (PPI) approach from the CHIP consortium activities across four global cities.

Background: Slum communities face health risks influenced by environmental, human, and animal health factors, particularly antimicrobial resistance (AMR). Tailored, community-driven solutions are needed to address these multifactorial health determinants. This study explores One Health challenges in urban slums using a Patient and Public Involvement (PPI) approach. Objectives: This study aims to use qualitative methods within a PPI framework to examine the social, environmental, and animal health factors contributing to AMR and other health challenges in urban slums. Focusing on One Health, we engaged slum residents in Jaipur, Jakarta, Antofagasta, and Istanbul through participatory approaches like social mapping and transect walks to identify health risks and develop intervention strategies. Methods: A PPI approach was employed to involve communities in the research process, ensuring culturally relevant insights. Data collection included social mapping, transect walks, and key informant interviews in the four cities, highlighting critical health determinants such as environmental contamination, healthcare access, and animal-related risks. Thematic analysis identified common challenges and intervention opportunities within the One Health framework. Conclusion: The study underscores the importance of PPI in addressing One Health challenges in urban slums and reveals interconnected human, environmental, and animal health risks. Engaging communities fostered trust and provided locally relevant solutions to complex health issues like AMR. Future interventions should be co-designed with communities to address social determinants like sanitation and healthcare access for sustainable outcomes.

Impact of urbanization and human development on ecological footprints in OECD and non-OECD countries.

Ecological footprints play a crucial role in assessing how human activities impact the environment, serving as key indicators. This study investigates the influence of urbanization and human development controlling for GDP and industrialization on ecological footprints, focusing on both OECD and non-OECD countries during the period from 1990 to 2018. The investigation employs an open-access solution framework and utilizes the Generalized Method of Moments approach for analysis. The findings highlight distinct patterns between OECD and non-OECD countries. In OECD countries, ecological footprints are increasing with urbanization and GDP growth while showcasing a negative impact of the Human Development Index (HDI) and industrialization on ecological footprint. Conversely, non-OECD countries demonstrate a positive impact of GDP and HDI on ecological footprints, while there is a negative impact of industrialization and urbanization on ecological footprints. These disparities underscore the need for tailored environmental strategies based on a country's economic and developmental status. The results underscore the importance of investing in the renewable energy sector and implementing stringent environmental policies to mitigate the environmental impact of human activities. This evidence reinforces the urgency for countries, irrespective of their OECD status, to take proactive measures to safeguard the planet from further environmental hazards.

Integrated geochemical analysis of urban and peri-urban soils: a case study of Lamia City, Greece.

The occurrence of Potentially Toxic Elements (PTEs) and other chemical elements in urban and peri-urban soils impacts human health and quality of life, posing a challenge for geoscientists. This study investigated the soil geochemistry of Lamia City, focusing on identifying the geogenic and anthropogenic origins of elements. A total of 168 topsoil samples (0-10 cm) were collected in April 2023, and the analysis included the near-total concentrations of 51 elements. Descriptive, correlation, multivariate statistics (i.e., Factor Analysis-FA and Hierarchical Cluster Analysis-HCA), Geographic Information Systems (GIS) mapping, and mineralogical analysis were employed to identify potential element sources. The results indicated that the elements in soils originated from geogenic, anthropogenic, and mixed sources. Geogenic origins are associated with ultramafic rocks (e.g., Mg, Cr, Ni, Co, Fe, Sc, Mn), carbonate rocks (e.g., Ca, Sr), and Quaternary sediments (e.g., K, Na, Ba, Tl, Be, Rb, Ti, V, Ga, and Rare Earth Elements-REEs); associations are linked to specific identified minerals. All applied statistical analyses reveal that the mobility of chemical elements in the urban and peri-urban soils of Lamia city is primarily affected by geochemical processes such as element substitution, chemical weathering, pedogenesis, adsorption, precipitation, evaporation, and organic matter presence. The P, Ag, Hg, Pb, Sn, Zn, Sb, Cd, Cu, and U were associated with anthropogenic influences, particularly in areas with high population density, heavy vehicle traffic, and intensive agricultural practices. Additionally, some elements (e.g., Ca, Cd, Cu, Mo, Mn, and Li) exhibited mixed origins. This integrated approach offers valuable insights into the spatial distribution and sources of PTEs in urban and peri-urban environments, providing critical information for environmental management and public health protection strategies.

Unraveling the urban climate crisis: Exploring the nexus of urbanization, climate change, and their impacts on the environment and human well-being - A global perspective.

The accelerating pace of urbanization, coupled with the intensifying impacts of climate change, poses unprecedented challenges to both the environment and human well-being. In this review, we delved into the intricate interaction between climate change and urbanization and the various effects they have on the environment and human well-being, shedding light on the emergent urban climate crisis. Urban areas serve as epicenters for diverse socio-economic activities, yet they also contribute significantly to global greenhouse gas emissions and environmental degradation. Through an interdisciplinary lens, we explored the root causes of the urban climate crisis, examining how rapid urbanization exacerbates climate change and vice versa. By synthesizing current research and case studies, we elucidate the various environmental and social ramifications of this nexus, ranging from urban heat island effects to heightened vulnerability to extreme weather events. Furthermore, we delve into the unequal distribution of climate risks within urban populations, highlighting the disproportionate burden borne by marginalized communities. Finally, the chapter presents strategies and interventions for mitigating and adapting to the urban climate crisis, emphasizing the imperative of holistic and equitable approaches that prioritize both environmental sustainability and human well-being. Overall, this review calls for concerted efforts to unravel the complexities of the urban climate crisis and forge a path toward resilient, sustainable, and equitable urban futures.

Soil animal communities demonstrate simplification without homogenization along an urban gradient.

Urbanization profoundly impacts biodiversity and ecosystem function, exerting an immense ecological filter on the flora and fauna that inhabit it, oftentimes leading to simplistic and homogenous ecological communities. However, the response of soil animal communities to urbanization remains underexplored, and it is unknown whether their response to urbanization is like that of aboveground organisms. This study investigated the influence of urbanization on soil animal communities in 40 public parks along an urbanization gradient. We evaluated soil animal abundance, diversity, and community composition and related these measures to urban and soil characteristics at each park. The most urbanized parks exhibited reduced animal abundance, richness, and Shannon diversity. These changes were influenced by many variables underscoring the multifaceted influence of urbanization on ecological communities. Notably, contrary to our expectation, urbanization did not lead to community homogenization; instead, it acted stochastically, creating unique soil animal assemblages. This suggests that urban soil animal communities are concomitantly shaped by deterministic and stochastic ecological processes in urban areas. Our study highlights the intricate interplay between urbanization and soil animal ecology, challenging the notion of urban homogenization in belowground ecosystems and providing insight for managing and preserving belowground communities in urban areas.

Effects of recent urbanization on carbon and nitrogen burial rates of sedimentary records in a tropical coastal lagoon (Brazil).

Land use and land cover changes (LULCC) are a global environmental issue that has impacted biogeochemical cycles worldwide. Sedimentary records can demonstrate the effects of LULCC on aquatic ecosystems, where the recent urbanization has been linked to changes in carbon and nitrogen burial. In this study, we reconstructed long-term LULCC and sedimentary records of carbon (C), nitrogen (N), phosphorus (P), and sediment burial rates in a eutrophic tropical coastal lagoon affected by recent urban expansion. Based on analyses of 30 years of satellite imagery and sedimentary records from 1932 to 2013, we revealed that urban expansion over low-productivity agricultural-pasture areas increased siltation and C, N, P concentrations and fluxes in the coastal lagoon. Large temporal variability of such parameters revealed not only the effects of LULCC on the lagoon's burial rates, but also the influence of artificial sand barrier openings, which connect the studied lagoon to the sea, reducing C, N, P, and particle deposition in the sediment. Our results support multi-proxy methods to assess the relationships between recent urbanization, rising C, N, and P burial rates, and the eutrophication process. We highlight that artificial sandbar openings, the current eutrophication management strategy for coastal lagoons, are ineffective in reducing the eutrophication state, even in the recent scenario of decreasing C, N, and P burial rates.

Analysis of land-use and livelihood transformations in peri-urban areas: Insights from North-Western Ghana.

This paper questions claims that peri-urbanization perpetuates the shrinking of livelihood opportunities. A critical analysis of the peri-urbanization process presents a more nuanced transformation of livelihood opportunities. Drawing on concurrent triangulation mixed-method, primary data was sourced from non-farm workers using survey questionnaires, informant interviews, and observation from 225 respondents in a Ghanaian peri-urban community -Bamahu. Digital image software, Erdas Imaging 2015 and Landsat satellite were used to acquire land use and land cover data to affirm spatial differences. Quantitative data were analyzed using descriptive statistics complemented with thematic analysis for qualitative data. The findings showed significant land use and land cover alterations from 2000 to 2019. These changes resulted in the springing up of non-farm livelihoods that populated formal and informal non-farm opportunities. The analysis provides evidence that supports two key contributions to peri-urbanization and livelihood transformation debates. Empirically, it brings in-depth insights from original fieldwork data to highlight specific contextual realities by not only revealing the spatial alterations but also peering into how emerging non-farm livelihoods trade-off with existing farm-based livelihoods. Theoretically, it extends the debate by reframing peri-urbanization as a process of transforming livelihoods that thrive due to infrastructural development, new skills, and a ready market for goods and services. These findings have important implications for opening up a theorization of the peri-urbanization phenomenon. This paper concludes that the emergence of these livelihoods is crucial and should be adequately integrated into urban policies and plans to ensure inclusive cities.

[Impact of the SARS-CoV-2 epidemic on the immigrant population by urbanisation degree in five Italian Regions (Piedmont, Emilia-Romagna, Tuscany, Lazio, and Sicily)]. / Impatto dell'epidemia da SARS-CoV-2 nella popolazione immigrata per grado di urbanizzazione in Piemonte, Emilia-Romagna, Toscana, Lazio e Sicilia.

BACKGROUND: according to the literature, socially disadvantaged strata of the population, including immigrants, have been more vulnerable to the risk of SARS-CoV-2 infection due to greater exposure and less opportunity to protect themselves, and to COVID-19 complications due to metabolic and clinical risk factors as well as to healthcare access barriers. Two Italian projects - coordinated by the Italian National Institute for Health, Migration and Poverty and the Italian National Centre for Disease Prevention and Control - set up an epidemiological surveillance to monitor the temporal trends of the SARS-CoV-2 pandemic in five Italian regions using validated indicators. OBJECTIVES: to identify differences between Italians and immigrants in terms of the epidemic evolution and its health consequences, and to investigate possible differences by urbanisation degree and region of residence. DESIGN: cross sectional study. SETTING AND PARTICIPANTS: resident population in five Italian regions: Piedmont, Emilia-Romagna, Tuscany, Lazio, and Sicily. MAIN OUTCOMES MEASURES: frequencies of positive tests, routine hospitalisations, and deaths related to COVID-19 were collected, with respect to the period between 22.02.2020 and 31.01.2021. Data were aggregated by week, region, degree of urbanisation, gender, age (5-year classes), and citizenship (Italian/foreigner). Crude and standardised rates of the outcomes considered were calculated, stratified by gender, citizenship, region, and aggregated by pandemic macro-period. RESULTS: the study population counts approximately about 23 million residents as of 01.01.2020 (9.4% immigrants). During the period of interest, 1,542,458 cases of infection were recorded, whereas hospitalisations amounted to 175,979, and deaths to 44,867. Lower crude rates of hospitalisations and deaths were observed among immigrants compared to Italians. The age-standardised hospitalisation rates, on the other hand, showed an opposite trend and were significantly higher among immigrants, due to the excess observed in urban areas, especially in periods of epidemic peak, both for males (weekly mean standardised rate: 34.6 per 1,000 of foreign residents vs 24.3 of Italians over the period October 2020-January 2021) and females (23.2 vs 15.1 over the period February-April 2021). These differences seem to be more pronounced in the central regions and tend to disappear for residents in scarcely populated areas. Standardised mortality rates were higher among immigrants, both men and women, from October 2020 and more markedly in February-April 2021 among men. CONCLUSIONS: the impact of COVID-19 was stronger among immigrants in relation to hospitalisation, especially during epidemic peak periods and in some regions. The difference in the impact on mortality was smaller. There is some heterogeneity among regions and urban areas that is worth considering in the planning of interventions and integration policies.

Eutrophication and Dissolved Organic Matter Exacerbate the Diel Discrepancy of CO2 Emissions in China's Largest Urban Lake.

The large variability in the emissions of carbon dioxide (CO2) from urban lakes remains a challenge for partitioning these sources at meaningful spatial and temporal scales. Dissolved organic matter (DOM) governs the spatial and temporal variations in CO2, yet relationships of the CO2 concentration (cCO2) and emission flux (FCO2) with DOM in urban lakes have rarely been reported. In this study, we monitored levels of cCO2, FCO2, and the composition of DOM over a 24 h period at three sites during the dry and wet seasons in China's largest urban lake, Tangxun Lake. Our study found the ratio of day/night FCO2 (millimoles per square meter per day) decreased from the dry season (0.79; 7.68/9.68) to the wet season (0.25; 6.05/24.16), averaging 0.42 (6.77/15.97), implying that accounting for nighttime CO2 emissions can increase regional estimates by 70%. This study revealed that eutrophication affected diurnal CO2 emissions with greater algal growth enhancing daytime CO2 uptake and subsequently increasing nighttime CO2 emissions via DOM degradation (larger protein-like DOM fraction). We anticipate that the relative magnitude of FCO2 between day and night from lakes is likely to increase due to urbanization and climate change, underscoring the importance of treating urban lakes as a distinct group and integrating DOM dynamics into carbon cycling in future research.

Artificial light at night reveals hotspots and rapid development of industrial activity in the Arctic.

Climate warming enables easier access and operation in the Arctic, fostering industrial and urban development. However, there is no comprehensive pan-Arctic overview of industrial and urban development, which is crucial for the planning of sustainable development of the region. In this study, we utilize satellite-derived artificial light at night (ALAN) data to quantify the hotspots and the development of light-emitting human activity across the Arctic from 1992 to 2013. We find that out of 16.4 million km2 analyzed a total area of 839,710 km2 (5.14%) is lit by human activity with an annual increase of 4.8%. The European Arctic and the oil and gas extraction regions in Russia and Alaska are hotspots of ALAN with up to a third of the land area lit, while the Canadian Arctic remains dark to a large extent. On average, only 15% of lit area in the Arctic contains human settlement, indicating that artificial light is largely attributable to industrial human activity. With this study, we provide a standardized approach to spatially assess human industrial activity across the Arctic, independent from economic data. Our results provide a crucial baseline for sustainable development and conservation planning across the highly vulnerable Arctic region.

Advancing microbiome research in Maori populations: insights from recent literature exploring the gut microbiomes of underrepresented and Indigenous peoples.

The gut microbiome plays vital roles in human health, including mediating metabolism, immunity, and the gut-brain axis. Many ethnicities remain underrepresented in gut microbiome research, with significant variation between Indigenous and non-Indigenous peoples due to dietary, socioeconomic, health, and urbanization differences. Although research regarding the microbiomes of Indigenous peoples is increasing, Maori microbiome literature is lacking despite widespread inequities that Maori populations face. These inequities likely contribute to gut microbiome differences that exacerbate negative health outcomes. Characterizing the gut microbiomes of underrepresented populations is necessary to inform efforts to address health inequities. However, for microbiome research to be culturally responsible and meaningful, study design must improve to better protect the rights and interests of Indigenous peoples. Here, we discuss barriers to Indigenous participation in research and the role disparities may play in shaping the gut microbiomes of Indigenous peoples, with a particular focus on implications for Maori and areas for improvement.

Air Pollution and Symptom Severity in Hospitalized Subjects with Schizophrenia Spectrum Disorders.

Air pollution has been demonstrated to represent a major threat to mental health, leading to higher risk of development or exacerbation of serious psychiatric disorders. The current study was aimed at investigating the associations between air pollutant concentrations (particulate matter 2.5 and 10, ozone, carbon monoxide, nitrogen dioxide) and symptom severity in a sample of inpatients suffering from schizophrenia spectrum disorders. We collected sociodemographic, clinical, and psychopathological characteristics of subjects (n=118) with schizophrenia spectrum disorders who were hospitalized in the Psychiatric Inpatient Unit of the University Hospital of Perugia in the period 1stJanuary 2015-31stDecember 2016. Psychopathological characteristics were assessed using the Positive And Negative Syndrome Scale (PANSS), the Brief Psychiatric Rating Scale (BPRS) and the Clinical Global impressions (CGI) scale. Hierarchical multiple regressions were run to assess the association between air pollutants concentrations and the PANSS, BPRS, and CGI total subscale scores, controlling the analyses for sex/age and meteorological data. We found a significant positive association between the average concentration of ozone before admission and the anxiety-depression factor score domain at the PANSS. No significant associations between the other pollutants and the different scores at the scales used for the psychopathological assessment were found. Short-term exposure to ozone may influence the clinical presentation of schizophrenia spectrum disorders and should be thus considered among the potentially modifiable risk factors in the urban environment. Air pollution should be considered among the main threats to human mental health and policymakers should address the built of sustainable urban environments.

Spatial patterns and driving factors of plant diversity along the urban-rural gradient in the context of urbanization in Zhengzhou, China.

Plant diversity is the basis for human survival and development, directly affecting the function and stability of urban ecosystems. Its distribution pattern and causes have been a central issue in ecological and landscape gardening research. Rapid urbanization in Zhengzhou City has led to the fragmentation of urban green spaces and damage to ecosystems, seriously affecting urban biodiversity conservation. Understanding the distribution pattern of plant diversity in the region and its relationship with environmental factors is crucial for maintaining and enhancing urban plant diversity. Plant data from 178 sample plots in the built-up area of Zhengzhou City were collected and combined with environmental factors, and the characteristics of plant diversity, richness patterns, and their main environmental explanations in Zhengzhou City were explored. Results showed that there were 596 plant species belonging to 357 genera and 110 families in the study area. There were five dominant families and four dominant genera. Four distinct spatial patterns of plant diversity were identified along the urban-rural gradient. Urbanization factors such as GDP per capita, house prices, and imperviousness within 500 m from the patch significantly influenced plant diversity. There was an imbalance between the spatial pattern of plant diversity and application of urban landscape greening in Zhengzhou City. Future studies should focus on the application of native plants, curb plant homogenization, and reduce anthropogenic interference, which are conducive to protecting and enhancing urban plant diversity. These results can provide a basis for understanding the distribution pattern and influence mechanism of urbanization factors on plant diversity and serve as a reference for policymakers and planners of plant diversity conservation in Zhengzhou City.

Integration of renewable energy and socioeconomic development for environmental sustainability in Africa: An empirical analysis.

As Africa grapples with the challenges of energy access, economic growth, urbanization and industrialization, as well as the environmental degradation, the adoption of renewable energy technologies emerges as a promising solution. Therefore, this article examines the effects of socioeconomic growth and renewable energy integration on environmental sustainability in 32 African countries using the auto-regressive distributed lag (ARDL) model, nonlinear ARDL (NARDL) model, and Dumitrescu and Hurlin causality. The findings demonstrate that urbanization, industrialization, and economic growth all contribute to environmental deterioration. The ARDL model estimation shows that for every 1% increase in economic growth, industrialization, and urbanization, there will be a 1% rise in CO2, respectively. Similarly, the results indicate that an additional 1% in economic growth and industrialization is expected to result in a 0.14% and 0.02% increase in ecological footprint, respectively. The NARDL model shows that industrialization significantly contribute into the CO2 increase, while renewable energy consumption decreases ecological footprint. Moreover, the causality test revealed the bidirectional causality between industrialization and CO2, and urbanization and ecological footprint. Renewable energy consumption in both models showed the potential to enhance environmental quality, underscoring the significance of integrating renewable energy with socioeconomic development to support sustainable development.

Urban malaria and its determinants in Eastern Ethiopia: the role of Anopheles stephensi and urbanization.

BACKGROUND: Malaria prevention and control strategies have been hampered by urbanization and the spread of Anopheles stephensi. The spread of this vector into Africa further complicates the already complex malaria situation, that could put about 126 million Africans at risk of infection. Hence, this study aimed to assess the determinants of urban malaria, focusing on the role of urbanization and the distribution of An. stephensi in Eastern Ethiopia. METHODS: A matched case control study was conducted among febrile urban residents of Dire Dawa (malaria positive as cases and negative as a control). A capillary blood sample was collected for parasite identification using microscopic examination and an interviewer administered questionnaire was used to collect additional data. Centers for Disease Control and Prevention miniature light traps (CDC-LT) and Prokopack aspirator were used to collect adult mosquito vectors from the selected cases and control houses to identify the mosquito vector species. Then, the data were exported to STATA for analysis. Conditional logistic regression was done to identify determinants, and principal component Analysis (PCA) was done for some independent variables. RESULTS: This study enrolled 132 cases and 264 controls from urban setting only. Of the 132 cases, 90 cases were positive for Plasmodium falciparum, 34 were positive for Plasmodium vivax and 8 had mixed infections. All cases and controls were similar with regard to their respective age and sex. Travel history (AOR: 13.1, 95% CI 2.8-61.4), presence of eves and holes on walls (AOR: 2.84, 95% CI 1.5-5.5), history of malaria diagnosis (AOR: 2.4, 95% CI 1.1-5.3), owning any livestock (AOR: 7.5, 95% CI 2.4-22.8), presence of stagnant water in the area (AOR: 3.2, 95% CI 1.7-6.1), sleeping under bed net the previous night (AOR: 0.21, 95% CI 0.1-0.6) and knowledge on malaria and its prevention (AOR: 2.2, 95% CI 1.2-4.1) were determinants of urban malaria infection. About 34 adult Anopheles mosquitoes were collected and identified from those selected cases and control houses and 27 of them were identified as An. stephensi. CONCLUSION: Among the cases, the dominant species were P. falciparum. This study identified travel history, house condition, past infection, livestock ownership, stagnant water, bed net use, and malaria knowledge as determinants of infection. This study also found the dominance of the presence of An. stephensi among the collected mosquito vectors. This suggests that the spread of An. stephensi may be impacting malaria infection in the study area. Hence, strengthening urban-targeted malaria interventions should be enhanced to prevent and control further urban malaria infection and spread.

Aquatic Condition Index: optimization of a rapid wetland assessment tool for evaluating urban wetland health.

Urbanization poses significant threats to wetland ecosystems, leading to habitat loss, hydrological alterations, and the introduction of invasive species that adversely affect essential ecosystem services. This widespread threat underscores the need to develop a robust management tool for gauging urban wetland health. The Aquatic Condition Index (ACI) was developed as a diagnostic tool for monitoring urban wetland health in Calgary, Alberta, Canada. The ACI evaluates wetland health by incorporating functional indicators (i.e., hydrological, ecological, and water quality functions) chosen by scientific experts to provide municipal wetlands with relative condition scores that can inform citywide habitat management budgeting and prioritization. Gathering the data necessary to generate wetland indicators for the ACI requires substantial financial resources, time, and a high degree of analytical expertise for data collection (e.g., field surveys). This investigation aimed to enhance the widespread applicability and cost-efficiency of wetland monitoring by optimizing the ACI. This optimization entailed a sensitivity-driven indicator reduction, which strategically minimizes the number of indicators essential for ACI calculations. Our findings demonstrate that the refined selection of indicators produces comparable results to the original ACI. This highlights the potential of transitioning to more rapid and cost-efficient monitoring methods, creating a streamlined approach to enhance the efficiency of monitoring and assessment processes. Ultimately, this approach can facilitate long-term urban wetland assessments and promote the sustainability and management of these vital urban features . Supplementary Information: The online version contains supplementary material available at 10.1007/s11252-024-01596-0.

Risk preference and rural livelihood transitions in the hilly and mountainous region of southern China: a case study in Ruijin City.

Rural livelihood transition towards non-agriculturalization, non-grainization and even anti-urbanization has become a thorny social problem that undermines farmland resources and worldwide food security. Based on a simulation survey, this study explored the risk preferences and the livelihood transition mechanisms of typical farmers in the hilly and mountainous region. The results indicated that: (1) 76.86% of rural households exhibited risk aversion tendencies, with 60.67% being highly risk-averse. The ranking of risk aversion among the three typical farmers is consistent with asset abundance, with non-agriculture oriented households > semi-farmer and semi-labour households > vocational farmer households. (2) The non-grainization of vocational farmer households is significantly and positively correlated with the family labour force, land management area, and housing assets, yet negatively correlated with risk preferences. Compared to traditional grain cultivation, non-grainization in the hilly and mountainous region possesses lower risks and higher profitability for vocational farmer households. (3) The total non-agriculturalization of semi-farmer and semi-labour households correlates negatively with land management area but positively with family income. (4) Anti-urbanization and returning hometowns for farming are still regarded as a livelihood fallback by the non-agriculture oriented households, but excessive gift expenditure has become a heavy burden in rural society. Therefore, practical and systematical countermeasures are proposed in this research to guide sustainable livelihood transition.

Neighborhood plant community, airborne microbiota transferred indoors and prevalence of respiratory diseases are interrelated: A cross-sectional study.

Airborne microbiota transferred indoors (AMTI) is linked to human respiratory health. Yet, the factors influencing these microorganisms and their connections to the prevalence of respiratory diseases (RDs) remain unclear. In this study, we examined plant communities and AMTI using VenTube, next-generation sequencing and quantitative polymerase chain reaction (qPCR) in 72 Shanghai neighborhoods in warm and cold seasons, respectively. To determine the prevalence of RDs, we collected 1026 questionnaires, enlisting 30 ± 5 volunteers aged 40-80, residing in the area for more than a decade, with an equal gender balance. Our results demonstrated that the AMTI communities were less diverse in the cold season than in the warm season, which is in agreement with the changes of garden plant diversity between seasons. Along the reduction of AMTI diversity, greater relative abundances of RDs-associated microbes (e.g., Pseudomonas and Streptococcus) was transferred indoors during the cold season. The questionnaire survey showed that the most prevalent symptom was shortness of breath (25.6 %), followed by rhinitis (20.8 %) and wheeze (14.4 %), with generally no prevalence difference between urban and peri-urban neighborhoods. Notably, despite the sparse garden plant community in the cold season, the abundance of Oleaceae trees showed an inverse relationship with the RDs-associated microbes as well as the prevalences of RDs based on the structural equation model results. This finding was largely supported by the negative effect of Oleaceae trees on the population of Streptococcus anginosus (qPCR) which was a dominant species transferred indoors in the cold season, given that S. anginosus is highly associated with rhinitis and rhinoconjunctivitis. Taken together, our findings suggest a strong association between the Oleaceae trees, the AMTI and the prevalence of RDs, which can shed some lights in the ecological development towards respiratory safe environment in cities.

Bluer in the city: urban male lizards exhibit more intense sexual coloration and lower parasite loads than non-urban males.

Urbanization is a global phenomenon that involves the transformation of natural areas into urban spaces, thereby subjecting organisms to new selective pressures including a wide variety of pollutants and changes in intra- and interspecific interactions. Considering that projections indicate that by the year 2050, 65% of the human population will live in urban areas and that urbanization is a phenomenon with an upward pattern, identifying these phenotypic traits is vital to implementing conservation and management plans for urban fauna. The urban environment may exert different selective pressures on sexually selected traits than more pristine environments, a phenomenon which has been well studied in birds but is less understood in other vertebrates such as lizards, although they are common inhabitants of urban environments. Here, we compare sexual coloration, parasite load, and immune response in Sceloporus torquatus lizards in urban and non-urban environments of Central Mexico. Our study shows that sexual coloration is more saturated (bluer) in male lizards from urban environments, while UV chroma was higher in non-urban lizards. The average parasite load is lower in urban lizards than in non-urban lizards, and we found a negative relationship between hemoparasite count and sexual coloration in male lizards from non-urban environments but not in male lizards from urban environments. Additionally, non-urban lizards exhibited a higher immune response. In female lizards, sexual coloration differed significantly between urban and non-urban environments, but parasite load and immune response did not differ. These results may be useful to improve herpetofauna conservation plans in urbanized environments.

Assessment and management of construction and demolition waste in tier 2 cities of Karnataka, India: a case study of Hubli-Dharwad and Davanagere.

The present study examines the current practices for managing construction and demolition waste (CDW) in two tier-2 cities of Karnataka state: Hubli-Dharwad and Davanagere. The research highlights the quantification, characterization, and effective management strategies for CDW. CDW dumping sites were identified through field visits conducted across all wards of the cities and recorded using a mobile-based app. At each site, data were collected on the types of vehicles dumping CDW, the frequency of dumping, the volume of waste in the vehicles, and the quantity of CDW removed for reuse. The dumping sites were categorized into large, medium, and small based on the area and volume of waste. In total, 130 unauthorised dumping sites were identified in Hubli-Dharwad and 62 in Davanagere. The study estimated that Hubli-Dharwad generates approximately 607 tonnes per day (TPD) of CDW, while Davanagere produces around 287 TPD. The characterization of CDW revealed that in Hubli-Dharwad, CDW consists of 14.4% concrete, 25.5% brick and mortar, 39.1% soil and aggregates, and 20% other materials. In Davanagere, the composition includes 19% concrete, 29% brick and mortar, 38% soil, and 14% other materials. Based on these findings, the study proposes a system for the collection and transportation of CDW and recommends suitable recycling technologies. While the approach outlined in this paper is well-suited for urban local bodies to assess CDW, the data on CDW reuse and recycling is primarily based on informal practices. This makes accurate quantification challenging and subject to variation over time due to a lack of regulatory oversight. Additionally, the study provides only a snapshot of CDW generation and management at a specific point in time, potentially missing seasonal variations or long-term trends in waste handling.