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Simulated influence of altitude on photosynthetic CO2 uptake potential in plants (1991)

SMITH, W. K. ; DONAHUE, R. A.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 14 (1991), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. A simulation of the quantitative influence of altitude on photosynthetic CO2 uptake capability (AP) included the effects of predicted changes (1) in air temperature (lapse rate) and (2) leaf temperature, (3) ambient pressure and CO2 concentration, and (4) the diffusion coefficient for CO2 in air. When a dry lapse rate (0.01°C m−1) in air temperature was simulated, significant declines (up to 14%) in AP were predicted from sea level to 4km altitude. A moist lapse rate of 0.003°C m−1 resulted in less than a 4% decrease in AP over the same altitude range. When natural leaf temperatures (predicted from heat balance analyses) were simulated, AP was significantly greater (∼20%) than when leaf temperatures were considered equal to air temperature for all lapse conditions. There was virtually no change in AP with altitude when predicted leaf temperatures and moist lapse conditions were simulated. There was a significant (∼10%) increase in AP with altitude when leaf temperature was held constant at 30°C (regardless of altitude) under moist lapse conditions. Future studies evaluating the effects of elevation on photosynthesis could benefit from the above considerations of the effects of natural leaf temperature regimes and prevailing lapse conditions on CO2 uptake potential.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1991.tb01380.x

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Chlorophyll and light gradients in sun and shade leaves of Spinacia oleracea (1991)

CUI, M. ; VOGELMANN, T. C. ; SMITH, W. K.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 14 (1991), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. Light gradients were measured and correlated with chlorophyll concentration and anatomy of leaves in spinach (Spinacia oleracea L.). Light gradients were measured at 450, 550 and 680 nm within thin (455 μm) and thick (630 μm) leaves of spinach grown under sun and shade conditions. The light gradients were relatively steep in both types of leaves and 90% of the light at 450 and 680 nm was absorbed by the initial 140 μm of the palisade. In general, blue light was depleted faster than red light which, in turn was depleted faster than green light. Light penetrated further into the thicker palisade of sun leaves in comparison to the shade leaves. The distance that blue light at 450 nm travelled before it became 90% depleted was 120 μm in sun leaves versus 76 μm in shade leaves. Red light at 680 nm and green light at 550 nm travelled further but the trends were similar to that measured at 450nm. The steeper light gradients within the palisade-of shade leaves were caused by increased scattering of light within the intercellular air spaces and/or cells which were less compact than those in sun leaves. The decline in the amount of light within the leaf appeared to be balanced by a gradient in chlorophyll concentration measured in paradermal sections. Progressing from the adaxial epidermis, chlorophyll content increased through the palisade and then declined through the spongy mesophyll. Chlorophyll content was similar in the palisade of both sun and shade leaves. Chloroplast distribution within both sun and shade leaves was relatively uniform so that the chlorophyll gradient appeared to be caused by greater amounts of chlorophyll within chloroplasts located deeper within the leaf. These results indicate that the anatomy of the palisade may be of special importance for controlling the penetration of photo-synthetically active radiation into the leaf. Changing the structural characteristics of individual palisade cells or their arrangement may be an adaptation that maximizes the absorption of light in leaves with varying mesophyll thickness due to different ambient light regimes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1991.tb01519.x

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Functional interaction between leaf trichomes, leaf wettability and the optical properties of water droplets (1991)

BREWER, C. A. ; SMITH, W. K. ; VOGELMANN, T. C.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 14 (1991), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. Because CO2 diffuses 10000 times more slowly through water than air, there may be strong selective pressure for increased water repellency in terrestrial plant leaves. In the present study, leaf trichomes appeared to have a strong influence on leaf water repellency (i.e. degree of water droplet formation on the leaf surface) as well as the retention of droplets on the leaf. Based upon evaluation of 38 plant species from 21 families, we found that leaves with trichomes were more water repellent, especially where trichome density was greater than 25mm2. However, droplet repellency and retention were both high in some species where trichomes entrapped droplets. Finally, the lensing effects of water droplets on leaf surfaces increased incident sunlight by over 20-fold directly beneath individual droplets. These results may have important implications for such processes as stomatal function, whole leaf photosynthesis, and transpiration for a large variety of plant species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1991.tb00965.x

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