Arxius de Miscel·lània Zoològica. Volumen 21 (2023) Páginas: 49-54
Longevity records of citril finches Carduelis citrinella: analysing 43 years of continuous ringing
Borràs, A., Cabrera, J., Cabrera, T., Colomé, X., Senar, J. C.
DOI: https://doi.org/10.32800/amz.2023.21.0049Descargar
PDFCita
Borràs, A., Cabrera, J., Cabrera, T., Colomé, X., Senar, J. C., 2023. Longevity records of citril finches Carduelis citrinella: analysing 43 years of continuous ringing. Arxius de Miscel·lània Zoològica, 21: 49-54, DOI: https://doi.org/10.32800/amz.2023.21.0049-
Fecha de recepción:
- 15/03/2023
-
Fecha de aceptación:
- 24/04/2023
-
Fecha de publicación:
- 03/05/2023
-
Compartir
-
Visitas
- 2901
-
Descargas
- 1429
Abstract
Longevity records of citril finches Carduelis citrinella: analysing 43 years of continuous ringing
Longevity records (maximum lifespan) of free-ranging birds are basic to understand the evolution of avian senescence patterns. Here we provide minimum longevity records for the citril finch Carduelis citrinella, an endemic cardueline finch of high mountains in Central and Western Europe. Continuous ringing over 43 years in the Eastern Pyrenees allowed recording of a male of seven years and seven months, a female of six years and three months old, and 60 individuals of more than three years of age. There was no difference in the sex ratio between individuals of more than three years of age. These values agree with the potential natural longevity of the species computed from previously recorded mortality rates of the species.
Key words: Longevity, Maximum lifespan, Carduelis citrinella, Citril finch, Stable long term ringing stations, Pyrenees
Resumen
Registros de longevidad del verderón serrano Carduelis citrinella: análisis de 43 años de anillamiento continuado
Los registros de longevidad (esperanza de vida) de aves en libertad son básicos para entender la evolución de los patrones de senescencia aviar. Aquí proporcionamos registros de longevidad mínima para el verderón serrano Carduelis citrinella, un fringílido endémico de las montañas altas de Europa central y occidental. El anillamiento continuado a lo largo de 43 años en los Pirineos orientales permitió registrar un macho de siete años y siete meses de edad y una hembra de seis años y tres meses, así como 60 individuos de más de tres años de edad. No existieron diferencias en la ratio de sexos entre los individuos de más de tres años de edad. Estos valores concuerdan con la longevidad natural potencial de la especie calculada a partir de las tasas de mortalidad registradas anteriormente.
Palabras clave: Longevidad, Esperanza de vida, Carduelis citrinella, Verderón serrano, Estación de anillamiento constante, Pirineos
Resum
Registres de longevitat de la llucareta europea Carduelis citrinella: anàlisi de 43 anys d'anellament continuat.
Els registres de longevitat (esperança de vida) d'ocells en llibertat són bàsics per entendre l'evolució dels patrons de senescència aviària. Aquí proporcionem registres de longevitat mínima per a la llucareta europea Carduelis citrinella, un fringíl·lid endèmic de les muntanyes altes d'Europa central i occidental. L'anellament continuat al llarg de 43 anys als Pirineus orientals va permetre registrar un mascle de set anys i set mesos d'edat i una femella de sis anys i tres mesos, així com 60 individus de més de tres anys d'edat. No hi va haver diferències en la ràtio de sexes entre els individus de més de tres anys d'edat. Aquests valors concorden amb la longevitat natural potencial de l'espècie calculada a partir de les taxes de mortalitat registrades anteriorment.
Paraules clau: Longevitat, Esperança de vida, Carduelis citrinella, Llucareta, Estació d'anellament continuat, Pirineus
Introduction
Longevity records (maximum lifespan) of free-ranging birds are basic to understand the evolution of avian senescence patterns (Holmes and Austad, 1995; Møller, 2006, 2008). Such records, however, are difficult to obtain because long-term studies of marked birds are rare. This is the case of the citril finch Carduelis citrinella, for which there are no published records of longevity in standard papers on the topic (Rydzewski, 1962; Kennard, 1975; Staav, 1998). In this paper we analyse capture-recapture data of citril finches in the eastern Pyrenees along 43 years to provide the first estimates of the longevity of the species.
Material and methods
Citril finches were monitored between 1977 and 2020 at the breeding area in the Catalan Pyrenees, from Vall d’Aran to Vallter, including the adjacent Pre-Pyrenees, and at the wintering area in Central Catalonia (Borràs et al., 2010, 2011). The survey range included 80 ringing stations in an area of about 8,000 km2, with an altitudinal variation from 300-2,100 m a.s.l. (Borràs, 2016) (fig. 1). Birds were captured using mist nets at drinking vessels, at feeding spots and at bird feeders using modified Yunick platform traps (Yunick, 1971a, 1971c, 1971b; Senar, 1988). The sample we used included birds trapped along the whole year. Sex and age of birds was determined according to Svensson (1992) and Jenni and Winkler (1994). We also reviewed longevity data from the EURING data bank and from the Oficina de Anillamiento of SEO Birdlife.
The weighted mean annual mortality, the expectation of life, and the potential natural longevity was computed according to the formulas of Botkin and Miller (1974). The mortality rate of citril finches used in this study was based on estimates in Senar et al. (2002) with an average value of 0.62 pooling all the localities, and 0.58 when considereing the locality with lowest mortality values (Senar et al., 2002). Mortality rates were estimated by capture-recapture using program MARK (White and Burnham, 1999; Senar et al., 2002).
Results
During the 43 years of the study, we trapped and ringed a total of 36,331 citril finches and obtained a total of 1,812 recaptures of > 12 months, which means a recapture rate of 5 %. We recaptured 60 individuals (0.2%) that were over three years of age (table 1). The longevity record was seven years and seven months for a male, and six years and three months for a female. Ring recovery data from the EURING data bank and from the Oficina de Anillamiento of SEO Birdlife did not show any individual with a longer longevity than that obtained from our capture-recapture study. No sexual differences appeared in the number of males and females recaptured at a minimum age of three years (X12= 0.74, p = 0.39).
Discussion
The longevity record we obtained for citril finches in the Pyrenees was seven years and seven months. This is higher than the published value of five years provided to date for the species (Cramp and Perrins, 1994; Glutz and Bauer, 1997). However, it agrees with that of small, temperate-zone songbird species, for which few individuals living under natural conditions are known to reach over seven years of age (Kennard, 1975). The obtained values also agree with the potential natural longevity obtained from demographic models. A previously published record of nine years, using SEO Birdlife data base (Borràs et al., 2012), was later been confirmed as an error in the database by SEO (Arantza Leal, pers. comm.). The agreement between the observed and expected longevity records supports the view of a moderately important fidelity to breeding and/or wintering areas (Balph, 1978). This extrapolated site fidelity agrees with previous data on the species (Senar et al., 2002; Borràs et al., 2011)
Higher male longevity is typical for species where the males have a higher survival rate than females. In house sparrows Passer domesticus, for instance, males show higher survival and arger longevities than females (McGillivray and Murphy, 1984). This is also the case of the American goldfinch Carduelis tristis (Middleton and Webb, 1984). In citril finches we did not find any sex effect regarding longevity data, in agreement with previous findings that survival rates in males and females of this species do not differ (Senar et al., 2002).
Acknowledgements
We thank Hans Märki for very useful comments on an earlier version of the paper. We thank EURING and specially Dorian Moss for giving us access to the EURING databank, and to the Oficina de Anillamiento of SEO Birdlife and especially to Arantza Leal for giving us access to the SEO databank. We also thank all the ringers, students and other people who have collaborated with our team over all these years. Birds were handled with the permission of the Catalan Ringing Office (ICO) and the Departament of Medi Ambient, Generalitat de Catalunya, and we specially thank Raül Aymí for his continuous support. We also thank Jordi García Petit at Parc Natural del Cadí-Moixeró and the Reserva de Caça de la Cerdanya-Alt Urgell; Ivan Afonso at Departament de Miei Ambient e Pagesia, Conselh Generau d'Aran; Jordi Solà at Àrea de Medi Natural, Biodiversitat i Paisatge, Govern d'Andorra; and Marc Garriga at Parc Natural de l'Alt Pirineu, for their continuous support. This work was supported by funds from the Ministry of Science and Innovation, Spanish Research Council to JCS (CGL-2020 PID2020-114907GB-C21).
References
Balph, M. H., 1978. Some population trends among Cassin's Finches in northern Utah. North American Bird Bander, 3: 12–15.
Borràs, A., 2016. Les metapoblacions de Llucareta (Serinus citrinella) dels PrePirineus Orientals. Valoració ecológica i bases per a la seva gestió. PhD thesis, Polytechnic University of Barcelona, Barcelona. Available online at: http://hdl.handle.net/2117/96213
Borràs, A., Cabrera, J., Colomé, X., Cabrera, T., Senar, J. C., 2010. Citril finches during the winter: patterns of distribution, the role of pines and implications for the conservation of the species. Animal Biodiversity and Conservation, 33: 89–115, Doi: 10.32800/abc.2010.33.0089
Borràs, A., Cabrera, J., Colomé, X., Cabrera, T., Senar, J. C., 2011. Patterns of connectivity in the Citril finch: sympatric wintering of allopatric birds? Bird Study, 58: 257–263, Doi: 10.1080/00063657.2011.587107
Borràs, A., Cabrera, J., Colomé, X., Senar, J. C., 2012. Una revisión sobre las metapoblaciones de Verderón serrano: Patrones y movimientos. Revista de Anillamiento, 29-30: 8–24.
Botkin, D. B., Miller, R. S., 1974. Mortality Rates and Survival of Birds. The American Naturalist, 108: 181–192, https://www.jstor.org/stable/2459849
Cramp, S., Perrins, C. M., 1994. The birds of the Western Paleartic Vol. VIII. Crows to Finches. Oxford Univ. Press, Oxford.
Dorst, J., 1962. Les migrations des oiseaux. Payout, Paris. Collection Petite Bibliotheque Payot 25.
Glutz, U. N., Bauer, K. M., 1997. Handbuch der Vögel Mitteleuropas. Band 14/I, Passeriformes. AULA-Verlag, Wiesbaden.
Holmes, D. J., Austad, S. N., 1995. Birds as animal models for the comparative biology of aging: a prospectus. The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences, 50: B59-B66, Doi: 10.1093/gerona/50a.2.b59
Jenni, L., Winkler, R., 1994. Moult and ageing of European Passerines. Academic Press, London.
Kennard, J. H., 1975. Longevity Records of North American Birds. Bird-Banding 46: 55-73, Doi: 10.2307/4512096.
McGillivray, W. B., Murphy, E. C., 1984. Sexual differences in longevity of House Sparrows at Calgary, Alberta. Wilson Bulletin, 96(3): 456–458, https://www.jstor.org/stable/4161961
Middleton, A. L. A., Webb, P., 1984. Longevity of the American Goldfinch. Journal of Field Ornithology, 55: 383–386.
Møller, A. P., 2006. Sociality, age at first reproduction and senescence: Comparative analyses of birds. Journal of Evolutionary Biology, 19(3): 682–689, 10.1111/j.1420-9101.2005.01065.x
Møller, A. P., 2008. Relative longevity and field metabolic rate in birds. Journal of Evolutionary Biology, 21(5): 1379–1386, Doi: 10.1111/j.1420-9101.2008.01556.x
Rydzewski, W., 1962. Longevity of ringed birds. The Ring, 3: 147–152.
Senar, J. C., 1988. Trapping finches with the Yunick Platform Trap: the residency bias. Journal of Field Ornithology, 59: 381–384, https://www.jstor.org/stable/4513369
Senar, J. C., Conroy, M. J., Borràs, A., 2002. Asymmetric exchange between populations differing in habitat quality: a metapopulation study on the Citril Finch. Journal of Applied Statistics, 29: 425–441.
Staav, R., 1998. Longevity list of birds ringed in Europe. EURING Newsletter, 2: 9–18.
Svensson, L., 1992. Identification guide to European Passerines. British Trust for Ornithology, Tring, Hertfordshire.
White, G. C., Burnham, K. P., 1999. Program MARK: Survival estimation from populations of marked animals. Bird Study, 46: S120‐S139, Doi: 10.1080/00063659909477239
Yunick, R. P., 1971a. A platform trap. EBBA News, 34: 122–125.
Yunick, R. P., 1971b. The squirrel-proof trap platform. EBBA News, 34: 120–122.
Yunick, R. P., 1971c. A trap transfer cage. EBBA News, 34: 125–126.