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_14 | Li7 | Lithium 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_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_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_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_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_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_20 | K39 | Potassium 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_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_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_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_278 | Germ in dark | The ability to germinate in the dark at 4°C was measured as the percentage of non dormant seeds that can germinate during 1-week long cold exposure, in the absence of light | continuous | 93 |
AT_P_32 | avrPphB | Following inoculation of two leaves per plant with 0.1 ml of 10 -8 cfu/ml bacteria in 10 mM MgSO4 buffer using a blunt-tipped syringe, leaf collapse was scored at 20 hrs and again at 24 hrs after inoculation. A positive score at either time point was deemed a hypersensitive response | binary | 90 |
AT_P_34 | avrRpt2 | Following inoculation of two leaves per plant with 0.1 ml of 10 -8 cfu/ml bacteria in 10 mM MgSO4 buffer using a blunt-tipped syringe, leaf collapse was scored at 20 hrs and again at 24 hrs after inoculation. A positive score at either time point was deemed a hypersensitive response | binary | 89 |
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 |
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 |