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35 pages, 7573 KB  
Article
A Proposed Post-Fire Planning Approach Based on DEMATEL in Vesuvius National Park
by Salvatore Polverino, Hourakhsh Ahmad Nia, Rokhsaneh Rahbarianyazd and Behnam Mobaraki
Sustainability 2025, 17(22), 10325; https://doi.org/10.3390/su172210325 - 18 Nov 2025
Cited by 1 | Viewed by 1122
Abstract
We present a site-agnostic workflow to identify Fireline Tactical Support Points (FTSPs) and corridors following wildfire where spectral-change proxies (dNBR, RdNBR, and dNDVI) are paired pre/post-fire and co-registered on a 20 m grid together with a 72 h rainfall accumulation layer, which is [...] Read more.
We present a site-agnostic workflow to identify Fireline Tactical Support Points (FTSPs) and corridors following wildfire where spectral-change proxies (dNBR, RdNBR, and dNDVI) are paired pre/post-fire and co-registered on a 20 m grid together with a 72 h rainfall accumulation layer, which is treated as an operational feasibility and safety overlay, complementing access and terrain. Applied to the Vesuvius National Park (Italy) wildfire episode of August 2025, the pipeline yields suitability/susceptibility surfaces, ranked factors, and corridor candidates, with estimated successes including coherent prioritization within high-severity mosaics, improved continuity toward existing access routes, and reduced overlap with mapped sensitive areas at like-for-like suitability. Low-carbon staging is retained as a design safeguard, while detailed greenhouse-gas accounting is intentionally deferred to future, fleet-resolved multi-criteria analyses. The approach enables rapid, repeatable decision support and is relevant to SDG 11 (Sustainable Cities and Communities), SDG 13 (Climate Action), and SDG 15 (Life on Land). Full article
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16 pages, 252 KB  
Article
The European Charter for Sustainable Tourism (ECST) as a Tool for Development in Rural Areas: The Case of Vesuvius National Park (Italy)
by Salvatore Monaco, Antón Freire Varela, Guido Guarino and Fabio Corbisiero
Agriculture 2025, 15(22), 2322; https://doi.org/10.3390/agriculture15222322 - 7 Nov 2025
Cited by 2 | Viewed by 2014
Abstract
The study investigates how agriculture can serve as a driver of sustainable tourism and local development within the Vesuvius National Park under the European Charter for Sustainable Tourism (ECST) framework. Based on 14 semi-structured interviews with farmers, tourism operators, cultural institutions, and producer [...] Read more.
The study investigates how agriculture can serve as a driver of sustainable tourism and local development within the Vesuvius National Park under the European Charter for Sustainable Tourism (ECST) framework. Based on 14 semi-structured interviews with farmers, tourism operators, cultural institutions, and producer consortia, the findings reveal that agriculture plays a central role not only as a productive sector but also as a custodian of biodiversity, identity, and territorial resilience. Stakeholders emphasised the economic and symbolic value of traditional crops, highlighting how farm-based experiences, product certifications, and civil-society networks strengthen community cohesion and diversify visitor flows. Nevertheless, tourism remains predominantly concentrated in the vicinity of the volcano’s crater, thereby excluding the park’s other trails, limiting the positive impacts on rural and peripheral areas. Practical implications point to the need for improved mobility infrastructure, cross-sector coordination, and targeted incentives to link agrotourism circuits with regional branding and EU sustainability policies. Overall, the study shows that integrating agriculture into tourism governance can foster more inclusive, resilient, and territorially embedded forms of rural development in protected areas. Full article
36 pages, 3756 KB  
Article
The IoT/IoE Integrated Security & Safety System of Pompeii Archeological Park
by Alberto Bruni and Fabio Garzia
Appl. Sci. 2025, 15(13), 7359; https://doi.org/10.3390/app15137359 - 30 Jun 2025
Cited by 1 | Viewed by 2556
Abstract
Pompeii is widely known for its tragic past. In 79 A.D., a massive eruption of Mount Vesuvius buried the city and its inhabitants under volcanic ash. Lost for centuries, it was rediscovered in 1748 when the Bourbon monarchs initiated excavations, marking the beginning [...] Read more.
Pompeii is widely known for its tragic past. In 79 A.D., a massive eruption of Mount Vesuvius buried the city and its inhabitants under volcanic ash. Lost for centuries, it was rediscovered in 1748 when the Bourbon monarchs initiated excavations, marking the beginning of systematic digs. Since then, Pompeii has gained worldwide recognition for its archeological wonders. Despite centuries of looting and damage, it remains a breathtaking site. With millions of visitors annually, the Pompeii Archeological Park is the one most visited site in Italy. Managing such a vast and complex heritage site requires significant effort to ensure both visitor safety and the preservation of its fragile structures. Accessibility is also crucial, particularly for individuals with disabilities and staff responsible for site management. To address these challenges, integrated systems and advanced technologies like the Internet of Things/Everything (IoT/IoE) can provide innovative solutions. These technologies connect people, smart devices (such as mobile terminals, sensors, and wearables), and data to optimize security, safety, and site management. This paper presents a security/safety IoT/IoE-based system for security, safety, management, and visitor services at the Pompeii Archeological Park. Full article
(This article belongs to the Special Issue Advanced Technologies Applied to Cultural Heritage)
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15 pages, 2701 KB  
Article
Pompeii Performance Soundscapes in the Amphitheater, the Grand Theater, and the Odeon
by Cobi van Tonder, Ruoran Yan and Lamberto Tronchin
Heritage 2025, 8(6), 196; https://doi.org/10.3390/heritage8060196 - 29 May 2025
Cited by 13 | Viewed by 4151
Abstract
Theaters in ancient Pompeii played a vital role in Roman entertainment, shaping the auditory experiences of spectators. This study examines the acoustic properties of the Amphitheater, the Grand Theater, and the Odeon using impulse response (IR) analysis to reconstruct their soundscapes. Next, the [...] Read more.
Theaters in ancient Pompeii played a vital role in Roman entertainment, shaping the auditory experiences of spectators. This study examines the acoustic properties of the Amphitheater, the Grand Theater, and the Odeon using impulse response (IR) analysis to reconstruct their soundscapes. Next, the study considers the impact of typical musical instruments, vocal performances, and ambient sounds—such as gladiatorial combat—on these spaces’ acoustics. Findings reveal significant differences in reverberation times, sound clarity, and spatial characteristics, shaped by each theater’s design. These sites, preserved after the eruption of Mount Vesuvius, provide a unique opportunity to analyze how architecture influenced sound propagation. The Amphitheater, with its vast open structure, enhanced large-scale events, while the Grand Theater’s semi-enclosed design balanced musical and theatrical performances. The Odeon, the most intimate of the three, prioritized speech clarity. These insights highlight how Roman architects engineered performance spaces to accommodate diverse entertainment forms. By combining acoustic measurements with historical context, this research offers a deeper understanding of ancient Pompeii’s soundscapes and the auditory experiences of its inhabitants and offers insights for composition and soundscape creations that take inspiration from these prominent historical architectural and cultural icons whilst exploring its potential within contemporary immersive listening practices. Full article
(This article belongs to the Special Issue Acoustical Heritage: Characteristics and Preservation)
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19 pages, 3960 KB  
Article
Seismic Assessment and Restoration Strategies for Cultural Heritage Buildings in the Neapolitan Area: The Case of Villa Vannucchi
by Antonio Formisano and Giovanna Longobardi
Heritage 2025, 8(4), 143; https://doi.org/10.3390/heritage8040143 - 17 Apr 2025
Cited by 2 | Viewed by 1941
Abstract
Italy is internationally renowned for its cultural heritage, a testament to its rich history. Many of these structures, built before the advent of modern engineering principles, were constructed based on empirical knowledge and lack seismic design considerations, making them highly vulnerable to earthquakes. [...] Read more.
Italy is internationally renowned for its cultural heritage, a testament to its rich history. Many of these structures, built before the advent of modern engineering principles, were constructed based on empirical knowledge and lack seismic design considerations, making them highly vulnerable to earthquakes. This vulnerability presents a significant challenge to preserving Italy’s architectural legacy. A notable example is Villa Vannucchi, located in the seismically active Vesuvius region. Given its historical and cultural significance, enhancing its structural resilience while preserving its architectural authenticity is imperative. This study investigates the seismic vulnerability of Villa Vannucchi through a comprehensive analysis of its structural deficiencies and proposes a targeted retrofitting strategy in accordance with the Italian Guidelines for Cultural Heritage (IGCH). The evaluation is conducted in three phases: 1 Preliminary structural assessment—Calculation of two critical safety factors to evaluate the villa’s overall stability. 2 Local collapse mechanism analysis—Examination of the structure’s susceptibility to localized failures. 3 Advanced computational modelling—Detailed simulations revealing critically low seismic coefficients. Based on these findings, a consolidation plan is developed, integrating traditional and minimally invasive techniques. Key interventions include reinforcing the masonry and reducing floor deformability to improve overall structural stability. The implementation of these retrofitting measures significantly enhances the villa’s seismic resilience, as evidenced by the increased safety coefficients. This reduction in vulnerability not only ensures the preservation of Villa Vannucchi, but also safeguards its cultural and historical legacy for future generations. Full article
(This article belongs to the Special Issue Architectural Heritage Management in Earthquake-Prone Areas)
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21 pages, 3328 KB  
Review
Review and Inventory of Pedological and Stratigraphical Knowledge for Investigating Shallow Landslides: A Case Study of the Cervinara Area (Central Campanian Apennines, Southern Italy)
by Antonella Ermice, Carla Buffardi, Rossana Marzaioli, Marco Vigliotti and Daniela Ruberti
Geosciences 2025, 15(4), 151; https://doi.org/10.3390/geosciences15040151 - 16 Apr 2025
Viewed by 1384
Abstract
Landslides are one of the most serious problems affecting large parts of the world. There are two approaches that are used to study the organization of these land cover features: firstly, an approach utilizing lithostratigraphic tools, where soils are described and interpreted in [...] Read more.
Landslides are one of the most serious problems affecting large parts of the world. There are two approaches that are used to study the organization of these land cover features: firstly, an approach utilizing lithostratigraphic tools, where soils are described and interpreted in accordance with specific geological/lithological patterns, and, secondly, through pedological instruments, where the pedogenetic patterns are identified, and the sequences are identified via standardized criteria and organized according to modern classification systems. In the present review, a comparison between the two above approaches is outlined, using the Campania Apennine reliefs (Southern Italy) as the reference environment because they are periodically and dramatically affected by mass movements mainly associated with rainfall events. These reliefs are strongly influenced by the products emitted by the Phlegraean Fields and the Somma–Vesuvius volcanoes. These products affect surface structures either through their direct alteration, with the formation of pedogenized products, or through their reworking, mainly stimulated by rainfall events, which is also responsible for the movement of pedogenized materials along the slopes. This results in complex surface architectures, knowledge of which is a crucial step in the assessment of robust monitoring systems. This review covers the Cervinara area, located in the central portion of the Campania Apennines, which was overwhelmed by dramatic landslide events in 1999. Our aims were to critically analyze the impact and the potential of lithostratigraphic and pedological approaches in studying the soils of the area in question and to provide an inventory of the scientific papers in which, with different aims, descriptions and interpretations of the local soil covers are reported. We examined and selected the national and international literature available in major scientific online databases, and these were split into groups on the basis of citations and type of approach. The reviewed literature showed that the stratigraphic approach was by far the most preferred, although significant potential was offered by pedological tools in this field of investigation. A high number of hydraulic and geotechnical articles was also found, in comparison to geological and pedological papers, which confirmed the significant levels of interest in the land cover type in question, specifically regarding landslide processes, and in their role in risk mitigation practices. On the whole, the latter approach has been proven to offer a greater exploration potential through the use of rigorous classification systems and, thus, the possibility of identifying and correlating soil properties over large areas. Full article
(This article belongs to the Special Issue Landslides Runout: Recent Perspectives and Advances)
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21 pages, 6687 KB  
Article
Mechanical Characterization of FDM 3D-Printed Components Using Advanced Measurement and Modeling Techniques
by Marcin Wikło, Bartłomiej Henryk Byczuk and Kinga Skrzek
Materials 2025, 18(5), 1086; https://doi.org/10.3390/ma18051086 - 28 Feb 2025
Cited by 19 | Viewed by 4496
Abstract
The study investigates the mechanical characterization of PET-G components fabricated via Fused Deposition Modeling (FDM), integrating experimental testing with advanced numerical modeling. Initially, an extensive parametric analysis was conducted to determine the optimal printing conditions, focusing on temperature, speed, and infill density to [...] Read more.
The study investigates the mechanical characterization of PET-G components fabricated via Fused Deposition Modeling (FDM), integrating experimental testing with advanced numerical modeling. Initially, an extensive parametric analysis was conducted to determine the optimal printing conditions, focusing on temperature, speed, and infill density to ensure reliable and repeatable sample fabrication. Subsequently, the study employs an inverse problem-solving approach that combines Digital Image Correlation (DIC) with Finite Element Method Updating (FEMU) to identify the material parameters, specifically Young’s modulus and Poisson’s ratio. The methodology allows for a precise evaluation of mechanical properties by iteratively minimizing discrepancies between experimental strain fields and FEM simulations. The results reveal significant dependencies of material stiffness on infill pattern and density, with Young’s modulus varying up to 20% between different configurations. Additionally, the study highlights the limitations of conventional tensile testing for FDM materials, emphasizing the necessity for advanced full-field measurement techniques to account for anisotropy and microstructural heterogeneity. The proposed methodology enhances the accuracy of material characterization, contributing to the development of more reliable predictive models for 3D-printed components. The research provides valuable insights for optimizing FDM process parameters and establishing standardized testing protocols for additively manufactured materials. Full article
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22 pages, 1661 KB  
Article
Integration of In Situ and Sentinel-2 Data to Assess Soil Quality in Forest Monitoring: The Case Study of the Vesuvius Fires
by Lucia Santorufo, Massimiliano Gargiulo, Valeria Memoli, Giulia Maisto, Rossella Barile and Giuseppe Ruello
Fire 2025, 8(3), 99; https://doi.org/10.3390/fire8030099 - 28 Feb 2025
Cited by 1 | Viewed by 1645
Abstract
The climatic conditions in southern Italy favor the occurrence and spread of forest fires, with severe long-lasting consequences on the local flora and fauna. On the one hand, biological and chemical in situ measurements are typically used to accurately investigate the evolution of [...] Read more.
The climatic conditions in southern Italy favor the occurrence and spread of forest fires, with severe long-lasting consequences on the local flora and fauna. On the one hand, biological and chemical in situ measurements are typically used to accurately investigate the evolution of the land affected by fires, with limited spatial coverage. On the other hand, Remote Sensing (RS) is a mature technology to complement the in situ campaigns on large regions with adequate revisit time. In this paper, we evaluate the capability of Sentinel-2 data to spatially and temporally extend post-fire in situ analysis on a fire-affected area. In particular, we estimate the soil quality index from Sentinel-2 data and achieve a remarkable coefficient of determination (R2=0.79) and low relative error (er=0.06), highlighting the robustness of the proposed approach. Furthermore, the soil water content and the total iron (Fe) concentrations emerged as pertinent indicators detectable through Near-Infrared and Short-Wave Infrared Sentinel-2 bands. The obtained results prompted an investigation into the post-fire evolution of soil properties, thanks to RS data, in a large area covered by diverse vegetation types. The obtained results encourage a deeper synergic use of in situ and remotely observed data, enabling a comprehensive understanding of soil quality dynamics in fire-affected regions. Full article
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19 pages, 22875 KB  
Article
A Semi-Automated Machine-Learning Tool for Assessing Building Phases: Discriminant Analysis of Mortars from the 2022 Excavation at the Sarno Bath Complex in Pompeii
by Simone Dilaria, Caterina Previato, Michele Secco and Maria Stella Busana
Heritage 2025, 8(2), 51; https://doi.org/10.3390/heritage8020051 - 27 Jan 2025
Cited by 3 | Viewed by 2144
Abstract
This study presents the results of the analyses of 15 structural mortars from the building at civ. 21, level +0 of the Sarno Bath complex in Pompeii. These samples were collected during recent stratigraphic excavations (year 2022) for detailed in-laboratory compositional characterization, aiming [...] Read more.
This study presents the results of the analyses of 15 structural mortars from the building at civ. 21, level +0 of the Sarno Bath complex in Pompeii. These samples were collected during recent stratigraphic excavations (year 2022) for detailed in-laboratory compositional characterization, aiming to trace the construction phases of the originating walls. The 2022 samples were firstly analyzed via quantitative phase analysis–X-ray powder diffraction. The resulting quantitative mineralogical profiles were then processed alongside those analyzed in previous studies from level +0 structures of the Sarno Baths using multivariate statistical methods, including principal component analysis (PCA) and discriminant analysis, applied to quantitative phase analysis (QPA)–X-ray powder diffraction data (XRPD), to identify and map the construction phases. This approach enabled the correlation of the 2022 samples with previously established construction phases. Polarized-light optical microscopy and scanning electron microscopy (SEM) coupled with energy dispersive X-ray spectroscopy (EDS) were then primarily used for validation purposes. These methods highlighted the compositional differences between samples and revealed significant features related to the use of specific raw materials. These results confirm the reliability of the semi-automated sample processing proposed in this research, adopting discriminant analysis as a machine-learning-based tool for defining construction phases in Pompeian contexts. Full article
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17 pages, 3989 KB  
Article
Invasive Plants Do Not Exert Univocal Responses on Soil Abiotic and Biotic Characteristics
by Monica Zizolfi, Giulia Maisto, Giorgia Santini, Valeria Memoli, Marco Trifuoggi, Gabriella Di Natale, Maria Toscanesi, Rossella Barile and Lucia Santorufo
Forests 2025, 16(2), 209; https://doi.org/10.3390/f16020209 - 23 Jan 2025
Cited by 2 | Viewed by 1838
Abstract
Invasive plants are among the top five drivers of biodiversity loss, primarily due to competition and allelopathy. By releasing root exudates, they alter soil properties, influencing both the abiotic and biotic characteristics of soil. The effects of invasive plants on soil characteristics and [...] Read more.
Invasive plants are among the top five drivers of biodiversity loss, primarily due to competition and allelopathy. By releasing root exudates, they alter soil properties, influencing both the abiotic and biotic characteristics of soil. The effects of invasive plants on soil characteristics and biota remain underexplored, with findings on this topic often being controversial and context-dependent. This study aimed to understand the impact of two invasive species—black locust (Robinia pseudoacacia L.) and tree of heaven (Ailanthus altissima Mill.)—on soil abiotic characteristics, microbial and Collembola communities. Comparisons were made with soils under two types of native vegetation cover: holm oak (Quercus ilex L.) and herbaceous vegetation. In fall 2023, twelve sites within Vesuvius National Park (three per plant cover type) were sampled to assess soil characteristics, microbial biomass and activities, and Collembola communities. Tree of heaven increased soil pH (6.95), bacterial biomass (42.94 ng g−1) and Collembola density (2038 organisms m2) while reducing water content (10.6% d.w.) and organic carbon (1.21% d.w.). Black locust increased nitrogen content (0.70% d.w.) but reduced microbial biomass (22.85 ng g−1) and Collembola density (873 organisms m2). Tree of heaven soils showed a higher proportion of hemi-edaphic Collembola (48.3%) compared to black locust soils, which were dominated by eu-edaphic forms (42.2%). Despite these differences, Collembola species composition was poorly diversified under invasive plants, with Brachystomella parvula and Protaphorura armata dominating both types of cover. In conclusion, the presence of invasive plants was associated with declines in soil organism biodiversity, underscoring their disruptive influence on forest ecosystems. Full article
(This article belongs to the Special Issue Pest Invasions and Biological Control in Forests)
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31 pages, 65888 KB  
Article
Unveiling the Volcanic History of Ancient Pompeii (Italy): New Insights from the Late Pleistocene to Holocene (Pre-79 CE) Stratigraphy
by Domenico Sparice, Mauro Antonio Di Vito, Vincenzo Amato, Valeria Amoretti, Alessandro Russo, Pierfrancesco Talamo and Gabriel Zuchtriegel
Quaternary 2025, 8(1), 4; https://doi.org/10.3390/quat8010004 - 21 Jan 2025
Cited by 3 | Viewed by 8941
Abstract
Many volcanological and geoarchaeological studies in the ancient city of Pompeii (Italy) have been devoted to the 79 CE Plinian eruption of Vesuvius, which sealed the city under a thick pyroclastic sequence. Only fragmentary information exists regarding the stratigraphy of the volcanic sediments [...] Read more.
Many volcanological and geoarchaeological studies in the ancient city of Pompeii (Italy) have been devoted to the 79 CE Plinian eruption of Vesuvius, which sealed the city under a thick pyroclastic sequence. Only fragmentary information exists regarding the stratigraphy of the volcanic sediments sandwiched between the 79 CE street level and the volcanic rocks that form the geological framework of the hill on which Pompeii was built, which constitutes the “Pompeii bedrock”. The stratigraphic survey of twenty-one trenches throughout the city, coupled with a geochemical characterization, highlighted that the pre-79 CE stratigraphy includes at least eight late Pleistocene to Holocene tephra layers. Six eruptions were sourced from Somma–Vesuvius (Pomici di Base, Mercato, AP1 to AP4) and two originated from Campi Flegrei (Neapolitan Yellow Tuff and Soccavo 4). The Pompeii bedrock is the product of local vents, the last activity of which possibly shortly predates the 22 ka Pomici di Base eruption. From a geoarchaeological perspective, a relevant result is the absence of the 3.9 ka Avellino tephra in all trenches. This evidence, along with the reappraisal of the stratigraphy of the nearby archaeological site of S. Abbondio, suggests that the Avellino eruption possibly only marginally affected the Pompeii area during the Early Bronze Age. Full article
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16 pages, 3283 KB  
Article
Design and Analysis of Fluorine-Free Mold Fluxes for Continuous Casting of Peritectic Steels
by Márcia Maria da Silva Monteiro Pereira, Hervé Tavernier, Tiago dos Santos Junior and Fernando Vernilli
Materials 2024, 17(23), 5947; https://doi.org/10.3390/ma17235947 - 4 Dec 2024
Cited by 2 | Viewed by 1964
Abstract
Fluorine-based mold fluxes are critical for continuous casting of peritectic steels, controlling heat transfer and preventing cracks. However, environmental and health concerns associated with fluorine have spurred the search for alternative flux compositions. This study applied a factorial design to explore the effects [...] Read more.
Fluorine-based mold fluxes are critical for continuous casting of peritectic steels, controlling heat transfer and preventing cracks. However, environmental and health concerns associated with fluorine have spurred the search for alternative flux compositions. This study applied a factorial design to explore the effects of Na2O, TiO2, B2O3, and fluorine on key properties such as viscosity, crystallization temperature, and melting behavior. Analytical methods, including viscosity measurements, differential scanning calorimetry (DSC), X-ray diffraction (XRD), and scanning electron microscopy (SEM-EDS), combined with thermodynamic modeling, were used to evaluate performance. Four formulations were selected based on factorial design results. Sample A, with high Na2O, exhibited intense crystallization of merwinite (Ca3MgSi2O8) and perovskite (CaTiO3). Sample B, incorporating B2O3, had reduced crystallization and suitable viscosity (2.97 Pa·s). Sample C, with a slightly higher fluorine content than Sample B and without B2O3, presented balanced low viscosity (1.75 Pa·s) with a moderate crystallization tendency. Sample D, free of fluorine and B2O3, showed high viscosity (4.58 Pa·s) and significant crystallization. These results demonstrate that fluorine-free fluxes with properties comparable to fluorine-based compositions can be developed, offering a sustainable alternative for steelmaking. Industrial trials are necessary to validate their performance under operational conditions. Full article
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38 pages, 92165 KB  
Article
Urban Geoscience: The Challenge of Street Geology
by Eva Pescatore, Mirko Gallo and Salvatore Ivo Giano
Urban Sci. 2024, 8(3), 139; https://doi.org/10.3390/urbansci8030139 - 12 Sep 2024
Cited by 3 | Viewed by 2668
Abstract
Beyond the human-related conception, Urban Science is a broad concept that includes and concerns various interconnected issues linked to Natural, Engineering, Human, Social, and Computational Sciences. Natural Science is represented by issues linked to GeoScience and BioScience. GeoScience issues concern (i) the physical-environmental [...] Read more.
Beyond the human-related conception, Urban Science is a broad concept that includes and concerns various interconnected issues linked to Natural, Engineering, Human, Social, and Computational Sciences. Natural Science is represented by issues linked to GeoScience and BioScience. GeoScience issues concern (i) the physical-environmental aspects linked to (a) design, planning, and expansion of the urban environment; (b) urban management interventions; (c) prevention and (d) mitigation of natural and human-induced risks; (e) defense against natural and human-induced risks and (ii) cultural aspects linked to (a) educational purposes and (b) promoting, enhancing, and disseminating scientific as well as territorial and environmental knowledge and awareness. Geoscience is represented also by Street Geology, a silent geology mainly present in historical centers of urban areas, but not only, and that can be used as an educational tool, an opportunity for broader discussions on geological-environmental and socio-cultural issues. Look, see, understand, and take awareness are four steps that give voice to street geology. This paper highlights some aspects of GeoScience in two different urban areas, located in Southern Italy, represented by (a) the Longobard Walls of Benevento (BN) and (b) the 1794 Vesuvius’ lava flow in Torre del Greco (NA). Full article
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15 pages, 6966 KB  
Article
Xylogenesis Responses to a Mediterranean Climate in Holm Oak (Quercus ilex L.)
by Iqra Liyaqat, Angela Balzano, Francesco Niccoli, Jerzy Piotr Kabala, Maks Merela and Giovanna Battipaglia
Forests 2024, 15(8), 1386; https://doi.org/10.3390/f15081386 - 8 Aug 2024
Cited by 3 | Viewed by 3188
Abstract
Quercus ilex L., an evergreen oak species typical of the western and central Mediterranean basin, is facing decline and dieback episodes due to the increase in the severity and frequency of heat waves and drought events. Studying xylogenesis (the wood formation process) is [...] Read more.
Quercus ilex L., an evergreen oak species typical of the western and central Mediterranean basin, is facing decline and dieback episodes due to the increase in the severity and frequency of heat waves and drought events. Studying xylogenesis (the wood formation process) is crucial for understanding how trees respond with their secondary growth to environmental conditions and stress events. This study aimed to characterize the wood formation dynamics of Quercus ilex and their relationship with the meteorological conditions in an area experiencing prolonged drought periods. Cambial activity and xylem cell production were monitored during the 2019 and 2020 growing seasons in a Q. ilex forest located at the Vesuvius National Park (southern Italy). The results highlighted the significant roles of temperature and solar radiation in stimulating xylogenesis. Indeed, the correlation tests revealed that temperature and solar radiation positively influenced growth and cell development, while precipitation had an inhibitory effect on secondary wall formation. The earlier cell maturation in 2020 compared to 2019 underscored the impact of global warming trends. Overall, the trees studied demonstrated good health, growth and adaptability to local environmental fluctuations. This research provides novel insights into the intra-annual growth dynamics of this key Mediterranean species and its adaptation strategies to climatic variability, which will be crucial for forest management in the context of climate change. Full article
(This article belongs to the Section Forest Ecology and Management)
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21 pages, 27162 KB  
Article
Marine Environments in Front of the Ancient City of Pompeii (Southern Italy) at 79 CE: New Insights for the Unknown Location of the Harbour
by Giuseppe Aiello, Vincenzo Amato, Valeria Amoretti, Diana Barra, Mauro Antonio Di Vito, Domenico Maria Doronzo, Andrea Infante, Antonino Russo, Domenico Sparice and Gabriel Zuchtriegel
Land 2024, 13(8), 1198; https://doi.org/10.3390/land13081198 - 4 Aug 2024
Cited by 2 | Viewed by 5484
Abstract
A multidisciplinary study, including geomorphological, stratigraphic, paleontological and archaeological methods and techniques, allowed for a detailed exploration of coastal landforms and environments in front of the ancient city of Pompeii (southern Italy). The famous site of Pompeii sits on a small volcanic hill [...] Read more.
A multidisciplinary study, including geomorphological, stratigraphic, paleontological and archaeological methods and techniques, allowed for a detailed exploration of coastal landforms and environments in front of the ancient city of Pompeii (southern Italy). The famous site of Pompeii sits on a small volcanic hill in the alluvial-coastal plain of the Sarno River, very close to the ancient paleoshoreline. When the Roman city was buried during the eruption of Vesuvius in 79 CE, pyroclastic fall and flow deposits covered the urban centres and ancient coastal landforms. In this study, 83 new boreholes were carried out up to a depth of 10 m. Some of them (15) were analysed for their sedimentological, stratigraphical and paleontological characterisation, in order to reconstruct the sedimentary environments in 79 CE. The data collected allow for new hypotheses to be formulated regarding the paleoshorelines, as well as the 79 CE coastal landforms and environments. In particular, litho-stratigraphic and fossil assemblages highlight the presence of shallow marine environments in a large back-ridge depression, named Masseria Curati, that is located just outside the city walls. This hypothesis opens new insights on the unknown location of the harbour of the Roman city. Full article
(This article belongs to the Special Issue Where Land Meets Sea: Terrestrial Influences on Coastal Environments)
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