Tytuł artykułu
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
We assessed the assemblages of birds inhabiting pine-dominated managed forest, aged between 1-5 years and above 140 years. Birds were counted on study plots representing eight different phases to the forest's development, with nesting, foraging and migratory guild categories recognised. Numbers of bird species and population densities, both increased markedly with stand age (respectively r = 0.988 and r = 0.936, P < 0.001). While numbers of ground-nesting bird species failed to correlate with stand age, successively older stands did support ever-greater proportions of species in the assemblage that nested in tree crowns (r = 0.976, P < 0.005) or tree holes (r = 0.833, P < 0.005). Raptors were most abundant in forest at the oldest stages of growth, and there was an age-gradient-related increase in the shares of both plant-eating species (r = 0.952, P < 0.005) and raptors (r = 0.764, P < 0.005). Resident birds were most numerous in the oldest forest. PCA for ten selected variables (relating to guild type) showed that the two principal components explained almost 98% of the variation among groups of bird guilds in relation to forest age. On the basis of their suitability for birds it was possible to distinguish three categories of stand by age group, of which the first encompasses the initial stage, the second a broad interval involving middle-aged stands of between 16 and 140 years, and the third forest more than 140 years old. The presence of the oldest stands of all can thus be seen to play a very important role in maintaining high-diversity populations of birds in managed forest.
Czasopismo
Rocznik
Tom
Strony
162--181
Opis fizyczny
Bibliogr. 44 poz., mapa, tab., wykr.
Twórcy
autor
- Institute of Forest Science, University of Łódź, Branch in Tomaszów Mazowiecki, Konstytucji 3 Maja 65/67, 97-200 Tomaszów Mazowiecki, Poland
autor
- Department of Silviculture, Warsaw University of Life Sciences - SGGW, Nowoursynowska 159, 02-776 Warsaw, Poland
autor
- Department of Forest Protection and Ecology, Warsaw University of Life Sciences - SGGW, Nowoursynowska 159, 02-776 Warsaw, Poland
autor
- Department of Forest Protection and Ecology, Warsaw University of Life Sciences - SGGW, Nowoursynowska 159, 02-776 Warsaw, Poland
autor
- Faculty of Mathematics and Natural Sciences, Cardinal Stefan Wyszyński University, Wóycickiego 1/3, 01-938 Warsaw, Poland
Bibliografia
- [1] Angelstam P., Mikusiński G. 1994 – Woodpecker assemblages in natural and managed boreal and hemiboreal forest - a review – Ann. Zool. Fennici, 31: 157-172.
- [2] Baláž M., Balážová M. 2012 – Diversity and abundance of bird communities in three mountain forest stands: effect of the habitat heterogeneity – Pol. J. Ecol. 60: 629-634.
- [3] Basile M., Balestrieri R., de Groot M., Flajsman K., Posillico M. 2016 – Conservation of birds as a function of forestry – Italian J. Agronom. 11: 42-48.
- [4] Bergner A., Avci M., Eryigit H., Jansson N., Niklasson M., Westerberg L., Milberg P. 2015 – Influences of forest type and habitat structure on bird assemblage of Oak (Ouercus spp.) and Pine (Pinus ssp.) stands in southwestern Turkey – For. Ecol. Manage. 336: 137-147.
- [5] Bray J. R., Curtis T. 1957 – An ordination of upland forest communities of southern Wisconsin – Ecol. Monogr. 27: 325-349.
- [6] Brazaitis G., Kurlavičius P. 2003 – Green tree retention and bird communities on clearcuts in Lithuania – Balt. For. 9: 63-70.
- [7] Brotons L., Mönkkönen M., Huhta E., Nikula A., Rajasärkkä A. 2003 – Effects of landscape structure and forest reserve location on old-growth forest bird species in Northern Finland – Landsc. Ecol. 18: 377-393.
- [8] Brzeziecki B., Drozdowski S., Zawadzka D., Zawadzki J. 2012 – Quantification of ecological preferences of the Capercaillie Tetrao urogallus by means of the Habitat Suitability Index: A case study in the Augustów Forest – Pol. J. Ecol. 60: 805-814.
- [9] Camprodon J., Salvanya J., Soler-Zurita J. 2008 – The abundance and suitability of tree cavities and their impact on holenesting bird populations in beech forest of NE Iberian Peninsula – Acta Ornithol. 43: 17-31.
- [10] Chodkiewicz T., Meissner W., Chylarecki P., Neubauer G., Sikora A., Pietrasz K., Cenian Z., Betleja J., Kajtoch Ł., Lenkiewicz W, Ławicki Ł., Rohde Z., Rubacha S., Smyk B., Wieloch M., Wylegała P., Zielińska M., Zieliński P. 2016 – [Monitoring of Birds of Poland in 2015-2016] – Biuletyn Monitoringu Przyrody, 15: 1-86 (in Polish).
- [11] Czeszczewik D., Zub K., Stanski T., Sahel M., Kapusta A., Walankiewicz W. 2014 – Effect of forest management on bird assemblages in the Białowieża Forest, Poland – iForest, 8: 377-385.
- [12] Domokos E., Domokos J. 2016 – Bird communities of different woody vegetation types from the Niraj Valley, Romania – Turk. J. Zool. 40: 734-742.
- [13] GDSF 2017 – [Forests in Poland 2017] – The State Forest Directorate General, Warsaw (in Polish).
- [14] Głowaciński Z. 1975 – Succession of bird communities in the Niepołomice Forest (Southern Poland) – Ekol. Pol. 23: 231-263.
- [15] Helle P. 1985 – Effects of forest regeneration on the structure of bird communities in northern Finland – Holarct. Ecol. 8: 120-132.
- [16] Jokimäki J., Solonen T. 2011 – Habitat associations of old forest bird species in managed boreal forest characterized by forest inventory data – Ornis Fennica, 88: 57-70.
- [17] Kouki J., Väänänen A. 2000 – Impoverishment of resident old-growth forest bird assemblages along isolation gradient of protected areas in eastern Finland – Ornis Fennica, 77: 145-154.
- [18] Lõhmus A., Sellis U. 2003 – Nest trees - a limiting factor for the Black Stork (Ciconianigra) population in Estonia – Aves, 40: 84-91.
- [19] Mikusiński G., Gromadzki M., Chylarecki P. 2001 – Woodpeckers as indicators of forest bird diversity – Conserv. Biol. 15: 208-217.
- [20] Moskát C., Székely T. 1989 – Habitat distribution of breeding birds in relation to forest succession – Folia Zoologica, 38: 363-376.
- [21] Moskát C., Waliczky Z. 1992 – Bird-vegetation relationship along ecological gradients: ordination and plexus analysis – Ornis Hungar. 2: 45-60.
- [22] Pakkala T., Pellikka J., Lindén H. 2003 – Capercaillie Tetrao urogallus - a good candidate for an umbrella species in taiga forests – Wildl. Biol. 4: 309-316.
- [23] R Core Team 2013 – A language and environment for statistical computing – R Foundation for Statistical Computing, Vienna, Austria.
- [24] Remm J., Lõhmus A. 2011 – Tree cavities in forests - The broad distribution pattern of a keystone structure for biodiversity – For. Ecol. Manage. 262: 579-585.
- [25] Rolstad J., Wegge P. 1987 – Distribution and size of capercaillie leks in relation to old forest fragmentation – Oecologia, 72: 389-394.
- [26] Rosenvald R., Lõhmus A. 2003 – Nesting of the black stork (Ciconia ciconia) and white-tailed eagle (Haliaeetus albicilla) in relation to forest management – For. Ecol. Manage. 185: 217-223.
- [27] Rosenvald R., Lõhmus A., Kraut A., Remm L. 2011 – Bird communities in hemiboreal old-growth forests: the roles of food supply, stand structure, and site type – For. Ecol. Manage. 221: 1541-1550.
- [28] Rykowski K. 2008 – Ecological economic aspects of ecosystem approach (EA) and suitable forest management (SFM). Case study of the Tuszyma Forest District in Poland – The State Forest Information Centre, Warsaw, 151 p.
- [29] Sánchez S., Cuervo J. J., Moreno E. 2012 – Vegetation structure in beech-fir forests: effects on the avian community – Rev. Ecol. 67: 213-222.
- [30] Scherzinger W., Schumacher H. 2004 – Der Einfluss fortlicher Bewirtschaftungsmaßnahmen auf die Waldvogelwelt - eine Übersicht – Vogelwelt, 125: 215-250.
- [31] Siegel S., Castellan N. J. 1988 – Nonparametric statistics for the behavioral sciences – New York, McGraw-Hil. 330 pp.
- [32] Sirkiä S., Lindén A., Helle P., Nikula A., Knape J., Lindén H. 2010 – Are the declining trends in forest grouse populations due to changes in the forest age structure? A case study of Capercaillie in Finland – Biol. Conserv. 143: 1540-1548.
- [33] Sławski M. 2011 – [Analysis of forest structure in relations to age - Scots pine case study] – Sylwan, 155: 10-20 (in Polish).
- [34] Sławski M. 2014 – [Changes of forest structure in a chronosequence of secondary pine forest in a clear-cut system] – SGGW, Warszawa, 123 pp. (in Polish).
- [35] Sokołowski A.W. 2010 – [The Augustów Forest] – The State Forest Information Centre, Warsaw, 292 pp. (in Polish).
- [36] Summers R. 2007 -–Stand selection by birds in Scots pinewoods in Scotland: the need for more old-growth pinewood – Ibis, 149 (Suppl. 2): 175-182.
- [37] Walankiewicz W., Czeszczewik D., Stański T., Sahel M., Ruczyński I. 2014 – Tree Cavity Resources in Spruce-Pine Managed and Protected Stands of the Białowieża Forest, Poland – Nat. Area J. 34: 423-428.
- [38] Walters R. J., Crowder B. L., Priddy A. J. 2002 – Population viability analysis for red-cockaded woodpeckers using an individualbased model – Ecol. Appl. 12: 249-260.
- [39] Wilson M. W., Pithon J., Gittings T., Kelly T. C. Giller P. S., O'Halloran J. 2006 – Effects of growth stage and tree species composition on breeding bird assemblages of plantation forests – Bird Study, 53: 225-236.
- [40] Winkler D. 2005 – Ecological Succession of Breeding Bird Communities in Deciduous and Coniferous Forests in the Sopron Mountains, Hungary – Acta Silv. Lign. Hung. 1: 49-58.
- [41] Zawadzka D., Drozdowski S., Zawadzki G., Zawadzki J. 2016 – The availability of cavity trees along an age gradient in fresh pine forest – Silva Fennica, 50, article 3 id 1441.13p. http://dx.doi.org/10.14214/sf.1441.
- [42] Zawadzka D., Zawadzki G. 2017 – [Characteristics of the nesting trees of the Black Woodpecker in the Augustów Forest] – Sylwan, 161: 1002-1009 (in Polish).
- [43] Zawadzka D., Zawadzki J., Sudnik W. 2006 – [Population development, habitat requirements and ecology of the Whitetailed Eagle Haliaeetus albicilla in the Augustów Forest] – Notatki Ornitologiczne, 47: 217-229 (in Polish).
- [44] Zawadzki G., Zawadzka D. 2017 – [The choice of nesting trees by the Buzzard, the Goshawk and the Raven in the Augustów Forest] – Sylwan, 161: 669-676 (in Polish).
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3dbce110-c7e4-4a90-b985-564d151ad545