Palabras clave
distribución espacial
ecología urbana
selección de recursos
sitio de nidificación
Cómo citar
Resumen
Los centros urbanos están dominados por especies adaptadas a la presencia humana. La intensidad de la actividad humana tiene una fuerte influencia sobre la selección del hábitat en poblaciones animales. Los objetivos de este estudio fueron estimar la abundancia y la distribución espacial de los nidos de dos especies de palomas (Columba livia and Patagioenas maculosa) y evaluar los efectos de factores humanos sobre la probabilidad de selección de sitios de nidificación en diferentes zonas en una ciudad de desierto. La abundancia de nidos de Columba livia aumentó en el centro de la ciudad y para Patagioenas maculosa en zonas alejadas del centro, en áreas verdes. Las variables más influyentes en la probabilidad de selección de sitios de nidificación para Columba livia fueron distancia a la plaza principal, distancia a las fuentes de alimento y la interacción entre la distancia a las fuentes de alimento y la distancia al agua, además del tipo y la altura de los edificios. Para Patagioenas maculosa las variables más influyentes en la probabilidad de selección de sitios de nidificación fueron la distancia al agua, la densidad poblacional humana, la distancia a las fuentes de alimento y la interacción entre la densidad poblacional humana y la distancia a las fuentes de alimento, además de la altura del árbol y el diámetro de la copa. Además, esta especie seleccionó Platanus×hispanica y Morus spp. como sitio de nidificación. Los sitios de reproducción podrían ser un factor limitante para estas especies; los resultados de este estudio tienen importantes implicancias para la elección de estrategias apropiadas de control en el manejo de palomas de ambientes urbanos en zonas desérticas.
Referencias
ADESIYUN AA, SEEPERSADSINGH N, INDER L AND CAESARK (1998) Some bacterial enteropathogens in wild-life and racing pigeons from Trinidad. Journal ofWildlife Diseases 34:73–80
BARTON K (2016) MuMIn: multi-model inference. RFoundation for Statistical Computing, Vienna (URL:http://CRAN.R-project.org/package=MuMIn)
BENDJOUDI D, VOISIN JF, DOUMANDJI S, MERABET A,BENYOUNES N AND CHENCHOUNI H (2015) Rapidincrease in numbers and change of land-use in twoexpanding Columbidae species (Columba palumbusand Streptopelia decaocto) in Algeria. Avian Research6:art18
BLAIR RB (1996) Land use and avian species diversityalong an urban gradient. Ecological Applications6:506–519
BLENDINGER PG AND OJEDA RA (2001) Seed supply asa limiting factor for granivorous bird assemblagesin the Monte Desert, Argentina. Austral Ecology26:413–422
BROWN A, MARTINEZ ORTIZ U, ACERBI M AND CORCUERAJ (2006) La situación ambiental argentina 2005. Funda-ción Vida Silvestre Argentina, Buenos Aires
BUIJS J AND VAN WIJNEN JH (2001) Survey of feral Rockdoves (Columba livia) in Amsterdam, a bird-humanassociation. Urban Ecosystems 5:235–241
BURNHAM KP AND ANDERSON DR (2002) Model selec-tion and multi-model inference: a practical information-theoretic approach. Springer, New York
CASANOVAS L, DE SIMÓN M, FERRER MD, ARQUÉS J ANDMONZÓN G (1995) Intestinal carriage of campylo-bacters, salmonellas, yersinias and listerias inpigeons in the city of Barcelona. Journal of AppliedBacteriology 78:11–13
CEFOCA (2010) Atlas socioeconómico Provincia de SanJuan. Universidad Nacional de San Juan, San Juan
CLARK PJ AND EVANS FC (1954) Distance to nearestneighbor as a measure of spatial relationships inpopulations. Ecology 35:445–453
CLERGEAU P, JOKIMÄKI J AND SAVARD JPL (2001) Areurban bird communities influenced by the birddiversity of adjacent landscapes? Journal of AppliedEcology 38:1122–1134
DWASS M (1957) Modified randomization tests fornonparametric hypotheses. Annals of MathematicalStatistics 28:181–187
FERNÁNDEZ-JURICIC E, JIMÉNEZ MD AND LUCAS E (2001)Bird tolerance to human disturbance in urban parksof Madrid (Spain): management implications. Pp.259–273 in: MARZLUFF JM, BOWMAN R AND DONNELLYR (eds) Avian ecology and conservation in an urbaniz-ing world. Kluwer, Dordrecht
FERNÁNDEZ-JURICIC E, VACA R AND SCHROEDER N (2004)Spatial and temporal responses of forest birds tohuman approaches in a protected area and impli-cations for two management strategies. BiologicalConservation 117:407–416
FISHER CD, LINDGREN E AND DAWSON WR (1972) Drink-ing patterns and behavior of Australian desert birdsin relation to their ecology and abundance. Condor74:111–136
GARAMSZEGI LZ (2011) Information-theoreticapproaches to statistical analysis in behaviouralecology: an introduction. Behavioral Ecology andSociobiology 65:1–11
GÖMEZ-HERAS M, BENAVENTE D, ÁLVAREZDE BUERGOM AND FORT R (2004) Soluble salt minerals frompigeon droppings as potential contributors to thedecay of stone based cultural heritage. EuropeanJournal of Mineralogy 16:505–509
HAAG-WACKERNAGEL D (1995) Regulation of the streetpigeon in Basel. Wildlife Society Bulletin 23:256–260
HAAG-WACKERNAGEL D AND MOCH H (2004) Healthhazards posed by feral pigeons. Journal of Infection48:307–313
HETMANSKI T AND BARKOWSKA M (2007) Density andage of breeding pairs influence feral pigeon,Columba livia reproduction. Folia Zoologica56:71–83
HETMANSKI T, BOCHENSKI M, TRYJANOWSKI P ANDSKÓRKA P (2011) The effect of habitat and numberof inhabitants on the population sizes of feralpigeons around towns in northern Poland. Euro-pean Journal of Wildlife Research 57:421–428
JOKIMÄKI J AND SUHONEN J (1998) Distribution andhabitat selection of wintering birds in urban en-vironments. Landscape and Urban Planning39:253–263
KULLDORFF M (1997) A spatial scan statistic. Commu-nications in Statistics. Theory and Methods 26:1481–1496
KULLDORFF M (2009) SaTScan. Software for the spatial,temporal, and space-time scan statistics. MartinKulldorff and Information Management Services,Boston (URL: http://www.satscan.org/)
KULLDORFF M AND NAGARWALLA N (1995) Spatial dis-ease clusters: detection and inference. Statistics inMedicine 14:799–810
KUTNER MH, NACHTSHEIM CJ, NETER J AND LI W (2005)Applied linear statistical models. McGraw-Hill Irwin,New York
LABRAGA JC AND VILLALBA R (2009) Climate in theMonte desert: past trends, present conditions, andfuture projections. Journal of Arid Environments73:154–163
LEVEAU CM AND LEVEAU LM (2005) Avian communityresponse to urbanization in the Pampean region,Argentina. Ornitología Neotropical 16:503–510
LEVEAU LM (2013) Relaciones aves-hábitat en el sec-tor suburbano de Mar del Plata, Argentina.Ornitología Neotropical 24:201–212
LEVEAU LM AND LEVEAU CM (2004) Comunidades deaves en un gradiente urbano de la ciudad de Mardel Plata, Argentina. Hornero 19:13–21
LEVEAU LM AND LEVEAU CM (2012) The role of urban-ization and seasonality on the temporal variabilityof bird communities. Landscape and Urban Planning106:271–276
LEVEAU LM AND LEVEAU CM (2016) Does urbaniza-tion affect the seasonal dynamics of bird commu-nities in urban parks? Urban Ecosystems 19:631–647
MACGREGOR-FORS I AND SCHONDUBE JE (2011) Grayvs. green urbanization: relative importance of urbanfeatures for urban bird communities. Basic andApplied Ecology 12:372–381
MAGNINO S, HAAG-WACKERNAGEL D, GEIGENFEIND I,HELMECKE S, DOVC A, PRUKNER-RADOVCIC E, RESIDBE-GOVIC E, ILIESKI V, LAROUCAU K, DONATI M, MARTINOVS AND KALETA EF (2009) Chlamydial infections inferal pigeons in Europe: review of data and focuson public health implications. Veterinary Microbiology135:54–67
MANLY BFJ, MCDONALD LL, THOMAS DL, MCDONALDTL AND ERICKSON EP (2002) Resource selection by ani-mals: statistical design and analysis of field studies.Kluwer, Dordrecht
MARQUES SMT, DE QUADROS RM, DA SALIVA RM, DASALIVA CJ AND BALDO M (2007) Parasites of pigeons(Columba livia) in urban areas of Lages, SouthernBrazil. Parasitología Latinoamericana 62:183–187
MCLOUGHLIN PD, MORRIS DW, FORTIN D, VANDER WALE AND CONTASTI AL (2010) Considering ecologicaldynamics in resource selection functions. Journal ofAnimal Ecology 79:4–12
MENON M AND MOHANRAJ R (2016) Temporal and spa-tial assemblages of invasive birds occupying theurban landscape and its gradient in a southern cityof India. Journal of Asia-Pacific Biodiversity 9:74–84
MORELLI F, BENEDETTI Y, IBÁÑEZ-ÁLAMO JD, JOKIMÄKI J,MÄND R, TRYJANOWSKI P AND MØLLER AP (2016) Evi-dence of evolutionary homogenization of bird com-munities in urban environments across Europe.Global Ecology and Biogeography 25:1284–1293
MURTAUGH PA (2014) In defense of P values. Ecology95:611–617
NIEMELÄ J (1999) Is there a need for a theory of urbanecology? Urban Ecosystems 3:57–65
ORIANS GH AND WITTENBERGER JF (1991) Spatial andtemporal scales in habitat selection. American Natu-ralist 137 (Suppl):29–49
ORTEGA-ÁLVAREZ R AND MACGREGOR-FORS I (2009)Living in the big city: effects of urban land-use onbird community structure, diversity, and composi-tion. Landscape and Urban Planning 90:189–195
PAKER Y, YOM-TOV Y, ALON-MOZES T AND BARNEA A(2014) The effect of plant richness and urban gar-den structure on bird species richness, diversity andcommunity structure. Landscape and Urban planning122:186–195
PIMENTEL D, LACH L, ZUNIGA R AND MORRISON D (2000)Environmental and economic costs of nonindige-nous species in the United States. BioScience 50:53–65
PRZYBYLSKA K, HAIDT A, MYCZKO L, EKNER A, ROSIN ZM, KWIECINSKI Z, TRYJANOWSKI P, SUCHODOLSKA J,TAKACS V, JANKOWIAK L, TOBÓLKA M, WASIELEWSKI O,GRACLIK A, KRAWCZYK AJ, KASPRZAK A, SZWAJKOWSKIP, WYLEGALA P, MALECHA AW, MIZERA T AND SKÓRKAP (2012) Local and landscape-level factors affectingthe density and distribution of the Feral PigeonColumba livia var. domestica in an urban environment.Acta Ornithologica 47:37–45
QGIS DEVELOPMENT TEAM (2016) QGIS GeographicInformation System. Open Source Geospatial Foun-dation, Beaverton (URL: http://www.qgis.org/)
R CORE TEAM (2016) R: a language and environment forstatistical computing. R Foundation for StatisticalComputing, Vienna
ROSE E, NAGEL P AND HAAG-WACKERNAGEL D (2006)Spatio-temporal use of the urban habitat by feralpigeons (Columba livia). Behavioral Ecology andSociobiology 60:242–254
ROUSSEAU JS, SAVARD JPL AND TITMAN R (2015) Shrub-nesting birds in urban habitats: their abundance andassociation with vegetation. Urban Ecosystems18:871–884
RYAN AC (2011) The distribution, density, and movementsof feral pigeons Columba livia and their relationship withpeople. PhD thesis, Victoria University of Welling-ton, Wellington
SACCHI R, GENTILLI A, RAZZETTI E AND BARBIERI F (2002)Effects of building features on density and flockdistribution of feral pigeons Columba livia vardomestic in an urban environment. Canadian Journalof Zoology 80:48–54
SANDSTRÖM UG, ANGELSTAM P AND MIKUSINSKI G (2006)Ecological diversity of birds in relation to the struc-ture of urban green space. Landscape and Urban Plan-ning 77:39–53
SAVARD JPL, CLERGEAU P AND MENNECHEZ G (2000)Biodiversity concepts and urban ecosystems. Land-scape and Urban Planning 48:131–14
2SENAR JC, CARRILLO J, ARROYO L, MONTALVO T ANDPERACHO V (2009) Estima de la abundancia de palo-mas (Columba livia) de la ciudad de Barcelona yvaloración de la efectividad del control por elimi-nación de individuos. Arxius de Miscellània Zoològica7:62–71
SENAR JC, MONTALVO T, PASCUAL J AND PERACHO V(2017) Reducing the availability of food to controlferal pigeons: changes in population size and com-position. Pest Management Science 73:313–317
SILVY NJ (2012) The wildlife techniques manual. Seventhedition. Johns Hopkins University Press, Baltimore
SOKAL R AND ROHLF F (1995) Biometry: the principlesand practice of statistics in biological research. Freeman,New York
SOL D, SANTOS DM, GARCÍIA J AND CUADRADO M (1998)Competition for food in urban pigeons: the cost ofbeing juvenile. Condor 100:298–304
SPENNEMANN DH AND WATSON MJ (2017) Dietary hab-its of urban pigeons (Columba livia) and implicationsof excreta pH — a review. European Journal of Ecol-ogy 3:27–41
STOCK B AND HAAG-WACKERNAGEL D (2016) Food short-age affects reproduction of Feral Pigeons Columbalivia at rearing of nestlings. Ibis 158:776–783
THOMAS DL AND TAYLOR EJ (1990) Study designs andtests for comparing resource use and availability.Journal of Wildlife Management 54:322–330
TURNBULL B, IWANO EJ, BURNETT WS, HOWE HL ANDCLARK LC (1990) Monitoring for clusters of disease:application to leukemia incidence in upstate NewYork. AmericanJournal of Epidemiology 132:136–143
VALLVÉ SL, ROJO H AND WISNIVESKY-COLLI C (1995)Ecología urbana de Triatoma infestans en Argentina:asociación entre Triatoma infestans y palomares.Revista de Saúde Pública 29:192–198
VILLEGAS M AND GARITANO-ZAVA L A A (2010) Bird com-munity responses to different urban conditions inLa Paz, Bolivia. Urban Ecosystems 13:375–391
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