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Do trees flower longer in the city? A comparison of flowering eucalyptus trees in streets, remnants and continuous forest and their association with nectarivorous birds

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Abstract

Human-dominated environments are often subjected to increased nutrient and moisture regimes which have the potential to influence the flowering phenology of plants. Protracted flowering periods within urban landscapes may result in increased food resources, in the form of nectar, and this high resource availability may support a high density of nectarivorous birds within cities. In order to determine whether there was a difference in the productivity and flowering period associated with urbanisation, we compared the number of flowers produced and duration of flowering period for three species of native tree that were present in streetscapes, remnant vegetation and continuous forest. We also recorded the presence of nectarivorous parrots at flowering trees to determine if the presence of nectarivores was associated with flower productivity. All three species in streetscapes produced more flowers and flowered for longer than in remnants and continuous forest. The number of flowers per tree significantly predicted the presence of nectarivorous parrots in streetscapes. This study demonstrates that the flowering phenology of plants within streetscapes can differ from continuous forest, with remnants appearing to be intermediate. This increased flower productivity within urban landscapes may be partially responsible for the high abundance of nectarivorous parrots within some cities.

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References

  • Altermatt F (2012) Temperature-related shifts in butterfly phenology depend on the habitat. Glob Chang Biol 18:2429–2438

    Article  Google Scholar 

  • Anderies JM, Katti M, Shochat E (2007) Living in the city: resource availability, predation, and bird population dynamics in urban areas. J Theor Biol 247:36–49

    Article  PubMed  Google Scholar 

  • Ashley LC, Major RE, Taylor CE (2009) Does the presence of grevilleas and eucalypts in urban gardens influence the distribution and foraging ecology of noisy miners? Emu 109:135–142

    Article  Google Scholar 

  • Barrico L, Azul AM, Morais MC, Coutinho AP, Freitas H, Castro P (2012) Biodiversity in urban ecosystems: plants and macromycetes as indicators for conservation planning in the city of Coimbra (Portugal). Landsc Urban Plan 106:88–102

    Article  Google Scholar 

  • Beadle NCW (1962) Soil phosphate and delimitation of plant-communities in eastern Australia II. Ecology 43:281–288

    Article  Google Scholar 

  • Benson D, Howell J (1995) Taken for granted: the bushland of Sydney and it's suburbs. Kangaroo Press, Kenthurst, NSW

    Google Scholar 

  • Bonan GB (2002) Ecological climatology: concepts and applications. Cambridge University Press, New York

    Google Scholar 

  • Carreiro MM, Tripler CE (2005) Forest remnants along urban-rural gradients: examining their potential for global change research. Ecosystems 8:568–582

    Article  Google Scholar 

  • Chung U, Jung JE, Seo HC, Yun JI (2009) Using urban effect corrected temperature data and a tree phenology model to project geographical shift of cherry flowering date in South Korea. Clim Chang 93:447–463

    Article  Google Scholar 

  • Commonwealth Bureau of Meteorology (2011a) Average annual and monthly maximum, minimum and mean temperature. Australian Government, Canberra

    Google Scholar 

  • Commonwealth Bureau of Meteorology (2011b) Average annual, seasonal and monthly rainfall. Australian Government, Canberra

    Google Scholar 

  • Davis A, Taylor CE, Major RE (2012) Seasonal abundance and habitat use of Australian parrots in an urbanised landscape. Landsc Urban Plan 106:191–198

    Article  Google Scholar 

  • Franklin DC, Noske RA (1999) Birds and nectar in a monsoonal woodland: correlations at three spatio-temporal scales. Emu 99:15–28

    Article  Google Scholar 

  • Fraser M, McMahon L (1992) Habitat change by cape sugarbirds and orangebreasted sunbirds in an apparent response to fire in old mountain fynbos. Safring News 21:51–54

    Google Scholar 

  • French K, Major R, Hely K (2005) Use of native and exotic garden plants by suburban nectarivorous birds. Biol Conserv 121:545–559

    Article  Google Scholar 

  • Gero AF, Pitman AJ, Narisma GT, Jacobson C, Pielke RA (2006) The impact of land cover change on storms in the Sydney basin, Australia. Glob Planet Chang 54:57–78

    Article  Google Scholar 

  • Harrison JA, Allan DG, Underhill LG, Herremans M, Tree AJ, Parker V, Brown CJ (1997) The atlas of South African birds. Vol. 1: Non-passerines. BirdLife South Africa, Johannesburg

    Google Scholar 

  • Hasebe M, Franklin D (2004) Food sources of the rainbow lorikeet trichoglossus haematodus during the early wet season on the urban fringe of darwin, northern Australia. Corella 28:68–74

    Google Scholar 

  • Higgins PJ (1999) Handbook of Australian, New Zealand and antarctic birds, Volume 4: Parrots to Dollarbird. Oxford University Press, Melbourne

    Google Scholar 

  • Jochner SC, Sparks TH, Estrella N, Menzel A (2012) The influence of altitude and urbanisation on trends and mean dates in phenology (1980–2009). Int J Biometeorol 56:387–394

    Article  PubMed  Google Scholar 

  • Jokimäki J (1999) Occurrence of breeding bird species in urban parks: effects of park structure and broad-scale variables. Urban Ecosystems 3:21–34

    Article  Google Scholar 

  • Keith D (2006) Ocean shores to desert dunes. New South Wales department of environment and conservation. Hurstville, NSW

    Google Scholar 

  • Kowarik I (2011) Novel urban ecosystems, biodiversity, and conservation. Environ Pollut 159:1974–1983

    Article  CAS  PubMed  Google Scholar 

  • Lake JC, Leishman MR (2004) Invasion success of exotic in natural ecosystems: the role of disturbance, plant attributes and freedom from herbivores. Biol Conserv 117:215–226

    Article  Google Scholar 

  • Landsberg H (1981) The urban climate, in: international geophysical series. Academic Press, New York

    Google Scholar 

  • Law B, Mackowski C, Schoer L, Tweedie T (2000) Flowering phenology of myrtaceous trees and their relation to climatic, environmental and disturbance variables in northern New South Wales. Austral Ecology 25:160–178

    Article  Google Scholar 

  • Leishman MR, Hughes MT, Gore DB (2004) Soil phosphorus enhancement below stormwater outlets in urban bushland: spatial and temporal changes and the relationship with invasive plants. Aust J Soil Res 42:197–202

    Article  CAS  Google Scholar 

  • Lemeshow S, Legall JR (1994) Modeling the severity of illness of ICU patients - a systems update. Jama-J Am Med Assoc 272:1049–1055

    Article  CAS  Google Scholar 

  • Luo ZK, Sun OJ, Ge QS, Xu WT, Zheng JY (2007) Phenological responses of plants to climate change in an urban environment. Ecol Res 22:507–514

    Article  Google Scholar 

  • Marzluff JM (2001) Worldwide urbanization and its effects on birds. In: Marzluff JM, Bowman R, Donelly R (eds) Avian ecology and conservation in an urbanizing world. Kluwer Academic Publishers, Boston

    Chapter  Google Scholar 

  • McCaffrey RE, Mannan RW (2012) How scale influences birds' responses to habitat features in urban residential areas. Landsc Urban Plan 105:274–280

    Article  Google Scholar 

  • McGoldrick JM, Mac Nally R (1998) Impact of flowering on bird community dynamics in some central victorian eucalypt forests. Ecol Res 13:125–139

    Article  Google Scholar 

  • McIntyre NE (2000) Ecology of urban arthropods: a review and a call to action. Ann Entomol Soc Am 93:825–835

    Article  Google Scholar 

  • Nagendra H, Gopal D (2010) Street trees in bangalore: density, diversity, composition and distribution. Urban For Urban Green 9:129–137

    Article  Google Scholar 

  • Neil K, Wu J (2006) Effects of urbanization on plant flowering phenology: a review. Urban Ecosystems 9:243–257

    Article  Google Scholar 

  • Ohashi Y, Kawakami H, Shigeta Y, Ikeda H, Yamamoto N (2012) The phenology of cherry blossom (prunus yedoensis "somei-yoshino") and the geographic features contributing to its flowering. Int J Biometeorol 56:903–914

    Article  PubMed  Google Scholar 

  • Parris KM, Hazell DL (2005) Biotic effects of climate change in urban environments: the case of the grey-headed flying-fox (pteropus poliocephalus) in melbourne, Australia. Biol Conserv 124:267–276

    Article  Google Scholar 

  • Pouyat RV, McDonnell MJ, Pickett STA (1995) Soil characteristics of oak stands along an urban-rural land-use gradient. J Environ Qual 24:516–526

    Article  CAS  Google Scholar 

  • Ramsay MW (1989) The seasonal abundance and foraging behaviour of honeyeaters and their potential role in the pollination of Banksia menziesii. Aust J Ecol 14:33–40

    Article  Google Scholar 

  • Robinson L (2003) Field guide to the native plants of Sydney. Kangaroo Press, Pymble, NSW

    Google Scholar 

  • Rodriguez D, Cure JR, Cotes JM, Gutierrez AP, Cantor F (2011) A coffee agroecosystem model: I. Growth and development of the coffee plant. Ecol Model 222:3626–3639

    Article  Google Scholar 

  • Rose S (1997) Influence of suburban edges on invasion of pittosporum undulatum into the bushland of northern Sydney, Australia. Aust J Ecol 22:89–99

    Article  Google Scholar 

  • Sewell SR, Catterall CP (1998) Bushland modification and styles of urban development: their effects on birds in south-east Queensland. Wildl Res 25:41–63

    Article  Google Scholar 

  • Shochat E (2004) Credit or debit? Resource input changes population dynamics of city-slicker birds. Oikos 106:622–626

    Article  Google Scholar 

  • Shochat E, Warren PS, Faeth SH, McIntyre NE, Hope D (2006) From patterns to emerging processes in mechanistic urban ecology. Trends Ecol Evol 21:186–191

    Article  PubMed  Google Scholar 

  • Smith J, Lill A (2008) Importance of eucalypts in exploitation of urban parks by rainbow and musk lorikeets. Emu 108:187–195

    Article  Google Scholar 

  • Specht R (1963) Dark island heath (ninety-mile plain, South Australia). VII. The effect of fertilizers on composition and growth, 1950–60. Aust J Bot 11:67–94

    Article  Google Scholar 

  • Symes CT, Nicolson SW, McKechnie AE (2008) Response of avian nectarivores to the flowering of aloe marlothii: a nectar oasis during dry South African winters. J Ornithol 149:13–22

    Article  Google Scholar 

  • Threlfall C, Law B, Penman T, Banks PB (2011) Ecological processes in urban landscapes: mechanisms influencing the distribution and activity of insectivorous bats. Ecography 34:814–826

    Article  Google Scholar 

  • Tzilkowski WM, Wakeley JS, Morris LJ (1986) Relative use of municipal street trees by birds during summer in state college, Pennsylvania. Urban Ecol 9:387–398

    Article  Google Scholar 

  • White JG, Antos MJ, Fitzsimons JA, Palmer GC (2005) Non-uniform bird assemblages in urban environments: the influence of streetscape vegetation. Landsc Urban Plan 71:123–135

    Article  Google Scholar 

  • Williams NSG, Mcdonnell MJM, Phelan GK, Keim LD, Rodney Van Der REE (2006) Range expansion due to urbanization: increased food resources attract grey-headed flying-foxes (pteropus poliocephalus) to melbourne. Austral Ecol 31:190–198

    Article  Google Scholar 

  • Wilson J, Bennett AF (1999) Patchiness of a floral resource: flowering of red ironbark eucalyptus tricarpa in a box and ironbark forest. Victorian Naturalist 116:48–53

    Google Scholar 

  • Ziska LH, Gebhard DE, Frenz DA, Faulkner S, Singer BD, Straka JG (2003) Cities as harbingers of climate change: common ragweed, urbanization, and public health. J Allergy Clin Immunol 111:290–295

    Article  PubMed  Google Scholar 

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Authors and Affiliations

  1. School of Biological Sciences, University of Sydney, Botany Annex A13, Sydney, NSW, 2006, Australia

    Adrian Davis & Charlotte E. Taylor

  2. Australian Museum, 6 College Street, Sydney, NSW, 2010, Australia

    Richard E. Major

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  1. Adrian Davis
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  2. Richard E. Major
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  3. Charlotte E. Taylor
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Correspondence to Adrian Davis.

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Davis, A., Major, R.E. & Taylor, C.E. Do trees flower longer in the city? A comparison of flowering eucalyptus trees in streets, remnants and continuous forest and their association with nectarivorous birds. Urban Ecosyst 19, 735–747 (2016). https://doi.org/10.1007/s11252-015-0515-z

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