83 research outputs found

    Global Atlas of Environmental Parameters for Chemical Fate and Transport Assessment

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    The report describes datasets forming an atlas of global landscape and climate parameters which were collected, homogenized and processed in order to provide input to a global model of chemical fate. The datasets can be used to parameterize the main land and ocean compartments usually considered in fate and transport models, and provide meaningful geographic patterns of the drivers of the environmental fate of contaminants. The maps were specifically designed to be used for a multimedia assessment of pollutant pathways in the environment (MAPPE Global), described in a companion report. The data can be downloaded from the JRC FATE Web sites http://fate.jrc.ec.europa.eu/JRC.DDG.H.5-Rural, water and ecosystem resource

    Enhancing Resilience Of Urban Ecosystems through Green Infrastructure (EnRoute): Inception report

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    This inception report describes the overall goals of EnRoute and the activities that are foreseen in the Project. It also provides a detailed description of the way the three tasks will be executed, and how they will interact with each other (or: how they are linked to each other). The report also contains a rolling plan which will be regularly updated.JRC.D.3-Land Resource

    A European assessment of the provision of ecosystem services - Towards an atlas of ecosystem services

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    Until recently, biodiversity policies were essentially driven by conservation of rare and endangered habitats and species. Although substantial efforts have been undertaken to protect nature, the 2010 target of stopping the loss of biodiversity has not been met. New policies at global and European level have therefore complemented conservation based biodiversity targets using the argument of ecosystem services. Ecosystem services are the benefits people receive from nature. So far, data for mapping such services are strongly biased towards provisioning services such as food and timber production while spatial information of so called regulating and cultural ecosystem services is, largely lacking. This report summarizes the key data needed for mapping ecosystem services at a European scale and presented a first set of maps showing the capacity of ecosystems to provide services.JRC.DDG.H.5-Rural, water and ecosystem resource

    Multimedia Assessment of Pollutant Pathways in the Environment, European Scale Model (MAPPE-EUROPE)

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    The report documents the structure, functions and algorithms used for the modeling of pollutant pathways in air, soil sediments and surface and sea water at the European continental scale. The algorithms are implemented in an extension for ESRI ArcGIS 9.2 a popular geographic information system (GIS) software widely used within the European Commission and in the research, environmental assessment, planning communities. The software is called MAPPE after Multimedia Assessment of Pollutant Pathways in Environment of Europe; the acronym is also the Italian word to denote maps. The purpose of the software is to provide a user-friendly way to convey the wealth of geographic data available to model the fluxes and concentrations of chemical pollutants emitted by industrial activities and other point emissions, and widespread use within households, urban environments or agriculture. The intended use is for organic contaminants such as pesticides, pharmaceuticals, VOCs, and other industrial chemicals. The output of the model, i.e. maps of concentration and chemical fluxes, can be used for the screening of hot spots at continental scale, the assessment of risk for human health and ecosystems, the evaluation of policies and scenarios with reference to the ¿big picture¿ of the continental scale. However this does not avoid the need to use more detailed, site specific assessment procedures for single problems, but provides a tool for decision support in contexts such as the management of priority substances of concern for soil, water and air quality, the control of effects of environmental pollution on human health and ecosystems, and the sustainable management of agro-chemicals, etc. by making available a geographic representation available of the consequences of emissions to air, soil and water compartments.JRC.DDG.H.5-Rural, water and ecosystem resource

    Enhancing Resilience Of Urban Ecosystems through Green Infrastructure (EnRoute): Progress report

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    EnRoute stands for Enhancing Resilience of urban ecosystems through green infrastructure. EnRoute is a project of the European Commission in the framework of the EU Biodiversity Strategy and the Green Infrastructure Strategy. EnRoute provides scientific knowledge of how urban ecosystems can support urban planning at different stages of policy and for various spatial scales and how to help policy-making for sustainable cities. It aims to promote the application of urban green infrastructure at local level and delivers guidance on the creation, management and governance of urban green infrastructure. Importantly, it illustrates how collaboration between and across different policy levels can lead to concrete green infrastructure policy setting. This report describes the progress made by EnRoute since the start of the project (01/12/2016). EnRoute is testing the MAES indicator framework on mapping and assessment of urban ecosystems in 20 cities across Europe. The report collects the relevant policy questions for these cities with respect to urban green infrastructure and identifies which indicators of the MAES analytical framework can be used to support local policy. The report includes the datasets and models that will be used for an EU wide assessment of urban ecosystems and their services. The report contains a first proposal for an online survey on the functionality of a science policy interface on urban green infrastructure at different governance levels. The report describes the contributions of EnRoute to other initiatives: update of the MAES indicator framework for ecosystem condition, the task force on an impact evaluation framework for nature based solutions under Horizon 2020, and the EU urban agenda.JRC.D.3-Land Resource

    Mapping and assessment of urban ecosystems and their services

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    Mapping and assessing ecosystems and their services is one of the key actions of the EU biodiversity strategy to 2020. In 2013 the MAES working group promoted six thematic pilots (focused on conservation status data, natural capital accounting and the main Europe’s ecosystems). In 2015 the MAES working group launched a new pilot on urban ecosystems. The thematic pilot on urban ecosystems has been structured in two phases, the first focuses on information collection and the second on the provision of systematic protocol for a spatially explicit assessment of ecosystems and their services in urban environment. This report presents the results the Pilot on Urban Ecosystems with an analysis of the outcomes of a survey and a literature review that were carried on between June and November of 2015. The survey was set up with the purpose of understanding the type of information that cities are currently applying in order to better incorporate Urban Green Infrastructure (UGI) and ecosystem services in decision making. The literature review was carried out to incorporate information on the research activity related to green infrastructure; conservation / biodiversity and ecosystem services in urban areas.JRC.H.8-Sustainability Assessmen

    Multimedia assessment of pollutant pathways in the environment: a Global scale model

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    The report describes the assumptions, equations and a few examples of preliminary applications of a global spatial steady-state box model entitled Multimedia Assessment of Pollutant Pathways in the Environment (MAPPE-Global). The model grounds on the concept of already developed European version of MAPPE chemical fate model. MAPPE-Global computes the removal rates of a substance with given physical-chemical properties in an evaluative environment for the Globe with a resolution of 1x1 degree considering atmosphere, land (natural and agriculture soils, forests, impervious surfaces, frozen territories), surface water (including lakes, inland wetlands and reservoirs) and oceans and seas. MAPPE-Global is able to consider chemical emissions in one or more of the environmental compartments and estimates chemical concentrations and fluxes accounting chemical partitioning (gas, liquid or solid), degradation, advective and diffusive transport. At this stage, MAPPE Global does not explicitly compute chemical transport in space, but only the fate of a substance at each location in space. However, the model estimates for each grid cell the mass fluxes of chemical that are available for transport inside or outside of the cell, in addition to concentrations from local emissions. Thus, MAPPE Global is developed specifically to respond questions as: • How will a chemical spread across different media in the different climatic and landscape settings? • How important is the variability of environmental processes in determining the fate of chemicals across the globe? In addition, the model enables estimating, for virtually any location in the world, representative parameters of the environmental removal rates that determine the fate of a contaminant. These rates may be used to feed a zero-dimensional time-dependent model that allows computing the main receptors of the chemical emissions. Besides, in order to evaluate the performance of the MAPPE-Global model a comparison with established models, such as Impact World and USEtox was made by crosschecking of the intermedia removal rate coefficients. Finally, MAPPE-Global was used to quantify for a set of 34 representative pollutants at global scale the range of variability of chemical removal rates for the different environmental compartments and to identify the fate patterns of flyers, swimmers, soil-bound and multimedia chemical substances.JRC.H.5-Rural, water and ecosystem resource

    Ecosystem services accounts: Valuing the actual flow of nature-based recreation from ecosystems to people

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    Natural capital accounting aims to measure changes in the stock of natural assets (i.e., soil, air, water and all living things) and to integrate the value of ecosystem services into accounting systems that will contribute to better ecosystems management. This study develops ecosystem services accounts at the European Union level, using nature-based recreation as a case study and following the current international accounting framework: System of Environmental-Economic Accounting – Experimental Ecosystem Accounting (SEEA EEA). We adapt and integrate different biophysical and socio-economic models, illustrating the workflow necessary for ecosystem services accounts: from a biophysical assessment of nature-based recreation to an economic valuation and compilation of the accounting tables. The biophysical assessment of nature-based recreation is based on spatially explicit models for assessing different components of ecosystem services: potential, demand and actual flow. Deriving maps of ecosystem service potential and demand is a key step in quantifying the actual flow of the service used, which is determined by the spatial relationship (i.e., proximity in the case of nature-based recreation) between service potential and demand. The nature-based recreation accounts for 2012 show an actual flow of 40 million potential visits to ‘high-quality areas for daily recreation’, with a total value of EUR 50 billion. This constitutes an important contribution of ecosystems to people's lives that has increased by 26% since 2000. Practical examples of ecosystem services accounts, as shown in this study, are required to derive recommendations and further develop the conceptual and methodological framework proposed by the SEEA EEA. This paper highlights the importance of using spatially explicit models for ecosystem services accounts. Mapping the different components of ecosystem services allows proper identification of the drivers of changes in the actual service flow derived from ecosystems, socio-economic systems and/or their spatial relationship. This will contribute to achieving one of the main goals of ecosystem accounts, namely measuring changes in natural capital, but it will also support decision-making that targets the enhancement of ecosystems, their services and the benefits they provide

    Ecosystem services sustainability in the Mediterranean Sea: assessment of status and trends using multiple modelling approaches

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    14 pages, 5 figures, 3 tables, supplementary information https://dx.doi.org/10.1038/srep34162Mediterranean ecosystems support important processes and functions that bring direct benefits to human society. Yet, marine ecosystem services are usually overlooked due to the challenges in identifying and quantifying them. This paper proposes the application of several biophysical and ecosystem modelling approaches to assess spatially and temporally the sustainable use and supply of selected marine ecosystem services. Such services include food provision, water purification, coastal protection, lifecycle maintenance and recreation, focusing on the Mediterranean region. Overall, our study found a higher number of decreasing than increasing trends in the natural capacity of the ecosystems to provide marine and coastal services, while in contrast the opposite was observed to be true for the realised flow of services to humans. Such a study paves the way towards an effective support for Blue Growth and the European maritime policies, although little attention is paid to the quantification of marine ecosystem services in this context. We identify a key challenge of integrating biophysical and socio-economic models as a necessary step to further this researchPeer Reviewe
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