Designing a pond and evaluating its impact upon storm-water quality and flow: A case study in rural Australia

Ghofrani, Zahra; Sposito, Victor; Faggian, Robert

doi:10.1515/eces-2019-0036

Artykuł - szczegóły

Tytuł artykułu

Designing a pond and evaluating its impact upon storm-water quality and flow: A case study in rural Australia

Autorzy

Ghofrani Zahra , Sposito Victor , Faggian Robert

Wybrane pełne teksty z tego czasopisma

Identyfikatory

DOI

10.1515/eces-2019-0036

Warianty tytułu

Projektowanie zbiornika wodnego i ocena jego wpływu na jakość i przepływ wód deszczowych: Studium przypadku australijskich obszarów wiejskich

Języki publikacji

Abstrakty

Storm-water management is a common concern in rural catchments where development-related growth causes increases of storm-water flows. Greater magnitude and frequency of storm-water create greater challenges for mitigating storm-water damage and improving water quality. The concept of Blue-Green Infrastructure (BGI) as a solution incorporates a wide range of applicable components with the aim of minimizing the effect of catchment development on flow regimes without changing the watershed morphology. BGI components manage storm-water by decreasing impermeable cover and expanding natural and semi-natural systems to store water or recharge and filter storm-water into the ground. In this paper, guidelines for designing a pond as a component of BGI are provided and, configuration and size of the pond are determined. Moreover, the impacts of the designed pond on storm-water peak flow and quality are assessed for the Tarwin catchment, State of Victoria, Australia. The results indicate that the introduction of the pond would have reduced outfall inflow by 94 % and would have achieved the reduction of 88.3, 75.5 and 50.7 % for total suspended solids, total phosphorus, and total nitrogen respectively, during the extreme weather event in June 2012.

Słowa kluczowe

Blue-Green Infrastructure MUSIC PCSWMM pond sustainable development goals

niebiesko-zielona infrastruktura MUSIC PCSWMM staw cele zrównoważonego rozwoju

Wydawca

Towarzystwo Chemii i Inżynierii Ekologicznej

Czasopismo

Ecological Chemistry and Engineering. S

Rocznik

2019

Tom

Vol. 26, nr 3

Strony

475--491

Opis fizyczny

Bibliogr. 22 poz., rys., wykr., tab.

Twórcy

autor

Ghofrani Zahra

zghofran@deakin.edu.au

Centre for Regional and Rural Futures - School of Life and Environmental Sciences - Deakin University - 221 Burwood Highway, Burwood, Victoria 3125, Australia, phone +613 9251 7327

autor

Sposito Victor

Centre for Regional and Rural Futures - School of Life and Environmental Sciences - Deakin University - 221 Burwood Highway, Burwood, Victoria 3125, Australia, phone +613 9251 7327
v.sposito@deakin.edu.au

autor

Faggian Robert

Centre for Regional and Rural Futures - School of Life and Environmental Sciences - Deakin University - 221 Burwood Highway, Burwood, Victoria 3125, Australia, phone +613 9251 7327
r.faggian@deakin.edu.au

Bibliografia

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[6] Finlayson CM Mitchell DS. Australian wetlands: the monitoring challenge. Wetlands Ecology Manage. 1999;7(1-2):105-112. DOI: 10.1023/A:1008437529037.
[7] Finlayson CM Rea N. Reasons for the loss and degradation of Australian wetlands. Wetlands Ecology Manage. 1999;7(1-2):1-11. DOI: 10.1023/A:1008495619951.
[8] Pressey RL Middleton MJ. Impacts of flood mitigation works on coastal wetlands in New South Wales. Wetlands Australia J. 2009;2(1): 27-44. DOI: 10.31646/wa.57.
[9] Kazmierczak A Carter J. Adaptation to Climate Change Using Green and Blue Infrastructure. A Database of Case Studies. Manchester: University of Manchester; 2010. http://orca.cf.ac.uk/64906/1/Database_Final_no_hyperlinks.pdf.
[10] Thorne CR Lawson EC Ozawa C Hamlin SL Smith LA. Overcoming uncertainty and barriers to adoption of Blue-Green Infrastructure for urban flood risk management. J Flood Risk Manage. 2015. DOI: 10.1111/jfr3.12218.
[11] Ghofrani Z Sposito V Faggian R. Designing resilient regions by applying Blue-Green Infrastructure concepts. WIT Transactions Ecol Environ. 2016;204:493-505. DOI: 10.2495/sc160421.
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[13] West Gippsland Catchment Management Authority (WGCMA). West Gippsland Wetlands Plan PART A - Background & Method Technical Report Victoria Australia. 2007. https://www.wgcma.vic.gov.au/wp-content/uploads/2015/07/West-Gippsland-Wetlands-Plan-Part-A-Background-and-Method.pdf.
[14] West Gippsland Catchment Management Authority (WGCMA). West Gippsland Native Vegetation Plan Technical Report Victoria Australia. 2003. https://www.wgcma.vic.gov.au/wp-content/uploads/2016/04/2003-Native-Vegetation-Plan.pdf.
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Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-1fe5575c-1264-4dd6-8a12-a42eb8794c05