About this book
This professional volume provides scientific background and practical guidance on forest management in light of ecological connectivity. Readers will gain a great understanding of shifting species in response to climate change and the resulting loss of various resources. The main drivers of these variations are the quality of the availability, quantity, and quality of habitats in the landscape, the genetic diversity of species populations, and the ability to navigate through a fragmented landscape matrix. The connectivity of habitats is gaining importance in the combat of both, the biodiversity crisis and the climate change crisis.
Improving ecological connectivity, however, does not automatically benefit all species, as the examples described in the book demonstrate. Specific planning tools, active monitoring protocols, and management measures are needed to increase the benefit for species with low dispersal and small population size, which generally fail to migrate. Assisted migration can help to prevent species extinction, but also offer opportunities for pathogens to cross geographical barriers.
The vast majority of the known diversity of plants, fungi, vertebrates, and invertebrates depends on forest ecosystems. This volume helps to spread this message and prepare students for their later careers in the forestry sector, while also informing active practitioners and policy makers.
Contents
Part 1: Understanding Ecological Connectivity
Chapter 1: Concepts, Measures, and Models for Assessing Connectivity
Chapter 2: Species on the Move: Migration, Range Shifts, and Dispersal of Species
Chapter 3: Do Saproxylic Species Need Habitats, Connectivity, or Connected Habitats?
Chapter 4: The State of Forest Genetic Diversity: Anthropogenic Impacts and Conservation Initiatives
Chapter 5: Genetic Connectivity and Local Adaptation of Forest Trees in the Face of Climate Change
Chapter 6: Forest Ecosystems under Climate Change
Chapter 7: Soil: The Foundation for Ecological Connectivity of Forest Ecosystems
Part 2: Monitoring and Assessment Techniques
Chapter 8: Monitoring Methods for the Protection of Connectivity in Forest Ecosystems
Chapter 9: Monitoring Habitat Fragmentation and Biodiversity in Forest Ecosystems
Chapter 10: Habitat Quality and Quantity: Features and Metrics
Chapter 11: In Situ and Ex Situ Conservation Measures
Chapter 12: Practical Guidance for Rapid Biodiversity Assessment in Central European Forests
Part 3: Restoration, Social Dynamics, and Policy Frameworks
Chapter 13: Restoring Forest Landscape Connectivity- Why, Where and How?
Chapter 14: Assisted Migration as a Climate Change Adaptation Strategy
Chapter 15: Forest Genetic Resources under Climate Change: Institutional Framework, Conservation Measures and Biotechnologies
Chapter 16: Managing Forest Health in Connected Landscapes
Chapter 17: Managing Invasive Alien Species in Forest Corridors and Stepping Stones
Chapter 18: Ecological Connectivity in Urban and Semi-urban Forests
Chapter 19: Connectivity in the Social-Ecological Context and Nature's Contribution to People
Chapter 20: Conservation Initiatives to Connect the Landscape Across Indigenous and Local Communities
Chapter 21: Ecological Connectivity Perspectives for Policy and Practice
Part 4: Case Studies in Ecological Connectivity
Chapter 22: Austria: The Austrian Stepping Stone Program: A Bottom-Up Approach
Chapter 23: Argentina: Balancing Connectivity and Production in Forest Reserves
Chapter 24: Botswana: Stand Structure and Hampered Regeneration of Woody Species in Kazuma Forest Reserve, the Busiest Elephant Corridor in Northern Botswana
Chapter 25: Brazil: Applied Nucleation through Key Microsites
Chapter 26: Chile: Increasing Connectivity for Nature and People in Highly Anthropogenic Landscapes
Chapter 27: China: Ecological Restoration Projects for Connected Landscapes
Chapter 28: Ethiopia: Enhancing Landscape Connectivity through Agroforests
Chapter 29: Hungary and Austria: Best Practice for Habitat and Species Connectivity: European Beech and Sessile Oak
Chapter 30: India: Hotspot of Connectivity Research and Conservation in Central India
Chapter 31: Republic of Korea: Predicting Shifts in Forest Biodiversity
Chapter 32: Mongolia: Connectivity Conservation actions in the Khan Khentii region
Chapter 33: Paraguay: Towards a Landscape Restoration of the Paraguayan Atlantic Forest
Chapter 34: Serbia: Transnational Ecological Corridor Connectivity and Invasive Plant Species (Sava River Basin)
Chapter 35: Tanzania: The Eastern Arc Mountains Forests as World Natural Heritage: Status and Future Prospects
Chapter 36: Tunisia: Genetic Diversity Assessment of Cork Oak Provenance Trials in the Context of Climate Change
Chapter 37: Assisted Regeneration to Restore Lost Forests (Case Study - United Kingdom/Scotland)
Customer Reviews
Biography
Katharina Lapin is the head of the Department for Forest Biodiversity and Nature Conservation at the Austrian Research Centre for Forests (BFW). She holds a PhD in Landscape Planning and Landscape Architecture from the University of Natural Resources and Life Sciences, Vienna. She has made significant contributions to forest biodiversity management, vegetation science, invasion biology, and biodiversity conservation through over 30 publications and participation in more than 20 research projects. Dr Lapin is dedicated to translating scientific results into practical applications, particularly in conservation and restoration programs. She is actively involved in international collaboration and multidisciplinary networks, including the European Network for Environmental Citizenship, the IUCN SSC Invasive Species Specialist Group, and as the Austrian Focal Point for the Forest Invasive Species Network for Europe and Central Asia (REUFIS). She volunteers as an environmental consultant and educator and regularly engages in lectures and workshops to facilitate knowledge transfer. Her primary scientific motivations include assessing and promoting forest biodiversity, particularly in the context of climate change. Dr Lapin is passionate about restoration efforts for forest-related biodiversity and ecosystem services and enjoys the challenges of international, multilingual collaboration. Her extensive expertise and experience make her an ideal editor for a book on the Ecological Connectivity of Forest Ecosystems. Her vision for the book focuses on enhancing understanding and communication, fostering transnational cooperation, and facilitating knowledge transfer to increase connectivity, aligning with her broader goals of improving conservation efforts and ensuring the sustainability of forest ecosystems globally.
Janine Oettel is the head of the Forest Biodiversity Unit at the Department of Forest Biodiversity and Nature Conservation at the Austrian Research Centre for Forests (BFW). She holds a PhD in Biology from the University of Vienna and has a strong background in forestry and nature conservation. Her research primarily focuses on forest-dwelling species and their habitats in the context of climate change, including deadwood, tree-related microhabitats, and other forest structures. She emphasizes the critical importance of these structures for biodiversity and conservation. Janine Oettel's expertise includes modelling the abiotic, biotic, and anthropogenic influences on forest-dwelling species and forest structures. Her doctoral thesis on the characteristics and dynamics of deadwood under forest management and climate change earned her the Stefan M. Gergely Award for Outstanding Dissertations in Environmental, Nature and Species Conservation. Since 2021, Dr Oettel has led the Austrian stepping stone program, dedicated to the nationwide establishment and investigation of stepping stones in forests. This program aims to enhance habitat connectivity and promote biodiversity conservation across the country. Her practical experience and innovative research make her an ideal editor for this book.
Martin Braun is an environmental data analyst at the Austrian Research Centre for Forests (BFW) with substantiated experience in forest sector modelling, natural hazards modelling, forest economics and forest ecology. For eight years Martin Braun worked on analyses relating to market and market dynamics in the forest-based sector. His research focussed on carbon dynamics and the analysis of economic interactions between different sectors of the wood products market. During his work, he made important contributions to the national greenhouse gas inventory and to the development of indicators and stylised facts on the forest-based sector. He has been working as an environmental data analyst at BFW's Institute for Forest Biodiversity and Nature Conservation for three years. There, he has contributed to research on deadwood dynamics, the role of deadwood-dwelling/decomposing insects and the role of non-native trees in the Alpine space. His main areas of research are forest sector modelling with a focus on forest sector carbon budgets and flows as well as modelling market dynamics regarding harvested wood products; deadwood dynamics and forest biodiversity, rapid biodiversity assessment, and biodiversity indicators. Martin complements the editorial team through his interdisciplinary qualifications and years of experience working in Northern and Central Asia.
Heino Konrad, PhD, is the head of the Unit for Ecological Genetics at the Department of Forest Biodiversity and Nature Conservation at the Austrian Research Centre for Forests (BFW). With nearly two decades of extensive research experience, he has established himself as a leading expert in in-situ and ex-situ conservation strategies for forest tree species. His scholarly pursuits have led him to investigate the population history, genetic diversity, and gene flow patterns of tree species across four continents. He has made significant contributions to the field through more than 30 major peer-reviewed publications. In addition to his academic achievements, Heino Konrad is instrumental in the practical implementation of conservation measures in Austria. He oversees the establishment and management of gene-conservation forests (in situ) and gene-conservation seed orchards (ex-situ), ensuring the preservation of genetic diversity within forest ecosystems. Heino Konrad is the national coordinator for Austria of the EUFORGEN network and FAO working group on forest genetic resources. A significant focus of his current research is the provision of forest reproductive material to align with the European Green Deal's objectives for climate change mitigation and biodiversity conservation and restoration. Heino Konrad's research emphasizes the critical importance of maintaining connectivity among populations of forest-dwelling organisms. He conducts genetic studies to monitor the impacts of habitat fragmentation, providing invaluable insights into the long-term survival and adaptability of these species. His comprehensive understanding of ecological genetics and practical conservation applications makes him an ideal candidate to co-edit this volume, bringing both academic rigour and practical expertise to the project.
