AT_P_79 | LY | Presence of lesioning and yellowing. | binary | 95 |
AT_P_17 | Mg25 | Magnesium 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_22 | Mn55 | Manganese 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_63 | MT GH | Number of days between last flower senescence and complete plant senescence | continuous | 147 |
AT_P_16 | Na23 | Sodium 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_13 | Noco2 | All interactions were scored specifically on first true leaves as compatible, incompatible or intermediate depending on the consistency of presence / absence of sporangiophores determined on 5-10 seedlings of each genotype with three independent replications | binary | 87 |
AT_P_18 | P31 | Phosphorus 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_179 | Rosette Erect 22 | (22°C was the only temperature at which this phenotype was frequently observed). Results were expressed as binary data, determined by the central rosette being erect (1) or not (0) in all 4 plants / accession phenotyped at 5 weeks post germination | categorical | 176 |
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_19 | S34 | Sulfur 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_3 | SD | Number of days following stratification to opening of first flower. The experiment was stopped at 200 d, and accessions that had not flowered at that point were assigned a value of 200 | continuous | 162 |
AT_P_4 | SDV | Number of days following stratification to opening of first flower. The experiment was stopped at 200 d, and accessions that had not flowered at that point were assigned a value of 200 | continuous | 159 |
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_277 | Secondary Dormancy | Secondary dormancy was given by the slope between the germination percentages of non-dormant seeds after one and six weeks of cold treatment. Viability of non germinating seeds after cold treatment was confirmed as described in Cadman et al., 2006 | continuous | 93 |
AT_P_280 | Seed bank 133-91 | Genotypes consistently decreased their percentage of germination between 91 and 133 days of dry storage. The time point for this sudden reduction in germination rate was scored by the slope between germination percentages at these two time points | continuous | 110 |
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 |
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_158 | Silique 16 | The length of 5 siliques was measured for each accession after growth had concluded | categorical | 95 |
AT_P_159 | Silique 22 | The length of 5 siliques was measured for each accession after growth had concluded | categorical | 95 |
AT_P_282 | Storage 28 days | Primary dormancy was measured as the progressive increase of germination rate measured after 28 days of dry storage | continuous | 110 |
AT_P_283 | Storage 56 days | Primary dormancy was measured as the progressive increase of germination rate measured after 56 days of dry storage | continuous | 110 |
AT_P_281 | Storage 7 days | Primary dormancy was measured as the progressive increase of germination rate measured after 7 days of dry storage | continuous | 110 |
AT_P_183 | Trichome avg C | Measurements were collected from leaf disks removed from the 11th leaf of plants that had been treated with 0.6ml of a water control (C). Trichome density was calculated as the trichome number per disk divided by the disk area | continuous | 94 |