Page 89 - 04-Brindza
P. 89
DOI: https://doi.org/10.15414/2020.9788055222967
Ján Brindza, Vladimíra Horčinová Sedláčková, Olga Grygorieva -
Bielkovinový komplex včelích peľových obnôžok
Podręczny słownik chemiczny. 2004. Romuald HASSA (red.), Janusz MRZIGOD (red.),
Janusz NOWAKOWSKI (red.), Katowice: Videograf II, s. 42, ISBN 83-7183-240-0.
Podręczny słownik chemiczny. Romuald Hassa (red.), Janusz Mrzigod (red.), Janusz
Nowakowski (red.), Katowice: Videograf II, 2004, s. 147–148, ISBN 83-7183-240-0.
Prispievatelia Wikipedie. 2011. Aminokyseliny [online]. Wikipedie: Otevřená encyklopedie.
Poslední revize 2010-12-06, [cit. 2011-01-08].
https://cs.wikipedia.org/wiki/Aminokyseliny
RASMONT P., REGALI A., INGS C. T., LOGNAY G., BAUDART E., MARLIER M.,
DELCARTE E., VIVILLE P., MAROT C., FALMAGNE P., VERHAEGHE J-C.,
CHITTKA L. 2005. Analysis of Pollen and Nectar of Arbutus unedo as a Food Source
for Bombus terrestris (Hymenoptera: Apidae). Apiculture and social Insects, Vol. 98(3),
p. 656–663. http://www.culturaapicola.com.ar/apuntes/revistaselectronicas/Chittka/59.pdf
RAYNER C. J., LANGRIDGE D. F. 1985. Amino acids in bee-collected pollens from
Australian indigenous and exotic plants. Aust. J. Exp. Agric., Vol. 25, p. 722–726.
REEDS P. J. 2000. Dispensable and indispensable amino acids for humans. J Nutr., Vol.
130(7), p. 1835S-–1840S. PMID: 10867060.
ROBIQUET P. J. 1805. Essai Analytique des Asperges. Ann. Chim., Vol. 55(1), p. 152–171
(Digitalisat).
ROULSTON H. T., CANE H. J., BUCHMANN L. S. 2000. What governs protein content of
pollen: pollinator preferences, pollen-pistil interactions, or phylogeny? Ecological
Monographs, Vol. 70(4), p. 617–625.
ROULSTON T., GOODELL K. 2011. The role of resources and risks in regulating wild bee
populations. Annual review of Entomology, Vol. 56, p. 293–312. DOI 10.1146/annurev-
ento-120709-144802. http://dx.doi.org/10.1146/annurev-ento-120709-144802
RUEDENAUER F. A., WÖHRLE C., SPAETHE J., LEONHARDT S. D. 2018. Do honeybees
(Apis mellifera) differentiate between different pollen types? PLOS ONE. Vol. 13(11):
e0205821. http://dx.doi.org/10.1371/journal.pone.0205821
SOMERVILLE C. D., NICOL I. H. 2006. Crude protein and amino acid composition of honey
bee-collected polen pellets from sout-east Australia and a note on laboratory disparity.
Australian Jurnal of Experimental Agriculture, Vol. 46, p. 141–149.
http://www.culturaapicola.com.ar/apuntes/alimentacion/48_proteina_cruda.pdf
SOMERVILLE S. D. 2001. Nutritional value of bee collected pollens. A report for the Rural
Industries Research and Development Corporation. Goulburn: RIRDC Publication, Vol.
1(47), 166 p. ISBN 0-642-58269-6. ISSN 1440-6845.
http://www.culturaapicola.com.ar/apuntes/alimentacion/15_polen_valor_colectado.pdf
SRINIVASAN M. V. 2010. Honey bees as a model for vision, perception, and cognition. Annu.
Rev. Entomol., Vol. 55, p. 267–284.
http://dx.doi.org/10.1146/annurev.ento.010908.164537
STACE P. 1996. Protein content and amino acid profiles of honey bee collected pollens.
Lismore: Bees 'n trees consultants. ISBN 0-7310-2867-8.
http://www.culturaapicola.com.ar/apuntes/floraapicola/77_proteinas_contenido_polen_a
ustralianos.pdf
STRYER L. 1986. Biochemia. Warszawa: PWN, p. 505. ISBN 83-01-00140-2.
SVAČINA Š. et al. 2008. Klinická dietologie. Praha : Grada. ISBN 978-80-247-2256-6.
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