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Dynamical climatic model for time to flowering in Vigna radiata
by
Kozlov, Konstantin
, Nuzhdin, Sergey
, Lee, Cheng-Ruei
, Bishop-von Wettberg, Eric
, Samsonova, Maria
, Sokolkova, Alena
, Ting, Chau-Ti
, Schafleitner, Roland
in
Adaptation
/ Adaptation, Physiological
/ Agricultural production
/ Agriculture
/ Analysis
/ Beans
/ Biomedical and Life Sciences
/ Climate
/ climate models
/ Climatic factors
/ Crops
/ Dynamic control
/ Environmental factors
/ Flowering
/ Flowers - growth & development
/ Genomes
/ Genotype
/ Genotype & phenotype
/ Genotypes
/ GWAS
/ Legumes
/ Life Sciences
/ Mathematical models
/ Models, Biological
/ mung beans
/ Mungbean
/ Phenology
/ photoperiod
/ Plant Sciences
/ provenance
/ Radiation (Physics)
/ Solar radiation
/ Taiwan
/ temperature
/ Time Factors
/ Tree Biology
/ Vigna
/ Vigna - genetics
/ Vigna - growth & development
/ Vigna radiata
2020
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Dynamical climatic model for time to flowering in Vigna radiata
by
Kozlov, Konstantin
, Nuzhdin, Sergey
, Lee, Cheng-Ruei
, Bishop-von Wettberg, Eric
, Samsonova, Maria
, Sokolkova, Alena
, Ting, Chau-Ti
, Schafleitner, Roland
in
Adaptation
/ Adaptation, Physiological
/ Agricultural production
/ Agriculture
/ Analysis
/ Beans
/ Biomedical and Life Sciences
/ Climate
/ climate models
/ Climatic factors
/ Crops
/ Dynamic control
/ Environmental factors
/ Flowering
/ Flowers - growth & development
/ Genomes
/ Genotype
/ Genotype & phenotype
/ Genotypes
/ GWAS
/ Legumes
/ Life Sciences
/ Mathematical models
/ Models, Biological
/ mung beans
/ Mungbean
/ Phenology
/ photoperiod
/ Plant Sciences
/ provenance
/ Radiation (Physics)
/ Solar radiation
/ Taiwan
/ temperature
/ Time Factors
/ Tree Biology
/ Vigna
/ Vigna - genetics
/ Vigna - growth & development
/ Vigna radiata
2020
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Dynamical climatic model for time to flowering in Vigna radiata
by
Kozlov, Konstantin
, Nuzhdin, Sergey
, Lee, Cheng-Ruei
, Bishop-von Wettberg, Eric
, Samsonova, Maria
, Sokolkova, Alena
, Ting, Chau-Ti
, Schafleitner, Roland
in
Adaptation
/ Adaptation, Physiological
/ Agricultural production
/ Agriculture
/ Analysis
/ Beans
/ Biomedical and Life Sciences
/ Climate
/ climate models
/ Climatic factors
/ Crops
/ Dynamic control
/ Environmental factors
/ Flowering
/ Flowers - growth & development
/ Genomes
/ Genotype
/ Genotype & phenotype
/ Genotypes
/ GWAS
/ Legumes
/ Life Sciences
/ Mathematical models
/ Models, Biological
/ mung beans
/ Mungbean
/ Phenology
/ photoperiod
/ Plant Sciences
/ provenance
/ Radiation (Physics)
/ Solar radiation
/ Taiwan
/ temperature
/ Time Factors
/ Tree Biology
/ Vigna
/ Vigna - genetics
/ Vigna - growth & development
/ Vigna radiata
2020
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Dynamical climatic model for time to flowering in Vigna radiata
Journal Article
Dynamical climatic model for time to flowering in Vigna radiata
2020
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Overview
Background
Phenology data collected recently for about 300 accessions of
Vigna radiata
(mungbean) is an invaluable resource for investigation of impacts of climatic factors on plant development.
Results
We developed a new mathematical model that describes the dynamic control of time to flowering by daily values of maximal and minimal temperature, precipitation, day length and solar radiation. We obtained model parameters by adaptation to the available experimental data. The models were validated by cross-validation and used to demonstrate that the phenology of adaptive traits, like flowering time, is strongly predicted not only by local environmental factors but also by plant geographic origin and genotype.
Conclusions
Of local environmental factors maximal temperature appeared to be the most critical factor determining how faithfully the model describes the data. The models were applied to forecast time to flowering of accessions grown in Taiwan in future years 2020-2030.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Analysis
/ Beans
/ Biomedical and Life Sciences
/ Climate
/ Crops
/ Flowers - growth & development
/ Genomes
/ Genotype
/ GWAS
/ Legumes
/ Mungbean
/ Taiwan
/ Vigna
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