Keywords: اثر متقابل ژنوتیپ-توسط محیط; ACRI; Australian Cotton Research Institute; Avg.; average; CSIRO; Commonwealth Scientific and Industrial Research Organisation; CV; coefficient of variation; ETO; grass reference crop evapotranspiration; DAS; days after sowing; GxE; genotype-by-environmen
مقالات ISI اثر متقابل ژنوتیپ-توسط محیط (ترجمه نشده)
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Keywords: اثر متقابل ژنوتیپ-توسط محیط; Coadaptaton; Food choice; Genotype-by-environment interaction; Sex differences; Spontaneous physical activity; Wheel running;
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Turbot; Harvest weight; Body length; Condition factor; Heritability; Genotype-by-environment interaction;
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Exercise; Experimental evolution; Fatigue; Genotype-by-environment interaction; Serotonin; Wheel running
Keywords: اثر متقابل ژنوتیپ-توسط محیط; AMMI; Performance consistency; Prunus persica; Relative yield; Genotype-by-environment interaction
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Winter wheat; Genotype-by-environment interaction; Crop management; Bread-making traitsBS, baking score; CH, crumb hardness; CV, coefficient of variability; DD, dough development; DS, dough stability; DSF, dough softening; E, environment; FA, flour ash co
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Early-life factors; Exercise; Food consumption; Genotype-by-environment interaction; Selection experiment; Spontaneous physical activity; Wheel running;
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Viscosity; Genotype-by-environment interaction; Variety; Temperature; Triticale; Poultry nutrition;
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Exercise; Genotype-by-environment interaction; Maternal diet; Selection experiment; Spontaneous physical activity; Wheel running;
Whole-genome prediction of reaction norms to environmental stress in bread wheat (Triticum aestivum L.) by genomic random regression
Keywords: اثر متقابل ژنوتیپ-توسط محیط; gBLUP; best linear unbiased predictor; FR-gBLUP; factorial regression best linear unbiased predictor; GâÃâE; genotype-by-environment; Sum of Pâ+âI-ETPâ<â0; sum of negative hydric balance modeled by the difference between rainfall and potentia
Ecotypic variation and stability in growth performance of the thermophilic conifer Pinus halepensis across the Mediterranean basin
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Adaptive responses; Aleppo pine; Genotype-by-environment interaction; Phenotypic plasticity; Mixed models; Stability analysis;
Azodyn-Barley, a winter-barley crop model for predicting and ranking genotypic yield, grain protein and grain size in contrasting pedoclimatic conditions
Keywords: اثر متقابل ژنوتیپ-توسط محیط; HI; high-input management; LNP; low-nitrogen and pesticides management; RMSEP; root mean square error of prediction; RRMSEP; Relative root mean square error of prediction; Hordeum vulgare L.; Grain protein content; Grain retention fraction; Parameter esti
Selection strategies for controlling muscle lipid content recorded with a non-destructive method in European whitefish, Coregonus lavaretus
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Accuracy; Flesh lipid; Genotype-by-environment interaction; Selective breeding; Whitefish;
Genome-wide association study of grain yield and related traits using a collection of advanced indica rice breeding lines for irrigated ecosystems
Keywords: اثر متقابل ژنوتیپ-توسط محیط; AM; association mapping; DTF; days to flowering; GN; grain number per panicle; GBS; genotyping-by-sequencing; GEI; genotype-by-environment interaction; GLM; general liner model; GS; genomic selection; GWAS; genome-wide association studies; GY; grain yield
Simulation of the effects of genotype and N availability on rice growth and yield response to an elevated atmospheric CO2 concentration
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Crop model; Genotype-by-environment interaction; CO2 effect; Rice;
Genotypic variation for grain and stover yield of dryland (rabi) sorghum in India 2. A characterisation of genotype × environment interactions
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Sorghum; Genotype-by-environment interaction; GEI; Drought; Pattern analysis; Stability; Biplot
Genotypic variation for grain and stover yield of dryland (rabi) sorghum in India: 1. Magnitude of genotype Ã environment interactions
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Sorghum; Genotype-by-environment interaction; GEI; Drought; Variance components; Stability; Biplot;
A model for simulating plant N accumulation, growth and yield of diverse rice genotypes grown under different soil and climatic conditions
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Crop model; Genotype-by-environment interaction; Plant N uptake; Rice
Morpho-physiological traits associated with maize crop adaptations to environments differing in nitrogen availability
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Zea mays L.; Maize; Nitrogen availability; Genotype-by-environment interaction; Morpho-physiological traits
A process model for explaining genotypic and environmental variation in growth and yield of rice based on measured plant N accumulation
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Crop model; Genotype-by-environment interaction; Sink–source balance; Nitrogen use efficiency
The role of the environment in the evolutionary ecology of host parasite interactions
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Phenotypic plasticity; Coevolution; Environmental heterogeneity; Genotype-by-genotype interaction; Genotype-by-environment interaction; Genotype-by-genotype-by-environment interaction; Extended phenotype;
Environment-dependent genetic correlations between development time and body mass in a scorpionfly
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Panorpa cognata; Food availability; Life history evolution; Genotype-by-environment interaction; Reaction norms
Genetic potential for simultaneous selection of growth and body composition in rainbow trout (Oncorhynchus mykiss) depends on the dietary protein and lipid content: Phenotypic and genetic correlations on two diets
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Fat deposition; Genotype-by-environment interaction; Proximate analysis; Quantitative genetics; Salmonids; Selective breeding
Improving drought tolerance in rainfed lowland rice: An example from Thailand
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Rainfed lowland rice; Drought tolerance; Genotype-by-environment interaction; Breeding; Marker assisted selection; Farmer participation
Associations Among Descriptors of Herd Management and Phenotypic and Genetic Levels of Health and Fertility
Keywords: اثر متقابل ژنوتیپ-توسط محیط; health and fertility traits; genotype-by-environment interaction; environmental sensitivity; reaction norm model; CIV; calving interval; DFS; days to first service; DFLS; days first to last service; DLS; days to last service; EP; environmental parameter;
Trade off between yield increase and yield stability in three decades of barley breeding in a tropical highland environment
Keywords: اثر متقابل ژنوتیپ-توسط محیط; Barley; Genotype-by-environment interaction; Moisture stress;