Publisher:

Uncensored Scientists Group ; Roman Hołyński

Place of publishing:

Milanówek

Description:

43-50 p.

Type of object:

Journal/Article

References:

BERTHOLD P., W. FRIEDRICH. 1979. Die Federlänge: Ein neues nützliches Flügelmaß. Vogelwarte 30, 1: 11-21
BUSSE P. 1967. Zastosowanie liczbowych współczynników kształtu skrzydła. Not. Orn. 8, 1: 1-8
BUSSE P. 1986. Wskaźniki kształtu skrzydła i problemy związane z ich interpretacją. Not. Orn. 27, 3-4: 139-155
BUSSE P. 2000. Bird station manual. Gdańsk: SEEN: 1-264
ELDREDGE N. 1989. Time frames: the evolution of punctuated equilibria. Princeton (N.J.): Princeton Univ. Press: 1-240
FRYER G. 1987. Quantitative and qualitative: numbers and reality in the study of living organisms. Freshw. Biol. 17: 177-189
GATESY J. 2007. A tenth crucial question regarding model use in phylogenetics. TREE 22, 10: 509-510
GOSLER A.G., J.J.D. GREENWOOD, J.K. BAKER, J.R. KING. 1995. A comparison of wing length and primary length as size measures for small passerines. Ringing Migr. 81: 65-78
HOŁYŃSKI R.B. 1965. Metody analizy zmienności formuły skrzydła ptaków [The methods of analysis of wing-formula variability]. Not. Orn. 6, 2: 21-25
HOŁYŃSKI R.B. 2016. Avian wing/tail morphology: interspecific relations of various indices to each other and to the distance of seasonal migration – preliminary assessment. Procrustomachia 1, 3: 24-52
HOŁYŃSKI R.B. 2017. Index of curtailment – an interesting aspect of wing formula. Procrustomachia 2, 1: 1-10
HUBER G.H., S.P. TURBEK,·K.S. BOSTWICK, R.J. SAFRAN. 2017. Comparative analysis reveals migratory swallows (Hirundinidae) have less pointed wings than residents. Biol. J. Linn. Soc. 120: 228-235
JENNI L., R. WINKLER. 1989. The feather-length of small passerines: a measurement for wing-length in live birds and museum skins. Bird Study 36: 1-15
KELLY K. 2008. Technological twist on taxonomy. Nature 452: 939
KIPP F. 1936. Studien über den Vogelzug in Zusammenhang mit Flügelbau und Mauserzyklus. Mitt. Vogelw. 35, 4-5: 49-80
KIPP F.A. 1958. Zur Geschichte des Vogelzuges auf der Grundlage der Flügelanpassungen. Vogelwarte 19, 4: 233-242
KIPP F.A. 1959. Der Handflügel-Index als flugbiologische Maß. Vogelwarte 20, 2: 77-86
ЛEВИН A.C., Э.H. ΓAВPИЛOВ, A.M. MИXAЙЛOВ. 1991. Фopмa кpылa птиц и нoвaя мeтoдикa ee изучeния. Зooл. Жуpн. 70, 3: 90-96
LOCKWOOD R., J.P. SWADDLE, J.M.V. RAYNER. 1998. Avian wingtip shape reconsidered: wingtip shape indices and morphological adaptations to migration. J. Av. Biol. 29: 273-292
MARCHETTI K., T. PRICE, A. RICHMAN. 1995. Correlates of wing morphology with foraging behavior and migration distance in the genus Phylloscopus. J. Av. Biol. 26: 177-181
MLÍKOVSKÝ J. 1978. Die Flügelformen der Vögel und ihre Auswertung. Vogelwarte 29, 4: 268-272
PILASTRO A., I. FARRONATO, G. FRACASSO. 1995. The use of feather length as a method for measuring the wing shape of passerines. Avocetta 19: 213-218
RENSCH B. 1938. Einwirkung des Klimas bei der Ausprägung von Vogelrassen, mit besonderer Berücksichtigung der Flügelform und der Eizahl. Proc. 8. Int. Orn. Cgr.: 285-311
STEGMANN B. 1962. Die verkümmerte distale Handschwinge des Vogelflügels. J. Orn. 103, 1: 50-85
UVAROV B.P. 1931. Insects and climate. Trans. Ent. Soc. Lond. 79: 1-247

Relation:

Procrustomachia

Volume:

3

Issue:

3

Start page:

43

End page:

50

Detailed Resource Type:

Article

Format:

application/pdf

Resource Identifier:

oai:rcin.org.pl:69248 ; ISSN 2543-7747

Language:

eng

Rights:

Creative Commons Attribution BY 3.0 PL license

Terms of use:

Copyright-protected material. [CC BY 3.0 PL] May be used within the scope specified in Creative Commons Attribution BY 3.0 PL license, full text available at: ; -

Original in:

Library of the Museum and Institute of Zoology PAS

Projects co-financed by:

Operational Program Digital Poland, 2014-2020, Measure 2.3: Digital accessibility and usefulness of public sector information; funds from the European Regional Development Fund and national co-financing from the state budget.

Access:

Open