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07350nam a22002297a 4500 |
| 003 - CONTROL NUMBER IDENTIFIER |
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OSt |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
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20240729092950.0 |
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240729b |||||||| |||| 00| 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9781597261135 |
| 040 ## - CATALOGING SOURCE |
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| Transcribing agency |
krvia |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Edition number |
720.47/BRI |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
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| Personal name |
Brierley, Gary |
| 9 (RLIN) |
5795 |
| 245 10 - TITLE STATEMENT |
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| Title |
River Futures: an integrative Scientific approach to river repair |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. |
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| Place of publication, distribution, etc. |
Washington, |
| Name of publisher, distributor, etc. |
Island Press |
| Date of publication, distribution, etc. |
2008 |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
304p. |
| 365 ## - TRADE PRICE |
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| Price type code |
Rs |
| Price amount |
Rs.2000 |
| Currency code |
Rs |
| Unit of pricing |
25 |
| Price note |
Rs.1500 |
| Price effective from |
22/07/2024 |
| 500 ## - GENERAL NOTE |
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| General note |
i<br/>Part A: The emerging process of river repair<br/>1<br/>Chapter 1 Moves towards an era of river repair<br/>Gary Brierley and Kirstie Fryirs<br/>4<br/> The emerging process of river repair<br/> The emergence of integrative river science<br/> Framing what we are trying to achieve in the process of river repair<br/> Structure of the book<br/>Chapter 2 Vision Generation: What do we seek to achieve in river rehabilitation?<br/>Darren Ryder, Gary Brierley, Richard Hobbs, Garreth Kyle and Michelle Leishman<br/>23<br/> Use of a guiding image to set rehabilitation goals<br/> Scientific considerations in vision generation<br/> Assessing rehabilitation success<br/> Socio-economic considerations: An inclusive approach to vision generation<br/> Incorporating a guiding image in into successful river rehabilitation practice<br/> Conclusion<br/>Chapter 3 Turbulence and train wrecks: Using knowledge strategies to enhance application of integrative river science to effective river management<br/>Andrew Boulton, Hervé Piégay and Mark Sanders<br/>47<br/>Sources of turbulence<br/>Reducing turbulence with shared beliefs: tenets and commitments<br/>Seeking ¿solvable problems¿: comparative analysis of knowledge structures<br/>Four logical steps to evaluate knowledge structures<br/>Strategies for constructing solvable problems: difficulties and potential solutions<br/>Prognosis and conclusions<br/>Part B: An integrative scientific perspective with which to guide the process of river repair<br/>66<br/>Chapter 4 The spatial organization of river systems<br/>Carola Cullum, Gary Brierley and Martin Thoms<br/>69<br/>Perspectives on the spatial organization of river systems<br/>An integrated perspective: analyzing river systems as spatially nested hierarchies<br/>Challenges in determining scales and patch boundaries<br/>Biotic implications of the spatial arrangement of geomorphic process domains<br/>Management implications<br/>Conclusion<br/>Chapter 5 Working with change: The importance of evolutionary perspectives in framing the trajectory of river adjustment<br/>Gary Brierley, Kirstie Fryirs, Andrew Boulton and Carola Cullum<br/>106<br/>Understanding contemporary river dynamics in their evolutionary context<br/>Scales and forms of geomorphic adjustment<br/>Linkages between abiotic and biotic adjustments along rivers<br/>Conceptualizing river evolution and recovery as a basis for management planning and action<br/>Examples of river trajectories<br/>Place-based conceptual modeling<br/>Conclusions and implications <br/>Chapter 6 Ecological function in rivers: insights from crossdisciplinary science<br/>Sarah Mika, Andrew Boulton, Darren Ryder and Daniel Keating<br/>138<br/>Interactions between structure and function<br/>Interactions between structure and function in space and time<br/>Connectivity within riverine ecosystems<br/>Examples of crossdisciplinary research on ecological function<br/>Synthesis and conclusion<br/>Chapter 7 Principles of River Condition Assessment<br/>Kirstie Fryirs, Angela Arthington and James Grove<br/>170<br/>Purposes of river condition assessments<br/>Ecosystem integrity as a basis for assessing biophysical river condition<br/>Integrating abiotic and biotic factors in assessments of river condition<br/>What is natural or expected? Defining reference conditions<br/>Identifying indicators that provide a reliable and relevant measure of the biophysical condition of rivers<br/>Considerations in the design/application of integrative frameworks for assessing biophysical condition<br/>Integrating tools for assessing river condition<br/>Conclusion<br/>Chapter 8 Social and biophysical connectivity of river systems<br/>Mick Hillman, Gary Brierley and Kirstie Fryirs<br/>203<br/>Connectivity and River Health<br/>Forms, patterns and changes to physical (dis)connectivity<br/>Social (dis)connectivity<br/>Contrasting sub-catchments from the Hunter Valley, New South Wales<br/>Interbasin Transfers: The Snowy Hydro Scheme<br/>(Dis)connectivity: themes for integrative river management<br/>Synthesis: Sustainability, health, justice and policy in addressing (dis)connectivity<br/>Conclusion<br/>Part C: International perspectives on the process of river repair<br/>243<br/>Chapter 9 The Australian River Management Experience<br/>Kirstie Fryirs, Bruce Chessman, Mick Hillman, David Outhet, and Alexandra Spink<br/>246<br/>Setting the scene: The Australian landscape and historical setting<br/>Biophysical themes in Australian river management practice: What is achievable?<br/>The organizational context of Australian river management practice: The capacity to do something<br/>Social themes in Australian river management practice: Community will to do something<br/>Integration and future challenges<br/>Conclusion<br/>Chapter 10 River Management in the United States<br/>Ellen Wohl, Margaret Palmer and G. Mathias Kondolf<br/>283<br/>How healthy are rivers in the United States?<br/>Policy and legal framework<br/>Contemporary pressures and constraints on water resources<br/>Likely future influences on river management<br/>Strategies for river protection and rehabilitation<br/>Examples of river rehabilitation<br/>What does the future hold for rivers in the United States?<br/>Chapter 11 Integrative River Science and Rehabilitation: Some European Experiences<br/>Herve Piégay, Larissa Naylor, Gertrud Haidvogl, Jochem Kail, Laurent Schmitt and Laurent Bourdin<br/>332<br/>Emergence of integrative river science in European Countries<br/>Integrative sciences in pioneer rehabilitation programs<br/>Challenges approaching implementation of the European WFD<br/>Conclusion<br/>Chapter 12 Light and dark of Sabo-dammed streams in steepland settings in Japan<br/>Tomomi Marutani, Shun-ichi Kikuchi, Seiji Yanai and Kaori Kochi<br/>365<br/>Why have we developed the Sabo dam country?<br/>Japanese experiences with discontinuity of geoecological interactions along river courses<br/>Management of dammed streams for environmental care<br/>Conclusion<br/>Chapter 13 Application of Integrative Science in the Management of South African Rivers<br/>Kate M. Rowntree and Leanne du Preez<br/>399<br/>South African water legislation, Agenda 21 and South African river management<br/>The reserve as an example of South African management frameworks<br/>Future fluvial geomorphologies<br/>Integrative science and the future of South African river management<br/>Conclusion<br/>Part D: Managing the process of river repair<br/>433<br/>Chapter 14 Restoring Uncertainty: Translating science into management practice<br/>Mick Hillman and Gary Brierley<br/>435<br/>Sources of uncertainty in the management of river systems<br/>The assessment of condition in river management: characteristics and uncertainty<br/>Uncertainty and Sustainability<br/>Living with uncertainty in the era of river repair<br/>Conclusion<br/>Chapter 15 River Futures<br/>Gary Brierley, Kirstie Fryirs and Mick Hillman<br/>465<br/>The emerging process of river repair<br/>The use of coherent scientific information to guide the process of river repair<br/>Managing the process of river repair<br/>Conclusion |
| 650 10 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name entry element |
architecture and environment |
| 700 ## - ADDED ENTRY--PERSONAL NAME |
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| Personal name |
Fryirs, Kirstie (Ed.) |
| 9 (RLIN) |
5796 |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
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| Source of classification or shelving scheme |
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| Koha item type |
Book |
| 952 ## - LOCATION AND ITEM INFORMATION (KOHA) |
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| Current library |
Kamla Raheja Vidyanidhi Institute for Architecture and Environmental Studies |
| Koha item type |
Book |
