Add to ORKGRealized performance of complex traits is dependent on both genetic and environmental factors, which can be difficult to dissect due to the requirement for multiple replications of many genotypes in diverse environmental conditions. To mediate these problems, we present a machine learning framework in soybean (Glycine max (L.) Merr.) to analyze historical performance records from Uniform Soybean Tests (UST) in North America, with an aim to dissect and predict genotype response in multiple envrionments leveraging pedigree and genomic relatedness measures along with weekly weather parameters. The ML framework of Long Short Term Memory - Recurrent Neural Networks works by isolating key weather events and genetic interactions which affect yield...
The identification and mobilization of useful genetic variation from germplasm banks for use in bree...
Genomic prediction provides an efficient alternative to conventional phenotypic selection for develo...
Identifying genetic loci associated with yield stability has helped plant breeders and geneticists b...
Accurate prediction of crop yield supported by scientific and domain-relevant insights, is useful to...
Precise crop yield prediction is essential for improving agricultural practices and ensuring crop re...
The rate of advancement made in phenomic-assisted breeding methodologies has lagged those of genomic...
The effects of climate change create formidable challenges for breeders striving to produce sufficie...
Crop yield is a highly complex trait determined by multiple factors such as genotype, environment, a...
Genetic improvement toward optimized and stable agronomic performance of soybean genotypes is desira...
abstract: This paper explores the ability to predict yields of soybeans based on genetics and enviro...
Phenomics is a new area that offers numerous opportunities for its applicability in plant breeding. ...
Improving genetic yield potential in major food grade crops such as soybean (Glycine max L.) is the ...
The availability of high-dimensional genomic data and advancements in genome-based prediction models...
Genotype-environment interaction has always been an important and challenging issue for plant breede...
The identification and mobilization of useful genetic variation from germplasm banks for use in bree...
Genomic prediction provides an efficient alternative to conventional phenotypic selection for develo...
Identifying genetic loci associated with yield stability has helped plant breeders and geneticists b...
Accurate prediction of crop yield supported by scientific and domain-relevant insights, is useful to...
Precise crop yield prediction is essential for improving agricultural practices and ensuring crop re...
The rate of advancement made in phenomic-assisted breeding methodologies has lagged those of genomic...
The effects of climate change create formidable challenges for breeders striving to produce sufficie...
Crop yield is a highly complex trait determined by multiple factors such as genotype, environment, a...
Genetic improvement toward optimized and stable agronomic performance of soybean genotypes is desira...
abstract: This paper explores the ability to predict yields of soybeans based on genetics and enviro...
Phenomics is a new area that offers numerous opportunities for its applicability in plant breeding. ...
Improving genetic yield potential in major food grade crops such as soybean (Glycine max L.) is the ...
The availability of high-dimensional genomic data and advancements in genome-based prediction models...
Genotype-environment interaction has always been an important and challenging issue for plant breede...
The identification and mobilization of useful genetic variation from germplasm banks for use in bree...
Genomic prediction provides an efficient alternative to conventional phenotypic selection for develo...
Identifying genetic loci associated with yield stability has helped plant breeders and geneticists b...