Table 1 List of selected works describing automated high-throughput analysis to study plant stress responses
Study | Plant species | Type of stress | Type of the study | Type of automated analysis | Platform name/origin |
|---|---|---|---|---|---|
Granier et al. 2006; [58] | Arabidopsis | drought-stress | methodology | RGB (top view) | PHENOPSIS |
Skirycz et al. 2011; [59] | Arabidopsis | drought-stress | applied | RGB (top view) | WIWAM |
Clauw et al. 2015; [60] | Arabidopsis | drought-stress | applied | RGB (top view) | WIWAM |
Tisné et al. 2013; [61] | Arabidopsis | drought-stress | applied | RGB (top view) | PHENOSCOPE |
Neumann et al. 2015; [26] | barley | drought-stress | methodology | RGB (multiple views) | LemnaTec |
Pereyra-Irujo et al. 2012; [62] | soybean | drought-stress | methodology | RGB (two-views) | GlyPh (self-construction) |
Honsdorf et al. 2014; [16] | barley, (wild species) | drought-stress | applied | RGB (multiple views) | LemnaTec |
Coupel-Ledru et al. 2014; [63] | grapevine | drought-stress | applied | RGB (multiple views) | LemnaTec |
Petrozza et al. 2014; [66] | tomato | drought-stress | applied | RGB (multiple views), hyperspectral NIR, SLCFIM | LemnaTec |
Harshavardhan et al. 2014; [67] | Arabidopsis | drought-stress | applied | RGB (top view), hyperspectral NIR | LemnaTec |
Bresson et al. 2013; [68] | Arabidopsis | drought-stress | applied | RGB (top view) | PHENOPSIS |
Bresson et al. 2014; [69] | Arabidopsis | drought-stress | applied | RGB (top view), TLCFIM | PHENOPSIS |
Chen et al. 2014; [64] | barley | drought-stress | methodology | RGB (multiple-views), hyperspectral NIR, SLCFIM | LemnaTec |
Fehér-Juhász et al. 2014; [19] | wheat | drought-stress | applied | RGB (multiple views), thermoimaging | self-construction, semi-automated |
Cseri et al. 2013; [65] | barley | drought-stress | methodology | RGB (multiple views), thermoimaging | self-construction, semi-automated |
Vasseur et al. 2014 [71] | Arabidopsis | heat-stress, drought-stress | applied | RGB (top view) | PHENOPSIS |
Rajendran et al. 2009; [73] | wheat | salt-stress | applied | RGB (multiple views) | LemnaTec |
Harris et al. 2010; [74] | wheat, barley | salt-stress | applied | RGB (multiple views) | LemnaTec |
Golzarian et al. 2011; [18] | barley | salt-stress | methodology | RGB (multiple views) | LemnaTec |
Schilling et al. 2014; [75] | barley | salt-stress | applied | RGB (multiple views) | LemnaTec |
Hairmansis et al. 2014; [76] | rice | salt-stress | applied | RGB (multiple views) SLCFIM | LemnaTec |
Chaerle et al. 2006; [77] | tobacco | biotic-stress | methodology | thermoimaging, TLCFIM | self-construction |
Poiré et al. 2014; [79] | Brachypodium | nutrient-deficiency | methodology | RGB (multiple views ) | LemnaTec |
Neilson et al. 2015; [80] | Sorghum | nutrient-deficiency | methodology | RGB (multiple views ), hyperspectral NIR | LemnaTec |
Chaerle et al. 2007; [81] | bean | nutrient-deficiency, biotic-stress | methodology | RGB (top view), thermoimaging, TLCFIM | self-construction |
Jansen et al. 2009; [37] | Arabidopsis, tobacco | drought-stress, chilling-stress | methodology | RGB (top view), KCFIM | GROWSCREEN (self-construction) |
Humplík et al. 2015; [20] | pea, field cultivars | cold-stress | methodology | RGB (multiple views), KCFIM | PlantScreen |