• 제목/요약/키워드: Milk fat

검색결과 951건 처리시간 0.03초

착유방식 및 지방 보충급여가 원유 및 지방특성에 미치는 효과 (Effects of the Milking System and Supplemental Fat Feeding on Milk and Milk Fat Characteristics)

  • 문주연;이진성;장경만;박성민;박승용;정문웅;손용석
    • Journal of Dairy Science and Biotechnology
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    • 제33권3호
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    • pp.209-214
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    • 2015
  • AMS와 CMS 및 보호지방의 급여 여부가 우유 성분과 유지방 특성에 미치는 영향을 조사하기 위하여 본 연구를 실시하였다. 착유방식과 보호지방 급여 여부에 따라 AMS 및 CMS 목장을 각 4개소씩 선정하여 월 1회 집합유 원유시료를 채취하였으며, 총 5개월간 유성분, 유지방구(MFG) 크기, 지방산 및 유리지방산 조성을 분석하였다. 착유방식에 따른 일반 유성분, MFG 크기, 지방산 조성의 유의적 차이는 관찰되지 않았으나, AMS로 착유된 우유의 유리지방산 함량이 CMS로 착유된 우유에 비해 유의적으로(p<0.05) 높았으며, 이는 AMS 의 착유 횟수가 CMS에 비해 더 많았기 때문인 것으로 판단된다. 보호지방을 급여한 농장의 우유를 비급여 농장과 비교하였을 때 유성분에는 차이가 없었으나 장쇄지방산(LCFA) 함량이 더 높은 것으로 나타났으며, 유지방구의 크기 또한 증가하는 경향을 보였는데 이는 급여한 보호지방의 주요지방산인 LCFA가 유지방으로 전이되었기 때문으로 해석된다. 또한 공시한 모든 AMS 목장에서 원유의 산패문제는 발생하지 않았는데, 유리지방산 함량이 CMS에 비해 유의적으로 높았지만 산패를 일으킬 정도로 높은 수준은 아니었던 것으로 판단된다. 이상의 결과를 바탕으로 할 때 AMS는 유성분 및 유지방 특성의 측면에서 CMS 대비 주목할 만한 차이를 보이지 않았으며 보호지방의 급여는 유지방구 크기 및 장쇄지방산 농도에 영향을 미치므로 향후 목장형 유가공을 실시할 경우 이를 응용할 여지가 있을 것으로 사료된다.

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Effect of the Difference in the High Molecular Weight Fraction of Whey Between Cow's Milk and Goat's Milk on Creaming Phenomenon

  • Masuda, T.;Taniguchi, T.;Suzuki, K.;Sakai, T.;Morichi, T.
    • Asian-Australasian Journal of Animal Sciences
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    • 제14권3호
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    • pp.351-357
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    • 2001
  • The rapid formation of a cream line cannot be observed in raw goat's milk standing at a low temperature. Although the poor creaming ability of goat's milk has been considered to be due to the small size of milk fat globules and the lack of euglobulin capable of being adsorbed on milk fat globules, there is much left to study. The present work attempted to elucidate a factor for poor creaming ability of goat's milk. The creaming ability of the experimental milks reconstituted from creams and skim milks separated from cow's milk or goat's milk was measured by the volume of the cream layer and the fat content of bottom layer. The polypeptides composition of the P1 the fraction (i.e., the high molecular weight fraction eluted near the void volume obtained by the gel filtration of whey) and milk fat globule membrane prepared from both milks were compared. It was found that the promotion of creaming originated from goat's skim milk was lower than that from cow's skim milk. The P1 fraction in goat's skim milk was less than that in cow's skim milk. The polypeptide (M.W. $4.3{\times}10^4$), found in the P1 fraction of cow's milk was not found in the P1 fraction of goat's milk. It is suggested that the poor creaming ability of goat milk is caused mainly by the difference from cow milk in the amount and the composition of the P1 fraction.

Effect of Homogenization Pressure on Plasmin Activity and Mechanical Stress-Induced Fat Aggregation of Commercially Sterilized Ultra High Temperature Milk during Storage

  • Kim, Sun-Chul;Yun, So-Yul;Ahn, Na-Hyun;Kim, Seong-Min;Imm, Jee-Young
    • 한국축산식품학회지
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    • 제40권5호
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    • pp.734-745
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    • 2020
  • Commercially sterilized ultra high temperature (UHT) milk was manufactured at different homogenization pressures (20, 25, and 30 MPa), and changes in fat particle size, mechanical stress-induced fat aggregation, plasmin activity, and lipid oxidation were monitored during ambient storage of the UHT milk for up to 16 wk. The particle sizes of milk fat globules were significantly decreased as homogenization pressure increased from 20 to 30 MPa (p<0.05). The presence of mechanical stress-induced fat aggregates in milk produced at 20 MPa was significantly higher than for UHT milk produced at either 25 or 30 MPa. This difference was maintained all throughout the storage. There were no significant differences in plasmin activity, trichloroacetic acid (12%, w/v) soluble peptides, and the extent of lipid oxidation. Based on these results, an increase of homogenization pressure from 20 (the typical homogenization pressure employed in the Korea dairy industry) to 25-30 MPa significantly decreased mechanical stress-induced fat aggregation without affecting susceptibility to lipid oxidation during storage.

Effects of Dietary Heat Extruded Soybean Meal and Protected Fat Supplement on the Production, Blood and Ruminal Characteristics of Holstein Cows

  • Chen, Kuen-Jaw;Jan, Der-Fang;Chiou, Peter Wen-Shyg;Yang, Der-Wei
    • Asian-Australasian Journal of Animal Sciences
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    • 제15권6호
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    • pp.821-827
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    • 2002
  • The purpose of this study was to evaluate the effect of protected fat and heat-extruded soybean meal on the lactation performance of Holstein cows. Twenty-four cows, consisting of 20 lactating cows and 4 rumen-fistulated dry cows, were randomly allocated into four groups with 5 lactating cows and 1 fistulated cow in each group. A replicated 4${\times}$4 Latin square design with four 21 day periods, including 14 days of adaptation and 7 collection days within each period was employed. The experiment was a 2${\times}$2 arrangement, with or without heat-extruded soybean meal and protected fat inclusion. The dietary treatments consisted of supplements of (a) soybean meal (the control), (b) heat-extruded soybean meal, (c) protected fat, and (d) heat-extruded soybean meal and protected fat. The results showed that there were no significant differences in feed intake, milk yield, milk protein content, milk lactose content and body weight change between the dietary treatments. However, cows supplemented with protected fat showed a significantly increased (p<0.05) milk fat yield, 3.5% FCM and total solid yield. The increase in undegradable intake protein (UIP) via heat extruded soybean meal supplement significantly decreased the urea nitrogen concentration in the blood (p<0.05). Dietary fat inclusion significantly increased the blood cholesterol concentration (p<0.01) and decreased the ruminal pH value (p<0.01). Increased dietary UIP significantly decreased the ammonia nitrogen concentration in the rumen (p<0.01), but did not significantly influence the pH and VFA molar percentage in the rumen. It appears that dietary protected fat inclusion could improve milk fat and solid content. Increased dietary undegradable intake protein through heat extruded soybean meal did not improve milk yield. But it could alleviate the adverse effect of decreased milk protein due to dietary fat supplementation. Increased UIP could also decrease the ammonia nitrogen concentration in the rumen and plasma urea nitrogen concentration in the blood.

산양유의 특성 - 유지방, 체세포, 그리고 산양취 - (Characteristics of Goat Milk - Milk Fat, Somatic Cell Count, and Goaty Flavor -)

  • 정석근;이승규;김동훈;함준상
    • Journal of Dairy Science and Biotechnology
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    • 제26권1호
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    • pp.21-26
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    • 2008
  • Since goat milk infant formula has been increased, it is expected that goat milk consumption would be increased. This review summarizes the characteristics of goat milk especially, milk fat, somatic cell count, and goaty flavor. Average milk fat content for one year of twelve goat milk farms was 3.6%, but $2.9{\sim}3.1%$ in summer, which means summer goat milk could not meet the 'Processing and Ingredient Standard for Animal Products'. More than 3.2% for goat milk fat content in 'Processing and Ingredient Standard for Animal Products' should be amended. In addition to, hygienic standard for goat milk should be newly established because goat milk has naturally higher somatic cell count with noninfectious factors. It is thought that 6-trans nonenal and some branched fatty acids are responsible for the goaty flavor. It is necessary to minimize goaty flavor from farm to table because goaty flavor is the most important factor for the promotion of goat milk industry.

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분유의 유지 산화안정성 (Oxidative Stability Fat in Milk Powder)

  • 차준환;최은옥
    • Applied Biological Chemistry
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    • 제38권3호
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    • pp.259-262
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    • 1995
  • DHA(cis-4,7,10,13,16,19-docosahexaenoic acid)가 첨가된 분유와 보통분유의 저장중 지방의 산화안정성을 thiobarbituric acid법에 의해 살펴보았다. 두 종류의 분유는 지역의 슈퍼마켓에서 구입하여 시료병에 $2{\pm}0.05\;g$씩 넣어 암소와 빛의 존재하에서 저장하였다. DHA가 첨가된 분유 지방 산화는 보통 분유보다 증가되었고 특히 빛의 존재하에서 산화는 더욱 촉진되었다. 빛과 DHA를 포함한 불포화지방산은 분유지방을 산화시킴에 있어 상호 역할을 강화시키고 있었다. DABCO (diazabicyclooctane)를 분유에 첨가하면 빛에 노출된 분유의 지방 산화를 줄였는데 이는 분유에서도 일중항산소에 의한 광산화가 발생함을 암시한다. DABCO에 의한 유지방의 산화 억제 정도는 DHA가 첨가된 분유에서 높게 나타났다.

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Effect of supplementary glycerin on milk composition and heat stability in dairy goats

  • Thoh, Deela;Pakdeechanuan, Patcharin;Chanjula, Pin
    • Asian-Australasian Journal of Animal Sciences
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    • 제30권12호
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    • pp.1711-1717
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    • 2017
  • Objective: This experiment was studied the effects of various levels of crude glycerin (CG) in dairy goat diet on daily intake, milk yield, milk composition, some physical properties and some quality changes of goat milk after sterilization. Methods: Twelve 75% Saanen dairy goats (body weight = $49{\pm}3kg$; days in milk = $60{\pm}12d$) were randomly assigned in a completely randomized design to evaluate the effects of three experimental diets consisting of 0%, 5%, and 10% CG (dry matter basis) which were formulated to meet or exceed the nutrient requirements of goats. Experimental dairy goats were evaluated for feed and milk yield. Milk samples were analyzed for their composition, including fatty acids, casein profile, fat globule size, and color, and were sterilized to evaluate milk heat stability. Results: There were no significant differences between 0% and 5% CG treatments infeed. Increasing CG supplementation from 0% to 5% increased milk yield from $2.38{\pm}0.12$ to $2.64{\pm}0.23kg/goat/d$. In addition, milk samples from 5% CG treatment had the highest total solids, fat content and lactose content, and largest fat globule size. Increasing CG to 10% resulted in a decrease in milk fat. After sterilizing at $116^{\circ}C$, $F_0=3min$, goat milk samples from 5% CG treatment had slightly higher sediment content and comparatively higher degree of browning. Conclusion: Considering milk yield, milk fat content and quality of sterilized milk, 5% CG supplementation in a total mixed ration has a potential for implementation in dairy goats.

Influence of Supplementing Dairy Cows Grazing on Pasture with Feeds Rich in Linoleic Acid on Milk Fat Conjugated Linoleic Acid (CLA) Content

  • Khanal, R.C.;Dhiman, T.R.;Boman, R.L.;McMahon, D.J.
    • Asian-Australasian Journal of Animal Sciences
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    • 제20권9호
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    • pp.1374-1388
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    • 2007
  • Three experiments were conducted to investigate the hypothesis that cows grazing on pasture produce the highest proportion of c-9 t-11 CLA in milk fat and no further increase can be achieved through supplementation of diets rich in linoleic acid, such as full-fat extruded soybeans or soybean oil. In experiment 1, 18 lactating Holstein cows were used in a randomized complete block design with measurements made from wk 4 to 6 of the experiment. In experiment 2, three cannulated lactating Holstein cows were used in a $3{\times}3$ Latin square design. Each period was 4 wk with measurements made in the final wk of each period. Cows in both experiments were assigned at random to treatments: a, conventional total mixed ration (TMR); b, pasture (PS); or c, PS supplemented with 2.5 kg/cow per day of full-fat extruded soybeans (PES). In both experiments, feed intake, milk yield, milk composition, and fatty acid profile of milk and blood serum were measured, along with fatty acid composition of bacteria harvested from rumen digesta in experiment 2. In experiment 3, 10 cows which had continuously grazed a pasture for six weeks were assigned to two groups, with one group (n = 5) on pasture diet alone (PS) and the other group (n = 5) supplemented with 452 g of soy oil/cow per day for 7 d (OIL). In experiment 1, cows in PS treatment produced 350% more c-9, t-11 CLA compared with cows in TMR treatment (1.70 vs. 0.5% of fat), with no further increase for cows in PES treatment (1.50% of fat). Serum c-9, t-11 CLA increased by 233% in PS treatment compared with TMR treatment (0.21 vs. 0.09% of fat) with no further increase for cows in PES treatment (0.18% of fat). In experiment 2, cows in PS treatment produced 300% more c-9 t-11 CLA in their milk fat compared with cows in TMR treatment (1.77 vs. 0.59% of fat), but no further increase for cows in PES treatment (1.84% of fat) was observed. Serum c-9, t-11 CLA increased by 250% for cows in PS treatment compared with cows in TMR treatment (0.27 vs. 0.11% of fat), with no further increase for cows in PES treatment (0.31% of fat). The c-9, t-11 CLA content of ruminal bacteria for cows in PS treatment was 200% or more of TMR treatment, but no further increase in bacterial c-9, t-11 CLA for cows in PES treatment was observed. Supplementation of soy oil in experiment 3 also did not increase the c-9 t-11 CLA content of milk fat compared with cows fed a full pasture diet (1.60 vs. 1.54% of fat). Based on these findings, it was concluded that supplementing with feeds rich in linoleic acid, such as full-fat extruded soybeans or an equivalent amount of soy oil, to cows grazing perennial ryegrass pasture may not increase milk fat c-9 t-11 CLA contents.

Feeding Unprotected CLA Methyl Esters Compared to Sunflower Seeds Increased Milk CLA Level but Inhibited Milk Fat Synthesis in Cows

  • Dohme-Meier, F.;Bee, G.
    • Asian-Australasian Journal of Animal Sciences
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    • 제25권1호
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    • pp.75-85
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    • 2012
  • An experiment was conducted to compare the effect of the same amount of 18:2 offered either as 18:2n-6 or as a mixture of unprotected 18:2c9t11 and 18:2t10c12 on feed intake, milk components as well as plasma and milk fatty acid profile. Fifteen cows were blocked by milk yield and milk fat percentage and within block assigned randomly to 1 of 3 treatments (n = 5). Each cow passed a 12-d adjustment period (AP) on a basal diet. After the AP cows received 1 of 3 supplements during an 18-d experimental period (EP). The supplements contained either 1.0 kg ground sunflower seeds (S), 0.5 kg conjugated linoleic acid (CLA)-oil (C) or 0.75 kg of a mixture of ground sunflower seeds and CLA-oil (2:1; SC). All 3 supplements contained the same amount of 18:2 either as CLA (${\Sigma}18$:2c9t11+18:2t10c12, 1:1) or as 18:2c9c12. During the last 2 d of AP and the last 4 d of EP feed intake and milk yield were recorded daily and milk samples were collected at each milking. Blood samples were collected from the jugular vein on d 11 of AP and d 15 and 18 of EP. The 18:2 intake increased in all treatments from AP to EP. Regardless of the amount of supplemented CLA, the milk fat percentage decreased by 2.35 and 2.10%-units in treatment C and SC, respectively, whereas in the treatment S the decrease was with 0.99%-unit less pronounced. Thus, C and SC cows excreted daily a lower amount of milk fat than S cows. The concentration of trans 18:1 in the plasma and the milk increased from AP to EP and increased with increasing dietary CLA supply. While the concentration of 18:2c9t11 and 18:2t10c12 in the plasma and that of 18:2t10c12 in the milk paralleled dietary supply, the level of 18:2c9t11 in the milk was similar in C and CS but still lower in S. Although the dietary concentration of CLA was highest in treatment C, the partial replacement of CLA by sunflower seeds had a similar inhibitory effect on milk fat synthesis. Comparable 18:2c9t11 levels in the milk in both CLA treatments implies that this isomer is subjected to greater biohydrogenation with increasing supply than 18:2t10c12. The fact that unprotected 18:2t10c12 escaped biohydrogenation in sufficient amounts to affect milk fat synthesis reveals opportunities to develop feeding strategies where reduced milk fat production is desirable or required by the metabolic state of the cow.

Detection for Non-Milk Fat in Dairy Product by Gas Chromatography

  • Kim, Ha-Jung;Park, Jung-Min;Lee, Jung-Hoon;Kim, Jin-Man
    • 한국축산식품학회지
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    • 제36권2호
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    • pp.206-214
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    • 2016
  • The aim of this study was to evaluate the potential use of fatty acids, triacylglycerols, and cholesterol in the detection of adulterated milk fat. The fatty acid, triacylglycerol, and cholesterol profiles of the mixtures of milk and non-milk fat (adulteration ratios of 10%, 30%, 50%, 70%, and 90%) were analyzed by gas chromatography. The results showed that concentrations of the fatty acids with oleic acid (C18:1n9c) and linoleic acid (C18:2n6c), triglycerides with C52 and C54, and cholesterol detected are proportional to the adulteration ratios remarkably. Oleic acid (C18:1n9c), linoleic acid (C18:2n6c), C52, and C54 were lower in pure milk fat than in adulterated mixtures. In contrast, pure milk has a higher cholesterol concentration than all adulterated mixtures (adulteration concentration in the range 10-90%). Thus, we suggest that oleic acid (C18:1n9c), linoleic acid (C18:2n6c), C52, C54, and cholesterol are suitable indicators and can be used as biomarkers to rapidly detect adulterated milk fat by gas chromatography. This study is expected to provide basic data for adulteration and material usage. Moreover, this new approach can detect the presence of foreign oils and fats in the milk fat of cheese and can find application in related studies.