AT_P_23 | Fe56 | Iron concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_24 | Co59 | Cobalt concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_25 | Ni60 | Nickel concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_26 | Cu65 | Copper concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_27 | Zn66 | Zinc concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_28 | As75 | Arsenic concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_29 | Se82 | Selenium concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_30 | Mo98 | Molybdenum concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_31 | Cd114 | Cadmium concentrations in leaves, grown in soil. Elemental analysis was performed with an ICP-MS (PerkinElmer). Sample normalized to calculated weights as described in Baxter et al., 2008 | continuous | 93 |
AT_P_8 | Seed Dormancy | Number of days of seed dry storage required to reach 50% germination, or DSDS50 value (Alonso-Blanco et al., 2003). The measurement for each genotype was calculated as the average value across all available replicates | continuous | 83 |
AT_P_58 | FT Diameter Field | Longest diameter of the plant measured on the day the first flower was observed | continuous | 180 |
AT_P_60 | FT Duration GH | Number of days between appearance of the first flower and the senescence of the last flower | continuous | 147 |
AT_P_61 | LC Duration GH | Number of days between germination and plant complete senescence | continuous | 147 |
AT_P_62 | LFS GH | Number of days between germination and senescence of the last flower | continuous | 148 |
AT_P_63 | MT GH | Number of days between last flower senescence and complete plant senescence | continuous | 147 |
AT_P_64 | RP GH | Reproduction period: number of days between the appearance of the first flower and the plant complete senescence | continuous | 147 |
AT_P_75 | FW | Lesioning measured by fresh weight | continuous | 95 |
AT_P_76 | DW | Lesioning measured by dry weight | continuous | 95 |
AT_P_164 | Width 10 | The diameters of 4 plants of each accession were measured and the results were expressed as an average value across all available replicates.Plants were scored 8 weeks post germination | continuous | 176 |
AT_P_165 | Width 16 | The diameters of 4 plants of each accession were measured and the results were expressed as an average value across all available replicates.Plants were scored 5 weeks post germination | continuous | 175 |
AT_P_166 | Width 22 | The diameters of 4 plants of each accession were measured and the results were expressed as an average value across all available replicates.Plants were scored 5 weeks post germination | continuous | 175 |
AT_P_182 | Hypocotyl length | After seven days growth under the photocycle and thermocycle treatment,plants were flattened directly on the agar and imaged on a flatbed scanner. Hypocotyl lengths were determined using NIH Image | continuous | 89 |
AT1P106 | Seedling Growth | Seedling growth rate was given by leaf area divided by the number of days of growth since sowing ( in cm2/day) | continuous | 100 |
AT_P_273 | Vern Growth | Vegetative growth rate during vernalization was estimated as the increment of cm2 leaf area per day between each of the three time points for which leaf area was measured | continuous | 110 |
AT_P_274 | After Vern Growth | Vegetative growth rate after vernalization was estimated as the increment of cm2 leaf area per day between each of the three time points for which leaf area was measured | continuous | 110 |