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Urban Ecosystems

Erschienen in:

28.08.2018

Exploring structural habitat heterogeneity in sustainable urban drainage systems (SUDS) for urban biodiversity support

verfasst von: Rikke Juul Monberg, Andy G. Howe, Hans Peter Ravn, Marina Bergen Jensen

Erschienen in: Urban Ecosystems | Ausgabe 6/2018

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Abstract

Implementation of sustainable urban drainage systems (SUDS) as part of cities’ transition towards climate resilience encompasses unique opportunities to enhance urban nature qualities. SUDS include individual elements integrated in the urban landscape, e.g. rain gardens or wet basins, which are usually constructed with low structural heterogeneity. Structural heterogeneity of habitats is, however, associated with a high degree of biodiversity. This study explored potentials of habitat heterogeneity enhancement in SUDS using structural heterogeneity as a proxy for biodiversity potential. In an interdisciplinary workshop, landscape architects and urban ecologists designed individual SUDS elements with enhanced structural habitat heterogeneity, hereafter bio-SUDS. The redesigned SUDS elements were infiltration trench, curb extension, rain garden, swale, wet basin, and dry basin. To evaluate the bio-SUDS designs, we developed an index of habitat heterogeneity in SUDS based on registration of 45 structurally important components. The conversion from standard SUDS to bio-SUDS entailed substantial increases in structural heterogeneity ranging from 4 to 18 additional components within elements. Larger bio-SUDS elements returned higher index scores, but the relative score increases were substantial for all bio-SUDS and in the range of a factor of 2–5.5. Increased terrain differences, meandering edges, stones, gravel, boulders, deadwood, and brown roof-like vegetation were the components most often employed in the bio-SUDS designs. In conclusion, implementation of bio-SUDS has potential to increase structural habitat heterogeneity thereby providing habitat for biodiversity in urban green areas. The developed bio-SUDS index can assist in future assessments of ecological qualities in designs and real-world SUDS elements.

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Aronson MF, Lepczyk CA, Evans KL, Goddard MA, Lerman SB, MacIvor JS, Nilon CH, Vargo T (2017) Biodiversity in the city: key challenges for urban green space management. Front Ecol Environ 15:189–196CrossRef

Ballard B, Wilson S, Udale-Clarke H, Illman S, Scott T, Ashley R, Kellagher R (2015a) Part B, the philosophy of SuDS, chapter 1. In: the SuDS manual, (CIRIA), pp 17–30

Ballard B, Wilson S, Udale-Clarke H, Illman S, Scott T, Ashley R, Kellagher R. (2015b) Part D technical detail, chapter 13, 17-19, 22, 23, 26. In: the SuDS manual, (CIRIA), pp 254–267, 310–383, 470–503, 560–595

Bazzanti M, Bella VD, Seminara M (2003) Factors affecting macroinvertebrate communities in astatic ponds in Central Italy. J Freshw Ecol 18:537–548CrossRef

Beninde J, Veith M, Hochkirch A (2015) Biodiversity in cities needs space: a meta-analysis of factors determining intra-urban biodiversity variation. Ecol Lett 18:581–592CrossRef

Bonthoux S, Brun M, Di Pietro F, Greulich S, Bouché-Pillon S (2014) How can wastelands promote biodiversity in cities? A review Landsc Urban Plan 132:79–88CrossRef

Brand AB, Snodgrass JW (2010) Value of artificial habitats for amphibian reproduction in altered landscapes. Conserv Biol 24:295–301CrossRef

Brenneisen S (2006) Space for urban wildlife: designing green roofs as habitats in Switzerland. Urban Habitats 4:27–36

Brown BL (2003) Spatial heterogeneity reduces temporal variability in stream insect communities. Ecol Lett 6:316–325CrossRef

Chester ET, Robson BJ (2013) Anthropogenic refuges for freshwater biodiversity: their ecological characteristics and management. Biol Conserv 166:64–75CrossRef

Chovanec A (1994) Man-made wetlands in urban recreational areas—a habitat for endangered species? Landsc Urban Plan 29:43–54CrossRef

Dearborn DC, Kark S (2010) Motivations for conserving urban biodiversity. Conserv Biol 24:432–440CrossRef

Eyre MD, Luff ML, Woodward JC (2003) Beetles (Coleoptera) on brownfield sites in England: an important conservation resource? J Insect Conserv 7:223–231CrossRef

Farinha-Marques P, Lameiras JM, Fernandes C, Silva S, Guilherme F (2011) Urban biodiversity: a review of current concepts and contributions to multidisciplinary approaches. Innov Eur J Soc Sci 24:247–271CrossRef

Felson AJ, Oldfield EE, Bradford MA (2013a) Involving ecologists in shaping large-scale green infrastructure projects. BioScience 63:882–890CrossRef

Felson AJ, Pavao-Zuckerman M, Carter T, Montalto F, Shuster B, Springer N, Stander EK, Starry O (2013b) Mapping the design process for urban ecology researchers. BioScience 63:854–865CrossRef

Fletcher TD, Shuster W, Hunt WF, Ashley R, Butler D, Arthur S, Trowsdale S, Barraud S, Semadeni-Davies A, Bertrand-Krajewski J-L et al (2015) SUDS, LID, BMPs, WSUD and more – The evolution and application of terminology surrounding urban drainage. Urban Water J 12:525–542CrossRef

Goertzen D, Suhling F (2012) Promoting dragonfly diversity in cities: major determinants and implications for urban pond design. J Insect Conserv 17:399–409

Goldsbrough CL, Hochuli DF, Shine R (2003) Invertebrate biodiversity under hot rocks: habitat use by the fauna of sandstone outcrops in the Sydney region. Biol Conserv 109:85–93CrossRef

Grahn P, Stigsdotter UA (2003) Landscape planning and stress. Urban For Urban Green 2:1–18CrossRef

Halliday BT, Matthews TG, Iervasi D, Dodemaide DT, Pickett PJ, Linn MM, Burns A, Bail I, Lester RE (2015) Potential for water-resource infrastructure to act as refuge habitat. Ecol Eng 84:136–148CrossRef

Hamer AJ, Parris KM (2011) Local and landscape determinants of amphibian communities in urban ponds. Ecol Appl 21:378–390CrossRef

Hammer M, Gyllin M, Vought L, Lacousiére J (1996) Flerbruk av utjämningsmagasin för dagvatten - exemplet Toftanäs, Malmö (Multiple use of a stormwater retention magazine - the Toftanäs example) (in Swedish). Swedish University of Agricultural Sciences, Alnarp

Hermy M, Cornelis J (2000) Towards a monitoring method and a number of multifaceted and hierarchical biodiversity indicators for urban and suburban parks. Landsc Urban Plan 49:149–162CrossRef

Hunter MR, Hunter MD (2008) Designing for conservation of insects in the built environment. Insect Conserv Divers 1:189–196

Ishimatsu K, Ito K (2011) Brown/biodiverse roofs: a conservation action for threatened brownfields to support urban biodiversity. Landsc Ecol Eng 9:299–304CrossRef

Ives CD, Lentini PE, Threlfall CG, Ikin K, Shanahan DF, Garrard GE, Bekessy SA, Fuller RA, Mumaw L, Rayner L, Rowe R, Valentine LE, Kendal D (2016) Cities are hotspots for threatened species. Glob Ecol Biogeogr 25:117–126CrossRef

Kadas G (2006) Rare invertebrates colonizing green roofs in London. Urban Habitats 4:66–86

Kajihara K, Yamaura Y, Soga M, Furukawa Y, Morimoto J, Nakamura F (2016) Urban shade as a cryptic habitat: fern distribution in building gaps in Sapporo, northern Japan. Urban Ecosyst 19:523–534CrossRef

Kazemi F, Beecham S, Gibbs J, Clay R (2009a) Factors affecting terrestrial invertebrate diversity in bioretention basins in an Australian urban environment. Landsc Urban Plan 92:304–313CrossRef

Kazemi F, Beecham S, Gibbs J (2009b) Streetscale bioretention basins in Melbourne and their effect on local biodiversity. Ecol Eng 35:1454–1465CrossRef

Kazemi F, Beecham S, Gibbs J (2011) Streetscape biodiversity and the role of bioretention swales in an Australian urban environment. Landsc Urban Plan 101:139–148CrossRef

Kirby P (2013) Freshwater wetlands. In: Kirby P (ed) Habitat Management for Invertebrates: a practical handbook. Pelagic Pub, Exeter, pp 93–121

Klaus VH (2013) Urban grassland restoration: a neglected opportunity for biodiversity conservation. Restor Ecol 21:665–669CrossRef

Kovac H, Stabentheiner A (2011) Thermoregulation of foraging honeybees on flowering plants: seasonal variability and influence of radiative heat gain. Ecol Entomol 36:686–699CrossRef

Lafont M, Marsalek J, Breil P (2008) Urban aquatic habitats: characteristics and functioning. In: Wagner I, Marsalek J, Breil P (eds) Aquatic habitats in sustainable urban water management. UNESCO, Taylor & Francis, Paris, pp 9–25

LaPoint S, Balkenhol N, Hale J, Sadler J, van der Ree R (2015) Ecological connectivity research in urban areas. Funct Ecol 29:868–878CrossRef

Lepczyk CA, Aronson MFJ, Evans KL, Goddard MA, Lerman SB, MacIvor JS (2017) Biodiversity in the city: fundamental questions for understanding the ecology of urban green spaces for biodiversity conservation. BioScience 67:799–807CrossRef

Loke LHL, Ladle RJ, Bouma TJ, Todd PA (2015) Creating complex habitats for restoration and reconciliation. Ecol Eng 77:307–313CrossRef

MacArthur RH, Wilson EO (1967) The theory of island biogeography. Princeton University Press, Princeton NJ

Mackintosh TJ, Davis JA, Thompson RM (2015) The influence of urbanisation on macroinvertebrate biodiversity in constructed stormwater wetlands. Sci Total Environ 536:527–537CrossRef

Mitchell SC (2005) How useful is the concept of habitat? – a critique. Oikos 110:634–638CrossRef

Moore T, Hutchinson SL, Christianson RD (2012) A qualitative assessment tool for ecologically based stormwater systems. Ecol Eng 45:70–79CrossRef

Nielsen AB, van den Bosch M, Maruthaveeran S, van den Bosch CK (2013) Species richness in urban parks and its drivers: a review of empirical evidence. Urban Ecosyst 17:305–327CrossRef

Prugh LR, Hodges KE, Sinclair ARE, Brashares JS (2008) Effect of habitat area and isolation on fragmented animal populations. Proc Natl Acad Sci 105:20770–20775CrossRef

Qiu L, Gao T, Gunnarsson A, Hammer M, von Bothmer R (2010) A methodological study of biotope mapping in nature conservation. Urban For Urban Green 9:161–166CrossRef

Rosenzweig ML (1995a) Patterns in space. In: Rosenzweig ML (ed) Species diversity in space and time. Cambridge University Press, Cambridge, pp 8–49CrossRef

Rosenzweig ML (1995b) Coevolution of habitat diversity and species diversity. In: Rosenzweig ML (ed) Species diversity in space and time. Cambridge University Press, Cambridge, pp 151–189CrossRef

Rosenzweig ML (2003) Reconciliation ecology and the future of species diversity. Oryx 37:194–205CrossRef

Rune F, Hels T (2004) Udvikling af bynaturindeks (BNI) – Naturvurdering i Københavns Kommune (development of a urban nature index (UNI) - nature assessment in municipality of Copenhagen) (in Danish). Forest and Landscape, Hørsholm

Rupprecht CDD, Byrne JA (2014) Informal urban greenspace: a typology and trilingual systematic review of its role for urban residents and trends in the literature. Urban For Urban Green 13:597–611CrossRef

Somme L, Moquet L, Quinet M, Vanderplanck M, Michez D, Lognay G, Jacquemart A-L (2016) Food in a row: urban trees offer valuable floral resources to pollinating insects. Urban Ecosyst 19:1149–1161CrossRef

Stein A, Gerstner K, Kreft H (2014) Environmental heterogeneity as a universal driver of species richness across taxa, biomes and spatial scales. Ecol Lett 17:866–880CrossRef

Tews J, Brose U, Grimm V, Tielbörger K, Wichmann MC, Schwager M, Jeltsch F (2004) Animal species diversity driven by habitat heterogeneity/diversity: the importance of keystone structures. J Biogeogr 31:79–92CrossRef

Ulyshen MD (2011) Arthropod vertical stratification in temperate deciduous forests: implications for conservation-oriented management. For Ecol Manag 261:1479–1489CrossRef

Williams P, Whitfield M, Biggs J (2008) How can we make new ponds biodiverse? A case study monitored over 7 years. Hydrobiologia 597:137–148CrossRef

Wittig R (2010) Biodiversity of urban-industrial areas and its evaluation – a critical review. In: Müller N, Werner P, Kelcey JG (eds) Urban biodiversity and design. Wiley-Blackwell, Oxford, pp 35–55CrossRef

Wium-Andersen T, Nielsen AH, Hvitved-Jakobsen T, Vollertsen J (2011) Heavy metals, PAHs and toxicity in stormwater wet detention ponds. Water Sci Technol J Int Assoc Water Pollut Res 64:503–511CrossRef

Titel: Exploring structural habitat heterogeneity in sustainable urban drainage systems (SUDS) for urban biodiversity support
verfasst von: Rikke Juul Monberg
Andy G. Howe
Hans Peter Ravn
Marina Bergen Jensen
Publikationsdatum: 28.08.2018
Verlag: Springer US
Erschienen in: Urban Ecosystems / Ausgabe 6/2018
Print ISSN: 1083-8155
Elektronische ISSN: 1573-1642
DOI: https://doi.org/10.1007/s11252-018-0790-6

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