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_169 | Chlorosis 22 | Results expressed as binary data, determined by the presence (1) or absence (0) of chlorosis in all 4 plants / accession after 5wks of growth | binary | 176 |
AT_P_168 | Chlorosis 16 | Results expressed as binary data, determined by the presence (1) or absence (0) of chlorosis in all 4 plants / accession after 5wks of growth | binary | 176 |
AT_P_167 | Chlorosis 10 | Results expressed as binary data, determined by the presence (1) or absence (0) of chlorosis in all 4 plants / accession after 8wks of growth | binary | 177 |
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_21 | Ca43 | Calcium 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_70 | Bs CFU2 | In planta bacterial growth (number of CFU / leaf area) of the P. viridiflava strain was individually measured as described in Goss and Bergelson 2006 | continuous | 175 |
AT_P_69 | Bs | Four days after inoculation, leaves were scored by eye for disease symptom using a scale from 0 (no visible symptom) to 10 (leaves collapse and turn yellow), with an increment of 1. | continuous | 175 |
AT_P_186 | Bacterial titer | Following inoculation into leaf tissues, the titers of bacteria were measured at 0 and 4 days. Bacterial titres were measured from hole-punched leaf disks ground in 200μL of 10 mM MgSO4. Measurements were expressed as colony forming units per unit area and replicated in triplicate. | continuous | 95 |
AT_P_15 | B11 | Boron 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_72 | At2 CFU2 | In planta bacterial growth (number of CFU / leaf area) of the P. viridiflava strain was individually measured as described in Goss and Bergelson 2006 | continuous | 175 |
AT_P_71 | At2 | Four days after inoculation, leaves were scored by eye for disease symptom using a scale from 0 (no visible symptom) to 10 (leaves collapse and turn yellow), with an increment of 1. | continuous | 175 |
AT_P_66 | At1 CFU2 | In planta bacterial growth (number of CFU / leaf area) of the P. viridiflava strain was individually measured as described in Goss and Bergelson 2006 | continuous | 175 |
AT_P_65 | At1 | Four days after inoculation, leaves were scored by eye for disease symptom using a scale from 0 (no visible symptom) to 10 (leaves collapse and turn yellow), with an increment of 1. | continuous | 175 |
AT_P_68 | As CFU2 | In planta bacterial growth (number of CFU / leaf area) of the P. viridiflava strain was individually measured as described in Goss and Bergelson 2006 | continuous | 175 |
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_74 | As2 CFU2 | In planta bacterial growth (number of CFU / leaf area) of the P. viridiflava strain was individually measured as described in Goss and Bergelson 2006 | continuous | 175 |
AT_P_73 | As2 | Four days after inoculation, leaves were scored by eye for disease symptom using a scale from 0 (no visible symptom) to 10 (leaves collapse and turn yellow), with an increment of 1. | continuous | 175 |
AT_P_67 | As | Four days after inoculation, leaves were scored by eye for disease symptom using a scale from 0 (no visible symptom) to 10 (leaves collapse and turn yellow), with an increment of 1. | continuous | 175 |
AT_P_185 | Aphid number | On day 25 of growth,two alate females of the common peach aphid, Myzus persicae,were placed on each of four plants of each of the 96 genotypes. Nine days later, the number of offspring produced by these aphids on each plant was recorded. | continuous | 94 |
AT_P_172 | Anthocyanin 22 | Results expressed as binary data, determined by the presence (1) or absence (0) of anthocyanin in all 4 plants / accession after 5wks of growth | binary | 177 |
AT_P_171 | Anthocyanin 16 | Results expressed as binary data, determined by the presence (1) or absence (0) of anthocyanin in all 4 plants / accession after 5wks of growth | binary | 176 |
AT_P_170 | Anthocyanin 10 | Results expressed as binary data, determined by the presence (1) or absence (0) of anthocyanin in all 4 plants / accession after 8wks of growth | binary | 177 |
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 |
AT_P_46 | 8W GH LN | Leaf number was scored as the number of rosette leaves and the number of cauline leaves when the bolt reached 5cm | continuous | 163 |