Response of photosynthesis to high light and drought for Arabidopsis thaliana grown under a UV-B enhanced light regime

Poulson, Mary E.; Boeger, Maria Regina Torres; Donahue, Raymon A.

doi:10.1007/s11120-006-9116-2

Cited by 67 publications

(40 citation statements)

References 77 publications

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“…In addition, the observation that substrate acidity leads to a decrease in chlorophyll a content in leaves is line with other research studies [32,33]. Surprisingly, depending on the experimental conditions, UV-B radiation has been shown to increase [34], decrease [23] or have no effect on chlorophyll content [35]. Much of UV-B radiation is attenuated in leaves by leaf cuticles via UV-absorbing compounds produced and deposited in leaf epidermal cells or hairs [36] or by antioxidant systems [37].…”

Section: Shoot : Root Ratiosupporting

confidence: 90%

Effects of substrate acidity and UV-B radiation on photosynthesis of radishes

Januškaitienė

2011

Open Life Sciences

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The aim of this study was to assess the combined effect of substrate acidity (pH 4.8; pH 3.8) and 1 kJm−2d−1 UV-B radiation on photosynthesis and growth of radishes (Raphanus sativus L.). Radishes were sown in a neutral pH 6.5 peat substrate. When the second true leaf unfolded, the growth substrate was acidified using different concentration of H2SO4 and exposed to UV-B radiation for a period of ten days. Gas exchange parameters were measured with the LI-6400 portable photosynthesis system. Content of chlorophyll was evaluated spectrophotometrically. The results showed that the greatest inhibition of net photosynthesis was observed when radishes were grown in an acidified pH 3.8 substrate. The decrease of the photosynthesis of radish plants treated with both investigated factors (substrate acidity and UV-B) were lower compared to the effect of substrate acidity alone. UV-B radiation stimulated both enzymatic reactions of photosynthesis and water use efficiency of radish plants grown in acidified peat substrates. Also, investigated factors had higher impact on biomass of tuber than biomass of foliage.

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Section: Shoot : Root Ratiosupporting

confidence: 90%

Effects of substrate acidity and UV-B radiation on photosynthesis of radishes

Januškaitienė

2011

Open Life Sciences

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“…Alexieva et al 2001;Poulson et al 2006), other findings show synergistic interactions resulting in higher drought sensitivity under enhanced UV radiation (Petropoulou et al 1995;Björn et al 1997).…”

Section: Introductionmentioning

confidence: 95%

Evaluation of drought and UV radiation impacts on above-ground biomass of mountain grassland by spectral reflectance and thermal imaging techniques

Novotná

Klem

Holub

et al. 2016

Beskydy

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Novotná K., Klem K., Holub P., Rapantová B., Urban O. 2016: Evaluation of drought and UV radiation impacts on above-ground biomass of mountain grassland by spectral reflectance and thermal imaging techniques. -Beskydy, 9 (1-2): 21-30Drought represents one of the major factors limiting productivity of managed and natural ecosystems. Under natural field conditions drought is often associated with other stress factors such as high temperature and UV radiation, which may result in enhancement or vice versa alleviation of drought impact. Remote sensing methods have a large potential to evaluate impacts of drought on plant production at regional scale. The main objective of this study was to analyse the potential of ground-based measurement of spectral reflectance and thermal imaging for monitoring the impacts of drought and UV radiation on above-ground biomass production of mountain grassland ecosystem. Experimental rain-out shelters were used to manipulate incident precipitation and UV radiation for 7 weeks (May-July). A canopy spectral reflectance, thermal images, and total aboveground biomass were determined at the end of drought and UV treatment. Results show that drought led to a significant reduction of above-ground biomass, particularly under ambient UV radiation. In contrary, UV had only negligible effect on biomass production. Canopy temperature as well as selected spectral reflectance indices showed significant response to drought stress and also significant relationships to above-ground biomass. However, the relationship between canopy temperature and above-ground biomass is modified by UV radiation. Best prediction of changes in biomass caused by drought stress was provided by vegetation index NDVI.

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“…Regarding the effect of UV-B radiation on plant water status, most of the studies on the response of plants to UV-B show no remarkable changes in leaf RWC [8,9]. In other cases, UV-B has been reported to improve leaf water status, through production of osmolytes, accumulation of dehydrins or increases in cuticle thickness [1].…”

Section: Grapevine Accl Imation To Uv-bmentioning

confidence: 99%

Characterization of the adaptive response of grapevine (cv. Tempranillo) to UV-B radiation under water deficit conditions

et al. 2015

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This work aims to characterize the physiological response of grapevine (Vitis vinifera L.) cv.Tempranillo to UV-B radiation under water deficit conditions. Grapevine fruit-bearing cuttings were exposed to three levels of supplemental biologically effective UV-B radiation ( and drought were detected on photosynthesis performance, where the impact of UV-B was overshadowed by the effects of water deficit. Grape berry ripening was strongly delayed when UV-B and water deficit were applied in combination. In summary, deficit irrigation did not modify the adaptive response of grapevine to UV-B, through the accumulation of MEUVAC. However, combined treatments caused additive effects on berry ripening.

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Response of photosynthesis to high light and drought for Arabidopsis thaliana grown under a UV-B enhanced light regime

Cited by 67 publications

References 77 publications

Effects of substrate acidity and UV-B radiation on photosynthesis of radishes

Effects of substrate acidity and UV-B radiation on photosynthesis of radishes

Evaluation of drought and UV radiation impacts on above-ground biomass of mountain grassland by spectral reflectance and thermal imaging techniques

Characterization of the adaptive response of grapevine (cv. Tempranillo) to UV-B radiation under water deficit conditions

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