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E-raamat: Resilience and Riverine Landscapes

Edited by (Professor of River Science and Chair of Geography and Planning, University of New England, Australia), Edited by (Professor in Physical Geography, Massey University, Palmerston North, New Zealand)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 28-Nov-2023
  • Kirjastus: Elsevier - Health Sciences Division
  • Keel: eng
  • ISBN-13: 9780323972055
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Resilience and Riverine LandscapesSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 28-Nov-2023
  • Kirjastus: Elsevier - Health Sciences Division
  • Keel: eng
  • ISBN-13: 9780323972055
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Resilience and Riverine Landscapes presents contributed chapters from global experts in Riverine Landscapes, making it the most comprehensive reference available on the topic. The book explores why rivers are ideal landscapes to study resilience and why studying rivers from a resilience perspective is important for our biophysical understanding of these landscapes and for society. The book focuses on the biophysical character of resilience in riverine landscapes, providing an interdisciplinary perspective of the structure, function, and interactions of riverine landscapes and the ecosystems they contain. The editors conclude by proposing a research agenda for the future, emphasizing the need for transdisciplinary research across a range of spatial and temporal scales and research domains.
  • Presents the resilience of rivers with both a theoretical and applied focus
  • Includes case studies from a wide geographical base, allowing for a full range of viewpoints
  • Showcases how resilience is being incorporated into the study and management of riverine landscapes
  • Includes a transdisciplinary focus on riverine landscapes, from theory to applied, and from biophysical to social-ecological systems

1. The resilience of riverine landscapes
2. The resilience of riverine ecological communities
3. Resilient Floodplains in the Anthropocene
4. Understanding changing riverine landscapes: INSTABILITY, THRESHOLDS, AND TIPPING POINTS
5. RESILIENCE AND ADAPTIVE CYCLES IN WATER DEPENDENT ECOSYTEMS: CAN PANARCHY EXPLAIN TRAJECTORIES OF CHANGE AMONG FLOODPLAIN TREES?
6. Geomorphic meanings of a resilient river
7. DROUGHT, DISTURBANCE AND RIVER RESILIENCE IN THE SOUTHERN MURRAY DARLING BASIN AUSTRALIA
8. Multi-scale ecological resilience in braided rivers
9. Rivers and resilience: a longer term view from the drylands
10. THE ANTHROPOCENE: RIVERS AND RESILIENCE
11. Invasion wave patterns testify to the resilience of river systems
12. Resilience of Ecosystem Services of a Large River-Floodplain Complex: The Lower Mississippi River System
13. Resilience and the biophysical science of rivers
14. Sustainability and resilience for riverine landscapes
15. Neoliberalism, normativity and agency: constructive tensions in the application of resilience
16. Resilience, Rivers, and Governance: learning from experience
17. Fostering Interactional Resilience in Social-Ecological Riverine Landscapes: A Case Study from the Santa Fe River Watershed in New Mexico, U.S.
18. INDIGENOUS ENGAGEMENT TO SUPPORT RESILIENCE: A CASE STUDY FROM KAMILAROI COUNTRY (NSW, AUSTRALIA).
19. Emerging roles for finance in river restoration and resilience
20. Multi-scale and multi-level dynamics shape the resilience and sustainability of the Columbia River Basin, USA
21. Building resilience in South and Southeast Asian mega-deltas
22. Conceptualising resilience for river management
23. Flow Management Through a Resilience Lens: Allocation of an Environmental Water Budget using the Functional Flows Adaptive Implementation Model
24. RESILIENCE-BASED CHALLENGES AND OPPORTUNITIES FOR FISHERIES MANAGEMENT IN RIVERS OF THE ANTHROPOCENE
25. A framework for river recovery in Anthropocene rivers undergoing regime shift: Application to the Upper Colorado Endangered Fish Recovery Program
26. Slowing the Flow for Climate Resilience in Human-Dominated Riverine Landscapes
27. Circumstances supporting the emergence, flourishing and decline of resilience planning in the Australian State of New South Wales
28. Applying Resilience Thinking to Rehabilitating a Novel Social-Ecological System: A Case Study from the Lower Ok Tedi, Papua New Guinea

Martin Thoms is Professor of River Science and Chair of Geography and Planning at the University of New England, Armidale, Australia. His research activities focus on the boundaries of river science boundaries between different disciplines (geomorphology-hydrology-ecology-biogeochemistry), the science-management-policy boundary and the boundaries between rivers and their floodplains. His research in this domain has occurred in both national and international settings. He is currently Regional Editor for River Research and Applications, on the editorial board of four other international journals and has been President of the International Society for River Science. Ian Fuller is currently Professor in Physical Geography at Massey University in Palmerston North, New Zealand, where he co-directs the Innovative River Solutions group and where he has been based since 2003. His research in fluvial geomorphology provides an integrated understanding of river systems at multiple spatial and temporal scales. He has completed numerous projects for stakeholders in river management and worked in catchments throughout New Zealand, as well as the UK and Europe. Prior to arriving in New Zealand, Ian completed his PhD at the University of Wales, Aberystwyth in 1996, which was followed by a lectureship in Physical Geography at Northumbria University. He is passionate about educating students in NZs rivers and linking geomorphology with river management, and serves on the Executive Committee of Engineering New Zealands Rivers Group.
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