Abstract
Although cities have existed for some millennia, it has been only in the last few centuries that they have expanded to become a dominant feature of the landscape. Their growth displaces original habitats and creates new ones, facing birds with the challenge of adjusting their behaviour, physiology and life histories to the novel conditions or be displaced into a shrinking and also increasingly altered rural landscape. Here we identify the salient features—habitat structure, seasonality, interspecific interactions and pollution—in which cities differ from natural environments and to which birds must adjust. Then we describe the several ways in which urban birds have been found to differ from their rural counterparts. Finally, we evaluate whether these differences constitute adaptations to urban conditions or whether they are expressions of pre-existing adaptations to natural conditions, such as behavioural plasticity, which also permit the colonisation of urban habitats.
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Adams LW (2005) Urban wildlife ecology and conservation: a brief history of the discipline. Urban Ecosyst 8:139–156
Allen AP, O’Connor RJ (2000) Hierarchical correlates of bird assemblage structure on northeastern USA lakes. Environ Model Assess 62:15–37
Amo L, López-Rull I, Pagán I, Macías Garcia C (2015) Evidence that the house finch (Carpodacus mexicanus) uses scent to avoid omnivore mammals. Rev Chil Hist Nat 88:5
Aponte V, Gentes ML, Verreault J, Locke SA, Giroux JF, Marcogliese DJ, McLaughlin D (2014) Effect of habitat use and diet on the gastrointestinal parasite community of an avian omnivore from an urbanized environment. Can J Zoolog 92:629–636
Aronson MFJ, La Sorte FA, Nilon CH et al (2014) A global analysis of the impacts of urbanization on bird and plant diversity reveals key anthropogenic drivers. Proc R Soc B 281:20133330
Bailey NW (2012) Evolutionary models of extended phenotypes. Trends Ecol Evol 27:561–569
Baker PJ, Bentley AJ, Ansell RJ, Harris S (2005) Impact of predation by domestic cats Felis catus in an urban area. Mammal Rev 35:302–312
Baker PJ, Molony SE, Stone E, Cuthill IC, Harris S (2008) Cats about town: is predation by free‐ranging pet cats Felis catus likely to affect urban bird populations? Ibis 150:86–99
Baumann N (2006) Ground-nesting birds on green roofs in Switzerland: preliminary observations. Urban Habitat 4:37–50
Becker M (2013) The role of urban climate and land cover in phenology, nest success, and habitat use. Dissertation, University of Nevada, Reno
Beissinger SR, Osborne DR (1982) Effects of urbanization on avian community organization. Condor 1982:75–83
Bennett WA (1990) Scale of investigation and the detection of competition: an example from the house sparrow and house finch introductions in North America. Am Nat 135:725–747
Bermúdez-Cuamatzin E, Ríos-Chelén AA, Gil D, Macías Garcia C (2009) Strategies of song adaptation to urban noise in the house finch: syllable pitch plasticity or differential syllable use? Behaviour 146:269–1286
Bermúdez-Cuamatzin E, Ríos-Chelén AA, Gil D, Macías Garcia C (2010) Experimental evidence for real-time song frequency shift in response to urban noise in a passerine bird. Biol Lett 7:36–38
Berthold P, Pulido F (1994) Heritability of migratory activity in a natural bird population. Proc R Soc B 257:311–315
Berthold P, Terrill SB (1988) Migratory behaviour and population growth of Blackcaps wintering in Britain and Ireland: some hypotheses. Ringing Migr 9:153–159
Bichet C, Scheufler R, Couerdassier M, Julliard R, Sorci G, Loiseau C (2013) Trace metal pollution and malaria prevalence in the House Sparrow. PLoS One 8:e53866
Blair RB (1996) Land use and avian species diversity along an urban gradient. Ecol Appl 6:506–519
Blair RB (2001) Creating a homogeneous avifauna. In: Marzluff J, Bowman R, Donnelly R (eds) Avian ecology and conservation in an urbanizing world. Springer Science & Business Media, New York, pp 459–486
Blumstein DT (2006) Developing an evolutionary ecology of fear: how life history and natural history traits affect disturbance tolerance in birds. Anim Behav 71:389–399
Bradley CA, Altizer S (2007) Urbanization and the ecology of wildlife diseases. Trends Ecol Evol 22:95–102
Brumm H, Naguib M (2009) Environmental acoustics and the evolution of bird song. Adv Study Behav 40:1–33
Brumm H, Slater PJB (2006) Ambient noise, motor fatigue, and serial redundancy in chaffinch song. Behav Ecol Sociobiol 60:475–481
Cade TJ, Lincer JL, White CM, Roseneau DG, Swartz LG (1971) DDE residues and eggshell changes in Alaskan falcons and hawks. Science 172:955–957
Calegaro-Marques C, Amato S (2014) Urbanization breaks up host-parasite interactions: A case study on parasite community ecology of rufous-bellied thrushes (Turdus rufiventris) along a rural-urban gradient. PLoS One 9:7
Carbó-Ramírez P, Zuria I (2011) The value of small urban greenspaces for birds in a Mexican city. Landsc Urban Plan 100:213–222
Carson R (1962) Silent spring. Honghton Mifflin Co, Boston
Cavalli-Sforza LL, Feldman MW (1981) A theory of cultural evolution: cultural transmission. Princeton University Press, Princeton, NJ
Chace JF, Walsh JJ (2006) Urban effects on native avifauna: a review. Landsc Urban Plan 74:46–69
Chatelain M, Gasparini J, Frantz A (2015) Do trace metals select for darker birds in urban areas? An experimental exposure to lead and zinc. Glob Change Biol 22(7):2380–91. doi:10.1111/gcb.13170
Chen SH, Wang S (2016) Bird diversities and their responses to urbanization in China. In: Murgui E, Hedblom M (eds) Ecology and conservation of birds in urban environments. Springer, Heidelberg, pp 55–74
Chiquet C, Dover JW, Mitchell P (2013) Birds and the urban environment: the value of green walls. Urban Ecosyst 16:453–462
Cocker M, Tipling D (2013) Birds and people. Jonathan Cape, London
Conway CJ, Martin TE (2000) Effects of ambient temperature on avian incubation behaviour. Behav Ecol 11:178–188
Dawson A (2008) Control of the annual cycle in birds: endocrine constraints and plasticity in response to ecological variability. Philos T Roy Soc B 363:1621–1633
Day TD (1995) Bird species composition and abundance in relation to native plants in urban gardens, Hamilton, New Zealand. Notornis 42:175–186
Delgado VC, French K (2012) Parasite-bird interactions in urban areas: current evidence and emerging questions. Landsc Urban Plan 105:5–14
Diamond JM (1986) Rapid evolution of urban birds. Nature 324:107–108
Díaz M, Parra A, Gallardo C (2011) Serins respond to anthropogenic noise by increasing vocal activity. Behav Ecol 22:332–336
Dominoni DM (2016) Ecological effects of light pollution: how can we improve our understanding using light loggers on individual animals? In: Murgui E, Hedblom M (eds) Ecology and conservation of birds in urban environments. Springer, Heidelberg, pp 251–270
Dominoni DM, Partecke J (2015) Does light pollution alter daylength? A test using light loggers on free-ranging European blackbirds (Turdus merula). Philos Trans R Soc B 370:20140118
Driscoll CA, Macdonald DW, O’Brien SJ (2009) From wild animals to domestic pets, an evolutionary view of domestication. Proc Natl Acad Sci USA 2009:9971–9978
Dubiec A, Góüdü I, Mazgajski TD (2013) Green plant material in avian nests. Avian Biol Res 6:133–146
Eeva T, Lehikoinen E (1996) Growth and mortality of nestling great tits (Parus major) and pied flycatchers (Ficedula hypoleuca) in a heavy metal pollution gradient. Oecologia 108:631–639
Endler JA (1986) Natural selection in the wild. No. 21. Princeton University Press, Princeton, NJ
Evans KL, Gaston KJ, Frantz AC, Simeoni M, Sharp SP, McGowan A, Dawson DA, Walasz K, Partecke J, Burke T, Hatchwell BJ (2009) Independent colonization of multiple urban centres by a formerly forest specialist bird species. Proc R Soc B 276:2403–2410
Evans JE, Smith EL, Bennett ATD, Cuthill IC, Buchanan KL (2012) Short-term physiological and behavioural effects of high- versus low-frequency fluorescent light on captive birds. Anim Behav 83:25–33
Fiedler W (2003) Recent changes in migratory behaviour of birds: a compilation of field observations and ringing data. In: Berthold IP, Gwinner E, Sonnenschein E (eds) Avian migration. Springer, Berlin, pp 21–38
Fisher J, Hinde RA (1949) The opening of milk bottles by birds. Brit Birds 42:347–357
Fokidis HB, Greiner EC, Deviche P (2008) Interspecific variation in avian blood parasites and haematology associated with urbanization in a desert habitat. J Avian Biol 39:300–310
Francis CD, Ortega CP, Cruz A (2011) Vocal frequency change reflects different responses to anthropogenic noise in two suboscine tyrant flycatchers. Proc R Soc B 278:2025–2031
Francis CD, Kleist NJ, Ortega CP, Cruz A (2012) Noise pollution alters ecological services: enhanced pollination and disrupted seed dispersal. Proc R Soc B Biol Sci 279:2727–2735
Fuller RA, Warren PH, Gaston KJ (2007) Daytime noise predicts nocturnal singing in urban robins. Biol Lett 3:368–370
Gering JC, Blair RB (1999) Predation on artificial bird nests along an urban gradient: predatory risk or relaxation in urban environments? Ecography 22:532–541
Geue D, Partecke J (2008) Reduced parasite infestation in urban Eurasian blackbirds (Turdus merula): a factor favoring urbanization? Can J Zoolog 86:419–1425
Giesy JP, Feyk LA, Jones PD, Kannan K, Sanderson T (2003) Review of the effects of endocrine-disrupting chemicals in birds. Pure Appl Chem 75:2287–2303
Gil D, Brumm H (2013) Acoustic communication in the urban environment: patterns, mechanisms, and potential consequences of avian song adjustments. In: Gil D, Brumm H (eds) Avian urban ecology. Oxford University Press, Oxford
Gil D, Honarmand M, Pascual J, Pérez-Mena E, Macías Garcia C (2015) Birds living near airports advance their dawn chorus and reduce overlap with aircraft noise. Behav Ecol 26(2):435–443
Gilbert OL (1989) The ecology of urban habitats. Chapman and Hall, London
Gillies C, Clout M (2003) The prey of domestic cats (Felis catus) in two suburbs of Auckland City, New Zealand. J Zool 259:309–315
Giraudeau M, Mousel M, Earl S, McGraw K (2014) Parasites in the city: Degree of urbanization predicts poxvirus and coccidian infections in house finches (Haemorhous mexicanus). PLoS One 9:e86747
Gleditsch J (2016) The role of invasive plant species in urban avian conservation. In: Murgui E, Hedblom M (eds) Ecology and conservation of birds in urban environments. Springer, Heidelberg, pp 413–424
Goddard MA, Dougill AJ, Benton TG (2010) Scaling up from gardens: biodiversity conservation in urban environments. Trends Ecol Evol 25:90–98
Godfrey ME (1986) An evaluation of the acute oral toxicity of brodifacoum to birds. Paper presented at the Proceedings of the twelfth vertebrate pest conference, p 27
Gorissen L, Snoeijs T, Van Duyse E, Eens M (2005) Heavy metal pollution affects dawn singing behaviour in a small passerine bird. Oecologia 145:504–509
Gross K, Pasinelli G, Kunc HP (2010) Behavioral plasticity allows short‐term adjustment to a novel environment. Am Nat 176:456–464
Haag-Wackernagel D, Heeb P, Leiss A (2006) Phenotype-dependent selection of juvenile urban feral pigeons Columba livia. Bird Study 53:63–170
Haggard WH (1990) Urban weather. Int J Environ Stud 36:73–82
Halfwerk W, Bot S, Buikx J, Van der Velde M, Komdeur J, Ten Cate C, Slabbekoorn H (2011) Low songs lose potency in urban noise conditions. Proc Natl Acad Sci USA 108:4549e14554
Hanna DEL, Wilson DR, Blouin-Demers G, Mennill DJ (2014) Spring peepers Pseudacris crucifer modify their call structure in response to noise. Curr Zool 60:438–448
Haskell DG, Knupp AM, Schneider MC (2001) Nest predator abundance and urbanization. In: Marzluff J, Bowman R, Donnelly R (eds) Avian ecology and conservation in an urbanizing world. Springer Science & Business Media, New York, pp 243–258
Helbig AJ, Berthold P, Mohr G, Querner U (1994) Inheritance of a novel migratory direction in central European blackcaps. Naturwissenschaften 81:184–186
Hinde RA, Fisher J (1951) Further observations on the opening of milk bottles by birds. Brit Birds 44:392–396
Ibáñez‐Álamo JD, Soler M (2010) Does urbanization affect selective pressures and life‐history strategies in the common blackbird (Turdus merula L.)? Biol J Linn Soc 101:759–766
Jauregui E (1991) Influence of a large urban park on temperature and convective precipitation in a tropical city. Energ Buildings 15:457–463
Johnson MS, Pluck H, Hutton M, Moore G (1982) Accumulation and renal effects of lead in urban populations of feral pigeons, Columba livia. Arch Environ Contam Toxicol 11:761–767
Johnston RF, Selander RK (1964) House sparrows: rapid evolution of races in North America. Science 144:548–550
Jokimaki J, Huhta E (2000) Artificial nest predation and abundance of birds. Condor 102:838–847
Jokimäki J, Kaisanlahti‐Jokimäki M‐L, Sorace A, Fernández‐Juricic E, Rodriguez‐Prieto I, Jimenez MD (2005) Evaluation of the “safe nesting zone” hypothesis across an urban gradient: a multi‐scale study. Ecography 28:59–70
Kasting JF, Siefert JL (2002) Life and the evolution of Earth’s atmosphere. Science 296:1066–1068
Kekkonen J (2016) Pollutants in urbanized areas – direct and indirect effects on bird populations. In: Murgui E, Hedblom M (eds) Ecology and conservation of birds in urban environments. Springer, Heidelberg, pp 227–250
Kluza DA, Griffin CR, Degraaf RM (2000) Housing developments in rural New England: effects on forest birds. Anim Conserv 3:15–26
Lack DL (1968) Ecological adaptations for breeding in birds. Methuen, London
Lambrechts MM, Perret P, Blondel J (1996) Adaptive differences in the timing of egg laying between different populations of birds result from variation in photoresponsiveness. Proc R Soc B 263:19–22
Lancaster RK, Rees WE (1979) Bird communities and the structure of urban habitats. Can J Zoolog 57(12):2358–2368
Lefebvre L (1995) The opening of milk bottles by birds: evidence for accelerating learning rates, but against the wave-of-advance model of cultural transmission. Behav Process 34:43–54
Lepczyk CA, La Sorte F, Aronson M, Goddard M, MacGregor-Fors I, Nilon C, Warren P (2016) Global patterns and drivers of urban birds. In: Murgui E, Hedblom M (eds) Ecology and conservation of birds in urban environments. Springer, Heidelberg, pp 13–34
López-Rull I, Macías García C (2015) Control of invertebrate occupants of nests. In: Deeming C, Reynolds J (eds) Nest, eggs, and incubation. Oxford University Press, Oxford
Loss SR, Will T, Marra PP (2013) The impact of free-ranging domestic cats on wildlife of the United States. Nat Commun 4:1396
Lugo AE, Carlo TA, Wunderle JM (2012) Natural mixing of species: novel plant–animal communities on Caribbean Islands. Anim Conserv 15:233–241
Major RE, Gowing G, Kendal CE (1966) Nest predation in Australian urban environments and the role of the pied currawong Strepera graculina. Aust J Ecol 21:399–409
Maklakov AA, Immler S, Gonzalez-Voyer A, Ronn J, Kolm N (2011) Brains and the city: big-brained passerine birds succeed in urban environments. Biol Lett 7:730–732
Markman S, Leitner S, Catchpole C, Barnsley S, Müller CT, Pascoe D, Buchanan KL (2008) Pollutants increase song complexity and the volume of the brain area HVC in a songbird. PLoS One 3:e1674
Martin TE (1993) Nest predation among vegetation layers and habitat types: revising the dogmas. Am Nat 141:897–913
Marzluff JM (2001) Worldwide urbanization and its effects on birds. In: Marzluff J, Bowman R, Donnelly R (eds) Avian ecology and conservation in an urbanizing world. Springer Science & Business Media, New York, pp 19–47
McDonnell MJ, Pickett STA, Groffman P, Bohlen P, Pouyat RV, Zipperer WC, Parmelee RW, Carreiro MM (1997) Ecosystem processes along an urban-to-rural gradient. Urban Ecosyst 1997:21–36
McKinney ML (2002) Urbanization, biodiversity, and conservation the impacts of urbanization on native species are poorly studied, but educating a highly urbanized human population about these impacts can greatly improve species conservation in all ecosystems. BioScience 52:883–890
McKinney ML (2006) Urbanization as a major cause of biotic homogenization. Biol Conserv 127:247–260
Miranda AC (2016) Mechanisms of behavioural change in urban animals: the role of microevolution and phenotypic plasticity. In: Murgui E, Hedblom M (eds) Ecology and conservation of birds in urban environments. Springer, Heidelberg, pp 113–134
Møller AP (2008) Flight distance of urban birds, predation, and selection for urban life. Behav Ecol Sociobiol 63:63–75
Møller AP (2009) Successful city dwellers: a comparative study of the ecological characteristics of urban birds in the Western Palearctic. Oecologia 159:849–858
Møller AP (2010) The fitness benefit of association with humans: elevated success of birds breeding indoors. Behav Ecol 21:913–918
Møller AP, Diaz M, Flensted-Jensen E, Grim T, Ibáñez-Álamo JD, Jokimäki J, Mänd R, Markó G, Tryjanowski P (2012) High urban population density of birds reflects their timing of urbanization. Oecologia 170:867–875
Monastersky (2015) http://www.nature.com/news/anthropocene-the-human-age-1.17085?WT.ec_id=NEWS-20150312
Murgui E (2007) Effects of seasonality on the species–area relationship: a case study with birds in urban parks. Glob Ecol Biogeogr 16:319–329
Murton RK (1970) Melanism in rock dove. Br Birds 63:389–390
Murton RK, Westwood NJ (1977) Avian breeding cycles. Clarendon Press, Oxford
Nicholls TJ, Goldsmith AR, Dawson A (1988) Photorefractoriness in birds and comparison with mammals. Physiol Rev 68:133–176
Nihei Y, Higuchi H (2001) When and where did crows learn to use automobiles as nutcrackers? Tohoku Psychologica Folia 60:93–97
Noske RA (1998) Breeding biology, demography and success of the rufous-banded honeyeater, Conopophila albogularis, in Darwin, a monsoonal tropical city. Wildlife Res 25:339–356
Papp S, Vincze E, Preiszner B, Liker A, Bókony V (2015) A comparison of problem-solving success between urban and rural house sparrows. Behav Ecol Sociobiol 69:471–480
Partecke J, Gwinner E (2007) Increased sedentariness in European blackbirds following urbanization: a consequence of local adaptation? Ecology 88:882–890
Partecke J, Van’t Hof TJ, Gwinner E (2004) Differences in the timing of reproduction between urban and forest European blackbirds (Turdus merula): result of phenotypic flexibility or genetic differences? Proc R Soc Lond B 271:1995–2001
Partecke J, Van’t Hof TJ, Gwinner E (2005) Underlying physiological control of reproduction in urban and forest-dwelling European blackbirds Turdus merula. J Avian Biol 36:295–305
Peakall DB (1970) Pesticides and the reproduction of birds. Freeman, San Francisco, CA
Pickett STA, Cadenasso ML, Grove JM, Nilon CH, Pouyat RV, Zipperer WC, Costanza R (2001) Urban ecological systems: linking terrestrial ecological, physical, and socioeconomic components of metropolitan areas. Annu Rev Ecol Syst 2001:127–157
Poague KL, Johnson RJ, Young LJ (2000) Bird use of rural and urban converted railroad rights-of-way in southeast Nebraska. Wildlife Soc B 2000:852–864
Popper AN, Hastings MC (2009) The effects of anthropogenic sources of sound on fishes. J Fish Biol 75:455–489
Richardson WJ, Greene CR Jr, Malme CI, Thomson DH (1995) Marine mammals and noise. Academic, San Diego, CA
Ríos-Chelén AA, Macías Garcia C, Riebel K (2005) Variation in the song of a sub-oscine, the vermilion flycatcher. Behaviour 142:1115–1132
Ríos-Chelén AA, Salaberria C, Barbosa I, Macías Garcia C, Gil D (2012) The learning advantage: bird species that learn their song show a tighter adjustment of song to noisy environments than those that do not learn. J Evol Biol 25:2171–2180
Ríos-Chelén AA, Quirós-Guerrero E, Gil D, Macías Garcia C (2013) Dealing with urban noise: vermilion flycatchers sing longer songs in noisier territories. Behav Ecol Sociobiol 67:45–152
Rolshausen G, Segelbacher G, Hobson KA, Schaefer HM (2009) Contemporary evolution of reproductive isolation and phenotypic divergence in sympatry along a migratory divide. Curr Biol 19:2097–2101
Schaub A, Ostwald J, Siemers BM (2008) Foraging bats avoid noise. J Exp Biol 211:3174–3180
Scheifler R, Cœurdassier M, Morilhat C, Bernard N, Faivre B, Flicoteaux P, Giraudoux P, Noël M, Piotte P, Rieffel D, De Vaufleury A, Badot P-M (2006) Lead concentrations in feathers and blood of common blackbirds (Turdus merula) and in earthworms inhabiting unpolluted and moderately polluted urban areas. Sci Total Environ 371:197–205
Scheuhammer AM (1987) The chronic toxicity of aluminium, cadmium, mercury, and lead in birds: a review. Environ Pollut 46:263–295
Schmidt AKD, Balakrishnan R (2014) Ecology of acoustic signalling and the problem of masking interference in insects. J Comp Physiol A 201:133–142
Schoech SJ, Bowman R (2001) Variation in the timing of breeding between suburban and wildland Florida Scrub-Jays: Do physiologic measures reflect different environments? In: Marzluff J, Bowman R, Donnelly R (eds) Avian ecology and conservation in an urbanizing world. Springer Science & Business Media, New York, pp 289–306
Sherry DF, Galef BG Jr (1984) Cultural transmission without imitation: milk bottle opening by birds. Anim Behav 32:937–938
Sherry DF, Galef BG Jr (1990) Social learning without imitation: more about milk bottle opening by birds. Anim Behav 40:987–989
Shochat E (2004) Credit or debit? Resource input changes population dynamics of city‐slicker birds. Oikos 106:622–626
Shochat E, Warren PS, Faeth SH, McIntyre NE, Hope D (2006) From patterns to emerging processes in mechanistic urban ecology. Trends Ecol Evol 2:186–191
Sih A (2013) Understanding variation in behavioural responses to human-induced rapid environmental change: a conceptual overview. Anim Behav 85:1077–1088
Slabbekoorn H, Peet M (2003) Birds sing at a higher pitch in urban noise. Nature 424:267
Slabbekoorn H, Yeh P, Hunt K (2007) Sound transmission and song divergence: a comparison of urban and forest acoustics. Condor 109:67–78
Slabbekoorn H (2013) Songs of the city: noise-dependent spectral plasticity in the acoustic phenotype of urban birds. Anim Behav 85(5):1–11
Sol D, Duncan RP, Blackburn TM, Cassey P, Lefebvre L (2005) Big brains, enhanced cognition, and response of birds to novel environments. Proc Natl Acad Sci USA 102:5460–5465
Sol D, Lapiedra O, González-Lagos C (2013) Behavioural adjustments for a life in the city. Anim Behav 85:1101–1112
Sorace A (2002) High density of bird and pest species in urban habitats and the role of predator abundance. Ornis Fennica 79:60–71
Sorace A, Gustin M (2009) Distribution of generalist and specialist predators along urban gradients. Landsc Urban Plan 90:111–118
Sorace A, Visentin M (2007) Avian diversity on golf courses and surrounding landscapes in Italy. Landsc Urban Plan 81:81–90
Suárez‐Rodríguez M, Macías Garcia C (2014) There is no such a thing as a free cigarette; lining nests with discarded butts brings short‐term benefits, but causes toxic damage. J Evol Biol 27:2719–2726
Suárez-Rodríguez M, López-Rull I, Macías Garcia C (2013) Incorporation of cigarette butts into nests reduces nest ectoparasite load in urban birds: new ingredients for an old recipe? Biol Lett 9:20120931
Summers-Smith D (2003) The decline of the house sparrow: a review. Br Birds 96:439–446
Susca T, Gaffin SR, Dell’Osso GR (2011) Positive effects of vegetation: urban heat island and green roofs. Environ Pollut 159:2119–2126
Swaileh KM, Sansur R (2006) Monitoring urban heavy metal pollution using the House Sparrow (Passer domesticus). J Environ Monit 8:209–213
Townsend AK, Barker CM (2014) Plastic and the nest entanglement of urban and agricultural crows. PLoS One 9:e88006
Van Heezik Y, Smyth A, Adams A, Gordon J (2010) Do domestic cats impose an unsustainable harvest on urban bird populations? Biol Conserv 143:121–130
Verzijden MN, Ripmeester EAP, Ohms VR, Snelderwaard P, Slabbekoorn H (2010) Immediate spectral flexibility in singing chiffchaffs during experimental exposure to highway noise. J Exp Biol 213:2575–2581
Vuorisalo T, Andersson H, Hugg T, Lahtinen R, Laaksonen H, Lehikoinen E (2003) Urban development from an avian perspective: causes of hooded crow (Corvus corone cornix) urbanisation in two Finnish cities. Landsc Urban Plan 62:69–87
Weaving M, Cooke R (2010) The effect of artificial night light on the abundance of nocturnal birds. Vic Nat 127:192
Woods M, McDonald RA, Harris S (2003) Predation of wildlife by domestic cats Felis catus in Great Britain. Mammal Rev 33:174–188
Zalasiewicz J, Williams M, Steffen W, Crutzen P (2010) The new world of the anthropocene 1. Environ Sci Technol 44:2228–2231
Zhang G, Li B, Li C, Gilbert MTP, Jarvis ED, Wang J (2014) Comparative genomic data of the Avian Phylogenomics Project. GigaScience 3(1):26
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Garcia, C.M., Suárez-Rodríguez, M., López-Rull, I. (2017). Becoming Citizens: Avian Adaptations to Urban Life. In: Murgui, E., Hedblom, M. (eds) Ecology and Conservation of Birds in Urban Environments. Springer, Cham. https://doi.org/10.1007/978-3-319-43314-1_6
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