Connecting the dots : Network analysis, landscape ecology, and practical application

Zetterberg, Andreas

January 2011

Humans have a profound impact on ecosystems, and land-use change constitutes a primary driving force in the loss of biodiversity. Habitat loss and fragmentation are key factors in this process by seriously impeding the habitat availability and movement of species, leading to a significant decrease in population viability. Landscape connectivity management able of crossing administrative and ecological spatial and temporal scales has been identified as one of the most important measures to counteract these negative impacts. The use of graph-theory and network-based landscape-ecological tools has become established as a promising way forward to address these issues. Despite urgent needs to adapt and implement such tools in planning, assessment and decision-making, surprisingly little attention has been paid to developing approaches for their effective practical application. This thesis presents the development of a toolbox with network-based, landscape-ecological methods and graph-theoretic indicators, which can be effectively implemented by practitioners within environmental assessment, physical planning and design, to analyze landscape connectivity. Recent advances in network analysis and landscape ecology are brought together and adapted for practical application, bridging the gap between science and practice. The use of participatory approaches was identified as key to successful development, and several workshops, meetings, interviews, as well as prototype testing of the developed software were conducted throughout the study. Input data and selection of species were based on the experience gained through seven real-world cases, commissioned by different governmental organizations within Stockholm County. The practitioners’ perspectives on effective practical application of the proposed toolbox were then assessed through an interview-study. The respondents anticipated improved communication with other actors in addition to being able to better assess critical ecological structures within the landscape. The toolbox was finally tested in a large-scale network analysis of impacts of the regional development plan (RUFS 2010), leading to important insights on the planning of connectivity in an urbanizing region. / <p>QC 20111125</p>

Network Based Tools and Indicators for Landscape Ecological Assessments, Planning, and Design

Zetterberg, Andreas

January 2009

<p>Land use change constitutes a primary driving force in shaping social-ecological systems world wide, and its effects reach far beyond the directly impacted areas. Graph based landscape ecological tools have become established as a promising way to efficiently explore and analyze the complex, spatial systems dynamics of ecological networks in physical landscapes. However, little attention has been paid to making these approaches operational within ecological assessments, physical planning, and design. This thesis presents a network based, landscape-ecological tool that can be implemented for effective use by practitioners within physical planning and design, and ecological assessments related to these activities. The tool is based on an ecological profile system, a common generalized network model of the ecological infrastructure, graph theoretic metrics, and a spatially explicit, geographically defined representation, deployable in a GIS. Graph theoretic metrics and analysis techniques are able to capture the spatio-temporal dynamics of complex systems, and the generalized network model places the graph theoretic toolbox in a geographically defined landscape. This provides completely new insights for physical planning, and environmental assessment activities. The design of the model is based on the experience gained through seven real-world cases, commissioned by different governmental organizations within Stockholm County. A participatory approach was used in these case studies, involving stakeholders of different backgrounds, in which the tool proved to be flexible and effective in the communication and negotiation of indicators, targets, and impacts. In addition to successful impact predictions for alternative planning scenarios, the tool was able to highlight critical ecological structures within the landscape, both from a system-centric, and a site-centric perspective. In already being deployed and used in planning, assessments, inventories, and monitoring by several of the involved organizations, the tool has proved to effectively meet some of the challenges of application in a multidisciplinary landscape.</p>

Least-cost modeling

Functional connectivity

Environmental planning tool

Resilience

Spatial redundancy

Ecological integrity

Landscape Ecology

Graph Theory

Ecological Network Graphs

Biodiversity

Conservation Biology

Urban Planning

Regional Planning

EIA

SEA

Environmental Assessment

Ecological Indicator

Impact prediction

Habitat suitability

Species distribution

Urban ecology

GIS

Urbanization

Miljöbedömningsverktyg

Landskapsplanering

Resiliens

Ekologisk integritet

Landskapsekologi

Grafteori

Ekologiska nätverk

Biologisk mångfald

Bevarandebiologi

Urban planering

Regional planering

MKB

SMB

Miljöbedömning

Ekologisk indikator

Konsekvensbedömning

Habitatmodellering

GIS

Urbanisering

Natur- och landskapsvård

Environmental engineering

Miljöteknik

Terrestrial ecology

Terrestisk ekologi

Network Based Tools and Indicators for Landscape Ecological Assessments, Planning, and Design

Zetterberg, Andreas

January 2009

Land use change constitutes a primary driving force in shaping social-ecological systems world wide, and its effects reach far beyond the directly impacted areas. Graph based landscape ecological tools have become established as a promising way to efficiently explore and analyze the complex, spatial systems dynamics of ecological networks in physical landscapes. However, little attention has been paid to making these approaches operational within ecological assessments, physical planning, and design. This thesis presents a network based, landscape-ecological tool that can be implemented for effective use by practitioners within physical planning and design, and ecological assessments related to these activities. The tool is based on an ecological profile system, a common generalized network model of the ecological infrastructure, graph theoretic metrics, and a spatially explicit, geographically defined representation, deployable in a GIS. Graph theoretic metrics and analysis techniques are able to capture the spatio-temporal dynamics of complex systems, and the generalized network model places the graph theoretic toolbox in a geographically defined landscape. This provides completely new insights for physical planning, and environmental assessment activities. The design of the model is based on the experience gained through seven real-world cases, commissioned by different governmental organizations within Stockholm County. A participatory approach was used in these case studies, involving stakeholders of different backgrounds, in which the tool proved to be flexible and effective in the communication and negotiation of indicators, targets, and impacts. In addition to successful impact predictions for alternative planning scenarios, the tool was able to highlight critical ecological structures within the landscape, both from a system-centric, and a site-centric perspective. In already being deployed and used in planning, assessments, inventories, and monitoring by several of the involved organizations, the tool has proved to effectively meet some of the challenges of application in a multidisciplinary landscape.

Least-cost modeling

Functional connectivity

Environmental planning tool

Resilience

Spatial redundancy

Ecological integrity

Landscape Ecology

Graph Theory

Ecological Network Graphs

Biodiversity

Conservation Biology

Urban Planning

Regional Planning

EIA

SEA

Environmental Assessment

Ecological Indicator

Impact prediction

Habitat suitability

Species distribution

Urban ecology

GIS

Urbanization

Miljöbedömningsverktyg

Landskapsplanering

Resiliens

Ekologisk integritet

Landskapsekologi

Grafteori

Ekologiska nätverk

Biologisk mångfald

Bevarandebiologi

Urban planering

Regional planering

MKB

SMB

Miljöbedömning

Ekologisk indikator

Konsekvensbedömning

Habitatmodellering

GIS

Urbanisering

Landscape Architecture

Landskapsarkitetktur

Other Environmental Engineering

Annan naturresursteknik

Ecology

Ekologi