scholarly journals Impact of Feeding of Legume‑Cereal mixture Silages on Dairy Cow Milk Thermostability and Quality

2018 ◽  
Vol 66 (3) ◽  
pp. 647-653
Author(s):  
Oto Hanuš ◽  
Irena Němečková ◽  
Jan Pozdíšek ◽  
Igor Huňády ◽  
Marcela Klimešová ◽  
...  
Keyword(s):  
Dairy Cows ◽  
Dairy Cow ◽  
Crude Protein ◽  
Freezing Point ◽  
Raw Milk ◽  
Milk Quality ◽  
Cow Milk ◽  
Component Part ◽  
Bulk Milk ◽  
The Impact

Current changes in climate (increasing drought) and the rise in prices of protein concentrate feed are the reasons for the increasing interest in growing and production and increasing silages from legume‑cereal mixtures (LCM) in rations for dairy cows. Another reason is to improve the soil fertility using LCM in crops rotation. The impact of feeding of dairy cows (Czech Fleckvieh and Holstein, 50 herds) on milk quality was monitored (for 3 years) when modifying the roughage feeding rations by additions of LCM silages. Bulk milk samples were tested (n = 641 (15 herds) LCM as experiment and 2,428 (35) as control). LCM was higher in crude protein, lactose, solids non‑fat and total microorganisms (from P ≤ 0.05 to P ≤ 0.001). The lower was LCM in the milk freezing point and the urea content (P < 0.05 and P < 0.001). The fat content and the somatic cell count were insignificantly different (P > 0.05). There was a significant effect of LCM on milk thermostability (18.85 < 20.9 minutes, P < 0.05). The residues of inhibitory substances in milk were not recorded in the LCM group. The LCM application is a risk‑free way of replacement of roughage component part of dairy cow feeding rations with regard to raw milk quality.

scholarly journals The effects of sample fat value manipulation on raw cow milk composition and indicators

2011 ◽  
Vol 59 (1) ◽  
pp. 101-112 ◽  
Author(s):  
Oto Hanuš ◽  
Marcela Vyletělová ◽  
Martin Tomáška ◽  
Eva Samková ◽  
Václava Genčurová ◽  
...  
Keyword(s):  
Somatic Cell Count ◽  
Crude Protein ◽  
Freezing Point ◽  
Milk Composition ◽  
Cow Milk ◽  
Freezing Point Depression ◽  
Sampling Errors ◽  
Milk Samples ◽  
Actual Acidity ◽  
The Impact

Values of milk indicators (MIs) can be influenced by sampling errors and milk manipulation. This paper estimated the freezing point depression (FPD) and other MIs drifts which can cause fat movement. That is important for: – preparation of reference milk samples (MSs) for proficiency testing and instrument calibrations; – estimation of the impact of milk treatment as centrifugation in dairy plants on FPD. Five MSs (A = original milk; milk with modified fat (F) content; B = less F, C = low F, D = more F, E = high F) were created (gravitation F separation at 4 °C for 12 hours) with the same milk matrix 12× per year. F averages increased by 4.80% (122.1%) from 1.68 to 6.48% due to manipulation. It increased variability of MIs especially for SNF (solids non fat), L (lactose) and CP (crude protein). SCC (somatic cell count) averages increased by 803 (196.8%) from 9 to 812 thousand.ml−1. Correlation (r) F × SCC was 0.85 (P < 0.001). SNF, L and CP averages decreased by 0.47% (5.3%), 0.31% (6.3%) and 0.17% (5.0%). Correlations were −0.78, −0.75 and −0.64 (P < 0.001). Urea decreased along with F increase by 1.05 mg.100ml−1 (2.9%) but with r −0.13 (P > 0.05). Acetone increased by 1.37 mg.l−1 (47.6%) with r 0.21 (P > 0.05). Electrical conductivity decreased by 0.23 mS.cm−1 (6.0%) with r −0.15 (P > 0.05). Alcohol stability was reduced by 0.14 ml (23.3%) with r −0.15 (P > 0.05). FPD, titration and actual acidity were not influenced.

Maize silage and Italian ryegrass silage as high-energy forages in organic dairy cow diets: Differences in feed intake, milk yield and quality, and nitrogen efficiency

2013 ◽  
Vol 29 (4) ◽  
pp. 378-387 ◽  
Author(s):  
L. Baldinger ◽  
W. Zollitsch ◽  
W.F. Knaus
Keyword(s):  
Dairy Cows ◽  
Dairy Cow ◽  
Feed Intake ◽  
Crude Protein ◽  
Milk Protein ◽  
High Energy ◽  
Italian Ryegrass ◽  
Maize Silage ◽  
Grass Silage ◽  
Organic Dairy

AbstractDuring the winter feeding period in organic dairy production systems in the alpine and pre-alpine regions of Austria and its neighboring countries, maize silage is an energy-rich forage that is regularly included in grass-silage-based diets to improve the energy supply of the cows. Italian ryegrass (Lolium multiflorumLam.) is also a high-energy fodder grass popular as forage for dairy cows, but it is rarely cultivated in Austrian organic agriculture. The two crops differ in their cultivation demands and characteristics. Italian ryegrass establishes rapidly and may reduce the risk of soil erosion. Italian ryegrass would be a beneficial addition to crop rotation, which is an essential tool in successful organic farming. In a 15-week feeding trial, Italian ryegrass silage and maize silage were fed to 22 lactating Holstein dairy cows. Organically produced Italian ryegrass silage and maize silage were included at a rate of 40% [of dry matter (DM)] in grass-silage-based mixed basal diets. The mixed basal diets were supplemented with modest amounts of additional concentrates (2.7–3.0 kg DM day−1). Owing to the higher energy content of maize silage as compared to Italian ryegrass silage, the maize diet provided more energy [6.3 MJ net energy for lactation (NEL) kg−1DM] than the ryegrass diet (6.15 MJ NEL kg−1DM). The protein supply of the maize diet and the ryegrass diet was intended to be equal, but in fact the protein content of the maize diet was significantly lower (122 g crude protein kg−1DM) than that of the ryegrass diet (141 g kg−1DM). When the maize diet was fed, feed intake, milk yield and milk protein content were significantly higher as compared to the ryegrass diet. Also, intake of crude protein was significantly lower when feeding the maize diet, and in combination with the higher milk protein yield, this enabled an efficiency of gross nitrogen (N) utilization as high as 0.304. This level of N efficiency can be considered as above average and was significantly and considerably higher than the level of 0.259 observed when the ryegrass diet was fed. Therefore, maize silage upholds its reputation as an ideal energy-rich component in grass-silage-based dairy cow diets.

The economic, environmental and welfare implications of alternative systems of accommodating dairy cows during the winter months

2015 ◽  
Vol 55 (7) ◽  
pp. 838 ◽  
Author(s):  
P. French ◽  
K. O. Driscoll ◽  
B. Horan ◽  
L. Shalloo
Keyword(s):  
Body Temperature ◽  
Dairy Cows ◽  
Animal Welfare ◽  
Dairy Cow ◽  
Temperate Climate ◽  
Adult Cattle ◽  
Capital Costs ◽  
Systems Research ◽  
The Impact ◽  
Maintain Body Temperature

Pasture grazed in situ is one of the most competitive and sustainable feeding systems for dairy cows globally because of a low environmental footprint, the potential for excellent animal welfare and the relatively low cost in the production and utilisation of the feed. However, because of seasonal variation in grass production and inclement weather conditions, dairy cattle may have to be accommodated and/or fed off pasture. There are numerous infrastructural options for achieving this and the focus of the present paper was to review the research and discuss the merits of these alternate animal accommodation systems, focussing on the impact that they have on the environment, animal welfare and farm profitability relative to pasture-only systems. Research data showed that dairy cow welfare can be protected in a range of well managed alternative winter accommodation. In a temperate climate, such as that which pertains in Ireland, adequately fed adult cattle will not use extra feed energy to maintain body temperature when accommodated outdoors and exposed to the effects of wind, rain and low temperatures, as the heat produced from the digestion of feed is in excess of the requirement to maintain body temperature. The main welfare challenge of a wintering system in such conditions is to provide suitable lying facilities for cows to express normal lying behaviour and provide adequate feed. The primary economic focus of pasture-based systems should be to maximise the length of the grass-grazing season and, consequently, to minimise the period off paddock. Provided that body condition targets can be met, there will be minimal effect of wintering system on dairy cow productivity and the only economic differences will be in costs. The cost analysis should combine the capital costs of construction financed over its useful life and the annual operating costs, including labour.

scholarly journals KECERNAAN PROTEIN KASAR DAN LEMAK KASAR PADA SAPI PERAH PERANAKAN FH (FRIESIAN HOLSTEIN) YANG DIBERI PAKAN LENGKAP BERBASIS TEBON JAGUNG

ZOOTEC ◽  
2020 ◽  
Vol 40 (2) ◽  
pp. 482
Author(s):  
Diwi N.Y. Polii ◽  
M. R. Waani ◽  
A. F. Pendong
Keyword(s):  
Dairy Cows ◽  
Dairy Cow ◽  
Protein Intake ◽  
Crude Protein ◽  
T Test ◽  
The Other ◽  
Fat Intake ◽  
Test Analysis ◽  
Treatment Groups

THE DIGESTIBILITY OF CRUDE PROTEIN AND CRUDE FAT ON FRIESIAN HOLSTEIN (FH) DAIRY COW FED COMPLETE FEED BASED ON CORN FORAGE. This study aims to determine the intake and digestibility of the crude protein and crude fat of complete feed based on corn forage. 14 FH dairy cows with 300-400 kg of weight were used in this study. This study was arranged in two treatment groups according to t-test (assuming unequal varience). The treatments consisted of Ra = 30% concentrate + 70% corn forage and Rb = 30% concentrate + 35% corn forage + 35% king grass. The variables measured were crude protein and crude fat intakes, and crude protein and crude fat digestibilities. t-test analysis results showed, the crude protein intake of Ra (934.23 grams/head/day) was not significantly different (P>0.05) from Rb (924.20 grams/head/day), as well as the crude fat intake of Ra (332.93 grams/head/day) was also not significantly different (P>0.05) form Rb (350.66 grams/head/day). The digestibility of crude protein in Rb treatment (85.34%) was significantly (P<0.05) higher than Ra (82.18%), while the digestibility of crude fat in Rb treatment (88.90%) was highly significant different (P<0.01) from Ra (84.31%). It is concluded that complete feed consisting of concentrate, corn forage and king grass has better crude protein and crude fat digestibilities than the other one that just consisting concentrate and corn forage. Keywords: digestibility, crude protein, crude fat, complete feed, FH cows.

scholarly journals Does spring application of fertiliser urea reduce dairy cow performance?

2004 ◽  
pp. 239-244
Author(s):  
A. Ordóñez ◽  
C. Matthew ◽  
R.D. Miller ◽  
T. Parkinson ◽  
C.W. Holmes ◽  
...  
Keyword(s):  
Field Experiment ◽  
Dairy Cows ◽  
Dairy Cow ◽  
Crude Protein ◽  
Early Lactation ◽  
Negative Effects ◽  
Milk Urea ◽  
Farm Survey ◽  
Cow Performance ◽  
Sugar Levels

This paper reports a field experiment and a farm survey, which aimed to find out if there is evidence that elevated herbage crude protein (CP):sugar levels have negative effects on dairy cow performance. Differences in herbage CP levels were induced by using nitrogen (+N) or withholding (-N) applied as fertiliser urea for two groups of 20 dairy cows in early lactation (August to November 2003). Cows fed urea-fertilised herbage had elevated milk urea levels (-N = 5.4 mmol/l, +N = 8.3 mmol/l, P

scholarly journals Study of aflatoxins incidence in cow feed and milk in Serbia during 2013.

2015 ◽  
Vol 69 (6) ◽  
pp. 651-656 ◽  
Author(s):  
Danka Spiric ◽  
Jasna Djinovic ◽  
Vesna Jankovic ◽  
Branko Velebit ◽  
Tatjana Radicevic ◽  
...  
Keyword(s):  
Dairy Cows ◽  
Aflatoxin B1 ◽  
Negative Impact ◽  
Raw Milk ◽  
Self Control ◽  
Cow Milk ◽  
Aflatoxin M1 ◽  
Climate Conditions ◽  
Milk Samples ◽  
Beet Pulp

Atypical weather and climate conditions during the spring and summer 2012th were assumed to be the main reason for the aflatoxins contamination of corn crops in Serbia. High humidity in spring, and summer temperatures above the average contributed to the increased possibility of mycotoxins occurance in cereals in the fields. As a consequence, at the begining of 2013th contaminated corn used for dairy cows diet had negative impact on the safety of cow milk. The routine laboratory control data revealed an increased content of aflatoxin M1 in milk samples. Large number of raw milk and various feedstuff samples were collected from February to April 2013th and were analysed for the presence of aflatoxin M1 (AFM1) and aflatoxin B1 respectively. The collected samples were a part of enhanced self-control plans of the large dairy farms. Quantitative competitive and sandwich types of ELISA tests were used for the screening analysis of the feed and milk samples. Confirmation of the positive results obtained by ELISA tests was performed by UPLC-MS/MS method. Out of 281 samples of complete mixtures for dairy cows, 67 samples (24%) contained aflatoxin B1 quantities higher than the MRL of 0,005 mg/kg [4]. Corn samples were also tested for the presence of aflatoxin B1 revealing contamination of 22% above the MRL (0.03mg/kg). Aflatoxin M1 content in the 934 positive milk samples ranged from 0,005- 1,25 ?g/kg. The corresponding feed samples of sunflower meal, hay silage, corn silage and sugar beet pulp were screening negative, with the content of aflatoxin B1 less than 2 ?g/kg. The main source of aflatoxins were corn samples, wholemeal and feed mixtures derived from contaminated corn. The contamination peak was during March 2013, when 65% of milk samples contained amounts of aflatoxin M1 higher than 0,05 ?g/kg, and 13% of milk samples contained amounts higher than 0,5 ?g/kg.

scholarly journals Effect of Sulfur and Urea Fortification of Fresh Cassava Root in Fermented Total Mixed Ration on the Improvement Milk Quality of Tropical Lactating Cows

2020 ◽  
Vol 7 (3) ◽  
pp. 98
Author(s):  
Chanadol Supapong ◽  
Anusorn Cherdthong
Keyword(s):  
Dairy Cows ◽  
Somatic Cell ◽  
Cell Count ◽  
Milk Yield ◽  
Somatic Cell Count ◽  
Crude Protein ◽  
Milk Quality ◽  
The Body ◽  
Total Mixed Ration ◽  
Cassava Root

The aim of the present research was to determine the influence of sulfur and urea combined with fresh cassava root in fermented total mixed ration (FTMR) on digestibility, fermentation in the rumen, blood metabolite, milk yield, and milk quality in tropical lactating dairy cows. Four mid-lactation Thai Holstein–Friesian crossbred cows were studied. Pre-experiment milk yield was 12.7 ± 0.30 kg/day, and the body weight was 495 ± 40.0 kg. Animals were evaluated in a 2 × 2 factorial in a 4 × 4 Latin square design to receive diets followed by: factor A, which was a dose of sulfur inclusion at 1.0% and 2.0%, and factor B, which was level of urea inclusion at 1.25% and 2.5% DM in FTMR. The hydrogen cyanide (HCN) concentrations reduced 99.3% to 99.4% compared with fresh cassava root when FTMR was supplemented with 1.0% and 2.0% sulfur, respectively. Intake of crude protein was increased based on urea level addition (p < 0.05). Blood thiocyanate concentration was increased by 21.6% when sulfur was supplemented at 2.0% compared to 1.0% (p < 0.05). There was no difference in protozoal concentration, whereas bacterial populations at 4 h after feeding were significantly greater by 6.1% with the FTMR supplemented with 2.0% sulfur and 2.5% urea (p < 0.01). Allantoin concentrations, excretion, absorption, and microbial crude protein showed significant interactions between sulfur levels and urea levels in cows fed diets supplemented with 2.0% sulfur and 2.5% urea (p < 0.05). The molar ratios of the volatile fatty acid (VFA) profile were affected by dietary FTMR (p < 0.01). Furthermore, propionic acid increased by 4.6% when diets were supplemented by 2.5% sulfur (p < 0.01). Milk fat and total solids increased when feed was supplemented with 2.0% sulfur and 2.5% urea (p < 0.05). The diets supplemented with 2.0% sulfur levels resulted in greater concentrations of milk thiocyanate (p < 0.05). The somatic cell count was significantly reduced throughout the experiment with increasing sulfur supplementation (p < 0.05). Animals fed diets supplemented with 2.0% sulfur exhibited a decreased somatic cell count by 18.3% compared with those fed diets supplemented with 1.0% sulfur. Thus, inclusion of 2.0% sulfur with 2.5% urea in FTMR containing fresh cassava root improved digestibility, ruminal fermentation, microbial crude protein synthesis, and milk qualities in dairy cows.

Occurrence of Aflatoxin in Dairy Cow Feed Ingredients and Total Mixed Ration

2019 ◽  
Vol 35 (5) ◽  
pp. 679-686 ◽  
Author(s):  
Zeinab Mohammadi Shad ◽  
Mehrdad Ghavami ◽  
Griffiths G. Atungulu
Keyword(s):  
Dairy Cows ◽  
Dairy Cow ◽  
Rainy Season ◽  
Raw Milk ◽  
Farm Management ◽  
Average Level ◽  
Aflatoxin M1 ◽  
Enzyme Linked Immunosorbent Assay ◽  
Feed Ingredients ◽  
Milk Samples

Abstract. The level of aflatoxin B1 (AFB1) in dairy cow feed ingredients and Total Mixed Rations (TMRs) procured at two farms for low- and high-yielding dairy cows were surveyed. Raw milk from the two groups of cows at each farm was sampled 24 h after feeding the cows with examined feedstuffs during both the rainy and the non-rainy season. The aflatoxin M1 (AFM1) level in the raw milk samples was measured 12-24 h later. The levels of AFB1 in feed and AFM1 in milk were determined by validated enzyme linked immunosorbent assay (ELISA). The influence of farm management and type of feeding system on aflatoxin occurrence were considered. AFB1 and AFM1 were detected in 100% of feed and milk samples, respectively. The average level of AFB1 in the feed ingredients and TMRs were in the range of 1.6-104.7 µg/kg and 11.0-56.0 µg/kg, respectively. The average level of AFM1 in milk samples was 77.0 ng/L. The average concentrations of AFB1 in feeds and AFM1 in milk procured in the rainy season were significantly greater than those procured in the non-rainy season (p&lt;0.05). Of the studied feed, maize silage was determined as the most contaminated feed ingredient in terms of AFB1 content. Furthermore, the AFM1 in 75% of milk samples obtained from high-yielding dairy cows and 25% of milk samples obtained from low-yielding dairy cows indicated AFM1 level higher than the maximum allowable Europe Commission limit of 50 ng/L. The results also showed that the occurrence of AFB1 in feed varied with farm feed management. The extent of translocation to AFMI in milk samples was dependent on type of cow, whether low- or high- milk yielding. This study suggests regular risk analysis and using good farm management practices are important to control aflatoxin contamination in feed and milk. Keywords: Aflatoxin B1, Aflatoxin M1, Dairy cows, Feed, Milk yield.

scholarly journals Dairy Cow Health and Greenhouse Gas Emission Intensity

Dairy ◽  
2020 ◽  
Vol 1 (1) ◽  
pp. 3
Author(s):  
Dirk von Soosten ◽  
Ulrich Meyer ◽  
Gerhard Flachowsky ◽  
Sven Dänicke
Keyword(s):  
Dairy Cows ◽  
Greenhouse Gas ◽  
Dairy Cow ◽  
Emission Intensity ◽  
Greenhouse Gas Emission ◽  
Energy Requirement ◽  
Animal Health ◽  
Animal Diseases ◽  
Cow Health ◽  
The Impact

The purpose of this review is to identify the main influencing factors related to dairy cow health as it impacts the intensity of greenhouse gas emissions considering known data presented in the literature. For this study, we define the emission intensity as CO2 equivalents per kilogram of milk. In dairy cows, a high dry matter (DM) intake (25 kg/d) leads to an higher absolute methane emission compared to a lower DM intake (10 kg/d). However, the emission intensity is decreased at a high performance level. The emissions caused by DM intake to cover the energy requirement for maintenance are distributed over a higher milk yield. Therefore, the emission intensity per kilogram of product is decreased for high-yielding animals with a high DM intake. Apart from that, animal diseases as well as poor environmental or nutritional conditions are responsible for a decreased DM intake and a compromised performance. As a result, animal diseases not only mean reduced productivity, but also increased emission intensity. The productive life-span of a dairy cow is closely related to animal health, and the impact on emission intensity is enormous. A model calculation shows that cows with five to eight lactations could have a reduced emission intensity of up to 40% compared to animals that have left the herd after their first lactation. This supports the general efforts to increase longevity of dairy cows by an improved health management including all measures to prevent diseases.

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