Long-term reticuloruminal pH dynamics and markers of liver health in early-lactating cows of various parities fed diets differing in grain processing

Humer, Elke; Khol-Parisini, A.; Grüber, L.; Gasteiner, J.; Abdel-Raheem, Sherief M.; Zebeli, Qendrim

doi:10.3168/jds.2015-9522

Cited by 31 publications

(43 citation statements)

References 40 publications

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“…Treating cereals with organic acids may contribute to modulate ruminal tolerance of grain feeding and alleviate the digestive disorders (Iqbal et al, 2009;Humer et al, 2015), thus improving ruminant performance and health. The increased weight gain with a similar feed intake observed in calves fed the TRT diet compared with the CTR diet resulted in a better feed efficiency.…”

Section: Discussionmentioning

confidence: 99%

Influence of barley grain particle size and treatment with citric acid on digestibility, ruminal fermentation and microbial protein synthesis in Holstein calves

Kazemi-Bonchenari

Salem

López

2017

Animal

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Chemical and physical treatments of barley grain increase ruminally resistant starch and can improve the rumen fermentation pattern. The objective of the present study was to evaluate the effects of chemical (addition of citric acid, CA) and physical (grinding to two different particle sizes, PS) treatment of barley grain on performance, rumen fermentation, microbial protein yield in the rumen and selected blood metabolites in growing calves. In all, 28 male Holstein calves (172 ± 5.1 kg initial BW) were used in a complete randomised design with a factorial arrangement of 2 barley grain particle sizes × 2 levels of citric acid. The diets were as follows: (i) small PS (average 1200 µm) barley grain soaked in water (no CA addition); (ii) small PS barley grain soaked in a CA solution (adding 20 g CA/kg barley); (iii) large PS (average 2400 µm) barley grain soaked in water (no citric acid addition) and (iv) large PS barley grain soaked in a citric acid solution (adding 20 g CA/kg barley). Barley grain was then incorporated at 35% in a total mixed ration and fed to the calves for 11 weeks. Feeding small PS barley decreased feed intake ( P = 0.02) and average daily weight gain ( P = 0.01). The addition of CA to barley grain did not affect intake but increased weight gain ( P < 0.01) and improved feed to gain ratio ( P = 0.03). Digestibility of organic matter and NDF tended ( P < 0.10) to increase, whereas faecal scoring was improved ( P = 0.03) and the presence of undigested grain particles in faeces was reduced ( P < 0.01) with CA-treated barley grain. Glucose and urea concentrations were increased (P < 0.01) in the blood of calves fed the CA-treated barley grain. Ruminal pH tended ( P = 0.08) to be decreased with more finely ground barley and was increased when barley grain was treated with CA. Total volatile fatty acid concentrations in the rumen did not differ among treatments ( P > 0.05). However, the molar proportion of propionate was increased ( P = 0.03) when barley was more finely ground, and that of acetate was increased ( P = 0.04) when CA was added to barley grain. The ruminal concentration of ammonia nitrogen was increased ( P < 0.01) and microbial nitrogen synthesis in the rumen tended to decrease by adding CA to barley. Treating barley grain with citric acid increased fibre digestibility of total mixed rations, attenuated the decrease in ruminal pH, and improved weight gain and feed efficiency in male Holstein growing calves fed a high-cereal diet (550 g cereal grain/kg diet).

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Section: Discussionmentioning

confidence: 99%

Influence of barley grain particle size and treatment with citric acid on digestibility, ruminal fermentation and microbial protein synthesis in Holstein calves

Kazemi-Bonchenari

Salem

López

2017

Animal

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“…All procedures involving animal handling and treatment were in accordance with national regulations for animal use in research and the national authority approved the study according to §9ff of Law for Animal Experiments (GZ FA10A-78Gu-19/2012). The study was conducted as longitudinal trial, as part of a larger research project (Humer et al 2015;Gruber et al 2017) which involved 30 dairy cows (25 Holsteins and 5 Simmentals; 12 primiparous and 18 multiparous) that were housed in a free stall.…”

Section: Animals the Trial Was Conducted At The Dairy Research Facilmentioning

confidence: 99%

“…As protein source, the PMV contained soybean and rapeseed meals. The cows were fed different barleys (Humer et al 2015;Gruber et al 2017), but as these did not affect feed intake and overall intake of nutrients, only the specific energy and nutrient composition of barley and not barley treatment was considered in this study. Detailed information regarding the nutrient composition of all dietary ingredients is provided in Supplementary Table S1 in Supplementary Online Material (SOM).…”

Section: Animals the Trial Was Conducted At The Dairy Research Facilmentioning

confidence: 99%

Effects of meeting the requirements in energy and protein, and of systemic inflammation on the interval from parturition to conception in dairy cows

Humer¹,

Grüber²,

Zebeli³

2018

CZECH J ANIM SCI

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Humer E., Gruber L., Zebeli Q. (2018): Effects of meeting the requirements in energy and protein, and of systemic inflammation on the interval from parturition to conception in dairy cows. Czech J. Anim. Sci., 63,[201][202][203][204][205][206][207][208][209][210][211] Main aim of this retrospective study was to determine the role of the level of meeting the requirements in net energy of lactation (NE L ) and utilizable crude protein at the duodenum (uCP) in weeks 3-17 postpartum on the interval from parturition until conception (IUC) in dairy cows. We compared intakes and balances of NE L and uCP, body weight change, metabolic status, reticuloruminal pH, and serum amyloid A (SAA) as a systemic inflammation marker in 30 dairy cows differing in the IUC length (i.e., short (S; n = 8), medium (M; n = 11), and long (L; n = 11) IUC for cows confirmed pregnant within week 10 or between weeks 11 and 17 postpartum, or thereafter, respectively). Data showed that the level of meeting the requirements in NE L and uCP in weeks 3-10 postpartum was instrumental in shortening the IUC in the cows pertaining to S IUC group (P ≤ 0.03). As an average, during this period the S cows met 104 and 110% of their requirements in NE L and uCP, respectively. In contrast, the M and L cows met 96 and 95% of NE L as well as 104 and 101% of uCP requirements, respectively. The M cows showed higher milk and blood urea nitrogen (P = 0.04), and also lower SAA concentration (P = 0.05) compared to L cows. In conclusion, exceeding the requirements in both NE L and uCP in weeks 3-10 postpartum significantly shortened the IUC to less than 10 weeks. The shorter IUC in M vs L cows went along with improved protein status and lesser systemic inflammation in week 6 postpartum in these cows. Keywords: energy balance; cattle; early lactation; calving interval; acute phase reaction List of abbreviations: NE L = net energy of lactation, uCP = utilizable crude protein at the duodenum, AA = amino acids, IUC = interval from parturition until conception, PMV = protein-mineral-vitamin supplement, SAA = serum amyloid A, NEB = negative energy balance, DM = dry matter, N = nitrogen, MUN = milk urea nitrogen, EE = ether extract, NDF = neutral detergent fibre, ADF = acid detergent fibre, RDP = rumen-degradable protein (RDP), RUP = rumen-undegradable protein, RNB = ruminal N balance, BCS = body condition score, BFT = backfat thickness, BUN = blood urea nitrogen, BHBA = β-hydroxybutyrate, NEFA = non-esterified fatty acids Increased milk production in recent decades has concomitantly been associated with alarming declines in cow fertility. The excessive negative energy balance (NEB) that cows experience postpartum has long been recognized as one of the main nutritional factors for subfertility (Walsh et

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“…Serum samples were stored at −20°C until analyses. Concentrations of serum amyloid A (SAA) and haptoglobin (Hp) were determined by commercially available ELISA bovine kits (Tridelta Development Ltd., Greystones Co. Wicklow, Ireland) according to the methods described previously (Humer et al, 2015b). In brief, serum samples for SAA were initially diluted 1 : 200, and samples with optical density values above the range of the standard curve were diluted further (1 : 400 or 1 : 250) and reanalyzed.…”

Section: Methodsmentioning

confidence: 99%

“…These wireless pH-transmitting units (3.5 cm i.d., 12 cm long and weighing 210 g), validated previously (Klevenhusen et al, 2014), were manually inserted into the reticulorumen via the esophagus on day 17 postpartum (Humer et al, 2015b). Before their use, the units were calibrated by a two-point calibration using a buffer of pH 4.0 and one of pH 7.0 following the company's instruction protocol.…”

Section: Reticuloruminal Phmentioning

confidence: 99%

Metabolic adaptation and reticuloruminal pH in periparturient dairy cows experiencing different lipolysis early postpartum

Humer

Khol-Parisini

Grüber

et al. 2016

Animal

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Metabolic adaptation includes an array of concerted metabolic and endocrine events that enable dairy cows bridging the period of energy deficit at the onset of lactation. The present study evaluated metabolic, endocrine and reticuloruminal pH changes in 30 (25 Holstein and five Simmental) periparturient dairy cows experiencing variable lipolysis early postpartum. Cows were fed the same close-up and fresh lactation diets and kept in the same management conditions. Blood samples were collected at day 14, and day 4, relative to expected parturition, and at day 2, and day 21 postpartum, and serum metabolites and hormones related to glucose and lipid metabolism, as well as concentrations of several liver enzymes and acute phase proteins were determined. Additionally, reticuloruminal pH was monitored every 10 min over the last 3 days of the observation period. BW and milk yields were recorded and balances of energy and protein were assessed. Based on serum concentration of non-esterified fatty acids (NEFA) postpartum, cows were retrospectively classified into low (n = 8), medium (n = 11), and high (n = 11) lipolysis groups, with NEFA levels of <0.4 mmol/l, between 0.4 and 0.7 mmol/l, and >0.7 mmol/l, respectively. Overall, elevated NEFA concentrations in the High group went along with a higher ratio of NEFA to cholesterol and reduced insulin sensitivity. While serum glucose, energy deficit and BW loss did not differ, cows of the High group exhibited increased lactate concentrations in the serum, compared with the Medium group. No differences in liver enzymes and acute phase proteins were evidenced among fat mobilization groups, whereas concentration of serum billirubin was lowest in the Low group after parturition. Data of milk yield and milk energy output showed no differences among groups, despite divergences in calculated energy balance and BW change postpartum. Cows of the Low group tended to increase dry matter intake but also showed longer time duration of pH below 6.0 in the reticulorumen (on average 299 min/day compared with 99 and 91 min/day for Medium and High groups, respectively). Differences in metabolic, endocrine and reticuloruminal pH responses indicate diverse metabolic adaptation strategies of early-lactation cows to cope with energy deficit postpartum.Keywords: transition dairy cow, fat mobilization, energy metabolism, energy balance, milk production ImplicationsSmooth metabolic adaptation and maintaining rumen health are highly important during the transition period in dairy cows. This study monitored changes in metabolic and endocrine responses and reticuloruminal pH in periparturient dairy cows that experienced different degrees of lipolysis early postpartum. The findings of different metabolic adaptation strategies to cope with the energy deficit postpartum and the differences regarding reticuloruminal pH indicate a role of rumen fermentation in the metabolic adaptation of dairy cows. This implies that it is necessary to find a proper balance between prevention of rumen fermentation disorders an...

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Long-term reticuloruminal pH dynamics and markers of liver health in early-lactating cows of various parities fed diets differing in grain processing

Cited by 31 publications

References 40 publications

Influence of barley grain particle size and treatment with citric acid on digestibility, ruminal fermentation and microbial protein synthesis in Holstein calves

Influence of barley grain particle size and treatment with citric acid on digestibility, ruminal fermentation and microbial protein synthesis in Holstein calves

Effects of meeting the requirements in energy and protein, and of systemic inflammation on the interval from parturition to conception in dairy cows

Metabolic adaptation and reticuloruminal pH in periparturient dairy cows experiencing different lipolysis early postpartum

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