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The usefulness of different wood species for bow manufacturing

D., Evans R., Niemz P. 2009. Microstructural properties of common yew and Norway spruce determined with Silviscan. IAWA J. 30, 165-178. Keunecke D., Hering S., Niemz P. 2008a. Three-dimensional elastic behaviour of common yew and Norway spruce. Wood Science and Technology, 42, 633-647. Keunecke D., Niemz P. 2008b. Axial stiffness and selected structural properties of yew and spruce microtensile specimens. Wood Research, 53, 1-14. Keunecke D., Märki C., Niemz P. 2007a. Structural and mechanical properties of yew wood

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The amount of carbon in the undergrowth biomass of main types of forests stands in Poland

-Piceetum community. Polish Ecological Studies , 21 (2), 195–204. Czerwiński Z., Pracz J. 1995d. Content of mineral elements in the overground parts of herb layer plants in the community of Vaccinio uliginosi-Pinetum Kleist 1929. Polish Ecological Studies , 21 (2), 221–226. Dyguś K.H., Traczyk H. 1995. Structural properties and herb layer production in the community of Vaccinio uliginosi-Pinetum Kleist 1929. Polish Ecological Studies , 21 (2), 213–219. Galiński W. 1995. Carbon balance in forest ecosystems in Poland – comparison of years 1989, 1990 i 1991

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Effect of Breed on Microstructure and Tenderness of Porcine Semimembranosus Muscle

of the architecture of collagen fibres in chicken M. iliotibialis lateralis . Brit. Poultry Sci., 42: 321–326. Lefaucheur L., Milan D., Ecolan P., LeCallennec C. (2004). Myosin heavy chain composition of different skeletal muscles in Large White and Meishan pigs. J. Anim. Sci., 82: 1931–1941. Lepetit J. (2008). Collagen contribution to meat toughness: Theoretical aspects. Meat Sci., 80: 960–967. Liu A., Nishimura T., Takahashi K. (1996). Relationship between structural properties of intramuscular connective tissue and toughness of various chicken skeletal

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Effect of copper glycinate chelate on biomechanical, morphometric and chemical properties of chicken femur

-hydroxycholecalciferol affect performance characteristics, leg abnormalities, and biomechanical properties of leg bones of turkeys. Poultry Sci., 88 (1): 118-131. Ferretti J.L., Capozza R.F., Mondelo N., Montuori E., Zanchetta J.R. (1993 a). Determination of femur structural properties by geometric and material variables asafunction of body weight in rats. Evidence of sexual dimorphism. Bone, 14: 256-270. Ferretti J.L., Capozza R.F., Mondelo N., Montuori E., Zanchetta J.R. (1993 b). Interrelationships between densitometric, geometric and mechanical

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Three-Point Scale of Lipid Concentration and Localization in Muscle Tissue of Birds Using Oil Red O Staining

, but differing in marbling level. J. Anim. Sci., 82: 3294–3301. Kwiecień M., Kasperek K., Grela E., Jeżewska-Witkowska G. (2015). Effect of caponization on the production performance, slaughter yield and fatty acid profile of muscles of Greenleg Partridge cocks. J. Food Sci. Technol., 52: 7227–7235. Liu A., Nishimura T., Takahashi K. (1996). Relationship between structural properties of intramuscular connective tissue and toughness of various chicken skeletal muscles. Meat Sci., 43: 43–49. Miguel J.A., Ciria J., Asenjo B., Calvo J.L. (2008). Effect

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Antibacterial Activity of Magnetite Nanoparticles Coated with Bee Pollen Extracts

., Petrova J., Čuboň J., Pavelkova A., Kačaniova M., 2013. Antimicrobial Effect of Bee Collected Pollen Extract to Enterobacteriaceae Genera after Application of Bee Collected Pollen in their Feeding. Scientific Papers: Animal Science and Biotechnologies, 46(2):108-113. Jagdish B., Purvi M., Pooja P., Vrinda S., Hiren H., 2017. Comparative studies on structural properties and antimicrobial potential of spinel ferrite nanoparticles synthesized using various methods. AIP Conference Proceedings 1873, India, ISBN: 978-0-7354-1507-2. Kacaniova M

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