Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-27T11:39:07.850Z Has data issue: false hasContentIssue false

155. The composition of mare's milk. II. The variation in composition during lactation. III. The influence of intra-mammary pressure on the composition of milk with special reference to the mare and cow

Published online by Cambridge University Press:  01 June 2009

R. G. Linton
Affiliation:
The Royal (Dick) Veterinary College, Edinburgh

Extract

1. The investigation was for the purpose of ascertaining the cause of the variations previously noted by the author as occurring in mare's milk.

2. Determinations have been made of the composition of the milk of eight Shetland ponies and one Clydesdale mare throughout the lactation period, with observations on the milk of numerous thoroughbred mares. The constituents estimated were the total solids, solids-not-fat, protein, fat, lactose, total ash, CaO, P2O5, and chlorine. The CaO, P2O5 and chlorine percentages in the ash of the milk were also determined. The freezing-point and pH were recorded in a number of samples. The animals were kept under natural conditions at grass.

3. It was found that as lactation advanced the percentage of total solids, lactose and fat of the milk increased in a linear manner, whereas the percentage of solids-not-fat, protein, CaO, and P2O5 decreased linearly.

4. The regression of the total solids and the chlorine was parabolic in character as also was that of the chlorine-lactose index.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1937

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

(1) Linton, (1931) J. agric. Set. 21, 669.CrossRefGoogle Scholar
(2) Bunge, Proescher & Abderhalden, (1899). Hoppe-Seyl. Z. 27, 594.Google Scholar
(3) Linton, (1929). Vet. Bee. 9, 651.Google Scholar
(4) Linton, (1934). Vet. Bee. 14, 691.Google Scholar
(5) Godden, & Potdy, (1935). J. Dairy Res. 6, 307.CrossRefGoogle Scholar
(6) Hughes, & Hart, (1935). J. Nutrit. 9, 311.Google Scholar
(7) Wardlaw, & Dart, (1926). Aust. J. exp. Biol. med. Sei. 3, 129–47.CrossRefGoogle Scholar
(8) Lowenfeld, Widdows, Bond, & Taylor, (1927). Biochem. J. 21, 1.CrossRefGoogle Scholar
(9) Bell, Marion (1928). J. biol. Chem. 80, 239.CrossRefGoogle Scholar
(10) Widdows, Lowenfeld, Bond, & Taylor, (1930). Biochem. J. 24, 327.CrossRefGoogle Scholar
(11) Richards, & Godden, (1924). Analyst, 49, 565.CrossRefGoogle Scholar
(12) Davies, (1932). Analyst, 57, 79.CrossRefGoogle Scholar
(13) Prowosnik, (1931). Sonderdr. Z. Zuchtungskunde, 6, 329.Google Scholar
(14) Rast, (1854). Schweiz. Arch. Tierhlceilk. 13, 289.Google Scholar
(15) Through, Survey of Literature on Bovine Mastitis (1934), 2, 174. Commonwealth of Australia Council for Scientific & Industrial Research.Google Scholar
(16) Wiedmann, (1932). Z. Untersuch. Lebensmitt. 63, 113.CrossRefGoogle Scholar
(17) Wiedmann, Chem. Abs. (1932), 26, 4853.Google Scholar
(18) Wiedmann, (1933). Z. Untersuch. Lebensmitt. 65, 186.CrossRefGoogle Scholar
(19) Wiedmann, Chem. Abs. (1933), 27, 4833.Google Scholar
(20) Rosell, (1931). Cornell Vet. 21, 80.Google Scholar
(21) Tapernoux, (1931). Rev. Vet. 83, 5.Google Scholar
(22) Seelemann, (1932). Zbl.Bakt. l Orig. 126, 231.Google Scholar
(23) Through, Survey of Literature on Bovine Mastitis (1934), 2, 126. Commonwealth of Australia Council for Scientific and Industrial Research.Google Scholar
(24) Blood, & Rowlands, (1936). J. Dairy Res. 7, 47.CrossRefGoogle Scholar
(25) Allen, (1931). J.Dairy Res. 3, 1.CrossRefGoogle Scholar
(26) Sharp, & Struble, (1935). J. Dairy Sci. 28, 527.CrossRefGoogle Scholar
(27) Porcher, (1906). Rev. gen. Lait, 5, 173.Google Scholar
(28) Koestler, (1920). Mikhw. Zbl. 49, 217.Google Scholar
(29) Koestler, Exp. Sta. Rec. (1923), 44, 575.Google Scholar
(30) Weiss, (1921). Mitt. Lebensm. Hyg., Bern, 12, 133.Google Scholar
(31) Weiss, Chem. Abs. (1921), 15, 3339.Google Scholar
(32) Zaribnicky, (1929). Z.Fleisch- u. Milchhyg. 39, 258.Google Scholar
(33) Zaribnicky, Tierarztl. Rdsch. (1929), 25, 499.Google Scholar
(34) Lorenzen, (1932). Berl. tierarztl. Wschr. 48, 819.Google Scholar
(35) Winter, (1914). Chem. News, 110, 283.Google Scholar
(36) Through, Fundamentals of Dairy Science, 2nd ed. (1935), p. 252.Google Scholar
(37) Petersen, & Rigor, (1932). Proc. Soc. exp. biol, N.Y., 30, 257.Google Scholar