Abstract
Recent studies show differences in population trends between groups of species occupying different habitats. In Czech birds, as well as in many other European countries, populations of forest species have increased, whereas populations of farmland species have declined. The aim of our study was to test whether population trends of particular species were related to finer bird-habitat associations within farmland and forest birds. We assessed bird-habitat associations using canonical correspondence analysis based on data from a 400 km long transect across the Czech Republic. We calculated population trends of 62 bird species using log-linear models based on data from a large-scale annual monitoring scheme, which covers the time series from 1982 to 2005. Within forest birds, species with a closer association with lowland broad-leaved forest have had more positive population trends, whereas species with a closer association with montane and coniferous forest revealed more negative population trends. We attribute these opposite trends to the gradual replacement of coniferous forests by deciduous ones, which took place in the Czech Republic during recent decades. Our analyses revealed a hump-shaped relationship within farmland birds, species most closely associated with farmland habitat revealing the most negative trends, whereas species with intermediate association to farmland habitat showed the most positive population trends. Such a pattern can be explained by the abandonment of previously cultivated areas followed by the spread of unmanaged meadows and scrubland. Changes in quantity or quality of preferred habitats may thus represent major drivers of observed bird population changes.
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References
Anonymous (2005) Statistical environmental yearbook of the Czech Republic 2005. The Ministry of the Environment of the Czech Republic, Praha
Báldi A, Faragó S (2007) Long-term changes of farmland game populations in a post-socialist country (Hungary). Agricult Ecosyst Environ 118:307–311. doi:10.1016/j.agee.2006.05.021
Bibby CJ, Burgess ND, Hill DA, Mustoe SH (2000) Bird census techniques, 2nd edn. Academic Press, London
Chamberlain DE, Fuller RJ, Bunce RGH, Duckworth JC, Shrubb M (2000) Changes in the abundance of farmland birds in relation to the timing of agricultural intensification in England and Wales. J Appl Ecol 37:771–788. doi:10.1046/j.1365-2664.2000.00548.x
De Juana E (2004) Changes in conservation status of birds in Spain, years 1954 to 2004. Ardeola 51:19–50
Donald PF, Green RE, Heath MF (2001) Agricultural intensification and the collapse of Europe’s farmland bird populations. Proc R Soc Lond B 268:25–29. doi:10.1098/rspb.2000.1325
Donald PF, Sanderson FJ, Burfield IJ, van Bommel FPJ (2006) Further evidence of continent-wide impacts of agricultural intensification on European farmland birds, 1990–2000. Agricult Ecosyst Environ 116:189–196. doi:10.1016/j.agee.2006.02.007
Flade M, Schwarz J (2004) Results of the German Common Birds Census, part II: population changes in German forest birds 1989–2003. Vogelwelt 125:177–213
Flousek J (1989) Impact of industrial emissions on bird populations breeding in mountain spruce forests in Central Europe. Ann Zool Fennici 26:255–263
Führer E (1990) Forest decline in central Europe—additional aspects of its cause. Forest Ecol Manag 37:249–257. doi:10.1016/0378-1127(90)90094-R
Gregory RD, Gaston KJ (2000) Explanations of commonness and rarity in British breeding birds: separating resource use and resource availability. Oikos 88:515–526. doi:10.1034/j.1600-0706.2000.880307.x
Gregory RD, van Strien A, Vorisek P, Gmelig Meyling AW, Noble DG, Foppen RPB, Gibbons DW (2005) Developing indicators for European birds. Phil Trans R Soc B 360:269–288. doi:10.1098/rstb.2004.1602
Gregory RD, Vorisek P, van Strien A, Gmelig Meyling AWG, Jiguet F, Fornasari L, Reif J, Chylarecki P, Burfield IJ (2007) Population trends of widespread woodland birds in Europe. Ibis 149:S78–S97. doi:10.1111/j.1474-919X.2007.00698.x
Holmes RT (2007) Understanding population change in migratory songbirds: long-term and experimental studies of Neotropical migrants in breeding and wintering areas. Ibis 149:S2–S13. doi:10.1111/j.1474-919X.2007.00685.x
Hudec K (ed) (1983) Fauna ČSSR. Ptáci 3 (Fauna of the Czech Republic. Birds 3). Academia, Praha
Hudec K, Šťastný K (eds) (2005) Fauna České republiky. Ptáci 2 (Fauna of the Czech Republic. Birds 2). Academia, Praha
Janda J, Řepa P (1986) Metody kvantitativního výzkumu v ornitologii (Quantitative methods in ornithology). SZN, Praha
Julliard R, Jiguet F, Couvet D (2003) Common birds facing global changes: what makes a species at risk? Global Change Biol 10:148–154. doi:10.1111/j.1365-2486.2003.00723.x
Julliard R, Jiguet F, Couvet D (2004) Evidence for the impact of global warming on the long-term population dynamics of common birds. Proc R Soc Lond B 271:S490–S492. doi:10.1098/rsbl.2004.0229
Julliard R, Clavel J, Devictor V, Jiguet F, Couvet D (2006) Spatial segregation of specialists and generalists in bird communities. Ecol Lett 9:1237–1244. doi:10.1111/j.1461-0248.2006.00977.x
Konvička M, Čížek L, Beneš J (2004) Ohrožený hmyz nížinných lesů (Endangered insects in lowland forests). Sagittaria, Olomouc
Lemoine N, Bauer H-G, Peintinger M, Boehning-Gaese K (2007) Effects of climate and land-use change on species abundance in a central European bird community. Conserv Biol 21:495–503. doi:10.1111/j.1523-1739.2006.00633.x
Lepš J, Šmilauer P (2003) Multivariate analysis of ecological data using CANOCO. Cambridge University Press, Cambridge
Lipský Z (1995) The changing face of the Czech rural landscape. Landscape Urban Plan 31:39–45. doi:10.1016/0169-2046(94)01034-6
Martin TG, McIntyre S (2007) Impacts of livestock grazing and tree clearing on birds of woodland and riparian habitats. Conserv Biol 21:504–514. doi:10.1111/j.1523-1739.2006.00624.x
Newton I (2004a) The recent declines of farmland bird populations in Britain: an appraisal of causal factors and conservation actions. Ibis 146:579–600. doi:10.1111/j.1474-919X.2004.00375.x
Newton I (2004b) Population limitation in migrants. Ibis 146:197–226. doi:10.1111/j.1474-919X.2004.00293.x
Pannekoek J, van Strien A (2001) TRIM 3 Manual. Statistics Netherlands
Parody JM, Cuthbert FJ, Decker EN (2001) The effect of 50 years of landscape change on species richness and community composition. Global Ecol Biogeogr 10:305–313. doi:10.1046/j.1466-822X.2001.00233.x
Peterjohn PG, Sauer JR (1994) Population trends of woodland birds from North American Breeding Bird Survey. Wildlife Soc B 22:155–164
Prach K, Bartha S, Joyce CB, Pysek P, van Diggelen R, Wiegleb G (2001) The role of spontaneous vegetation succession in ecosystem restoration: a perspective. Appl Veg Sci 4:111–114
Reif J, Voříšek P, Šťastný K, Bejček V (2006) Populační trendy ptáků v České republice v letech 1982–2005 (Population trends of birds in the Czech Republic during 1982–2005). Sylvia 42:22–37
Reif J, Voříšek P, Šťastný K, Bejček V, Petr J (2007) Population increase of forest birds in the Czech Republic between 1982 and 2003. Bird Study 54:248–255
Reif J, Voříšek P, Šťastný K, Bejček V, Petr J (2008) Agricultural intensification and farmland birds: new insights from a central European country. Ibis 150:596–605
Schulte LA, Pidgeon AM, Mladenoff DJ (2005) One hundred fifty years of change in forest bird breeding habitat: Estimates of species distributions. Conserv Biol 19:1944–1956. doi:10.1111/j.1523-1739.2005.00254.x
Seoane J, Carrascal LM (2008) Interspecific differences in population trends of Spanish birds are related to habitat and climatic preferences. Glob Ecol Biogeogr 17:111–121
Shultz S, Bradbury RB, Evans KL, Gregory RD, Blackburn TM (2005) Brain size and resource specialisation predict population trends in British birds. Proc R Soc Lond B 272:2305–2311. doi:10.1098/rspb.2005.3250
Siriwardena GM, Baillie SR, Buckland ST, Fewster RM, Marchant JH, Wilson JD (1998) Trends in the abundance of farmland birds. A quantitative comparison of smoothed common bird census indices. J Appl Ecol 35:24–43. doi:10.1046/j.1365-2664.1998.00275.x
Šťastný K, Bejček V (1985) Bird communities in spruce forests affected by industrial emissions in the Krušné Hory (Ore Mountains). In: Taylor K, Fuller RJ, Lack PC (eds) Bird census and atlas studies. BTO, Tring, pp 243–253
Šťastný K, Bejček V, Voříšek P, Flousek J (2004) Populační trendy polních a lesních ptáků v České republice v letech 1982–2001 a jejich využití jako indikátorů (Population trends of farmland and woodland birds in the Czech Republic in 1982–2001 and their use as indicators). Sylvia 40:27–48
Šťastný K, Bejček V, Hudec K (2006) Atlas hnízdního rozšíření ptáků v České republice (Atlas of breeding bird distribution in the Czech Republic). Aventinum, Praha
Storch D, Gaston KJ, Cepák J (2002) Pink landscapes: 1/f spectra of spatial environmental variability and bird community composition. Proc R Soc Lond B 269:1791–1796. doi:10.1098/rspb.2002.2076
ter Braak CJF, Šmilauer P (2002) CANOCO reference manual and CanoDraw for Windows user’s guide: software for canonical community ordination (version 4.5). Microcomputer Power, Ithaka
Veech JA (2006) A comparison of landscapes occupied by increasing and decreasing populations of grassland birds. Conserv Biol 20:1422–1432. doi:10.1111/j.1523-1739.2006.00487.x
Whittingham MJ, Krebs JR, Swetnam RD, Vickery JA, Wilson JD, Freckleton RP (2007) Should conservation strategies consider spatial generality? Farmland birds show regional not national patterns of habitat association. Ecol Lett 10:25–35. doi:10.1111/j.1461-0248.2006.00992.x
Wiens JA (1989) Ecology of bird communities. Cambridge Univ Press, Cambridge
Wretenberg J, Lindström A, Svensson S, Thierfelder T, Pärt T (2006) Population trends of farmland birds in Sweden and England: similar trends but different patterns of agricultural intensification. J Appl Ecol 43:1110–1120. doi:10.1111/j.1365-2664.2006.01216.x
Acknowledgements
We wish to thank hundreds of volunteers who collected field data providing the material for calculation of population trends. J. Mourková and J. Cepák assisted in the transect bird counts. V. Zámečník, L. Šímová and M. Macková assisted in data management. We are grateful to D. Hořák, J. Mourková, O. Sedláček, A. L. Šizling and T. Telenský for discussions on this topic. Three anonymous referees kindly commented earlier versions of the manuscript. The study was partially supported by the Ministry of Education of the Czech Republic (LC06073) and by the Grant Agency of the Academy of Sciences of the Czech Republic (IAA601970801). PV was supported by the European Commission and the RSPB.
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Appendix: List of abbreviations of scientific species names used in Fig. 2
Appendix: List of abbreviations of scientific species names used in Fig. 2
per per, Perdix perdix; pha col, Phasianus colchicus; van van, Vanellus vanellus; col oen, Columba oenas; col pal, Columba palumbus; str tur, Streptopelia turtur; cuc can, Cuculus canorus; jyn tor, Jynx torquilla; pic vir, Picus viridis; dry mar, Dryocopus martius; den maj, Dendrocopos major; den min, Dendrocopos minor; ala arv, Alauda arvensis; ant tri, Anthus trivialis; ant pra, Anthus pratensis; tro tro, Troglodytes troglodytes; pru mod, Prunella modularis; eri rub, Erithacus rubecula; lus meg, Luscinia megarhynchos; sax rub, Saxicola rubetra; oen oen, Oenanthe oenanthe; tur mer, Turdus merula; tur phi, Turdus philomelos; tur vis, Turdus viscivorus; acr pal, Acrocephalus palustris; syl com, Sylvia communis; syl atr, Sylvia atricapilla; phy sib, Phylloscopus sibilatrix; phy col, Phylloscopus collybita; phy tro, Phylloscopus trochilus; reg reg, Regulus regulus; reg ign, Regulus ignicapillus; mus str, Muscicapa striata; fic alb, Ficedula albicollis; aeg cau, Aegithalos caudatus; par pal, Parus palustris; par mon, Parus montanus; par cri, Parus cristatus; par ate, Parus ater; par cae, Parus caeruleus; par maj, Parus major; sit eur, Sitta europea; cer fam, Certhia familiaris; cer bra, Certhia brachydactyla; ori ori, Oriolus oriolus; lan col, Lanius collurio; gar gla, Garrulus glandarius; pic pic, Pica pica; cor coro, Corvus corone; stu vul, Sturnus vulgaris; pas mon, Passer montanus; fri coe, Fringilla coelebs; car spi, Carduelis spinus; lox cur, Loxia curvirostra; pyr pyr, Pyrrhula pyrrhula; coc coc, Coccothraustes coccothraustes; emb cit, Emberiza citrinella.
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Reif, J., Storch, D., Voříšek, P. et al. Bird-habitat associations predict population trends in central European forest and farmland birds. Biodivers Conserv 17, 3307–3319 (2008). https://doi.org/10.1007/s10531-008-9430-4
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DOI: https://doi.org/10.1007/s10531-008-9430-4