2ns 202*** 71.2*** 1.6ns 0.5ns 79.9*** 0.0ns ETR 22 °C 0.0ns 0.7ns 9.2** 4.5* 0.1ns 0.2ns 1.3ns A YH25448 growth 10 °C 3.0ns 178*** 13.3** 0.5ns 1.8ns 10.0** 1.7ns A growth 22 °C 0.7ns 14.4*** 0.2ns 3.6ns
8.6** 15.3*** 9.8** Table 2 LMA 11.8** 152*** 1121*** 23.4*** 3.7ns 5.2* 0.5ns Chlorophyll/LA 5.1* 43.6*** 93.6*** 47.2*** 0.2ns 1.6ns 0.0ns Chlorophyll a/b 10.0** 134*** 379*** 4.8* 3.9ns 17.0*** 12.2** Rubisco/LA 0.0ns 18.2*** 60.7*** 0.5ns 0.2ns 0.8ns 0.9ns Rubisco/chl 0.7ns 11.4** 43.4*** 1.3ns 0.0ns 2.4ns 1.4ns A sat/chl 10 °C 23.7*** 327*** 994*** 21.3*** 0.0ns 4.1ns 3.9ns A sat/chl 22 °C 0.2ns 52.0*** 310*** 4.6* 0.4ns 26.1*** 0.4ns V Cmax/LA 10 °C 1.5ns 129*** 469*** TEW-7197 cost 7.0* 6.6* 3.7ns 2.7ns V Cmax/LA 22 °C 1.4ns 94.2*** 584*** 12.6** AZD6094 datasheet 12.8** 26.4*** 5.3* V Cmax/chl 10 °C 6.3* 89.4*** 360*** 0.1ns 15.4** 8.2* 3.1ns V Cmax/chl 22 °C 7.8* 65.2*** 556*** 0.3ns 31.6*** 52.0*** 7.6* J max/V Cmax 22 °C 0.4ns 5.3ns 2.4ns 0.4ns 0.9ns 48.8*** 0.1ns C i/C a Lgrowth 10 °C 1.1ns 0.6ns 12.5** 13.0** 0.3ns 0.3ns 0.2ns C i/C a Lgrowth 22 °C 0.0ns 5.8* 23.2*** 5.6* 1.8ns 10.4** 1.5ns g s Lgrowth 10 °C 0.6ns 19.7*** 87.4*** 5.6* 0.7ns 0.6ns 2.0ns
g s Lgrowth 22 °C 0.2ns 2.3ns 145*** 1.5ns 3.5ns 5.9* 0.0ns For the effects of measurement temperatures in Figs. 1 and 5, only 10 and 22 °C are depicted. F values are shown and probability levels (degrees of freedom = 1) are indicated as ns P > 0.05, * P < 0.05, ** P < 0.01, *** P < 0.001 A growth rate of photosynthesis at the growth irradiance, A sat light saturated rate of photosynthesis, ETR electron Suplatast tosilate transport rate, LMA leaf mass per area, V Cmax carboxylation capacity, J max electron transport capacity, C i intercellular CO2 partial pressure, g s stomatal conductance for water vapor, Lgrowth at the growth irradiance, Lsat at saturating irradiance, LA leaf area, chl chlorophyll Photosynthesis per unit leaf area Increasing growth irradiance caused an increase in the light saturated rate of photosynthesis
(A sat) (Fig. 1; Table 1). This is well known for Arabidopsis (Walters and Horton 1994; Walters et al. 1999; Bailey et al. 2004; Boonman et al. 2009) and most other species (Boardman 1977; Walters 2005). Decreasing growth temperature also increased A sat when measured at a common temperature (Fig. 1; Table 1). This is also well known from other studies with Arabidopsis (Strand et al. 1997; Stitt and Hurry 2002; Bunce 2008; Gorsuch et al. 2010) and with many other species (Berry and Björkman 1980). It resulted in an even larger A sat at the growth temperatures in LT-plants compared to HT-plants measured at the growth temperature (Fig. 1). This tendency for homeostasis or even overcompensation is typical for cold-tolerant fast-growing species (Atkin et al. 2006; Yamori et al. 2009). Growth temperature and irradiance were not acting fully independently, as relative effects on A sat were stronger in LL-plants compared to HL-plants when measured at 22 °C but not at 10 °C (Fig. 1; Table 1).
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