Characterization of proteins in feeds according to the CNCPS and comparison to in situ parameters

Chrenková, M.; Čerešňáková, Z.; Weisbjerg, M.R.; Formelová, Z.; Poláčiková, M.; Vondráková, Mária

doi:10.17221/7499-cjas

Cited by 25 publications

(17 citation statements)

References 16 publications

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“…The NPN concentration in cereal grains is relatively low as compared to other feedstuffs (Chrenková et al, 2014;Westreicher-Kristen, Steingass, & Rodehutscord, 2012). Accordingly, only small differences were detected between the sum of the analysed AA and CP concentrations for samples examined in the present study.…”

Section: Estimation Of Utilisable Cp At the Duodenumcontrasting

confidence: 57%

“…This fraction could lead to high levels of microbial protein synthesis in vitro, which are washed out during in situ incubations. The NPN concentration in cereal grains is relatively low as compared to other feedstuffs (Chrenková et al., ; Westreicher‐Kristen, Steingass, & Rodehutscord, ). Accordingly, only small differences were detected between the sum of the analysed AA (Rodehutscord et al., ) and CP concentrations for samples examined in the present study.…”

Section: Discussionmentioning

confidence: 99%

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In situ and in vitro evaluation of crude protein degradation and utilisable crude protein content of barley, rye and triticale grains for ruminants

Krieg

Seifried

Steingaß

et al. 2017

Animal Physiology Nutrition

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Rations for dairy cows are comprised of high proportions of cereal grains. Thus, despite their low crude protein (CP) content, grains can contribute considerably to the CP intake of dairy cows. This study was conducted to describe and compare ruminal CP degradation of a broad range of barley, rye and triticale genotypes in situ and in vitro and different methods to estimate the utilisable CP at the duodenum (uCP). Twenty samples each of rye, barley and triticale were incubated in situ and in vitro. Exponential regression analyses were used to estimate in situ degradation parameters. Further, the effective degradability (ED), ruminal undegraded CP (UDP) and uCP for ruminal passage rates of 5% and 8% per hr were estimated. The uCP was estimated in vitro and based on two different approaches using in situ UDP data and estimates of microbial synthesised protein (based on fermented organic matter [fOM] or equations of the Gesellschaft für Ernährungsphysiologie). The degradation rate declined from rye (43% per hr) to triticale (27% per hr) to barley (20% per hr), and it exhibited remarkable variation between the genotypes of a single species. The maximal degradable CP fraction also differed between the species, but was overall very high (94%-99%). The lowest washout fraction (26%) and the highest variation in ED (77%-86% and 69%-80% for a passage rate of 5% and 8% per hr, respectively) were found in barley. The in situ uCP content (estimated using fOM) was lower for barley than for rye and triticale at ruminal passage rates of 5% and 8% per hr (barley: 157 g/kg DM at both passage rates; rye and triticale: 168 (at 5% per hr) and 169 (at 8% per hr) g/kg DM). In vitro estimations of uCP did not differ between the grain species and uCP estimated according to GfE was higher for triticale than for barley and rye, which did not differ. The low variation within a single grain species and the weak correlations between ruminal CP degradation and nutrient concentrations suggested that differentiation of ED and uCP between the genotypes of a single grain species is not necessary.

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Section: Estimation Of Utilisable Cp At the Duodenumcontrasting

confidence: 57%

Section: Discussionmentioning

confidence: 99%

In situ and in vitro evaluation of crude protein degradation and utilisable crude protein content of barley, rye and triticale grains for ruminants

Krieg

Seifried

Steingaß

et al. 2017

Animal Physiology Nutrition

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“…The fraction A for our results of grain meals, rapeseed feeds, pasture forages and silages achieved mean values of 144.9, 206.8, 296.3 and 468.2 g/kg CP, respectively. These findings are in agreement with several authors (Choi et al, 2002;Chrenková et al, 2014;Polat et al, 2014). The same author noted that data on the nitrogen fractions determined according to the CNCPS system of lupine grains were lacking.…”

Section: Resultssupporting

confidence: 92%

Evaluation of ruminal crude protein degradation of common feeds used in temperate climates

Koukolová

Homolka

Koukolová

et al. 2018

IJAR

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The objective of this study was to evaluate the nutritional value of different feeds using chemical analysis and procedures to determine the nitrogen fractions expressed in g/kg of crude protein (CP) using a Cornell system. The experiment includes samples of common feeds used for ruminants in the Czech Republic. Fraction A is most commonly available from silages (average 468.2 g/kg CP) and least available in soybean (83.9 g/kg CP). In contrast, rapidly degradable protein (fraction B1) showed the lowest values in silages (average 31.5 g/kg CP) and the highest values in rapeseed cakes (average 195.7 g/kg CP) and lupines (average 308.7 g/kg CP). The intermediately degradable protein fraction B2 had a high value in almost all of the samples and especially in lupines (average B2 fraction 384.7 g/kg CP). The remaining fractions (B3 and C) represent slowly degraded proteins and unavailable proteins and represented a very small part of CP (average 18.9 and 34.9 g/kg CP, respectively). A strong relationship was found between fraction A and soluble protein (SOLP) and fraction B1 and SOLP. Other strong correlations were found between fraction B2 and CP, B2 and insoluble protein (IP), B3 and IP and B3 and neutral detergent insoluble nitrogen (NDIN).

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“…The high proportions of SolP, A (NPN) in MS n as a result of intensive protein hydrolysis during ensiling. 21 Similar to our study, Sniffen et al, 11 showed that B 1 fraction of forages is very low. Generally, when forages are conserved through ensiling or drying, there is a shift in the proportion of B 1 and B 2 towards A (NPN) in silage and B 3 in dried forages.…”

Section: The Cncps Parameterssupporting

confidence: 91%

Determination of ruminal protein degradation of three forages using in vitro protein fractions and in situprotein degradability characteristics

Acar¹

2018

JDVAR

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The methods and mathematical models for ruminants recognize that the ruminal protein degradability of forages may differ by various J Dairy Vet Anim Res. 2018;7(4):154-159. 154 AbstractThe objective of this study was to determine the crude protein fractions of selected three forages (A, B 1 , B 2 , B 3 and C) by in vitro Cornell Net Carbohydrate and Protein System (CNCPS) and the crude protein degradability charecteristics by in situ Nylon Bag Technique (NBT). Also, ruminal protein degradabilities were compared according to the feeding levels of ruminant to gain a better understanding of the suitability of these techniques in assessing the forage types. The forages used most commonly in Aegean region were chosen as a feed material: mature alfalfa hay (AH m ), mature grass hay (GH m ), normal maize silage (MS n ) in the study. The soluble protein (SolP), the non-protein nitrogen (NPN, based on SolP%), the neutral detergent insoluble protein (NDIP) and the acid detergent insoluble protein (ADIP) of forages were determined based on CNCPS. Then, the crude protein (CP) fractions, i.e., A=NPN, B 1 =fast, B 2 =intermediate, B 3 =slow and C=not fermented and unavailable to the animal were calculated. In vitro degradable intake protein (DIP) was calculated (based on CP% and g/kg DM) by using in vitro CP fractions according to dry matter intake fed: DIP 1X = at 1x maintenance level of intake, DIP 2x =at 2x maintenance level of intake, and DIP 3x =at 3x maintenance level of intake. Each forage was incubated between 0-72 h in the rumen of three weathers for three times based on NBT. The CP degradation parameters are (a): fraction of CP immediately soluble protein, (b): the fraction of CP insoluble but degradable in the rumen, (c): the rate constant of degradability of fraction (b). Then, the effective protein degradabilities (based on CP% and g/kg DM) are estimated by using the CP degradation parameters as EPD 2 , EPD 5 and EPD 8 assuming rumen outflow rates of 2, 5 and 8 % h -1 , respectively. In conclusion, the DIP 3x values of MS n , AH m and GH m were 75.06, 63.19 and 56.36 % of CP, respectively. In a different order, the EPD 8 values of AH m , MS n and GH m were found 61.16, 55.88 and 33.75 % CP, respectively. AH m had the highest ruminal protein degradability (based on g/kg DM) compared to the other two forages both CNCPS and NBT. Both of the methods are much more suitable for AH m than MS n and GH m , because the differences between DIP 3x and EPD 8 values were found 3.3, 14.2 and 18.7g/kg DM for AH m , MS n and GH m , respectively. Citation: Acar MC. Determination of ruminal protein degradation of three forages using in vitro protein fractions and in situ protein degradability characteristics. J Dairy Vet Anim Res. 2018;7(4):154-159. Citation: Acar MC. Determination of ruminal protein degradation of three forages using in vitro protein fractions and in situ protein degradability characteristics. J Dairy Vet Anim Res. 2018;7(4):154-159. Citation: Acar MC. Determination of ruminal protein degradation of three forages u...

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Characterization of proteins in feeds according to the CNCPS and comparison to in situ parameters

Cited by 25 publications

References 16 publications

In situ and in vitro evaluation of crude protein degradation and utilisable crude protein content of barley, rye and triticale grains for ruminants

In situ and in vitro evaluation of crude protein degradation and utilisable crude protein content of barley, rye and triticale grains for ruminants

Evaluation of ruminal crude protein degradation of common feeds used in temperate climates

Determination of ruminal protein degradation of three forages using in vitro protein fractions and in situprotein degradability characteristics

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