Felix Müller, Ingo Zasada, Regine Berges (ZALF) Klaus Müller, Armin Werner, Verena Toussaint, Annette Piorr Linking European Land Use Change and Landscape.

Slides:

Advertisements

Similar presentations

Landscape Ecological Potential Author: JL Weber et al., EEA Discussant: Lars Hein, Wageningen University.

Advertisements

Sustainable Rangelands Roundtable Development and Evolution of the Criteria and Indicators.

Integrated GMES Project on Landcover and Vegetation geoland Grid based Spatial Disaggregation of Population Data Klaus Steinnocher – ARC systems research.

Applications jlw, 17 February INDEXES OF TEMPERATURE IN NATURA 2000 SITES.

Overview at the European scale of potential impacts of TEN-T axes on core areas of nature protection and landscape connectivity – neighbourhood analysis.

Land Cover in Europe lessons learned from CORINE land cover and new perspectives European Environment Agency (EEA) Markus Erhard.

Process – Resource Evaluation Design and perform a set of geographically based resource assessments Develop a methodology for prioritizing land according.

8-9 October 2009 The ESPON 2013 Programme: Prospects and Achievements Regional and Urban Statistics Working Group meeting.

Establishment of park and green areas for the residential development project Sang Don LEE and Sung Ok Kim Department of Environmental Science and Engineering,

Building of Research Team in the Field of Environmental Modeling and the Use of Geoinformation Systems with the Consequence in Participation in International.

Measuring the Impact of the RDP Issues being addressed at an EU level with regards to measuring the impact of the Rural Development programmes B. Schuh.

Spatial analysis tools for biodiversity indicators on habitats and ecosystems Expert meeting on multi-scales mapping and integrated analysis of landscape.

How many possums and where? The National Possum Model James Shepherd & Mandy Barron.

E-LUP, second review, Brussels WP3 Case studies.

Urban Ecology: of or in? September 4 th, Cities Agglomerations of people and their activities Multispecies, but it is humans that make a system.

Spatial data for integrated assessment of urban areas Andrus Meiner European Forum for Geostatistics 12 October 2011, Lisbon.

Spatial Analysis at EEA and CORINE Land Cover GeoForum meeting, EEA, 18 th May 2010.

The Implementation of Land and Ecosystem Accounts in Europe Towards integrated land and ecosystem accounting Roy Haines-Young, University of Nottingham.

Biodiversity, species, habitats and landscapes. Introduction 5.1. Biodiversity concepts and policies Trends – loss CBD – MEA-Malahide EU and RF policies.

1 Expert workshop on components of EEA Ecosystem Capital Accounts (ECA) Focus on biomass carbon and biodiversity data 24/03/2015.

1 Expert workshop on components of EEA Ecosystem Capital Accounts Focus on biomass carbon and biodiversity data 24/03/2015.

Corine land cover, Land accounts and scenario development An introduction Jean-Louis Weber & Ferràn Paramo 26 February 2003.

RIKSDeSurvey Module 1.2 Module 1.2 Socio economic drivers Annual meeting 2006 INEA Istituto Nazionale di Economia Agraria UC3MUniversidad Carlos III de.

Workshop D Natural heritage CAP impact.

CBD COP10 Nagoya - World Bank Global Partnership for Ecosystem Valuation 25 October 2010 The Ecosystem Capital Accounts Fast Track Implementation Project.

CCAT approach to assessing CC impacts Roel Jongeneel.

Integrating biodiversity measurements, assessments and policy responses in an ecosystem capital accounting framework. J-L Weber, R. Spyropoulou, A.T. Peterson.

JRC-AL – Bonn on Disaggregation of CAPRI results Renate Köble Adrian Leip.

Review of the ecosystem condition account

European Environment Agency Land and Ecosystem Accounting 2008 Demonstration of Agro-Fuel and Urban Intensification Modelling Scenarios using Existing.

1 Land accounts in Europe – current state and outlook Land accounts 01/10/2015 Daniel Desaulty

Module 2: GIS and data CCM version2, and other necessary data layer (JRC) Positioning of EIONET-water sites within the geometry of the catchment areas.

Using Population Data to Address the Human Dimensions of Population Change D.M. Mageean and J.G. Bartlett Jessica Daniel 10/27/2009.

Contact © European Union, 2012 Use of low-resolution satellites for permanent pasture yield estimation at regional scale. Lorenzo.

What is it about? Presents first results of applying MAES analytical framework and outlines the advantages and constraints of European ecosystem assessments.

NERI Roskilde Tuesday, May 18 th 2004 EEA activities and projects on spatial analysis and land accounting Jean-Louis Weber, EEA LANDSCAPE EUROPE Seminar.

Implementation of Simplified Ecosystem Capital Accounts for Europe Jean-Louis Weber Adviser to the European Environment Agency on Economic-Environmental.

Accounting for ecosystems & biodiversity at the EEA Jean-Louis Weber Environmental accounting / Spatial analysis.

Land accounts at the EEA Jean-Louis Weber & Ferràn Paramo 3 February 2004.

What if? prospects based on Corilis Alex Oulton, Manuel Winograd Ronan Uhel & Jean-Louis Weber LAND QUICK SCAN INTERFACE: Challenges and needs Internal.

Forecasting Land Use Change at European and at Urban Level: SASI and PROPOLIS EEA Expert Meeting on Land Use Accounting Copenhagen, 16 March 2005 Spiekermann.

The concept of the integrated spatial platform for land, water and biodiversity Ronan Uhel.

PRELUDE PRospective Environmental analysis of Land Use Development in Europe European Environment Agency PRELUDE European Environment Agency.

Modelling with CORILIS Change in land cover patterns, landscape ecological potential & “temperatures” on N2000, river basins and UMZ Wire frame and examples.

Assessment of the state of coasts in Europe – EEA activities and needs Andrus Meiner, European Environment Agency European Conference on Coastal Zone Research:

3rd EIONET workshop on Climate Change Impacts, Vulnerability and Adaptation EEA, 30 June 2009 SEBI 2010, climate change and connectivity Katarzyna Biała.

Land Use and Spatial Planning in Biodiversity 2020 Strategy EIONET Interest Group on Land Use and Spatial Planning Sep Markus Erhard, European.

Markus Erhard European Environment Agency (EEA) 1. Introduction:

Migration Modelling using Global Population Projections

Agri-environmental indicators and GIS-based models - Instruments to assess sustainability of land use systems on regional level Karl-Otto Wenkel and Alfred.

Achievements in Wildland Fire Risk Mapping

Workshop on Land Accounts and urban morphology, ETC-CE, 12 july 2006

Environmental Intelligence Platform – Monitoring Nutrients Pollution with Earth Observation Data for Sustainable Agriculture and Clean Waters Blue.

Land use and spatial planning (LUSP)

Land accounts at the EEA

Markus Erhard European Environment Agency (EEA) 1. Introduction:

Land use and spatial planning (LUSP)

Landscape Indicators using EU wide datasets

Pan-European Assessment of Riparian Zones

Spatial data needs in EU Regional Policy

The ESPON 2013 Programme: Regional and Urban Statistics

Mapping and assessment of ecosystem and their services

Mandate of the EEA To provide the Community and Member States with:

Regional accessibility indicators: developments and perspectives

Working party ‘Agriculture and Environment’, Eurostat, June 2008

Outline The 2010 Baseline – Rubicode matrix

Sustainable use of ecosystem services in Europe’s regions

Corine Land Cover and Land & Ecosystem Accounting tools

Interreg Annual Meeting

Geo-enabling the SDG indicators – experiences from the UN Global Geospatial Management and the GEOSTAT 3 project Agenda item 12 Ekkehard PETRI – Eurostat,

Presentation transcript:

Felix Müller, Ingo Zasada, Regine Berges (ZALF) Klaus Müller, Armin Werner, Verena Toussaint, Annette Piorr Linking European Land Use Change and Landscape related Sustainability Assessment: Indicators, Methodology and preliminary Results in PLUREL Module 2

Land Use Change Modelling Our Objective (WP 2.3, Zalf) Module 1 Demographic, ecologic and economic scenarios for Europe Quantification Land Use Change Modelling (Red/Green) Module 2 Analysis of Urban Rural Relations on European Level for NUTS X (2/3) Regions Response Functions for Issues (Settlement, Traffic, Social Issues, Jobs, Population, Ecologic Issues) Zalf Objectives: Response Functions for Biodiversity, Recreation, Agriculture, Soil Module 3/4 Impact assessment on different spatial levels Indicator Framework Module 5 Sustainability Impact Assessment Tool for Urban Rural Regions SIAT RUR Develop Response Functions (=Regression models) for landscape parameters! Do it on NUTS X/3 level! Link the M1 scenario and LUC outcomes with sustaibanility issues (M4/5)!

Research Conception Quantitative Change of Land Cover (urban/AC) CLC and derivatives Mostly Eurostat Quantitative Change of Land Cover (urban/AC) Socio-economic Develop-ment - Agricultural Land Use - Farm Size - AC Output - AC Employment - Urban Fabric - Artificial Surface - GDP Change - Population Dev. - Employment - Households - Mobility Urban Rural Regime: - Settlement Morphology - Degree of Urbanisation - Planning and Governance - Bio-physical Constraints RUR- Typology Landscape Structure Changes, Land Use Patterns  Impact on Sustainability

Procedure 1. Finding relevant landscape indicators/metrics 2. find out how they respond to NEMESIS outcomes (socioeconomic, demographic change, urban and agricultural LUC) 3. Create a reliable regression function (Response Function)

Non-interrupted low traffic area and infrastructure network Dependent Variables (1/4) Non-interrupted low traffic area and infrastructure network Non-interrupted low-traffic areas 1997 Indicator of landscape fragmentation Background: Landscapes’ potential for biodiversity & recreation is influenced by the size of habitats without physical barriers Minimum size threshold 100 SQKM at pan-European scale (Lassen 1990) Main Infrastructure Network 1997 Indicator of landscape fragmentation Background: Elements of physical barriers with landscape related to disruption of open spaces and species habitats fragmentation geometry (km network per SQKM area) Infrastructure network data provided by EUROSTAT

Dependent Variables Non-interrupted low traffic area and infrastructure network

CORILIS Standard Deviation 2000: Compactness vs. Dispersal Dependent Variables (2/4) CORILIS Standard Deviation 2000: Compactness vs. Dispersal Smoothing of CORINE Land-use data Shading indicates probability to bump into urban fabric Further processing: Standard deviation of raster values for each region  expression of degree of compactness of settlement) developed by French Environment Institute (IFEN) and French National Institute for Statistics and Economic Studies (INSEE); Provided by EEA

Dependent Variables CORILIS Standard Deviation

Dependent Variables (3/4) Green Background Index 2000: Landscape Fragmentation/Ecologic Potential Indicator of landscape fragmentation Background: Landscapes potential for biodiversity & recreation is influenced by the size of habitats without physical barriers Aggregated Index of CORILIS components for “green” classes (Pastures & mixed farmland, Forests and transitional woodland shrub, Natural grassland, Heathland, Sclerophylous vegetation, Open space with little or no vegetation and Water bodies) Provided by the EEA

Dependent Variables Green Background Index

Natural and Semi-Natural Area 1990-2000: Ecologic Value Dependent Variables (4/4) Natural and Semi-Natural Area 1990-2000: Ecologic Value Considered to by ecologically valuable Derived from CORINE LAND COVER Aggregation of classes: agricultural area with high share of semi-natural areas, pastures, meadows, grassland, shurbland, wetlands (243, 321-423)

Dependent Variables Semi-/Natural Area

Overview Vortrag

Independent Variables Urban LU Share 1990/ 2000, change AC LU Share 1990/ Demographic indicators Economic indicators

Data Availability CORILIS CLC CORLIS GBI CLC CLC 1990 2000 2006 Traffic Network Fragmentation CORLIS GBI CLC CLC Farm Size, Agricultural Output, Economic Structure NUTS 2 GDP, Population, Population Density, GDP/Capita NUTS 3

Relations of Independent Variables Pearson Correlation Matrix for independent Variables (as basis for influencing factors) Area in sqkm Population 1990 Relative population development 1990-2000 Relative Growth of GDP 1990-2000 GDP per capita 1995 Relative growth of GDP per capita Share of artificial surface 1990 Share of agricultural area 1990 Relative change of share of artificial surface 1990-2000 Relative change of share of agricultural area 1990-2000 1,000 ,301 -,181 ,421 -,340 ,266 -,403 ,038 ,206 ,212 -,032 ,231 ,065 ,193 ,131 -,034 ,049 -,148 -,078 ,081 -,068 -,175 ,199 ,061 ,047 -,368 ,731 -,221 ,004 ,181 ,048 -,222 ,552 -,161 -,192 -,306 -,090 -,023 ,247 -,057 -,261 -,251 -,466 ,075 ,149 -,076

Relations of Dependent and Independent Variables: Cross Section Pearson Correlation Index for dependent and independent Variables in general (static for the year 2000) Share of natural and semi-natural areas CORILIS 1 standard deviation Green Background Index Fragmentation geometry in km/km2 Share of non-interrupted low traffic areas Region size 0,256 -0,283 0,255 -0,358 0,424 Share of artificial surface area -0,304 0,715 -0,513 0,839 -0,673 Share of agricultural area -0,367 -0,127 -0,396 -0,214 0,087 GDP per person -0,219 0,427 -0,199 0,542 -0,361 Population density -0,183 0,443 -0,394 0,640 -0,654

Relations of Dependent and Independent Variables: Longitudinal Pearson Correlation Index for dependent and independent Variables in general (dynamic for the period 1990-2000) Relative change of share of natural and semi-natural areas Relative change of share of forest and semi-natural areas Relative change of the share of urban green Static independent variables 1990 Region size -0,066(s) -0,046 0,065(s) Share of artificial surface area 0,047 0,026 0,080(s) Share of agricultural area -0,047 0,103(s) 0,028 GDP per person 0,088(s) 0,022 -0,011 Population density 0,036 0,011 -0,064 Share of economically active population -0,032 0,027 Dynamic independent variables 1990-2000 Relative change of share of artificial surface -0,028 -0,006 0,249(s) Relative change of share of agricultural area -0,096 -0,269(s) -0,082(s) Growth of GDP -0,055 0,005 -0,030 Growth of GDP per person -0,040 0,039 0,066 Population development -0,021 -0,020 0,185(s)

Relations of Dependent Variables Pearson Correlation Matrix for dependent Variables (as basis for composite indicators) Share of natural and semi-natural areas CORILIS 1 standard deviation Green Background Index Fragmenta-tion geometry in km/km2 Share of non-interrupted low traffic areas Relative change of share of natural and semi-natural areas Relative change of share of forest and semi-natural areas Relative change of the share of urban green 1,000 -0,271 0,496 -0,392 0,095 -0,036 -0,040 0,082 -0,377 0,698 -0,617 0,045 0,062 -0,131 ,0496 -0,425 0,359 0,012 -0,038 0,116 Fragmentation geometry in km/km2 -0,767 0,073 0,043 -0,091 0,006 0,022 0,048 Relative change of share of natural and semi-natural areas active population 0,140 -0,008 -0,009 ,0116

Procedure 1. Cross Section Regression only! 2. Factorising independent variables to eliminate cross correlations 3. Possibly Composite indicators for dependent variables 4. Integration of RUR-Typology?

Degree of Fragmentation by TN Regression 1/2: General Degree of Fragmentation by TN

Does the RUR Typology (ARCS) help? 1.0 Very Large Monocentric 1.1 Large Monocentric 1.2 Medium Monocentric 2 Urban Polycentric 3 Dispersed Polycentric 4 Rural  ANOVA shows relevance for all static dependent variables.

Regression Results Overview Target Variable Adjusted general Adjusted with Typology CORILIS Standard Deviation 0,569 0,664 GBI Average 0,268 0,306 Fragmentation by Traffic Networks 0,679 0,698 Share of UFLT Area 0,441 0,478 Share of Natural/ Semi-Natural Area 0,222 0,250

Präsentation Indikatoren CORILIS Urban Area

Präsentation Indikatoren Green Urban Area

Präsentation Indikatoren Green Urban Area

Präsentation Indikatoren Green Urban Area

Präsentation Indikatoren Green Urban Area

Präsentation Indikatoren Green Urban Area

Outlook (or Watch Out?) 1. Better longitudinal results with CLC 2006? 2. Integrating additional variables disaggregated from NUTS 2 using CLC coverage (compare other work being done on usefulness of CLC for inter-regional comparisons 3. Integrate other non-metric variables like Nation State/Planning System, bio-physical Macro Region Characteristics 4. Harmonisation of Temporal Referencing of Data 5. Customised Landscape Metrics? 6. Relation to M1 NEMESIS and CLUE?