Patterson, B. D., Stotz, D. F., Solari, S., Fitzpatrick, J. W. & Pacheco, V. Contrasting patterns of elevational zonation for birds and mammals in the Andes of southeastern Peru. J. Biogeogr. 25, 593–607 (1998).
Cadena, C. D. et al. Latitude, elevational climatic zonation and speciation in New World vertebrates. Proc. R. Soc. B 279, 194–201 (2012).
Diamond, J. M. Distributional ecology of New Guinea birds: recent ecological and biogeographical theories can be tested on the bird communities of New Guinea. Science 179, 759–769 (1973).
Terborgh, J. & Weske, J. S. The role of competition in the distribution of Andean birds. Ecology 56, 562–576 (1975).
Garcia-Moreno, J., Arctander, P. & Fjeldsa, J. Strong diversification at the treeline among Metallura hummingbirds. Auk 116, 702–711 (1999).
Freeman, B. G. Competitive interactions upon secondary contact drive elevational divergence in tropical birds. Am. Nat. 186, 470–479 (2015).
Cadena, C. D. Testing the role of interspecific competition in the evolutionary origin of elevational zonation: an example with Buarremon Brush-finches (Aves, Emberizidae) in the neotropical mountains. Evolution 61, 1120–1136 (2007).
Curson, J. & de Juana, E. Spectacled redstart (Myioborus melanocephalus), version 1.0. In Birds of the World (eds del Hoyo, J. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.spered1.01.
Harrod, W. D. & Mumme, R. L. Slate-throated redstart (Myioborus miniatus), version 1.0. In Birds of the World (ed. Schulenberg, T. S.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.sltred.01.
Remsen, J. V. Jr. & Robinson, S. K. A classification scheme for foraging behavior of birds in terrestrial habitats. Stud. Avian Biol. 13, 144–160 (1990).
Jimenez, D. A bird forages through a tree. Elevation: 2263 m. Movie clip at https://macaulaylibrary.org/asset/201110671, added to IBC (Internet Bird Collection) on June 23, 2019; accessed on 26 July, 2020 through Slate-throated Redstart (Myioborus miniatus), version 1.0. (Harrod, W. D. & Mumme R. L.) in Birds of the World (ed. Schulenberg, T. S.); https://doi.org/10.2173/bow.sltred.01 (Cornell Lab of Ornithology, 2016)
Jimenez, D. Bird looking for food. Elevation: 2663 m. Movie clip at IBC (Internet Bird Collection (https://macaulaylibrary.org/asset/201955691); Added to IBC on 23 June, 2016; accessed on 26 July, 2020 through Slate-throated Redstart (Myioborus miniatus), version 1.0. (Harrod, W. D. & Mumme R. L.) in Birds of the World (ed. Schulenberg, T. S.); https://doi.org/10.2173/bow.sltred.01 (Cornell Lab of Ornithology, 2016).
Jablonski, P. G. A rare predator exploits prey escape behavior: the role of tail fanning and plumage contrast in foraging of the painted redstart (Myioborus pictus). Behav. Ecol. 10, 7–14 (1999).
Jablonski, P. G. Searching for conspicuous versus cryptic prey: search rates of flush-pursuing versus substrate-gleaning birds. Condor 104, 657–661 (2002).
Jablonski, P. G. et al. Habitat-specific sensory-exploitative signals in birds: propensity of dipteran prey to cause evolution of plumage variation in flush-pursuit birds. Evolution 60, 2633–2642 (2006).
Jablonski, P. G., Lee, S. D. & Jerzak, L. Innate plasticity of a predatory behavior: nonlearned context dependence of avian flush-displays. Behav. Ecol. 6, 925–932 (2006).
Mumme, R. L. Scare tactics in a Neotropical warbler: white tail feathers enhance flush-pursuit foraging performance in the Slate-throated redstart (Myioborus miniatus). Auk 119, 1024–1035 (2002).
Mumme, R. L., Galatowitsch, M. L., Jablonski, P. G., Stawarczyk, T. M. & Cygan, J. P. Evolutionary significance of geographic variation in a plumage-based foraging adaptation: an experimental test in the Slate-throated redstart (Myioborus miniatus). Evolution 60, 1086–1097 (2006).
Perez-Eman, J. L., Mumme, R. L. & Jablonski, P. G. Phylogeography and adaptive plumage evolution in Central American subspecies of the slate-throated redstart (Myioborus miniatus). Ornithol. Monogr. 67, 90–102 (2010).
Dawkins, R. The Extended Phenotype (Oxford University Press, Oxford, 1983).
Jablonski, P. G. & Lee, S. D. Effects of visual stimuli, substrate borne vibrations and air current stimuli on escape reactions in insect prey of flush-pursuing birds and their implications for evolution of flush-pursuers. Behaviour 143, 303–324 (2006).
Jablonski, P. G. & Strausfeld, N. J. Exploitation by a recent avian predator of an ancient arthropod escape circuit: prey sensitivity and elements of the displays by predators. Brain Behav. Evol. 56, 94–106 (2000).
Jablonski, P. G. & Strausfeld, N. J. Exploitation of an ancient escape circuit by an avian predator: relationships between taxon-specific prey escape circuits and the sensitivity to visual cues from the predator. Brain Behav. Evol. 58, 218–240 (2001).
Boles, W. Black fantail (Rhipidura atra), version 1.0. In Birds of the World (eds del Hoyo, J. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.blafan1.01.
Boles, W. Dimorphic fantail (Rhipidura brachyrhyncha), version 1.0. In Birds of the World (eds del Hoyo, J. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.dimfan1.01.
Moeliker, K. Blue-headed crested-flycatcher (Trochocercus nitens), version 1.0. In Birds of the World (eds del Hoyo, J. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.bhcfly1.01.
Clement, P. African blue flycatcher (Elminia longicauda), version 1.0. In Birds of the World (eds del Hoyo, J. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.afbfly1.01.
Horak, D. et al. Forest structure determines spatial changes in avian communities along an elevational gradient in tropical Africa. J. Biogeogr. 46, 2466–2478 (2019).
Curson, J., Quinn, D. & Beadle, D. New World Warblers (Christopher Helm, London, 1994).
Perez-Eman, J. L. Molecular phylogenetics and biogeography of the Neotropical redstarts (Myioborus, Aves, Parulidae). Mol. Phylogen. Evol. 37, 511–528 (2005).
Ridgely, R. S. & Tudor, G. Birds of South America: Passerines (Christopher Helm, London, 2009).
Hilbie, C. & Block, N. L. Collared redstart (Myioborus torquatus), version 1.0. In Birds of the World (ed. Schulenberg, T. S.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.colred1.01.
Curson, J., del Hoyo, J., Bonan, A., Collar, N. & Kirwan, G. M. Golden-fronted redstart (Myioborus ornatus), version 1.0. In Birds of the World (eds Billerman, S. M. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.gofred1.01.
Curson, J. White-fronted redstart (Myioborus albifrons), version 1.0. In Birds of the World (eds del Hoyo, J. et al.) (Cornell Lab of Ornithology, Ithaca, 2020). https://doi.org/10.2173/bow.whfred2.01.
Price, T. Speciation in Birds (Roberts and Company, Greenwood Village, 2008).
Cadena, C. D. & Loiselle, B. A. Limits to elevational distributions in two species of emberizine finches: disentangling the role of interspecific competition, autoecology, and geographic variation in the environment. Ecography 30, 491–504 (2007).
Bussman, R. W. The montane forests of Reserva Biologica San Francisco (Zamora-Chinchipe, Ecuador) Vegetation zonation and natural regeneration. Erde 132, 9–25 (2001).
Bussman, R. W. The vegetation of reserva biologica San Francisco, Zamora-Chinchipe, Southern Ecuador—a phytosociological synthesis. In Conservacion de Bioriversidad an los Andes y la Amazonia. Conservation of Biodiversity in the Andes and the Amazon, Cusco, 24–28.09.2001. Memorias del Congreso—Congress Proceedings (eds Bussmann, R. W. & Lange, S.) 71–175 (INKA Cusco, Cuzco, 2002).
Ridgely, R. S. & Greenfield, P. J. The Birds of Ecuador (Cornell Univ. Press, Ithaca, 2001).
Google. Cascadas de Nambillo by Brian Driscoll. Google Street View, Jul 2018. Accessed 6 August 2020. https://goo.gl/maps/cTv5Cf34LvZV33yTA (2018).
Google. Cabanas San Isidro by Daniel Zurita Arthos. Google Street View, Sep 2018.Accessed 6 August 2020. https://goo.gl/maps/NHqLxRMsngRwDbto8 (2018).
Google. Milagrosa Waterfall by Elizabeth Clark. Google Street View, Mar 2018. Accessed 6 August 2020. https://goo.gl/maps/SfTW8J8xDVDnpBCC6 (2018).
Shopland, J. M. Facultative following of mixed species flocks by two species of neotropical warbler. PhD Dissertation. University of Chicago (1985).
Stiles, F. G. & Skutch, A. F. A Guide to the Birds of Costa Rica (Cornell Univ. Press, Ithaca, 1989).
Schulenberg, T. S., Stotz, D. F., Lane, D. F., O’Neill, J. P. & Parker, T. A. Birds of Peru (Princeton Univ. Press, Ithaca, 2010).
Sullivan, B. L. et al. eBird: a citizen-based bird observation network in the biological sciences. Biol. Conserv. 142, 2282–2292 (2009).
eBird. eBird: An online database of bird distribution and abundance [web application]. eBird, Cornell Lab of Ornithology, Ithaca, New York. Available: http://www.ebird.org. Accessed 24 July 2020 (2017).
Greeney, H. F. et al. Nesting ecology of the Spectacled Whitestart in Ecuador. Ornitol. Neotrop. 19, 335–344 (2008).
Merkord, C. L. Seasonality and Elevational Migration in an ANDEAN BIRD COMMUNITY. PhD Thesis, University of Missouri-Columbia, pp. 154 (2010)
Nitta, B. Altitudinal Distribution and Niche Partitioning of Two Redstart Species in Monteverde (Parulidae). Digital Collections > Tropical Ecology Collection [Monteverde Institute], https://digital.lib.usf.edu/?m39.519 (2009).
Shopland, J. M. Facultative following of mixed species flocks by two species of Neotropical warbler. Ph.D. Thesis, University of Chicago, Chicago (1985)
Brehm, G., Sussenbach, D. & Fiedler, K. Unique elevational diversity patterns of geometrid moths in an Andean montane forest. Ecography 26, 456–466 (2003).
Pyrcz, T. W., Wojtusiak, J. & Garlacz, R. Diversity and distribution patterns of Pronophilina butterflies (Lepidoptera: Nymphaliae: Satyrinae) along an altitudinal transect in North-Western Ecuador. Neotrop. Entomol. 38, 716–726 (2009).
Brehm, G. & Fiedler, K. Diversity and community structure of geometrid moths of disturbed habitat in a montane area in the Ecuadorian Andes. J. Res. Lepidoptera 38, 1–14 (2005).
Janzen, D. H. Sweep samples of tropical foliage insects: effects of seasons, vegetation types, elevation, time of day, and insularity. Ecology 54, 687–708 (1973).
Hilt, N. & Fiedler, K. Diversity and composition of Arctiidae moth ensembles along a successional gradient in the Ecuadorian Andes. Divers. Distrib. 11, 387–398 (2005).
Harmackova, L., Remesova, E. & Remes, V. Specialization and niche overlap across spatial scales: revealing ecological factors shaping species richness and coexistence in Australian songbirs. J. Anim. Ecol. 88, 1766–1776 (2019).
Freeman, B. G., Class Freeman, A. M. & Hochachka, W. M. Asymmetric interspecific aggression in New Guinean songbirds that replace one another along an elevational gradient. Ibis 158, 726–737 (2016).
Pyrcz, T. W. & Wojtusiak, J. The vertical distribution of pronophilinae butterflies (Nymphalidae, Satyrinae) along an elevational transect in Monte Zerpa (Cordillera de Merida, Venezuela) with remarks on their diversity and parapatric distribution. Glob. Ecol. Biogeogr. 11, 211–221 (2002).
Brehm, G., Zeuss, D. & Colwell, R. K. Moth body size increases with elevation along a complete tropical elevational gradient for two hyperdiverse clades. Ecography 42, 632–642 (2019).
Robbins, M. B. et al. Abra Maruncunca, dpto. Puno, Peru, revisited: vegetation cover and avifauna changes over a 30-year period. Bull. B.O.C 133, 31–51 (2013).
Pouds, J. A., Fogden, M. P. L. & Campbell, J. H. Biological response to climate change on a tropical mountain. Nature 398, 611–615 (1999).
Swenson, J. J. et al. Plant and animal endemism in the eastern Andean slope: challenges to conservation. BMC Ecol. 12, 1. https://doi.org/10.1186/1472-6785-12-1 (2012).
Valencia, R. Composition and structure of an Andean forest fragment in eastern Ecuador. In Biodiversity and Conservation of Neotropical Montane Forests (eds Churchill, S. et al.) 239–249 (New York Botanical Garden, New York, 1995).
Pollard, J. H. On distance estimators of density in randomly distributed forest. Biometrics 27, 991–1002 (1971).
Levins, R. Evolution in Changing Environment (Princeton University Press, Princeton, 1968).
Pianka, E. R. Niche overlap and diffuse competition. Proc. Nat. Acad. Sci. U.S.A. 71, 2142–2145 (1974).
Sokal, R. R. & Rohlf, F. J. Biometry (Freeman and Co., New York, 1997).
McLachlan, G. Discriminant Analysis and Statistical Pattern Recognition (Wiley, Hobolken, 2004).
StatSoft Inc. Electronic Statistics Textbook. http://www.statsoft.com/textbook/ (Tulsa, OK: StatSoft. WEB, 2013).
Molga, M. Meteorologia rolnicza. PWRiL, Warszawa [in Polish; English translation: Agricultural meteorology. Warszawa: Centralny Instytut Informacji Naukowo-Technicznej i Ekonomicznej, translated by M. Widymski and L. Widymski. OCLC Number: 641437878, 1962], (1986).
Nowakowski, J. J. Long-term variability of phenotypic traits in the Sedge Warbler (Acrocephalus schoenobaenus) population in the Biebrza Marshes—Adaptation to the changing environment [in Polish]. Dissertation and Monographs 168, 1–294 (Publishing House of the University of Warmia and Mazury, Olsztyn, 2011).
Holm, S. A simple sequential rejective method procedure. Scand. J. Stat. 6, 65–70 (1979).
Nakagawa, S. A farewell to Bonferroni: the problems of low statistical power and publication bias. Behav. Ecol. 15, 1044–1045 (2004).
Akaike, H. Information theory and an extension of the maximum likelihood principle. In 2nd Int Symposium on Information Theory (eds Petrov, B. N. & Csaki, F.) 267–281 (Akademia Kiado, Budapest, 1973).
Burnham, K. P. & Anderson, D. R. Model Selection and Inference: A Practical Information-Theoretic Approach (Springer, New York, 1998).
Source: Ecology - nature.com
