Developing indicators to identify coastal green infrastructure potential: The case of the Salish Sea region
作者: Tugce Conger , Stephanie E. Chang
DOI: 10.1016/J.OCECOAMAN.2019.03.011
关键词:
摘要: Abstract This study investigates where coastal green infrastructure (CGI) can provide highest potential protection benefits, while considering its vulnerability to environmental conditions. CGI provides important however, influenced by climate change and human activities, these benefits are highly threatened. of was not considered in the previous studies. a framework an indicator-based methodology fill this gap. A review literature conducted identify parameters used measure CGI's vulnerability. The content references that contained specific related role were systematically reviewed. total 11 indicators identified organized into two indices: index, index. indices synthesized using 2 × 2 matrix areas with potential. Analysis for 74 most populated communities Salish Sea region. Results indicate British Columbia region have high utilize protection. 59% 36% Washington State even when is accounted for.
openchannels.org参考文章(104)
Todd S Bridges, Kelly A Burks-Copes, Matthew E Bates, Zachary A Collier, J Craig Fischenich, Candice D Piercy, Edmond J Russo, Deborah J Shafer, Burton C Suedel, Joseph Z Gailani, Julie Dean Rosati, Ty V Wamsley, Paul W Wagner, Lauren D Leuck, Emily A Vuxton, None, Use of Natural and Nature-Based Features (NNBF) for Coastal Resilience This Digital Resource was created in Microsoft Word and Adobe Acrobat. ,(2015)
Stephanie E. Chang, Jackie Z. K. Yip, Shona L. van Zijll de Jong, Rebecca Chaster, Ashley Lowcock, Using vulnerability indicators to develop resilience networks: a similarity approach Natural Hazards. ,vol. 78, pp. 1827- 1841 ,(2015) , 10.1007/S11069-015-1803-X
David P. Finlayson, The Geomorphology of Puget Sound Beaches Defense Technical Information Center. ,(2006) , 10.21236/ADA477548
Edward T. McMahon, Mark A. Benedict, Green Infrastructure: Linking Landscapes and Communities ,(2006)
ACS Mol, None, Wave attenuation by vegetation Z3040 WL report, also thesis University of Twente. ,(2003)
Wei-Cheng Wu, Daniel T. Cox, Effects of wave steepness and relative water depth on wave attenuation by emergent vegetation Estuarine Coastal and Shelf Science. ,vol. 164, pp. 443- 450 ,(2015) , 10.1016/J.ECSS.2015.08.009
J.L. Gutiérrez, C.G. Jones, J.E. Byers, K.K. Arkema, K. Berkenbusch, J.A. Commito, C.M. Duarte, S.D. Hacker, J.G. Lambrinos, I.E. Hendriks, P.J. Hogarth, M.G. Palomo, C. Wild, Physical Ecosystem Engineers and the Functioning of Estuaries and Coasts Treatise on Estuarine and Coastal Science. ,vol. 7, pp. 53- 81 ,(2011) , 10.1016/B978-0-12-374711-2.00705-1
V. Gornitz, P. Kanciruk, Assessment of global coastal hazards from sea level rise ,(1989)
NOAM LEVIN, GIORA J. KIDRON, EYAL BEN-DOR, A field quantification of coastal dune perennial plants as indicators of surface stability, erosion or deposition Sedimentology. ,vol. 55, pp. 751- 772 ,(2007) , 10.1111/J.1365-3091.2007.00920.X
Fabrice G Renaud, Karen Sudmeier-Rieux, Marisol Estrella, None, The Role of Ecosystems in Disaster Risk Reduction UNU Press. ,(2013)