Inbreeding and pedigree analysis of the European red dairy cattle

Department of Veterinary and Animal Sciences

Inbreeding and pedigree analysis of the European red dairy cattle

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Inbreeding and pedigree analysis of the European red dairy cattle. / Nyman, Sofia; Johansson, Anna M.; Palucci, Valentina; Schönherz, Anna A.; Guldbrandtsen, Bernt; Hinrichs, Dirk; de Koning, Dirk Jan.

In: Genetics Selection Evolution, Vol. 54, 70, 2022.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Nyman, S, Johansson, AM, Palucci, V, Schönherz, AA, Guldbrandtsen, B, Hinrichs, D & de Koning, DJ 2022, 'Inbreeding and pedigree analysis of the European red dairy cattle', Genetics Selection Evolution, vol. 54, 70. https://doi.org/10.1186/s12711-022-00761-3

APA

Nyman, S., Johansson, A. M., Palucci, V., Schönherz, A. A., Guldbrandtsen, B., Hinrichs, D., & de Koning, D. J. (2022). Inbreeding and pedigree analysis of the European red dairy cattle. Genetics Selection Evolution, 54, [70]. https://doi.org/10.1186/s12711-022-00761-3

Vancouver

Nyman S, Johansson AM, Palucci V, Schönherz AA, Guldbrandtsen B, Hinrichs D et al. Inbreeding and pedigree analysis of the European red dairy cattle. Genetics Selection Evolution. 2022;54. 70. https://doi.org/10.1186/s12711-022-00761-3

Author

Nyman, Sofia ; Johansson, Anna M. ; Palucci, Valentina ; Schönherz, Anna A. ; Guldbrandtsen, Bernt ; Hinrichs, Dirk ; de Koning, Dirk Jan. / Inbreeding and pedigree analysis of the European red dairy cattle. In: Genetics Selection Evolution. 2022 ; Vol. 54.

Bibtex

@article{40715017230e49f5b15795430d854a0f,

title = "Inbreeding and pedigree analysis of the European red dairy cattle",

abstract = "Background: Red dairy cattle breeds have an important role in the European dairy sector because of their functional characteristics and good health. Extensive pedigree information is available for these breeds and provides a unique opportunity to examine their population structure, such as effective population size, depth of the pedigree, and effective number of founders and ancestors, and inbreeding levels. Animals with the highest genetic contributions were identified. Pedigree data included 9,073,403 animals that were born between 1900 and 2019 from Denmark, Finland, Germany, Latvia, Lithuania, the Netherlands, Norway, Poland, and Sweden, and covered 32 breeds. The numerically largest breeds were Red Dairy Cattle and Meuse-Rhine-Yssel. Results: The deepest average complete generation equivalent (9.39) was found for Red Dairy Cattle in 2017. Mean pedigree completeness ranged from 0.6 for Finncattle to 7.51 for Red Dairy Cattle. An effective population size of 166 animals was estimated for the total pedigree and ranged from 35 (Rotes H{\"o}henvieh) to 226 (Red Dairy Cattle). Average generation intervals were between 5 and 7 years. The mean inbreeding coefficient for animals born between 1960 and 2018 was 1.5%, with the highest inbreeding coefficients observed for Traditional Angler (4.2%) and Rotes H{\"o}henvieh (4.1%). The most influential animal was a Dutch Meuse-Rhine-Yssel bull born in 1960. The mean inbreeding level for animals born between 2016 and 2018 was 2% and highest for the Meuse-Rhine-Yssel (4.64%) and Rotes Hohenvieh breeds (3.80%). Conclusions: We provide the first detailed analysis of the genetic diversity and inbreeding levels of the European red dairy cattle breeds. Rotes H{\"o}henvieh and Traditional Angler have high inbreeding levels and are either close to or below the minimal recommended effective population size, thus it is necessary to implement tools to monitor the selection process in order to control inbreeding in these breeds. Red Dairy Cattle, Vorderw{\"a}lder, Swedish Polled and Hinterw{\"a}lder hold more genetic diversity. Regarding the Meuse-Rhine-Yssel breed, given its decreased population size, increased inbreeding and low effective population size, we recommend implementation of a breeding program to prevent further loss in its genetic diversity.",

author = "Sofia Nyman and Johansson, {Anna M.} and Valentina Palucci and Sch{\"o}nherz, {Anna A.} and Bernt Guldbrandtsen and Dirk Hinrichs and {de Koning}, {Dirk Jan}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

doi = "10.1186/s12711-022-00761-3",

language = "English",

volume = "54",

journal = "Genetics Selection Evolution",

issn = "0999-193X",

publisher = "BioMed Central Ltd.",

}

RIS

TY - JOUR

T1 - Inbreeding and pedigree analysis of the European red dairy cattle

AU - Nyman, Sofia

AU - Johansson, Anna M.

AU - Palucci, Valentina

AU - Schönherz, Anna A.

AU - Guldbrandtsen, Bernt

AU - Hinrichs, Dirk

AU - de Koning, Dirk Jan

PY - 2022

Y1 - 2022

N2 - Background: Red dairy cattle breeds have an important role in the European dairy sector because of their functional characteristics and good health. Extensive pedigree information is available for these breeds and provides a unique opportunity to examine their population structure, such as effective population size, depth of the pedigree, and effective number of founders and ancestors, and inbreeding levels. Animals with the highest genetic contributions were identified. Pedigree data included 9,073,403 animals that were born between 1900 and 2019 from Denmark, Finland, Germany, Latvia, Lithuania, the Netherlands, Norway, Poland, and Sweden, and covered 32 breeds. The numerically largest breeds were Red Dairy Cattle and Meuse-Rhine-Yssel. Results: The deepest average complete generation equivalent (9.39) was found for Red Dairy Cattle in 2017. Mean pedigree completeness ranged from 0.6 for Finncattle to 7.51 for Red Dairy Cattle. An effective population size of 166 animals was estimated for the total pedigree and ranged from 35 (Rotes Höhenvieh) to 226 (Red Dairy Cattle). Average generation intervals were between 5 and 7 years. The mean inbreeding coefficient for animals born between 1960 and 2018 was 1.5%, with the highest inbreeding coefficients observed for Traditional Angler (4.2%) and Rotes Höhenvieh (4.1%). The most influential animal was a Dutch Meuse-Rhine-Yssel bull born in 1960. The mean inbreeding level for animals born between 2016 and 2018 was 2% and highest for the Meuse-Rhine-Yssel (4.64%) and Rotes Hohenvieh breeds (3.80%). Conclusions: We provide the first detailed analysis of the genetic diversity and inbreeding levels of the European red dairy cattle breeds. Rotes Höhenvieh and Traditional Angler have high inbreeding levels and are either close to or below the minimal recommended effective population size, thus it is necessary to implement tools to monitor the selection process in order to control inbreeding in these breeds. Red Dairy Cattle, Vorderwälder, Swedish Polled and Hinterwälder hold more genetic diversity. Regarding the Meuse-Rhine-Yssel breed, given its decreased population size, increased inbreeding and low effective population size, we recommend implementation of a breeding program to prevent further loss in its genetic diversity.

AB - Background: Red dairy cattle breeds have an important role in the European dairy sector because of their functional characteristics and good health. Extensive pedigree information is available for these breeds and provides a unique opportunity to examine their population structure, such as effective population size, depth of the pedigree, and effective number of founders and ancestors, and inbreeding levels. Animals with the highest genetic contributions were identified. Pedigree data included 9,073,403 animals that were born between 1900 and 2019 from Denmark, Finland, Germany, Latvia, Lithuania, the Netherlands, Norway, Poland, and Sweden, and covered 32 breeds. The numerically largest breeds were Red Dairy Cattle and Meuse-Rhine-Yssel. Results: The deepest average complete generation equivalent (9.39) was found for Red Dairy Cattle in 2017. Mean pedigree completeness ranged from 0.6 for Finncattle to 7.51 for Red Dairy Cattle. An effective population size of 166 animals was estimated for the total pedigree and ranged from 35 (Rotes Höhenvieh) to 226 (Red Dairy Cattle). Average generation intervals were between 5 and 7 years. The mean inbreeding coefficient for animals born between 1960 and 2018 was 1.5%, with the highest inbreeding coefficients observed for Traditional Angler (4.2%) and Rotes Höhenvieh (4.1%). The most influential animal was a Dutch Meuse-Rhine-Yssel bull born in 1960. The mean inbreeding level for animals born between 2016 and 2018 was 2% and highest for the Meuse-Rhine-Yssel (4.64%) and Rotes Hohenvieh breeds (3.80%). Conclusions: We provide the first detailed analysis of the genetic diversity and inbreeding levels of the European red dairy cattle breeds. Rotes Höhenvieh and Traditional Angler have high inbreeding levels and are either close to or below the minimal recommended effective population size, thus it is necessary to implement tools to monitor the selection process in order to control inbreeding in these breeds. Red Dairy Cattle, Vorderwälder, Swedish Polled and Hinterwälder hold more genetic diversity. Regarding the Meuse-Rhine-Yssel breed, given its decreased population size, increased inbreeding and low effective population size, we recommend implementation of a breeding program to prevent further loss in its genetic diversity.

U2 - 10.1186/s12711-022-00761-3

DO - 10.1186/s12711-022-00761-3

M3 - Journal article

C2 - 36274137

AN - SCOPUS:85140347185

VL - 54

JO - Genetics Selection Evolution

JF - Genetics Selection Evolution

SN - 0999-193X

M1 - 70

ER -

ID: 324317093