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1

Jakobsen, Winnie. Danish USD 1, 571 mn Eurobond auction issue. Copenhagen: Ministry of Finance, 1990.

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2

CANEUS2006, (2006 Toulouse France). Proceedings of the CANEUS2006 MNT for Aerospace Applications: Presented at CANEUS 2006 MNT for Aerospace Applications : August 27-September 1, 2006, Toulouse, France. New York, N.Y: ASME, 2006.

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3

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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4

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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5

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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6

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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7

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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8

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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9

R, Hein James, and Geological Survey (U.S.), eds. Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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10

Educational Resources Information Center (U.S.), ed. EASE project: Equal Access for Students to Education and Experience : Arrowhead Community Colleges, 1001 Chestnut Street West, Virginia, MN 55792 : October 1, 1992 - September 30, 1994. [Washington, DC]: U.S. Dept. of Education, Office of Educational Research and Improvement, Educational Resources Information Center, 1994.

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11

C, Watts K., and Geological Survey (U.S.), eds. Analytical results and sample locality map for selected metals in Mn-Fe oxide-coated stream gravels, and the ratios of metals to iron and to manganese, Glen Falls 1⁰. [Reston, Va.?]: U.S. Dept. of the Interior, Geological Survey, 1986.

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12

C, Watts K., and Geological Survey (U.S.), eds. Analytical results and sample locality map for selected metals in Mn-Fe oxide-coated stream gravels, and the ratios of metals to iron and to manganese, Glen Falls 1. [Reston, Va.?]: U.S. Dept. of the Interior, Geological Survey, 1986.

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13

R, Hein James, Bychkov Alexander S, Gibbs Ann E, Geological Survey (U.S.), and R/V Aleksandr Vinogradov (Ship), eds. Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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14

R, Hein James, Bychkov Alexander S, Gibbs Anne, Geological Survey (U.S.), and R/V Aleksandr Vinogradov (Ship), eds. Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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15

R, Hein James, Bychkov Alexander S, Gibbs Ann E, Geological Survey (U.S.), and R/V Aleksandr Vinogradov (Ship), eds. Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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16

R, Hein James, Bychkov Alexander S, Gibbs Ann E, Geological Survey (U.S.), and R/V Aleksandr Vinogradov (Ship), eds. Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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17

R, Hein James, Bychkov Alexander S, Gibbs Ann E, Geological Survey (U.S.), and R/V Aleksandr Vinogradov (Ship), eds. Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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18

United States. Congress. House. Committee on Agriculture. Subcommittee on General Farm Commodities and Risk Management. Review crop insurance for specialty crop producers: Hearing before the Subcommittee on General Farm Commodities and Risk Management of the Committee on Agriculture, House of Representatives, One Hundred Eighth Congress, first session, July 10 2003, August 19, 2003 Ada, MN, September 24, 2003, October 2, 2003, December 1, 2003, Lubbock, TX. Washington: U.S. G.P.O., 2004.

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19

United States. Congress. House. Committee on Public Works and Transportation. Subcommittee on Public Buildings and Grounds. Lease prospectuses for San Francisco, CA; Washington, DC (2); and Philadelphia, PA, lease alteration prospectuses for Washington, DC, and Rockville, MD; and a construction prospectus for International Falls, MN: Hearing before the Subcommittee on Public Buildings and Grounds of the Committee on Public Works and Transportation, House of Representatives, One Hundred Second Congress, first session ... August 1, 1991. Washington: U.S. G.P.O., 1992.

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20

Ari. Mnl Refr Aire Acond T-1. Prentice Hall (a Pearson Education company), 1995.

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21

WARREN. Accounting Sol Mnl Ch 1-16. South-Western, Div of Thomson Learning, 1998.

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22

Ltd, Brooklands Books. Land Rover Ser 1/2 Instruc Mnl. Brooklands Books, 2006.

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23

Sheltered Eng/ESL Mnl Gr 1 Sig99. Hmh School, 1999.

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24

Stevenson. Bk Int Aud Mnl Vol 1&2 Pkg. Irwin, 1993.

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25

Pearson. Ando Curso Intermed Sem 1& Stdnt Actvty Mnl. Pearson, 2009.

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26

Pearson. Golosa Book 1& Studt Actv Glosa Bk1&bk2&mnl. Prentice Hall, 2009.

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27

Ltd, Brooklands Books. Land Rover (Mil) 101 1 Tonne F/C Mnl. Brooklands Books, 2006.

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28

Navy, Us. Mineman, Volume 3 : (mn 1 & C). Independently Published, 2019.

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29

Larimo, Jorma, Niina Nummela, and Svetla Marinova. Value Creation in International Business : Volume 1: An MNC Perspective. Palgrave Macmillan, 2018.

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30

Mongol ulsyn standart, bolovsrolyn standartyn togtoltsoo: MNS 5001-1 : 98. Ulaanbaatar: Standartchilal, khėmzhilzuĭn undėsniĭ tov, 1998.

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31

Larimo, Jorma, Niina Nummela, and Svetla Marinova. Value Creation in International Business : Volume 1: An MNC Perspective. Palgrave Macmillan, 2016.

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32

Larimo, Jorma, Niina Nummela, and Svetla Marinova. Value Creation in International Business : Volume 1: An Mnc Perspective. Springer International Publishing AG, 2016.

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33

Tzelgov, Joseph, Dana Ganor-Stern, Arava Kallai, and Michal Pinhas. Primitives and Non-primitives of Numerical Representations. Edited by Roi Cohen Kadosh and Ann Dowker. Oxford University Press, 2014. http://dx.doi.org/10.1093/oxfordhb/9780199642342.013.019.

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Анотація:
Primitives of numerical representation are numbers holistically represented on the mental number line (MNL). Non-primitives are numbers generated from primitives in order to perform specific tasks. Primitives can be automatically retrieved from long-term memory (LTM). Using the size congruency effect in physical comparisons as a marker of automatic retrieval, and its modulation by intrapair numerical distance as an indication of alignment along the MNL, we identify single-digits, but not two-digit numbers, as primitives. By the same criteria, zero is a primitive, but negative numbers are not primitives, which makes zero the smallest numerical primitive. Due to their unique notational structure, fractions are automatically perceived as smaller than 1. While some specific, familiar unit fractions may be primitives, this can be shown only when component bias is eliminated by training participants to denote fractions by unfamiliar figures.
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34

Ilt. *BNDL CK STDT MNL and DATA : ADOBE FRAMEMAKER 7. 1 : BASIC : Adobe Framemaker 7. 1: Basic. Logical Operations LLC, 2005.

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35

Aktsizy. Zakon RF ? 1993-1. Instruktsiya MNS RF ? 61 s izmeneniyami i dopolneniyami. Ekzamen, 2000.

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36

Rand, Salvatore J. Manual on Significance of Tests for Petroleum Products (Astm Manual Series, Mnl 1). 7th ed. ASTM International, 2003.

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37

General Physics 2E Volume 1 for University of Mn. Wiley Custom, 2011.

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38

Demana, Franklin D. Supplement: Grphg Calcl Comptr Grphg Lab Mnl - Intermediate Algebra: A Graphing Approach 1/E. Addison Wesley Publishing Company, 1997.

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39

Resilient modulus testing of materials from Mn/ROAD, Phase 1. Hanover, NH: US Army Corps of Engineers, Cold Regions Research & Engineering Laboratory, 1996.

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40

Luo, Yadong. Political Risk and Country Risk in International Business. Edited by Alan M. Rugman. Oxford University Press, 2009. http://dx.doi.org/10.1093/oxfordhb/9780199234257.003.0026.

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Assessing international business risk is critical to every multinational enterprise (MNE) when it plans to invest overseas. Such risk assessment has grown in importance as more firms' overall success relies upon their risk-adjusted net returns in foreign operations. Unexpected political events (e.g. terrorism) and abrupt changes in regulatory schemes reinforce the necessity of risk assessment in international business. Continuous opening up of emerging economies provides MNEs with many new opportunities but at the same time solidifies international business risk. The importance of political risk creates demand for its assessment. The various ways to measure the risk can be roughly classified into two categories: (1) qualitative approaches and (2) quantitative techniques that result in political risk indices.
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41

MNL-17 Volume 1 ACI REINFORCED CONCRETE DESIGN HANDBOOK A Companion to ACI 318-19. American CI, 2021.

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42

Kahn, S. Lowell. Up-and-Over Snare Technique for the Difficult Contralateral Gate Access. Edited by S. Lowell Kahn, Bulent Arslan, and Abdulrahman Masrani. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199986071.003.0004.

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The use of two- and three-piece modular aortic stent grafts requires proper catheterization of the contralateral gate. This step can be readily accomplished with appropriate pre- and intraprocedural planning. In some cases, catheterization can be challenging. This chapter describes a bailout technique when the conventional use of a catheter and wire fails or is unlikely to succeed within a timely interval. An Amplatz Gooseneck snare (ev3 Endovascular Inc., Plymouth, MN) or EN Snare (Merit Medical Systems Inc. South Jordan, UT) may be employed to grasp a Glidewire (Terumo Medical Corp., Somerset, NJ) that is threaded through a reverse curve catheter (e.g., Sos 1/2) over the bifurcation and brought below the contralateral gate. In so doing, cannulation of the contralateral gate is readily achieved.
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43

Co-rich Fe-Mn crusts from the Marshall Islands (Leg 1) and hydrothermal and hydrogenetic Fe-Mn deposits from Micronesia (Leg 2), KODOS 98-3 cruise, west Pacific. [Reston, Va.?]: USGS, 1999.

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44

Kem, Them. High School College University Font St. Paul MN 1 Funny Happy Positive Notebook and Journal - Diary Size 6x9 Inch 120 Pages... ... ... ... ... ... ... ... ... ... ... ... ... ... ... . Independently Published, 2020.

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45

Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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46

Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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47

Data and results from R.V. Aleksandr Vinogradov cruises 91-AV-19/1, North Pacific hydrochemistry transect; 91-AV-19/2, North Equatorial Pacific Karin Ridge Fe-Mn crust studies; and 91-AV-19/4, Northwest Pacific and Bering Sea sediment geochemistry and paleoceanographic studies. [Reston, Va.]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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48

Skiba, Grzegorz. Fizjologiczne, żywieniowe i genetyczne uwarunkowania właściwości kości rosnących świń. The Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences, 2020. http://dx.doi.org/10.22358/mono_gs_2020.

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Bones are multifunctional passive organs of movement that supports soft tissue and directly attached muscles. They also protect internal organs and are a reserve of calcium, phosphorus and magnesium. Each bone is covered with periosteum, and the adjacent bone surfaces are covered by articular cartilage. Histologically, the bone is an organ composed of many different tissues. The main component is bone tissue (cortical and spongy) composed of a set of bone cells and intercellular substance (mineral and organic), it also contains fat, hematopoietic (bone marrow) and cartilaginous tissue. Bones are a tissue that even in adult life retains the ability to change shape and structure depending on changes in their mechanical and hormonal environment, as well as self-renewal and repair capabilities. This process is called bone turnover. The basic processes of bone turnover are: • bone modeling (incessantly changes in bone shape during individual growth) following resorption and tissue formation at various locations (e.g. bone marrow formation) to increase mass and skeletal morphology. This process occurs in the bones of growing individuals and stops after reaching puberty • bone remodeling (processes involve in maintaining bone tissue by resorbing and replacing old bone tissue with new tissue in the same place, e.g. repairing micro fractures). It is a process involving the removal and internal remodeling of existing bone and is responsible for maintaining tissue mass and architecture of mature bones. Bone turnover is regulated by two types of transformation: • osteoclastogenesis, i.e. formation of cells responsible for bone resorption • osteoblastogenesis, i.e. formation of cells responsible for bone formation (bone matrix synthesis and mineralization) Bone maturity can be defined as the completion of basic structural development and mineralization leading to maximum mass and optimal mechanical strength. The highest rate of increase in pig bone mass is observed in the first twelve weeks after birth. This period of growth is considered crucial for optimizing the growth of the skeleton of pigs, because the degree of bone mineralization in later life stages (adulthood) depends largely on the amount of bone minerals accumulated in the early stages of their growth. The development of the technique allows to determine the condition of the skeletal system (or individual bones) in living animals by methods used in human medicine, or after their slaughter. For in vivo determination of bone properties, Abstract 10 double energy X-ray absorptiometry or computed tomography scanning techniques are used. Both methods allow the quantification of mineral content and bone mineral density. The most important property from a practical point of view is the bone’s bending strength, which is directly determined by the maximum bending force. The most important factors affecting bone strength are: • age (growth period), • gender and the associated hormonal balance, • genotype and modification of genes responsible for bone growth • chemical composition of the body (protein and fat content, and the proportion between these components), • physical activity and related bone load, • nutritional factors: – protein intake influencing synthesis of organic matrix of bone, – content of minerals in the feed (CA, P, Zn, Ca/P, Mg, Mn, Na, Cl, K, Cu ratio) influencing synthesis of the inorganic matrix of bone, – mineral/protein ratio in the diet (Ca/protein, P/protein, Zn/protein) – feed energy concentration, – energy source (content of saturated fatty acids - SFA, content of polyun saturated fatty acids - PUFA, in particular ALA, EPA, DPA, DHA), – feed additives, in particular: enzymes (e.g. phytase releasing of minerals bounded in phytin complexes), probiotics and prebiotics (e.g. inulin improving the function of the digestive tract by increasing absorption of nutrients), – vitamin content that regulate metabolism and biochemical changes occurring in bone tissue (e.g. vitamin D3, B6, C and K). This study was based on the results of research experiments from available literature, and studies on growing pigs carried out at the Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences. The tests were performed in total on 300 pigs of Duroc, Pietrain, Puławska breeds, line 990 and hybrids (Great White × Duroc, Great White × Landrace), PIC pigs, slaughtered at different body weight during the growth period from 15 to 130 kg. Bones for biomechanical tests were collected after slaughter from each pig. Their length, mass and volume were determined. Based on these measurements, the specific weight (density, g/cm3) was calculated. Then each bone was cut in the middle of the shaft and the outer and inner diameters were measured both horizontally and vertically. Based on these measurements, the following indicators were calculated: • cortical thickness, • cortical surface, • cortical index. Abstract 11 Bone strength was tested by a three-point bending test. The obtained data enabled the determination of: • bending force (the magnitude of the maximum force at which disintegration and disruption of bone structure occurs), • strength (the amount of maximum force needed to break/crack of bone), • stiffness (quotient of the force acting on the bone and the amount of displacement occurring under the influence of this force). Investigation of changes in physical and biomechanical features of bones during growth was performed on pigs of the synthetic 990 line growing from 15 to 130 kg body weight. The animals were slaughtered successively at a body weight of 15, 30, 40, 50, 70, 90, 110 and 130 kg. After slaughter, the following bones were separated from the right half-carcass: humerus, 3rd and 4th metatarsal bone, femur, tibia and fibula as well as 3rd and 4th metatarsal bone. The features of bones were determined using methods described in the methodology. Describing bone growth with the Gompertz equation, it was found that the earliest slowdown of bone growth curve was observed for metacarpal and metatarsal bones. This means that these bones matured the most quickly. The established data also indicate that the rib is the slowest maturing bone. The femur, humerus, tibia and fibula were between the values of these features for the metatarsal, metacarpal and rib bones. The rate of increase in bone mass and length differed significantly between the examined bones, but in all cases it was lower (coefficient b <1) than the growth rate of the whole body of the animal. The fastest growth rate was estimated for the rib mass (coefficient b = 0.93). Among the long bones, the humerus (coefficient b = 0.81) was characterized by the fastest rate of weight gain, however femur the smallest (coefficient b = 0.71). The lowest rate of bone mass increase was observed in the foot bones, with the metacarpal bones having a slightly higher value of coefficient b than the metatarsal bones (0.67 vs 0.62). The third bone had a lower growth rate than the fourth bone, regardless of whether they were metatarsal or metacarpal. The value of the bending force increased as the animals grew. Regardless of the growth point tested, the highest values were observed for the humerus, tibia and femur, smaller for the metatarsal and metacarpal bone, and the lowest for the fibula and rib. The rate of change in the value of this indicator increased at a similar rate as the body weight changes of the animals in the case of the fibula and the fourth metacarpal bone (b value = 0.98), and more slowly in the case of the metatarsal bone, the third metacarpal bone, and the tibia bone (values of the b ratio 0.81–0.85), and the slowest femur, humerus and rib (value of b = 0.60–0.66). Bone stiffness increased as animals grew. Regardless of the growth point tested, the highest values were observed for the humerus, tibia and femur, smaller for the metatarsal and metacarpal bone, and the lowest for the fibula and rib. Abstract 12 The rate of change in the value of this indicator changed at a faster rate than the increase in weight of pigs in the case of metacarpal and metatarsal bones (coefficient b = 1.01–1.22), slightly slower in the case of fibula (coefficient b = 0.92), definitely slower in the case of the tibia (b = 0.73), ribs (b = 0.66), femur (b = 0.59) and humerus (b = 0.50). Bone strength increased as animals grew. Regardless of the growth point tested, bone strength was as follows femur > tibia > humerus > 4 metacarpal> 3 metacarpal> 3 metatarsal > 4 metatarsal > rib> fibula. The rate of increase in strength of all examined bones was greater than the rate of weight gain of pigs (value of the coefficient b = 2.04–3.26). As the animals grew, the bone density increased. However, the growth rate of this indicator for the majority of bones was slower than the rate of weight gain (the value of the coefficient b ranged from 0.37 – humerus to 0.84 – fibula). The exception was the rib, whose density increased at a similar pace increasing the body weight of animals (value of the coefficient b = 0.97). The study on the influence of the breed and the feeding intensity on bone characteristics (physical and biomechanical) was performed on pigs of the breeds Duroc, Pietrain, and synthetic 990 during a growth period of 15 to 70 kg body weight. Animals were fed ad libitum or dosed system. After slaughter at a body weight of 70 kg, three bones were taken from the right half-carcass: femur, three metatarsal, and three metacarpal and subjected to the determinations described in the methodology. The weight of bones of animals fed aa libitum was significantly lower than in pigs fed restrictively All bones of Duroc breed were significantly heavier and longer than Pietrain and 990 pig bones. The average values of bending force for the examined bones took the following order: III metatarsal bone (63.5 kg) <III metacarpal bone (77.9 kg) <femur (271.5 kg). The feeding system and breed of pigs had no significant effect on the value of this indicator. The average values of the bones strength took the following order: III metatarsal bone (92.6 kg) <III metacarpal (107.2 kg) <femur (353.1 kg). Feeding intensity and breed of animals had no significant effect on the value of this feature of the bones tested. The average bone density took the following order: femur (1.23 g/cm3) <III metatarsal bone (1.26 g/cm3) <III metacarpal bone (1.34 g / cm3). The density of bones of animals fed aa libitum was higher (P<0.01) than in animals fed with a dosing system. The density of examined bones within the breeds took the following order: Pietrain race> line 990> Duroc race. The differences between the “extreme” breeds were: 7.2% (III metatarsal bone), 8.3% (III metacarpal bone), 8.4% (femur). Abstract 13 The average bone stiffness took the following order: III metatarsal bone (35.1 kg/mm) <III metacarpus (41.5 kg/mm) <femur (60.5 kg/mm). This indicator did not differ between the groups of pigs fed at different intensity, except for the metacarpal bone, which was more stiffer in pigs fed aa libitum (P<0.05). The femur of animals fed ad libitum showed a tendency (P<0.09) to be more stiffer and a force of 4.5 kg required for its displacement by 1 mm. Breed differences in stiffness were found for the femur (P <0.05) and III metacarpal bone (P <0.05). For femur, the highest value of this indicator was found in Pietrain pigs (64.5 kg/mm), lower in pigs of 990 line (61.6 kg/mm) and the lowest in Duroc pigs (55.3 kg/mm). In turn, the 3rd metacarpal bone of Duroc and Pietrain pigs had similar stiffness (39.0 and 40.0 kg/mm respectively) and was smaller than that of line 990 pigs (45.4 kg/mm). The thickness of the cortical bone layer took the following order: III metatarsal bone (2.25 mm) <III metacarpal bone (2.41 mm) <femur (5.12 mm). The feeding system did not affect this indicator. Breed differences (P <0.05) for this trait were found only for the femur bone: Duroc (5.42 mm)> line 990 (5.13 mm)> Pietrain (4.81 mm). The cross sectional area of the examined bones was arranged in the following order: III metatarsal bone (84 mm2) <III metacarpal bone (90 mm2) <femur (286 mm2). The feeding system had no effect on the value of this bone trait, with the exception of the femur, which in animals fed the dosing system was 4.7% higher (P<0.05) than in pigs fed ad libitum. Breed differences (P<0.01) in the coross sectional area were found only in femur and III metatarsal bone. The value of this indicator was the highest in Duroc pigs, lower in 990 animals and the lowest in Pietrain pigs. The cortical index of individual bones was in the following order: III metatarsal bone (31.86) <III metacarpal bone (33.86) <femur (44.75). However, its value did not significantly depend on the intensity of feeding or the breed of pigs.
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