A System for Continuous Measurement of Photosynthetic Rate and Dark Respiration at Constant CO2-Level

Infestation of apple leaves with the spotted tentiform leafminer (STLM) reduced their net photosynthetic rate (Pn) over a range of light intensities. At a saturating irradiance level of 1240 μE∙m−2∙s−1 and 20 mines per leaf, 32.9% of the leaf area was injured but Pn was decreased by only 23.2%. Examination of parameters in a model for leaf photosynthesis showed a reduction in maximum photosynthetic rate (asymptotic value of the light-response curve) and mesophyll conductance but not in photochemical efficiency or dark respiration. The STLM injury had no effect on transpiration, stomatal conductance, and a slight effect on internal CO2 concentration and water-use efficiency. Mining reduced chlorophyll content of the leaves and this reduced the chlorophyll fluorescence of the mined areas. Tissue around the mines had a relatively high fluorescence reading confirming the Pn measurements and suggesting that this technique was suitable for these and similar studies. Mining by the STLM disrupts the photosynthetic apparatus of the leaf and affects a number of mechanisms in the photosynthetic process. Correlating these effects with field observations will help in determining economic thresholds for this insect.

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Orange Rust Effects on Leaf Photosynthesis and Related Characters of Sugarcane

Plant Disease ◽

10.1094/pdis-10-10-0762 ◽

2011 ◽

Vol 95 (6) ◽

pp. 640-647 ◽

Cited By ~ 50

Author(s):

Duli Zhao ◽

Neil C. Glynn ◽

Barry Glaz ◽

Jack C. Comstock ◽

Sushma Sood

Keyword(s):

Stomatal Conductance ◽

Quantum Yield ◽

Net Photosynthetic Rate ◽

Photosynthetic Rate ◽

Transpiration Rate ◽

Carbon Fixation ◽

Dark Respiration ◽

Western Hemisphere ◽

Maximum Quantum Yield ◽

Leaf Photosynthesis

Orange rust of sugarcane (Saccharum spp. hybrids), caused by Puccinia kuehnii, is a relatively new disease in the Western Hemisphere that substantially reduces yields in susceptible sugarcane genotypes. The objective of this study was to determine the physiological mechanisms of orange rust–induced reductions in sugarcane growth and yield by quantifying effects of the disease on leaf SPAD index (an indication of leaf chlorophyll content), net photosynthetic rate, dark respiration, maximum quantum yield of CO2 assimilation, carbon fixation efficiency, and the relationships between these leaf photosynthetic components and rust disease ratings. Plants growing in pots were inoculated with the orange rust pathogen using a leaf whorl inoculation method. A disease rating was assigned using a scale from 0 to 4 with intervals of 0.5. At disease ratings ≥2, the rust-infected leaf portion of inoculated plants showed significant reductions in SPAD index, maximum quantum yield, carbon fixation efficiency, stomatal conductance, leaf transpiration rate, and net photosynthetic rate; but the rusted portion of the infected leaves had increased intercellular CO2 concentration and leaf dark respiration rate. Although leaf SPAD index, photosynthetic rate, stomatal conductance, and transpiration rate at the rust-infected portion decreased linearly with increased rust rating, the effect of orange rust on photosynthetic rate was much greater than that on stomatal conductance and transpiration. Unlike earlier reports on other crops, reduction in leaf photosynthesis by orange rust under low light was greater than that under high light conditions. These results help improve the understanding of orange rust etiology and physiological bases of sugarcane yield loss caused by orange rust.

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Photosynthetic Rate, Flowering, and Yield Component Alteration in Hazelnut in Response to Different Light Environments

Journal of the American Society for Horticultural Science ◽

10.21273/jashs.121.6.1103 ◽

1996 ◽

Vol 121 (6) ◽

pp. 1103-1111 ◽

Cited By ~ 22

Author(s):

Cheryl R. Hampson ◽

Anita N. Azarenko ◽

John R. Potter

Keyword(s):

Photosynthetic Rate ◽

Dark Respiration ◽

Stomatal Density ◽

Chlorophyll Concentration ◽

Light Response ◽

Dry Weight ◽

Yield Component ◽

Response Curves ◽

Photosynthetic Rates ◽

Light Response Curves

In hazelnut (Corylus avellana L.), vigorous vegetative growth and traditional orchard practices that include little or no pruning combine to produce a dense, shady canopy. A study designed to quantify the effect of shade on reproduction and photosynthetic rate in this shade-tolerant species was undertaken to assess whether some degree of pruning might improve productivity. Shade cloth was used to exclude 30%, 47%, 63%, 73%, or 92% of ambient sunlight from whole `Ennis' and `Barcelona' trees from mid-May until harvest. Photosynthetic light response curves were obtained for leaves that had developed in full sunlight, deep inside the canopy of unshaded trees, or in 92% shade. Light-saturated net photosynthetic rates were 12.0, 6.1, and 9.3 μmol·m-2·s-1 of CO2 and dark respiration rates were 2.0, 1.1, and 0.7 μmol·m-2·s-1 of CO2, respectively, for the three light regimes. Light-saturated photosynthetic rates of leaves from 30% or 63% shade differed little from the control (0% shade). Area per leaf increased by 49% and chlorophyll concentration (dry weight basis) by 157% as shading increased from 0% to 92%. Shading to 92% reduced specific leaf weight (68%), stomatal density (30%), light compensation point (69%), and dark respiration rate (63%) compared to controls. Female inflorescence density declined by about one-third and male inflorescence density by 64% to 74% in the most heavily shaded trees of both cultivars compared to controls. Shade was more detrimental to yield than flowering: yield per tree dropped by >80%, from 2.9 to 3.4 kg in full sun to 0.6 to 0.9 kg in 92% shade. Shade reduced yield primarily by decreasing nut number and secondarily by decreasing nut size. The incidence of several kernel defects increased as shade increased. Therefore, hazelnut leaves showed considerable capacity to adapt structurally and functionally to shade, but improving light penetration into the canopy would probably increase orchard productivity.

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Effects of leaf development and phosphorus supply on the photosynthetic characteristics of perennial legume species with pasture potential: modelling photosynthesis with leaf development

Functional Plant Biology ◽

10.1071/fp09284 ◽

2010 ◽

Vol 37 (8) ◽

pp. 713 ◽

Cited By ~ 9

Author(s):

Lalith D. B. Suriyagoda ◽

Hans Lambers ◽

Megan H. Ryan ◽

Michael Renton

Keyword(s):

Photosynthetic Rate ◽

Leaf Development ◽

Developmental Stages ◽

Dark Respiration ◽

Leaf Age ◽

Light Response ◽

Photosynthetic Characteristics ◽

Light Intensities ◽

Perennial Legume ◽

Convexity Parameter

Age-dependent changes in leaf photosynthetic characteristics (i.e. parameters of the light response curve (maximum photosynthetic rate (Pmax), quantum yield (Φ) and the convexity parameter (θ)), stomatal conductance (gs) and dark respiration rate (Rd)) of an exotic perennial legume, Medicago sativa L. (lucerne), and two potential pasture legumes native to Australia, Cullen australasicum (Schltdl.) J.W. Grime and Cullen pallidum A. Lee, grown in a glasshouse for 5 months at two phosphorus (P) levels (3 (P3) and 30 (P30) mg P kg–1 dry soil) were tested. Leaf appearance rate and leaf area were lower at P3 than at P30 in all species, with M. sativa being the most sensitive to P3. At any leaf age, photosynthetic characteristics did not differ between P treatments. However, Pmax and gs for all the species and Φ for Cullen species increased until full leaf expansion and then decreased. The convexity parameter, θ, did not change with leaf age, whereas Rd decreased. The estimates of leaf net photosynthetic rate (Pleaf) obtained through simulations at variable Pmax and Φ were lower during early and late leaf developmental stages and at lower light intensities than those obtained when Φ was assumed to be constant (e.g. for a horizontally placed leaf, during the 1500°C days developmental period, 3 and 19% reduction of Pleaf at light intensities of 1500 and 500 µmol m–2 s–1, respectively). Therefore, developmental changes in leaf photosynthetic characteristics should be considered when estimating and simulating Pleaf of these pasture species.

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A CLOSED-CIRCUIT APPARATUS WITH AN INFRARED CO2 ANALYZER AND A GEIGER TUBE FOR CONTINUOUS MEASUREMENT OF CO2 EXCHANGE IN PHOTOSYNTHESIS AND RESPIRATION

Canadian Journal of Botany ◽

10.1139/b61-047 ◽

1961 ◽

Vol 39 (3) ◽

pp. 581-591 ◽

Cited By ~ 24

Author(s):

G. R. Lister ◽

G. Krotkov ◽

C. D. Nelson

Keyword(s):

Carbon Dioxide ◽

Continuous Monitoring ◽

Continuous Measurement ◽

Dark Respiration ◽

Pinus Resinosa ◽

Co2 Exchange ◽

Total Carbon ◽

Closed Circuit ◽

Experimental Plant ◽

Photosynthesis And Respiration

An apparatus is described which permits continuous monitoring of the concentration of both the total and radioactive carbon dioxide around an experimental plant. The apparatus consists of a closed circuit of tubing into which are introduced a plant chamber, an infrared CO2 analyzer, a Geiger tube, and a pump. Continuous records are obtained rom which are calculated the amounts of total carbon dioxide and C14 absorbed or evolved by a plant. With an apparatus 2.03 liters in volume, evolution or absorption of amounts of CO2 as small as 0.01 mg were measured. The time necessary to observe a change in the concentration of C14 in the chamber (i.e. the lag time) is less than 2 seconds. The corresponding value for the total carbon dioxide is 7 seconds.Experiments on the respiration and photosynthesis of detached shoots of Pinus resinosa in an atmosphere containing C14O2 are described as an example of the use of the apparatus. The external C14O2 was continuously diluted with C12O2 in both light and dark. However, evolution of carbon dioxide in the light (light respiration) was only about 20% of that in the dark (dark respiration).

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Relationship between visual colour rating and chlorophyll content, photosynthetic rate, and some growth characteristics in couchgrass (Cynodonspp. L.)

The Journal of Agricultural Science ◽

10.1017/s0021859600032639 ◽

1983 ◽

Vol 100 (1) ◽

pp. 221-225 ◽

Cited By ~ 1

Author(s):

M. S. Rahman

Keyword(s):

Leaf Area ◽

Chlorophyll Content ◽

Photosynthetic Rate ◽

Unit Area ◽

Dark Respiration ◽

Dry Weight ◽

Chlorophyll Contents ◽

Respiration Rates ◽

Unit Leaf ◽

Visual Colour

SUMMARYChlorophyll contents per unit leaf area and unit dry weight, chlorophylla:bratio, visual colour rating, specific leaf area, and leaf fresh weight: dry weight ratios were estimated for 12 couch (bermudagrass) varieties (Cynodonspp. L.) in winter (July) and spring (October). Net photosynthetic and dark respiration rates were estimated in winter only.The chlorophyll contents per unit leaf area were higher in all varieties in spring than in winter, but per unit weight were more variable. The varieties differed substantially in the net photosynthetic and dark respiration rates. The specific leaf areas were greater in winter than in spring in five varieties: in others it changed little. The fresh: dry weight ratios of the leaves were almost constant between varieties in the spring but varied greatly during the winter. Visual colour ratings were well correlated with chlorophyll contents per unit area but not with weight. The net photosynthetic rate was closely correlated with chlorophyll content (per unit area) but not so closely with colour rating.

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Photosynthetic model for citrus cultivar Huangguogan

Semina Ciências Agrárias ◽

10.5433/1679-0359.2020v41n1p61 ◽

2020 ◽

Vol 41 (1) ◽

pp. 61

Author(s):

Ling Liao ◽

Yi Ronga ◽

Xia Qiua ◽

Tiantian Donga ◽

Zhihui Wang

Keyword(s):

Photosynthetic Rate ◽

Dark Respiration ◽

Light Response ◽

Exponential Model ◽

Photosynthetic Parameters ◽

Response Curves ◽

Effective Measure ◽

Rectangular Hyperbola ◽

Light Response Curves ◽

Citrus Cultivar

Grafting is an effective measure to improve the photosynthetic rate of citrus. The light responses of photosynthesis in leaves of two-year old grafted Huangguogan (citrus cultivar Huangguogan), Huanggougan / Trifoliate (HG/PT), Huanggougan / Tangerine (HG/CR), and Huanggougan / Ziyang Xiangcheng (HG/CJ) were studied using the LI-COR 6400 portable photosynthesis system. Light-response curves and photosynthetic parameters were analyzed and fitted using the rectangular hyperbola model (RHM), the exponential model (EM), the non rectangular hyperbola model (NRHM), and the modified rectangular hyperbola model (MRHM). The results showed that: (1) Grafting can change the photosynthetic characteristics of Huangguogan, and the value of photosynthesis rate of HG/CJ is the greatest; (2) The light-response curves of net photosynthetic rate (PN), the light compensation point (LCP), and the dark respiration rate (RD) were well fitted using the above four models. The modified rectangular hyperbola was the best model in fitting the data; the nonrectangular hyperbola model was the second, and the rectangular hyperbola model was the poorest one.

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The effect of some environmental factors on the growth of young aspen trees (Populus tremuloides) in controlled environments

Canadian Journal of Botany ◽

10.1139/b71-203 ◽

1971 ◽

Vol 49 (8) ◽

pp. 1443-1453 ◽

Cited By ~ 2

Author(s):

G. C. Bate ◽

D. T. Canvin

Keyword(s):

Light Intensity ◽

Photosynthetic Rate ◽

Populus Tremuloides ◽

Dark Respiration ◽

Continuous Light ◽

Carbon Gain ◽

Fluorescent Light ◽

Controlled Environment ◽

Rate Of Photosynthesis ◽

Photosynthesis And Respiration

Several populations (each of 32 trees) of young aspen trees (Populus tremuloides Michx) were allowed to break from dormancy in controlled environment cabinets. The rate of photosynthesis and dark respiration and the rate of carbon gain (as difference between photosynthesis and respiration) of the population as affected by photoperiod duration, light intensity, and day/night temperatures was determined by measuring the CO2 exchange of the whole population using the controlled environment cabinet as the plant chamber.The rates of photosynthesis of the plants were similar during both 12- or 18-h photoperiods. The rates of respiration during the corresponding night periods were also similar. In continuous light the photosynthetic rate remained unchanged if growth (expansion of new leaves) was rapid. During periods of slower growth, the photosynthetic rate in continuous light was reduced. In spite of this reduction in the rate of photosynthesis, carbon gain was still greatest under continuous light.In the day/night temperature study, the largest gains in carbon per day by the aspen trees were obtained at day/night temperatures of 15/10 °C or 15/15 °C. Higher day or night temperatures resulted in decreased rates of carbon gain.Increased light intensity from fluorescent lamps resulted in increased rates of photosynthesis. Addition of incandescent light to the fluorescent light resulted, in almost all cases, in decreased rates of photosynthesis. This may, in part, be due to effects on leaf temperature.Photosynthesis of the populations was usually maximal at the beginning of the photoperiod and decreased steadily during the photoperiod. The rate of decrease was directly related to the rate of photosynthesis at the beginning of the photoperiod.Both photosynthesis and respiration were affected by temperature and light but no clear relationship existed between the rate of CO2 exchange during the photoperiod and that during the nyctoperiod following.

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Continuous in Situ Recording of the Photosynthetic Activity of Antarctic Lichens—established Methods and a New Approach

The Lichenologist ◽

10.1017/s0024282991000415 ◽

1991 ◽

Vol 23 (3) ◽

pp. 253-265 ◽

Cited By ~ 21

Author(s):

B. Schroeter ◽

L. Kappen ◽

C. Moldaenke

Keyword(s):

Water Content ◽

Photosynthetic Rate ◽

Photosynthetic Activity ◽

Dark Respiration ◽

South Shetland Islands ◽

Fibre Optics ◽

Fluorescence Response ◽

Gravimetric Water Content ◽

Thallus Water Content

AbstractA new method is described that records the periods of photosynthetic and respiratory activity in lichen thalli in situ by measuring the actinic chlorophyll fluorescence response of the photobiont. The technique is based on a pulse amplitude modulation fluorometer that was specially developed for continuous and unattended measurements in the Antarctic. In Livingston Island, South Shetland Islands, the periods of metabolic activity of Usnea antarctica were recorded simultaneously with the microclimatic parameter in its natural environment. In one series of diurnal measurements the fluorescence response signal was treated as a qualitative on/off signal for photosynthetic activity. In a parallel series the diurnal courses of net photosynthesis and dark respiration of rain-moistened thalli of U. antarctica were measured by means of a CO2/H2O porometer together with gravimetric water content determination. Both methods showed marked coincidence from low water content to water saturation of the thalli. In the laboratory both the actinic fluorescence response and the photosynthetic rate as a function of thallus water content were investigated in Caloplaca regalis. In the laboratory experiments the CO2 exchange cuvette contained a balance for gravimetric water content control as well as the glass-fibre optics of the fluorescence analysis equipment. The experiments revealed a quantitative relationship between actinic fluorescence and photosynthetic rate within the range of optimum to limiting low thallus water content. The method described is suitable for measurements of lichen activity in field microclimate studies and should allow continuous unattended year-round measurements of lichen activity, which are needed in remote regions such as Antarctica.

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