Micronutrients’ accumulation in rice after supplemental UV-B irradiation

Figures & data

Table 1. Root acidification capacity and root and leaves electrolytic conductance of control and UV-B-treated rice.

Days after germination	Electrolytic conductance (%)					Acidification capacity [neq g(fw)^−1 h^−1]
	Non-UV-B–treated		UV-B–treated			Non-UV-B–treated	UV-B–treated
	Roots	Leaves	Roots	Leaves^a	Leaves^b	Roots	Roots
15	30±2a,r	20±2a,r	25±1a,r	45±2a,s	–	227±21a,r	173±11b,s
21	37±1a,r	23±2a,r	30±2a,r	29±1b,s	22±2a,r	220±17a,r	129±10a,s
28	38±1a,r	23±2a,r	31±2a,r	31±2b,s	24±1a,r	228±18a,r	135±13a,s
170	35±2a,r	30±2a,r	29±1a,r	–	41±2b,s	300±5b,r	250±10c,s
Note: Each value is the mean (±SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, among the experimental periods; r, s among treatments within each experimental period.
^aDirectly submitted to UV-B radiation; ^bGrew after ending UV-B application.

Table 2. Concentrations of micronutrients in the roots, leaves and seeds of control and UV-B-treated rice plants.

Days after germination	Non-UV-B-treated				UV-B-treated
	Fe	Mn	Cu	Zn	Fe	Mn	Cu	Zn
15	Roots [µg g(dw)^1]	538±0.24a,r	150±0.47a,r	51±0.24a,r	310±0.24r,s	499±0.31a,s	190±0.53a,s	56±0.32a,r	345±0.30a,s
	Leaves [µg g(dw)^1]	63±0.24 a,r	240±0.24a,r	16±0.14b,r	30±0.47c,r	51±0.15a,s	276±0.5a,s	18±0.20a,s	27±0.30c,s
	Roots/Leaves (%)	8.539	0.625	3.188	10.333	9.784	0.688	2.777	12.777
21	Roots [µg g(dw)^1]	795±0.47c,r	128±0.24b,r	139±0.24b,r	361±0.24b,r	740±0.60b,s	153±0.44b,s	190±0.51b,s	401±0.35b,s
	Leaves [µg g(dw)^1]	67±0.28b,r	350±0.42a,r	18±0.28c,r	21±0.19a,r	53±0.20a,s	402±0.60b,s	21±0.30b,s	19±0.20a,s
	Roots/Leaves (%)	11.866	0.366	7.722	17.190	13.962	0.381	9.047	21.105
28	Roots [µg g(dw)^1]	763±0.28b,r	115±0.24c,r	143±0.24c,r	395±0.47c,r	725±0.50b,s	152±0.59b,s	187±0.62b,s	421±0.45b,c,s
	Leaves [µg g(dw)^1]	72±0.24c,r	366±0.28a,r	14±0.33a,r	25±0.24b,r	62±0.30b,s	433±0.40b,s	18±0.15a,s	22±0.30b,s
	Roots/Leaves (%)	10.597	0.314	10.21	15.800	11.694	0.351	10.388	19.136
170	Roots [µg g(dw)^1]	410±0.47d,r	38±0.71d,r	25±0.47d,r	410±0.47c,r	380±0.40c,s	56±0.90c,s	27±0.50c,r	435±0.70c,s
	Leaves [µg g(dw)^1]	241±0.24d,r	144±0.24b,r	13±0.24a,r	41±0.33d,r	215±0.30c,s	188±0.30c,s	18±0.10a,s	37±0.25d,s
	Roots/Leaves (%)	1.705	0.264	1.923	10.000	1.767	0.298	1.500	25.588
	Crops [µg g(dw)^1]	3±0.02r	3±0.02r	2±0.10r	5±0.03r	2.8±0.03	2.5±0.03r	2±0.05r	4.5±0.06r
Note: Each value is the mean (±SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, d among the experimental periods; r, s among treatments within each experimental period.

Table 3. Pigments contents of control and UV-B-treated rice plants. Each value is the mean (±SE) of three replicates of three independent series.

Days following germination	Total Chl [mg g(fw)^−1]			Carotenoids [µg/g(fw)^−1]
	Non-UV-B-treated	UV-B–treated		Non-UV-B-treated	UV-B–treated
		Leaves directly exposed	Leaves grown after exposure		Leaves directly exposed	Leaves grown after exposure
15	1.94±0.09a,r	0.83±0.03a,s	–	136±7a,r	29±9a,s	–
21	1.97±0.06a,r	0.72±0.03b,s	2.27±0.17a,t	182±20b,r	21±3a,s	192±71a,r
28	1.95±0.06a,r	0.51±0.09c,s	2.25±0.16a,t	179±12b,r	16±3b,s	190±69a,r
170	1.91±0.07a,r	–	1.98±0.15a,r	175±15b,r	–	181±59a,r
Note: Different letters indicate significant differences among treatments: a, b, c, among the experimental periods; r, s, t among treatments within each experimental period.

Table 4. Photosynthetic electron transport rates of control and UV-B-treated rice plants.

Days following germination	Hill reactions (µmol O2 mg Chl^−1 h^−1)			Mehler reactions (µmol O2 mg Chl^−1 h^−1)			Total photosynthetic electron transport (µmol O2 mg Chl^−1 h^−1)
	Non-UV-B-treated	UV-B–treated		Non-UV-B-treated	UV-B-treated		Non-UV-B-treated	UV-B-treated
		Leaves directly exposed	Leaves grown after exposure		Leaves directly exposed	Leaves grown after exposure		Leaves directly exposed	Leaves grown after exposure
15	290±3a,r	260±4a,s	–	401±7a,r	340±5a,s	–	275±6a,r	242±4a,s	–
21	350±4b,r	190±10b,s	265±5a,t	452±5b,r	280±3b,s	352±3a,t	330±3b,r	197±7b,s	253±6a,t
28	380±c,r	97±12c,t	290±b,s	484±6c,r	190±10c,s	398±5b,t	345±2c,r	101±10c,s	310±4b,t
170	220±d,r	–	219±7c,r	447±6b,r	–	438±7c,r	338±5b,c,r	–	305±3b,s
Note: Each value is the mean (±SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, d among the experimental periods; r, s, t among treatments within each experimental period.

Figure 1.  Concentrations of Fe in roots, leaves and seeds of control and UV-B treated rice plants. Each value is the mean (+SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, d among the experimental periods; r, s among treatments within each experimental period.

Figure 2.  Concentrations of Mn in roots, leaves and seeds of control and UV-B treated rice plants. Each value is the mean (+SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, d among the experimental periods; r, s among treatments within each experimental period.

Figure 3.  Concentrations of Cu in roots, leaves and seeds of control and UV-B treated rice plants. Each value is the mean (+SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, d among the experimental periods; r, s among treatments within each experimental period.

Figure 4.  Concentrations of Zn in roots, leaves and seeds of control and UV-B treated rice plants. Each value is the mean (+SE) of three replicates of three independent series. Different letters indicate significant differences among treatments: a, b, c, d among the experimental periods; r, s among treatments within each experimental period.