The impacts of urbanisation on urban soil carbon – a study from Manchester, UK

2020 ◽  
Author(s):  
Roisin ORiordan ◽  
Jess Davies ◽  
Carly Stevens ◽  
John Quinton ◽  
Christopher Boyko
Keyword(s):  
Carbon Content ◽  
Field Study ◽  
Soil Carbon ◽  
Urban Areas ◽  
Urban Soil ◽  
Urban Soils ◽  
Historical Sources ◽  
Anthropogenic Soils ◽  
Area Of Interest ◽  
Wide Range

<p>The study of anthropogenic soils is a growing area of interest, and as cities continue to expand, urban soils are heavily influenced by human activities. Urbanisation exhibits a wide range of impacts on soil, from buried horizons, compaction, sealing with impervious surfaces, additions of anthropogenic material to being largely man-made soils, or technosols. The properties of urban soil are further complicated by the addition of fertilisers, management strategies in greenspaces and the treatments of soil, including topsoil removal, during construction projects. Therefore, the properties and functions of anthropogenic soils differ notably to that of natural soils, and as such, there is a need to understand the dynamics of soil carbon in urban areas.</p><p>Research on urban soil carbon has been relatively limited, however there is recent growth in this area due to its importance, firstly, as a carbon store contributing to climate regulation, and secondly, in relation to the potential of urban soil to support numerous ecosystem services. Urban soils are highly heterogeneous and anthropogenic carbon additions can come from many current or historical sources, such as charcoal used in old roads, coal ash from power stations, carbon from car tyres, as well as inorganic carbonates in limestone road foundations. Understanding the current stores of carbon, as well as how stable it is, is important to understand likely carbon dynamics and storage potential.</p><p>This work presents a field study across Manchester (UK) where soil carbon data has been collected from soils across urban parks, greenspaces and from under sealed surfaces (roads and pavements). It provides carbon data for a variety of urban contexts and with high spatial variability. We will build on previous work from this field study by presenting i) a typology of urban soils according to anthropogenic content, ii) data for physical size fractionation to understand soil physical properties and texture, and iii) the carbon content of the size fractions to provide a proxy for understanding how labile or stable the carbon is. This will allow us to understand the impacts of soil sealing on the carbon content and build a picture of soil carbon stability across a range of urban situations.</p><p>This research will contribute to the much-needed understanding on how soil carbon behaves in urban areas, and the implications of this for carbon storage in both sealed and urban greenspace soils. </p>

scholarly journals Guideline for the description of soils in the Berlin metropolitan area: an extension for surveying and mapping anthropogenic and natural soils in urban environments within the German soil classification system

2020 ◽  
Author(s):  
Mohsen Makki ◽  
Kolja Thestorf ◽  
Sabine Hilbert ◽  
Michael Thelemann ◽  
Lutz Makowsky
Keyword(s):  
Metropolitan Area ◽  
Classification System ◽  
Urban Areas ◽  
Urban Soil ◽  
Urban Soils ◽  
Soil Classification ◽  
Urban Environments ◽  
Soil Mapping ◽  
Classification Systems ◽  
Anthropogenic Soils

Abstract Purpose In urban areas, humans shape the surface, (re-)deposit natural or technogenic material, and thus become the dominant soil formation factor. The 2015 edition of the World Reference Base for Soil Resources (WRB) describes anthropogenic urban soils as Anthrosols or Technosols, but the methodological approaches and classification criteria of national soil classification systems are rather inconsistent. Stringent criteria for describing and mapping anthropogenic soils in urban areas and their application are still lacking, although more than half (53%) of the urban soils in Berlin are built-up by or contain anthropogenic material. Materials and methods On behalf of the Berlin Senate Department for the Environment, Transport and Climate Protection and in close cooperation with the German Working Group for Urban Soils, a comprehensive guideline for soil description in the Berlin metropolitan area (BMA), with special regard to anthropogenic/technogenic parent material and anthropogenic soils, has been developed. Our approach includes all previous standard works for soil description and mapping and is based on studies that have been conducted in the BMA over the last five decades. Special emphasis was placed on the integration of our manual into the classification system of the German soil mapping guideline (KA5). Results and discussion The extension of existing data fields (e.g., the further subdivision of land use types) as well as the creation of new data fields (e.g., pH value) adapted to the requirements of urban soil mapping has been carried out. Additional technogenic materials that occur in urban environments have been added to the list of anthropogenic parent materials. Furthermore, we designed appendices that clearly characterize typical soil profiles of the BMA and depict technogenic materials, their physical and chemical characteristics, as well as their origin and distribution. Our approach will set new benchmarks for soil description and mapping in urban environments, which will improve the quality of urban soil research in the BMA. It is expected that our approach will provide baselines for urban soil mapping in other metropolitan areas. Conclusions Our guideline is a comprehensive manual for the description of urban soils within a national soil classification system. This mapping guideline will be the future standard work for soil surveys and soil mapping in the federal state of Berlin. Currently, representatives from federal and state authorities are reviewing our guideline, with a view to potentially integrating key components into the classification system of the forthcoming 6th edition of the German soil mapping guideline (KA6).

DEVELOPMENT OF RESEARCH METHODS OF URBAN SOIL TEMPERATURE DYNAMICS

2019 ◽  
pp. 91-100
Author(s):  
Olga Pilipenko ◽  
Anton Abramov ◽  
Elena Skobeleva ◽  
Olga Pchelenok
Keyword(s):  
Temperature Field ◽  
Research Methods ◽  
Urban Areas ◽  
Urban Soil ◽  
Urban Soils ◽  
Experimental Methods ◽  
Temperature Fields ◽  
Actual State ◽  
Automated Control ◽  
Temperature Dynamics

The article shows that the temperature of urban soils is one of the main indicators of their condition. The average value and the nature of the temperature distribution in the soil volume determine the processes of heat transfer between the soil and the air in the urbanized area. This ultimately characterizes the influence of urban soils on the processes of climate formation in urban areas. The analysis of modern methods for studying the temperature dynamics of urban soils is carried out. It was found that research is rational to carry out by combining theoretical and experimental methods. The dis-tribution of temperature fields and heat flux density fields in urban soils under various conditions is deter-mined by mathematical, in particular, numerical methods. Coefficients of thermophysical properties of the soil, as well as verification of some calculated results, are carried out by experimental methods. An analysis of existing experimental research methods revealed a key drawback: a small number of points for simultane-ous temperature measurement in the urban soils volume. A scheme is proposed, as well as a prototype of a means of automated control of the distribution of the temperature field, which allows us to study the tempera-ture dynamics at various depths of the soil profile. To test the means of automated control, comparative studies of the dynamics of the temperature field in the volume of urban soil represented by gray forest soil were carried out. An experimental temperature dis-tribution was obtained over several days; a statistical verification of the results was carried out. Theoretical calculations of the dynamics of the temperature field by the numerical model J.A. Infante Sedano It is estab-lished that the discrepancies between the theoretically predicted and the experimentally estimated tempera-ture field are insignificant, which allows us to use the developed tool for automated control of the tempera-ture field distribution in the soil to assess its actual state when solving numerous fundamental and applied problems.

Physiographic controls on pre-event hydrological states and hydrological response to extreme precipitation in the Alzette River Basin, Luxembourg

2020 ◽  
Author(s):  
Carol Tamez-Melendez ◽  
Judith Meyer ◽  
Audrey Douinot ◽  
Günter Blöschl ◽  
Laurent Pfister
Keyword(s):  
Land Use ◽  
River Basin ◽  
Urban Areas ◽  
Large Scale ◽  
Western Europe ◽  
Flash Flood ◽  
Potential Evapotranspiration ◽  
Hydrological Regime ◽  
Area Of Interest ◽  
Wide Range

<p>The hydrological regime of rivers in Luxembourg (Central Western Europe) is characterised by summer low flows and winter high flows. In winter, large-scale floods are typically triggered by long-lasting sequences of precipitation events, related to westerly atmospheric fluxes that carry wet and temperate air masses from the Atlantic Ocean. In recent years, several flash flood events have been observed in Luxembourg. While being a common feature of Mediterranean river basins, this type of flooding events is uncommon at higher latitudes. The design of the hydro-meteorological monitoring and forecasting systems operated in Luxembourg is not adapted to this type of extreme events and there is a pressing need for a better mechanistic understanding of flash flood triggering mechanisms.</p><p>Here, we explore two lines of research – focusing on (i) the spatio-temporal variability of flash flood generation across a set of 41 nested catchments covering a wide range of physiographic settings (with mixed land use, soil types and bedrock geology) and (ii) the responsivity (resistance) and elasticity (resilience) of these catchments to global change.</p><p>Our area of interest is the Sûre River basin (4,240 km<sup>2</sup>), characterised by a homogenous climate (temperate oceanic), as well as various bedrock (e.g. sandstone, marls, shale) and land use (e.g. forests, grassland, crops, urban areas) types. Based on 8 years’ worth of daily hydrological data (precipitation, discharge and potential evapotranspiration) we computed the increments of the water balance to determine the maximum storage capacity and pre-event wetness state (expressed as storage deficit). Based on the relationship between storage deficit and discharge we first estimated total storage at nearly zero flow conditions. Second, we compared event runoff ratios (Q/P) to pre-hydrological states (as expressed to storage deficit prior to a rainfall-runoff event) in order to assess each catchment’s sensitivity to antecedent wetness conditions. Third, we assessed the responsivity (resistance) and elasticity (resilience) to climate variations – as expressed through the PET/P and AET/P deviations from the Budyko curve – for each individual catchment. Finally, we investigated potential physiographic controls on catchment responsivity and elasticity across our set of 41 nested catchments.</p>

Urban soil ecosystem services: contributing to sustainable urban development

2020 ◽  
Author(s):  
Jessica Davies ◽  
Roisin O'Riordan ◽  
Carly Stevens ◽  
John Quinton ◽  
Chris Boyko
Keyword(s):  
Ecosystem Services ◽  
Urban Development ◽  
Urban Areas ◽  
Urban Soil ◽  
Urban Soils ◽  
Current Knowledge ◽  
Sustainable Urban Development ◽  
Soil Ecosystem ◽  
Services Research ◽  
Soil Ecosystem Services

<p>Soil in urban areas has largely been left out of traditional soil research, however, there is now a growing interest in its importance due to the key role that cities will play in a more sustainable future. Soil provides vital ecosystem services, and these are becoming more pertinent for cities as the population of urban areas continues to grow. Services such as flood regulation, urban food growing, urban heat island mitigation and carbon storage, as well as cultural and recreational services, are unpinned by the healthy functioning of soils.</p><p>The role of urban soil in providing ecosystem services in urban areas is understudied, and the complexities of understanding and quantifying soil ecosystem services has yet to be translated to the varied and highly heterogeneous context of cities. In this work, we will review the literature on soil ecosystem services in cities and present a state-of-the-art picture of current knowledge.</p><p>We will discuss the variation of urban soils, their treatment and management in urban areas, and the associated difficulty in investigating and classifying them. The trends of urban soil ecosystem services research will be presented, considering which services have been most commonly studied across supporting, provisioning, regulating and cultural categories; and in which countries. A co-occurrence analysis of key terms in the literature will also be presented, highlighting further patterns and gaps in knowledge. This will also lead to a discussion on the key drivers behind the soil threats in urban areas, such as soil compaction, sealing with impervious surfaces and contamination.</p><p>The most studied services will be investigated further to allow a more detailed discussion into what we know about these services, and the impacts of urbanisation on their provision. This presentation will bring together the growing body of work on this relatively new research area, will identify gaps in our knowledge, and will highlight the impacts of urbanisation for urban soils. This will inform the way we treat and manage soil in urban areas, helping to optimise the provision of urban soil ecosystem services and contributing to more sustainable urban development for the future.</p>

scholarly journals Urban Pedogeneses

2020 ◽  
Vol 12 (1) ◽  
pp. 250-266
Author(s):  
Germain Meulemans
Keyword(s):  
Waste Management ◽  
Scientific Inquiry ◽  
Urban Areas ◽  
Urban Soil ◽  
Urban Soils ◽  
Ecological Engineering ◽  
Urban Life ◽  
Soil Science ◽  
The World ◽  
Research Experiment

Abstract This article examines the rise of urban soils as a topic of scientific inquiry and ecological engineering in France, and questions how new framings of soil as a material that can be designed reconfigure relationships between urban life and soils in a context of fast-growing cities. As a counterpoint to the current situation, the article first examines how the hard-surfacing of Paris, in the nineteenth century, sought to background the vital qualities of soils in urban areas, making their absence seem perfectly stable and natural. It then shows how the new urban soil science moved away from classical descriptive approaches to soils, and set out to fabricate soils as a research experiment on anthropo-pedogenesis. In the French context, urban soil scientists soon formed new bonds with the worlds of urbanism, administration, and waste management, reframing their approach as a technical response to issues brought by sprawling cities, backgrounding soils again under a trope centered on the management of soil services. These stories allow to critically inhabit soil scientists’ claim that humans participate in pedogenesis by examining the specific conditions in which modern modes of being in the world and urban soils become entangled or disentangled in modern metropolis.

Biscogniauxia (Hypoxylon) Canker or Dieback in Trees

EDIS ◽  
2017 ◽  
Vol 2017 (6) ◽  
Author(s):  
Claudia Paez ◽  
Jason A. Smith
Keyword(s):  
Water Stress ◽  
Tree Species ◽  
Soil Compaction ◽  
Urban Areas ◽  
Root Disease ◽  
Poor Health ◽  
Green Spaces ◽  
Opportunistic Pathogens ◽  
Wide Range ◽  
Quercus Spp

Biscogniauxia canker or dieback (formerly called Hypoxylon canker or dieback) is a common contributor to poor health and decay in a wide range of tree species (Balbalian & Henn 2014). This disease is caused by several species of fungi in the genus Biscogniauxia (formerly Hypoxylon). B. atropunctata or B. mediterranea are usually the species found on Quercus spp. and other hosts in Florida, affecting trees growing in many different habitats, such as forests, parks, green spaces and urban areas (McBride & Appel, 2009).  Typically, species of Biscogniauxia are opportunistic pathogens that do not affect healthy and vigorous trees; some species are more virulent than others. However, once they infect trees under stress (water stress, root disease, soil compaction, construction damage etc.) they can quickly colonize the host. Once a tree is infected and fruiting structures of the fungus are evident, the tree is not likely to survive especially if the infection is in the tree's trunk (Anderson et al., 1995).

Creating the Wind

2020 ◽  
Vol 2 (4) ◽  
pp. 14-31
Author(s):  
Élodie Dupey García
Keyword(s):  
Indigenous Communities ◽  
The Body ◽  
Historical Sources ◽  
Natural Behavior ◽  
Sensory Experiences ◽  
Identity And Agency ◽  
Wide Range ◽  
Late Postclassic ◽  
Comparative Examination ◽  
Meteorological Phenomenon

This article explores how the Nahua of late Postclassic Mesoamerica (1200–1521 CE) created living and material embodiments of their wind god constructed on the basis of sensory experiences that shaped their conception of this divinized meteorological phenomenon. In this process, they employed chromatic and design devices, based on a wide range of natural elements, to add several layers of meaning to the human, painted, and sculpted supports dressed in the god’s insignia. Through a comparative examination of pre-Columbian visual production—especially codices and sculptures—historical sources mainly written in Nahuatl during the viceregal period, and ethnographic data on indigenous communities in modern Mexico, my analysis targets the body paint and shell jewelry of the anthropomorphic “images” of the wind god, along with the Feathered Serpent and the monkey-inspired embodiments of the deity. This study identifies the centrality of other human senses beyond sight in the conception of the wind god and the making of its earthly manifestations. Constructing these deity “images” was tantamount to creating the wind because they were intended to be visual replicas of the wind’s natural behavior. At the same time, they referred to the identity and agency of the wind god in myths and rituals.

URBAN FACADE GEOMETRY ON OUTDOOR COMFORT CONDITIONS: A REVIEW

2020 ◽  
Vol 4 (1) ◽  
pp. 45
Author(s):  
Elahe Mirabi ◽  
Nasrollahi Nazanin
Keyword(s):  
Thermal Comfort ◽  
Urban Areas ◽  
Natural Ventilation ◽  
Flow Behavior ◽  
Air Flow ◽  
Urban Geometry ◽  
Wide Range ◽  
Low Energy Buildings ◽  
Outdoor Comfort ◽  
Solar Access

<p>Designing urban facades is considered as a major factor influencing issues<br />such as natural ventilation of buildings and urban areas, radiations in the<br />urban canyon for designing low-energy buildings, cooling demand for<br />buildings in urban area, and thermal comfort in urban streets. However, so<br />far, most studies on urban topics have been focused on flat facades<br />without details of urban layouts. Hence, the effect of urban facades with<br />details such as the balcony and corbelling on thermal comfort conditions<br />and air flow behavior are discussed in this literature review. <strong>Aim</strong>: This<br />study was carried out to investigate the effective factors of urban facades,<br />including the effects of building configuration, geometry and urban<br />canyon’s orientation. <strong>Methodology and Results</strong>: According to the results,<br />the air flow behavior is affected by a wide range of factors such as wind<br />conditions, urban geometry and wind direction. Urban façade geometry<br />can change outdoor air flow pattern, thermal comfort and solar access.<br /><strong>Conclusion, significance and impact study</strong>: In particular, the geometry of<br />the facade, such as indentation and protrusion, has a significant effect on<br />the air flow and thermal behavior in urban facades and can enhance<br />outdoor comfort conditions. Also, Alternation in façade geometry can<br />affect pedestrians' comfort and buildings energy demands.</p>

Design Intervention Assessment of Urban Public Park for Physical Activity Promotion in Bangkok, Thailand

2020 ◽  
Vol 11 (1) ◽  
pp. 4-4
Author(s):  
Sigit Arifwidodo ◽  
Orana Chandrasiri
Keyword(s):  
Physical Activity ◽  
Urban Areas ◽  
Urban Landscape ◽  
Physical Activity Promotion ◽  
Well Being ◽  
Pilot Project ◽  
Public Park ◽  
Activity Promotion ◽  
Wide Range ◽  
Design Intervention

Public Park is considered one of the essential settings for physical activity, especially in urban areas. Parks support physical activity through their accessibility, their provision to facilitate active pursuits; their capacity to provide opportunities to a wide range of users; and their semi-permanent nature. The paper explores the design intervention assessment of Benchakitti Park, which serves as the pilot project for active park and showcase during the past ISPAH 2016 conference. The objective of the paper is to understand the health and well-being benefits of an urban park in increasing PA levels of urban population and promoting a healthy and active lifestyle. Keywords: Public park; physical activity; urban landscape design; public health; SOPARC

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