Riitta Kempe scite author profile

The genetic parameters were estimated for milk coagulation properties and milk production traits, and the prevalence of noncoagulating milk in the Finnish dairy cattle population was investigated. Data were included for 789 Finnish Ayrshire cows and 86 Finnish Friesian cows from 51 herds. The animal model used for estimation included fixed effects for parity, stage of lactation, breed, and herd. Further, effects of milk protein genotypes on phenotypic and genetic variation in the studied traits were examined. Heritability estimates for the milk coagulation properties were moderately high. The kappa-casein B allele was associated with the best phenotypic and genetic values for curd firmness, and the A and E alleles were associated with the poorest. About 24% of the additive genetic variation in the curd firmness was due to milk protein polymorphism. About 8% of the Finnish Ayrshire cows in the present study produced noncoagulating milk. Because of the occurrence of the noncoagulating milk and a possibly unfavorable genetic trend in the milk coagulation properties, it would be important to improve these traits in the Finnish Ayrshire breed. Milk coagulation properties could be improved directly by selecting for these traits or indirectly by favoring the kappa-casein B allele or by selecting against genetic markers associated with poorly coagulating or noncoagulating milk.

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The genetics of body condition and leg weakness in the blue fox (Alopex lagopus)

Kempe

Koskinen

Mäntysaari

et al. 2010

Acta Agriculturae Scandinavica, Section A - Animal Science

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In recent years, the size and fatness of blue foxes have increased because the length of the pelt is an important factor affecting its price. However, extreme fatness poses a risk to the animal's welfare and increased body weight (BW) has been suspected as a predisposing factor for leg weakness (LEG). The main purpose of this study was to estimate the genetic parameters of body condition score (BCS), LEG and ability to move (MOVE) in the blue fox. Heritabilities for BCS, LEG and MOVE were found to be moderate: 0.30, 0.25 and 0.22, respectively. Fast growth rate, high body weight, large gSI and fatness were unfavourably connected to LEG and impaired MOVE in the cage in less than six-month-old blue foxes. The results indicate that genetic improvement through selection may reduce fatness and LEG in the blue fox and improve its MOVE.

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Body condition scoring method for the blue fox (Alopex lagopus)

Kempe

Koskinen

Peura

et al. 2009

Acta Agriculturae Scandinavica, Section A - Animal Science

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Genetic parameters of pelt character, feed efficiency and size traits in Finnish blue fox (Vulpes lagopus)

Kempe

Koskinen

Strandén

2013

J Animal Breeding Genetics

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Pelt character traits (size, quality, colour clarity, darkness) are important economic traits in blue fox breeding. Better feed efficiency (FE) is another economically important and new breeding goal for fur animals. The purpose of this study was to determine the correlations between pelt character traits, FE and size traits and to estimate genetic parameters for pelt character traits. Pelt size (pSIcm ) had a high positive genetic correlation with animal grading size (gSI), final body weight (BWFin), body length and daily gain (DG), and a moderate correlation with body condition score (BCS). Animal body length and BCS (describing fatness) were considered as genetically different traits. Genetic correlations between pelt quality and size traits were estimated without precision and did not differ from zero, but colour clarity (pCL) had a low antagonistic genetic correlation with FE. Pelt size and DG had a favourable genetic correlation with FE but a fairly high unfavourable genetic correlation with dry matter feed intake. The current emphasis on selection for larger animal and pelt size improves FE indirectly, but selection for larger pelt size favours fast-growing and fat individuals and simultaneously increases feed intake. The detected genetic connections between FE, size, feed intake and pCL should be taken into account in the Finnish blue fox breeding programme.

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Effect of linseed cake supplementation on digestibility and faecal and haematological parameters in dogs

Kempe

Saastamoinen

2007

Animal Physiology Nutrition

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The experiment was conducted with a 6 x 4 cyclic changeover design. Six adult Alaskan huskies were assigned to diets containing 0%, 2%, 4%, 6% and 8% linseed cake. A linear decrease in the apparent digestibilities of organic matter (OM) (p < 0.020), ether extract (EE) (p < 0.003), neutral detergent fibre (p < 0.015), nitrogen-free extract (NFE) (p < 0.001) and crude carbohydrates (p < 0.001) was noted. Digestibilities of dry matter (DM) and crude protein (CP) were unaffected by the treatment. Wet weight of faeces increased (p < 0.001) and DM of faeces decreased (p < 0.001) linearly as the percentage of dietary linseed cake increased. Serum cholesterol concentration tended to decrease (p = 0.094) as the proportion of linseed cake increased. Apparent OM, EE, CP and NFE digestibility coefficients for linseed cake were 52%, 77%, 54% and 37%, respectively, and the digestible energy (DE) value was 13.22 MJ/kg DM. Our results showed that working and racing dogs fed the extruded and kibbled diet can utilize up to 4.2% linseed cake of diet DM as a fibre source without severe reductions in nutrient digestibility or feed consumption. Even higher levels of linseed cake, up to 8.5% of diet DM, can be used for normal or obese dogs, but more faeces will be excreted.

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Riitta Kempe

Genetic Parameters for the Milk Coagulation Properties and Prevalence of Noncoagulating Milk in Finnish Dairy Cows

The genetics of body condition and leg weakness in the blue fox (Alopex lagopus)

Body condition scoring method for the blue fox (Alopex lagopus)

Genetic parameters of pelt character, feed efficiency and size traits in Finnish blue fox (Vulpes lagopus)

Effect of linseed cake supplementation on digestibility and faecal and haematological parameters in dogs

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