Dario Fe
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Explore the profile of Dario Fe including associated specialties, affiliations and a list of published articles.
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9
Citations
115
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Recent Articles
1.
Kristensen P, Sarup P, Fe D, Orabi J, Snell P, Ripa L, et al.
Front Plant Sci
. 2024 Jan;
14:1193433.
PMID: 38162304
Genomic models for prediction of additive and non-additive effects within and across different heterotic groups are lacking for breeding of hybrid crops. In this study, genomic prediction models accounting for...
2.
Bornhofen E, Fe D, Nagy I, Lenk I, Greve M, Didion T, et al.
BMC Genomics
. 2023 Apr;
24(1):213.
PMID: 37095447
Background: Understanding the mechanisms underlining forage production and its biomass nutritive quality at the omics level is crucial for boosting the output of high-quality dry matter per unit of land....
3.
Bornhofen E, Fe D, Lenk I, Greve M, Didion T, Jensen C, et al.
Plant Genome
. 2022 Oct;
15(4):e20255.
PMID: 36193572
Joint modeling of correlated multienvironment and multiharvest data of perennial crop species may offer advantages in prediction schemes and a better understanding of the underlying dynamics in space and time....
4.
Esfandyari H, Fe D, Tessema B, Janss L, Jensen J
G3 (Bethesda)
. 2020 Aug;
10(10):3783-3795.
PMID: 32819970
Genomic selection (GS) is a potential pathway to accelerate genetic gain for perennial ryegrass ( L.). The main objectives of the present study were to investigate the level of genetic...
5.
Genomic Prediction in Tetraploid Ryegrass Using Allele Frequencies Based on Genotyping by Sequencing
Guo X, Cericola F, Fe D, Pedersen M, Lenk I, Jensen C, et al.
Front Plant Sci
. 2018 Aug;
9:1165.
PMID: 30158944
Perennial ryegrass is an outbreeding forage species and is one of the most widely used forage grasses in temperate regions. The aim of this study was to investigate the possibility...
6.
Cericola F, Lenk I, Fe D, Byrne S, Jensen C, Pedersen M, et al.
Front Plant Sci
. 2018 Apr;
9:369.
PMID: 29619038
Ryegrass single plants, bi-parental family pools, and multi-parental family pools are often genotyped, based on allele-frequencies using genotyping-by-sequencing (GBS) assays. GBS assays can be performed at low-coverage depth to reduce...
7.
Fe D, Ashraf B, Pedersen M, Janss L, Byrne S, Roulund N, et al.
Plant Genome
. 2016 Dec;
9(3).
PMID: 27902790
The implementation of genomic selection (GS) in plant breeding, so far, has been mainly evaluated in crops farmed as homogeneous varieties, and the results have been generally positive. Fewer results...
8.
Fe D, Cericola F, Byrne S, Lenk I, Ashraf B, Pedersen M, et al.
BMC Genomics
. 2015 Nov;
16:921.
PMID: 26559662
Background: Genomic selection (GS) has become a commonly used technology in animal breeding. In crops, it is expected to significantly improve the genetic gains per unit of time. So far,...
9.
Ashraf B, Byrne S, Fe D, Czaban A, Asp T, Pedersen M, et al.
Theor Appl Genet
. 2015 Sep;
129(1):45-52.
PMID: 26407618
By using the genotyping-by-sequencing method, it is feasible to characterize genomic relationships directly at the level of family pools and to estimate genomic heritabilities from phenotypes scored on family-pools in...