Automated phenotyping of plant shoots using imaging methods for analysis of plant stress responses – a review

Jan F Humplík; Dušan Lazár; Alexandra Husičková; Lukáš Spíchal

doi:10.1186/s13007-015-0072-8

Plant Methods

Table 1 List of selected works describing automated high-throughput analysis to study plant stress responses

From: Automated phenotyping of plant shoots using imaging methods for analysis of plant stress responses – a review

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

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ISSN: 1746-4811

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