Photosynthetic features of non-Kranz type C4 versus Kranz type C4 and C3 species in subfamily Suaedoideae (Chenopodiaceae)

2009 ◽  
Vol 36 (9) ◽  
pp. 770 ◽  
Author(s):  
Monica E. Smith ◽  
Nouria K. Koteyeva ◽  
Elena V. Voznesenskaya ◽  
Thomas W. Okita ◽  
Gerald E. Edwards
Keyword(s):  
Type Species ◽  
C4 Photosynthesis ◽  
Light Response ◽  
Quantum Yields ◽  
Response Curves ◽  
Light Response Curves ◽  
Unit Leaf ◽  
Bienertia Sinuspersici ◽  
C4 Species ◽  
C3 Species

The objective of this study was to characterise photosynthesis in terrestrial non-Kranz (NK) C4 species, Bienertia sinuspersici Akhani and Suaeda aralocaspica (Bunge) Freitag & Schütze (formerly Borszczowia aralocaspica), compared with closely related Kranz type C4 Suaeda eltonica Iljin and Suaeda taxifolia Standley, and C3 species Suaeda heterophylla Bunge and Suaeda maritima Dumort in subfamily Suaedoideae (Chenopodiaceae). Traditional Kranz type C4 photosynthesis has several advantages over C3 photosynthesis under certain environmental conditions by suppressing photorespiration. The different photosynthetic types were evaluated under varying levels of CO2 and light at 25°C. Both NK and Kranz type species had C4 type CO2 compensation points (corrected for dark-type respiration) and half maximum saturation of photosynthesis at similar levels of atmospheric CO2 (average of 145 µbar for the C4 species v. 330 µbar CO2 for C3 species) characteristic of C4 photosynthesis. CO2 saturated rates of photosynthesis per unit chlorophyll was higher in the C3 (at ~2.5 current ambient CO2 levels) than the C4 species, which is likely related to their higher Rubisco content. The amount of Rubisco as a percentage of total protein was similar in NK and Kranz type species (mean 10.2%), but much lower than in the C3 species (35%). Light saturated rates of CO2 fixation per unit leaf area at 25°C and 340 µbar CO2 were higher in the Kranz species and the NK C4 S. aralocaspica than in the C3 species. In response to light at 340 µbar CO2, there was a difference in rates of photosynthesis per unit Rubisco with NK > Kranz > C3 species. There were no significant differences between the three photosynthetic types in maximum quantum yields, convexity of light response curves, and light compensation points at 25°C. The water use efficiency (CO2 fixed per water transpired) at 340 µbar CO2, 25°C and 1000 µmol quanta m–2 s–1 was on average 3-fold higher in the C4 (NK and Kranz) compared with the C3 species. The results show that the NK species have several C4 traits like the Kranz type species in subfamily Suaedoideae.

The influence of the hemiparasitic angiosperm Cassytha pubescens on photosynthesis of its host Cytisus scoparius

2010 ◽  
Vol 37 (1) ◽  
pp. 14 ◽  
Author(s):  
Hao Shen ◽  
Jane N. Prider ◽  
José M. Facelli ◽  
Jennifer R. Watling
Keyword(s):  
Carbon Fixation ◽  
Stomatal Closure ◽  
Light Response ◽  
Poor Performance ◽  
Quantum Yields ◽  
Cytisus Scoparius ◽  
Response Curves ◽  
Photosynthetic Rates ◽  
Invasive Shrub ◽  
Light Response Curves

Infection with Cassytha pubescens R.Br, an Australian native hemiparasitic plant, can lead to death of the invasive shrub, Cytisus scoparius L. Link (Scotch broom). We examined the influence of C. pubescens on photosynthetic physiology of C. scoparius to determine whether this might contribute to death of infected plants. Infected C. scoparius had significantly lower photosynthetic rates, stomatal conductance and transpiration, and higher Ci (internal [CO2]), than uninfected plants. Rapid light response curves, determined using chlorophyll fluorescence, indicated significantly lower light-saturated electron transport rates and lower quantum yields for infected plants relative to uninfected plants. However, Rubisco content did not differ between infected and uninfected plants, suggesting the lower photosynthetic rates were most likely due to stomatal closure, rather than lower photosynthetic capacity. As a consequence of lower assimilation rates, PSII efficiency was lower in infected plants than uninfected plants across the diurnal cycle. Infected plants also had significantly lower pre-dawn Fv/Fm values and slower recovery from exposure to high light than uninfected plants. Our results suggest that infected C. scoparius are more susceptible to photodamage than uninfected plants. Combined with lower carbon fixation rates, this could contribute to the poor performance and even death of infected plants.

Photosynthetic light-response curves

Planta ◽  
1993 ◽  
Vol 189 (2) ◽  
Author(s):  
E. �gren ◽  
J.R. Evans
Keyword(s):  
Light Response ◽  
Response Curves ◽  
Light Response Curves

scholarly journals Temperature response of photosynthesis and its interaction with light intensity in sweet orange leaf discs under non-photorespiratory condition

2006 ◽  
Vol 30 (4) ◽  
pp. 670-678 ◽  
Author(s):  
Rafael Vasconcelos Ribeiro ◽  
Eduardo Caruso Machado ◽  
Ricardo Ferraz de Oliveira
Keyword(s):  
Sweet Orange ◽  
Photochemical Efficiency ◽  
Temperature Response ◽  
Light Response ◽  
Photon Flux ◽  
O2 Evolution ◽  
Response Curves ◽  
Leaf Discs ◽  
Light Response Curves ◽  
Heat Effects

This study aimed to evaluate the response of photosynthesis (A), given by photosynthetic O2 evolution, to increasing temperature from 25 to 50ºC in sweet orange (Citrus sinensis (L.) Osbeck) leaf discs under non-photorespiring conditions. In order to evaluate the response of gross photosynthesis to temperature and the balance between photosynthetic and respiratory activities, respiration (Rd) rates were also measured, i.e. the O2 uptake in each temperature. In addition, light response curves of photosynthesis were performed by varying the photosynthetic photon flux density (PPFD) from 0 to 1160 µmol m-2 s-1 at 25 and 40ºC. The highest A values were observed at 35 and 40ºC, whereas the highest Rd values were noticed at 50ºC. A higher relationship A/Rd was found at 30 and 35ºC, suggesting an optimum temperature of 35ºC when considering the balance between photosynthesis and respiration under non-photorespiring condition. Overall, heat effects on plant metabolism were more evident when evaluating the relationship A/Rd. In light response curves, higher A values were also found at 40ºC under PPFD higher than 300 µmol m-2 s-1. Light saturation point of photosynthesis was increased at 40ºC, without significant change of quantum efficiency under low PPFD. Respiration was also enhanced at 40ºC, and as a consequence, the light compensation point increased. The better photosynthetic performance at 35-40ºC was supported by higher photochemical efficiency in both light and temperature response curves. The temperature-dependence of photosynthesis was affected by growth temperature, i.e. a high air temperature during plant growth is a probable factor leading to a higher photosynthetic tolerance to heat stress.

Light response of photosynthesis and stomatal conductance of rose leaves in the canopy profile: the effect of lighting on the adaxial and the abaxial sides

2020 ◽  
Vol 47 (7) ◽  
pp. 639
Author(s):  
Roberta Paradiso ◽  
Pieter H. B. de Visser ◽  
Carmen Arena ◽  
Leo F. M. Marcelis
Keyword(s):  
Stomatal Conductance ◽  
Light Transmission ◽  
Model Simulation ◽  
Light Response ◽  
Substantial Part ◽  
Response Curves ◽  
Abaxial Side ◽  
Area Index ◽  
Light Response Curves ◽  
Light Absorbance

We investigated the light response of leaf photosynthesis, stomatal conductance and optical properties in rose plants grown in a glasshouse with bending technique. Leaves were lighted from the adaxial or the abaxial side during measurements, performed in four positions in the upright and bent shoots: top leaves, middle leaves, bottom leaves, and bent shoot leaves. Moreover, the effect of the irradiation on the adaxial or abaxial leaf side on whole canopy photosynthesis was estimated through model simulation. No significant differences were found in light transmission, reflection and absorption of leaves and in photosynthesis light response curves among the four positions. In all the leaf positions, light absorption, stomatal conductance and photosynthesis were higher when leaves were lighted from the adaxial compared with the abaxial side. The model showed that a substantial part of the light absorbed by the crop originated from light reflected from the greenhouse floor, and thus the abaxial leaf properties have impact on whole crop light absorbance and photosynthesis. Simulations were performed for crops with leaf area index (LAI) 1, 2 and 3. Simulation at LAI 1 showed the highest reduction of simulated crop photosynthesis considering abaxial properties; however, to a lesser extent photosynthesis was also reduced at LAI 2 and 3. The overall results showed that the model may be helpful in designing crop systems for improved light utilisation by changing lamp position or level of leaf bending and pruning.

Drought Enhances Stomatal Closure in Response to Shading in Sorghum (Sorghum bicolor) and in Millet (Pennisetum americanum)

1995 ◽  
Vol 22 (1) ◽  
pp. 1 ◽  
Author(s):  
HG Jones ◽  
DO Hall ◽  
JE Corlett ◽  
A Massacci
Keyword(s):  
Sorghum Bicolor ◽  
Water Status ◽  
Stomatal Closure ◽  
Light Response ◽  
Pennisetum Americanum ◽  
Crop Water ◽  
Response Curves ◽  
Early Stages ◽  
Light Response Curves ◽  
Sorghum Bicolor L

When field-grown sorghum (Sorghum bicolor (L.) Moench) and millet (Pennisetum americanum (L.) Leeke) plants are subjected to drought, the speed of stomatal closure in response to darkness is enhanced in comparison with the speed observed in well-irrigated control plants. This shade-induced closure is most apparent at early stages of desiccation and is not rapidly reversible. These results need to be considered when developing protocols for the measurement of photosynthetic light response curves in the field. The sensitivity to crop water status of this stomatal closure response potentially provides a very valuable means for detection of the early stages of soil drying, and may also provide opportunities for screening different varieties for their adaptation to drought conditions.

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