Your search keyword '"chlorophyll flourescence"' showing total 16 results

1. The effect of individual and combined drought and heat stress under elevated CO2 on physiological responses in spring wheat genotypes

Author

Rong Zhou, Carolina Falcato Fialho Palma, Bernd Wollenweber, Lamis Osama Anwar Abdelhakim, Carl-Otto Ottosen, and Eva Rosenqvist

Subjects

0106 biological sciences, 0301 basic medicine, Chlorophyll a, Sucrose, Physiology, Plant Science, Biology, Photosynthesis, 01 natural sciences, Heat stress, 03 medical and health sciences, chemistry.chemical_compound, Gas exchange, Genetics, Cultivar, Chlorophyll fluorescence, Abiotic component, elevated CO2, Drought, Abiotic stress, food and beverages, Fructose, Chlorophyll flourescence, Horticulture, climate change, 030104 developmental biology, chemistry, 010606 plant biology & botany

Abstract

Abiotic stress due to climate change with continuous rise of atmospheric CO2 concentration is predicted to cause severe changes to crop productivity. Thus, research into wheat cultivars, capable of maintaining yield under limiting conditions is necessary. The aim of this study was to investigate the physiological responses of spring wheat to individual and combined drought- and heat events and their interaction with CO2 concentration. Two heat sensitive (LM19, KU10) and two heat tolerant (LM62, GN5) genotypes were selected and grown under ambient (400 ppm, aCO2) and elevated (800 ppm, eCO2) CO2 concentrations. At the tillering stage, the wheat plants were subjected to different treatments: control, progressive drought, heat and combined drought and heat stress. Our results showed that eCO2 mitigated the negative impact of the moderate stress in all genotypes. However, no distinctive responses were observed in some of the measured parameters between heat sensitive and tolerant genotypes. All genotypes grown at eCO2 had significantly higher net photosynthetic rates and maintained maximum quantum efficiency of PSII photochemistry under heat and combined stress compared to aCO2. Under heat and combined stress, the chlorophyll a:b ratios decreased only in heat tolerant genotypes at eCO2 compared to the control. Furthermore, the heat tolerant genotypes grown at eCO2 showed an increased glucose and fructose contents and a decreased sucrose content under combined stress compared to aCO2. These findings provide new insights into the underlying mechanisms of different genotypic responses to combined abiotic stresses at eCO2 that differ from the response to individual stresses.

Published

2021

2. Continuous excitation chlorophyll fluorescence parameters: a review for practitioners.

Author

Banks, Jonathan M.

Subjects

*CHLOROPHYLL, *X-ray spectroscopy, *PHOTOSYNTHESIS, *FLUORESCENCE, *ARABIDOPSIS thaliana, *CHARTS, diagrams, etc.

Abstract

This review introduces, defines and critically reviews a number of chlorophyll fluorescence parameters with specific reference to those derived from continuous excitation chlorophyll fluorescence. A number of common issues and criticisms are addressed. The parameters fluorescence origin (F0) and the performance indices (PI) are discussed as examples. This review attempts to unify definitions for the wide range of parameters available for measuring plant vitality, facilitating their calculation and use. [ABSTRACT FROM AUTHOR]

Published

2017

3. Spectral Composition of Light Affects Sensitivity to UV-B and Photoinhibition in Cucumber

Author

Carl-Otto Ottosen, Åke Strid, Luis Orlando Morales, Victor Costa Castro-Alves, Carolina Falcato Fialho Palma, and Eva Rosenqvist

Subjects

0106 biological sciences, 0301 basic medicine, qL, Trädgårdsvetenskap/hortikultur, Photoinhibition, Photosystem II, total leaf area, transpiration rate, specific leaf mass, Ci, Plant Science, Photosynthetic efficiency, net photosynthetic rate, 01 natural sciences, SLM, Gs, chemistry.chemical_compound, quantum yield or operation ifficiency of PSII, morphology, Pigment accumulation, DM, Chlorophyll fluorescence, Original Research, reactive oxygen species, intracellular CO2 concentration, INL internode lenght, Ø, chlorophyll fluorescence, electron transport rate, fraction of open PSII centres, Biochemistry and Molecular Biology, food and beverages, Dry mass percentage, ROS, LCP, curvature, DM%, CO2, non-photochemical quenching, NPQ, a [morphology 3 Abbreviations], Fv/Fm, TLA, LEDs, Dry mass, light conpensation point, fresh mass, gas exchange, lcsh:Plant culture, Horticulture, Photosynthesis, Fq'/Fm', 03 medical and health sciences, An, individual leaf area, FM, lcsh:SB1-1110, photosynthetically active radiation, stem diameter 4, maximum photochemical efficiency of PSII, leaf mass ratio, UV-B, maximum net assimilation rate, Botany, carbon dioxide, photosystem II, Botanik, LMR, Ultraviolet-B, ILA, Light intensity, apparent quantum yield of photosynthesis, 030104 developmental biology, chemistry, stomatal conductance, Chlorophyll, Biophysics, light quality, PAR, chlorophyll flourescence, Amax, dark respiration, cucumber, ETR, Biokemi och molekylärbiologi, Rdark, 010606 plant biology & botany

Abstract

Ultraviolet B (UV-B, 280 – 315 nm) and ultraviolet A (UV-A, 315-400 nm) radiation comprise small portions of the solar radiation but regulate many aspects of plant development, physiology and metabolism. Until now, how plants respond to UV-B in the presence of different light qualities is poorly understood. This study aimed to assess the effects of a low UV-B dose (0.912± 0.074 kJ m-2 day-1, at a 6 h daily UV exposure) in combination with four light treatments (blue, green, red and broadband white at 210 μmol m-2 s-1 Photosynthetic active radiation [PAR]) on morphological and physiological responses of cucumber (Cucumis sativus cv. ‘Lausanna RZ F1’). We explored the effects of light quality backgrounds on plant morphology, leaf gas exchange, chlorophyll fluorescence, epidermal pigment accumulation, and on acclimation ability to saturating light intensity. Our results showed that supplementary UV-B significantly decreased biomass accumulation in the presence of broad band white, blue and green light, but not under red light. UV‐B also reduced the photosynthetic efficiency of CO2 fixation (α) when combined with blue light. These plants, despite showing high accumulation of anthocyanins, were unable to cope with saturating light conditions. No significant effects of UV-B in combination with green light were observed for gas exchange and chlorophyll fluorescence parameters, but supplementary UV-B significantly increased chlorophyll and flavonol contents in the leaf epidermis. Plants grown under red light and UV-B significantly increased maximum photosynthetic rate and dark respiration compared to pure red light. Additionally, red and UV-B treated plants during with saturating light intensity showed an higher quantum yield of photosystem II (PSII), fraction of open PSII centres and electron transport rate and showed no effect on the apparent maximum quantum efficiency of PSII photochemistry (Fv/Fm) or non-photochemical quenching in contrast to solely red-light conditions. These findings provide new insights into how plants respond to UV-B radiation in the presence of different light spectra., Funding Agencies:GUDP (Danish Ministry of Food, Agriculture and Fisheries) Research center iFood Faculty for Business, Science and Technology at Örebro University Örebro University Vice Chancellor's strategic research programme on 'Food and Health'

Published

2021

4. Heat priming effects on anthesis heat stress in wheat cultivars (Triticum aestivum L.) with contrasting tolerance to heat stress

Author

Benita Hyldgaard, Eva Rosenqvist, Carl-Otto Ottosen, and Thayna Mendanha

Subjects

Chlorophyll, 0106 biological sciences, 0301 basic medicine, Stomatal conductance, Hot Temperature, Physiology, Plant Development, gas exchange, Plant Science, Priming (agriculture), abiotc stress, Biology, Photosynthesis, 01 natural sciences, Fluorescence, 03 medical and health sciences, Anthesis, Genetics, Biomass, Cultivar, Chlorophyll fluorescence, Triticum, Abiotic component, Abiotic stress, grain yield, food and beverages, Adaptation, Physiological, Chlorophyll flourescence, Horticulture, 030104 developmental biology, stomatal conductance, Plant Stomata, Seeds, Gases, Heat-Shock Response, 010606 plant biology & botany

Abstract

The incidence of heat episodes during the phase of reproductive development in crops is accountable for great yield losses worldwide. Plants subjected to stress events during vegetative stages (primed) are reported be more resistant to future stress exposure during the reproductive phases. We aimed to test if repeated early abiotic stresses could improve heat tolerance during anthesis in wheat cultivars. Two wheat cultivars (Triticum aestivum L.), 'Gladius' and 'Paragon', were subjected to a heat priming process consisting of two periods with heat at the developmental stages of three and five completely developed leaves, respectively. The primed and non-primed plants were later subjected to either a heat stress or non-heat stress (control) temperature for seven days during anthesis. Gas exchange and chlorophyll fluorescence were used to investigate the physiological performance of the plants. No difference in assimilation rate was observed between treatments for 'Gladius'. Measurements were not possible to obtain for heat stressed 'Paragon' plants due to premature senescence. We did not observe strong evidence to prove our hypothesis of early heat stress (priming) being accountable for improving heat tolerance. However, a significant difference between cultivars in response to heat stress was observed. The yield parameters of 'Gladius' primed plants did not differ from their respectively control treatment. A distinct result was observed for the heat sensitive cultivar 'Paragon', suggesting a cumulative deleterious effect caused by the repeated heat stress.

Published

2018

5. Effects of high temperature stress on photosynthesis and chlorophyll fluorescence of cut flower chrysanthemum (Dendranthema grandiflora 'Jinba').

Author

Xian-zhi Sun, Cheng-shu Zheng, and Xiu-feng Wang

Abstract

Cut flower chrysanthemum (Dendranthema grandiflora 'Jinba') plants were treated with 40 °C/35 °C or 33 °C/28 °C (day/night) for 11 days and then transferred to 23 °C/18 °C for 5 days to study the changes in their photosysnthesis and flourescence parameters under high temperature stress and normal temperature recovery. The results showed that on the 5th day of 33 °C/28 °C treatment, net photosynthesis (Pn) decreased gradually and stomatal conductance (Gs) decreased evidently; while after recovery for 5 days, both P n and G s resumed to 80% of the control. At 40 °C/35 °C, Pn and Gs decreased dramatically. The increase of intercellular CO2 concentration (Ci) at the early stage under given high temperatures that the photosynthesis inhibition by high temperature stress was resulted from non-stomatal limitations. However, 9 days later, stomatal limitation became the mainly cause of photosynthesis inhibition by high temperature stress was resulted from non-stomatal limitations. However, 9 days later, stomatal limitation became the mainly cause of photosynthesis inhibition. The intrinsic photochemical efficiency (Fv/Fm), quantum yields of PS II (Φ PS II), and the efficiency of excitation energy capture by open PS II reaction center (Fv'/Fm') at 33 °C/28 °C and 40 °C/35 °C all decreased light capture and efficiency of electron transfer through PS II. The photochemical quenching (qp) at 33 °C/28 °C descended first and turned to rise then, suggesting that the election transfer was firstly restrained by the stress. Contrastively, qp rose continuously at 40 °C/35 °C, indicating that oxygen-evolving complex (OEC) was the location in chrysanthemum photosynthesis apparatus most sensitive to extreme high temperature. [ABSTRACT FROM AUTHOR]

Published

2008

6. INTERACTIONS BETWEEN UV-B EXPOSURE AND PHOSPHORUS NUTRITION. I. EFFECTS ON GROWTH, PHOSPHATE UPTAKE, AND CHLOROPHYLL FLUORESCENCE.

Author

Shelly, Kirsten, Roberts, Simon, Heraud, Philip, and Beardall, John

Subjects

*ULTRAVIOLET radiation, *ELECTRON transport, *MICROALGAE, *DUNALIELLA, *FLUORESCENCE, *PLANT nutrients, *PHOSPHATES

Abstract

The interactive effects of P starvation and exposure to UV radiation on growth rates, quantum efficiency of PSII electron transport, and P-uptake capacity of the chlorophyte microalga Dunaliella tertiolecta Butcher are presented. Ultraviolet radiation did not in itself cause marked changes in growth rate, though it did induce changes in the effective quantum yield of PSII. Depriving cells of phosphate resulted in significant changes in all parameters examined. The decline of growth rate and fluorescence parameters after P starvation was significantly faster in the presence of UV radiation. Ultraviolet radiation also stimulated the magnitude of the transient changes in chl fluorescence (nutrient-induced fluorescence transient) exhibited by P-starved cells after resupply of that nutrient. [ABSTRACT FROM AUTHOR]

Published

2005

7. Grapevine Growth and Physiological Responses to Iron Deficiency.

Author

Bertamini, Massimo and Nedunchezhian, Namachevayam

Subjects

*PLANT physiology, *CROPS & soils, *FRUIT development, *PLANT-soil relationships, *GASES from plants, *IRON deficiency diseases

Abstract

Iron (Fe) deficiency is one of the major abiotic stresses affecting fruit tree crops growing in calcareous soils in the Mediterranean region. A better understanding of changes in the growth and physiological characteristics of grapevine plants during the development of Fe deficiency will help to improve Fe fertilizer management recommendations. An experiment was conducted in field conditions to determine the effects of Fe deficiency during vegetative growth on leaf photosynthesis, dry matter accumulation, pigments, and other physiological parameters. Iron deficiency considerably decreased leaf net photosynthetic rate, leaf area, and dry matter accumulation. Depressed photosynthesis and plant growth resulted in increased fruit abscission and changes in dry matter among plant tissues. The results help explain the effects of Fe deficiency on suppression of grapevine growth and yield and provide information for improving the diagnosis of Fe deficiency in grapevine production. [ABSTRACT FROM AUTHOR]

Published

2005

8. 'Photoinhibition' of Heliconia under natural tropical conditions: the importance of leaf orientation for light interception and leaf temperature.

Author

He, J., Chee, C. W., and Goh, C. J.

Subjects

*HELICONIA, *PHOTOSYNTHESIS, *PLANT photoinhibition, *ENERGY dissipation, *CHLOROPHYLL

Abstract

The influence of irradiance on photosynthesis under natural conditions was studied in aseasonal Singapore using three Heliconia taxa H. rostrata H. psittacorum × H. spathocircinata cv. Golden Torch and H. psittacorum cv. Tay. When grown under full sunlight, all three heliconias exhibited reduced photosynthetic capacities and lowered chlorophyll content per leaf area as compared with those grown under intermediate and deep shade. A marked decrease in the chlorophyll fluorescence Fv/Fm ratio and an increase in photochemical quenching (1 - qp) and non- photochemical quenching (qv) were observed in upper leaves of plants grown under full sunlight. Increases in qv. suggest that `photolnhlbition (decreases in Fv/Fm) Heliconia grown under natural tropical conditions are probably due to photoprotective energy dissipation processes. The quantum yield, the maximum photosynthetic rate, Fv/Fm, and the chlorophyll content of upper leaves were lower than those of lower leaves on the same plants grown under full sunlight. Similarly, lower values were obtained for the tip (sun) portion than for the base (shaded) portion of the leaves. The changes in Fv/Fm and in the levels of (1 - qp) in leaves grown under intermediate and deep shade were negligible in plants during the course of day. However, there was a steep decrease in Fv/Fm and an increase in the levels of (1 - qp) , along with an increase in incident light in the sun leaves. The lowest Fv/Fm and the highest level of (1 - qp) indicated minimum PSII efficiency at midday in full sun. These results indicate that, in Heliconia, the top leaves (particularly leaf tips) experienced sustained decreases in PSU efficiency upon exposure to full sunlight. Although all three taxa exhibited Sustained decreases in photosynthetic capacity in full sunlight, the sun leaves of `Tay' showed higher photosynthetic capacity than those or the other two taxa. This could be due, at least in part, to the vertical leaf angle and smaller lamina area. When the upright leaves of `Tay were constrained to a horizontal angle, they exhibited lower PSII efficiency (Fv/Fm ratio), while horizontal leaves of Roostrata' and `Golden Torch' inclined to near-vertical angles showed increased efficiency. Thus, an increase in leaf angle helps to achieve a reduction in the sustained decrease in PSII efficiency by decreasing the levels of incident sunlight and subsequently the leaf temperature. [ABSTRACT FROM AUTHOR]

Published

1996

9. Marcescence and senescence in a submediterranean oak (Quercus subpyrenaica E.H. del Villar): photosynthetic characteristics and nutrient composition.

Author

Abadía, A., Gil, E., Morales, F., Montañés, L., Montserrat, G., and Abadía, J.

Subjects

*AGING, *PHOTOSYNTHESIS, *OAK, *PLANT nutrients, *PLANT growing media, *LEAVES

Abstract

We have studied some characteristics of marcescent leaves (withered retained leaves) and senescent leaves in Quercus subpyrenaica a tree species that plays a major role in the climatic transition forests between temperate and mediteranean environments in north-eastern Spain. Leaves were taken from the upper and lower halves of the trees crown, both in the south- and north-exposed parts of the tree, leaves receiving low photosynthetic photon flux density (PPFD) undergo autumnal senescence, while is associated with decreases in photosynthetic pigments and decreases in the chlorophyll a to chlorphyll b ratio. Leaves receiving higher PPFD underwent senescence at a later date. Leaves situated in the upper, south-exposed part of the tree, which receive the highest PPFD, showed no signs of senescence and remained photosynthetically active for a longer period of time, marcescence occurring suddenly at the end of the season. Marcescence is unlikely to cause an improvement in nutrient recycling, since the removal of nutrients proceeded similarly in marcescent and senescent leaves. Marcescence may increase the time-span of the assimilation capacity for a significant period of time during September and October, when high light intensities and mild temperatures occur. The phenomena triggering marcescence may be related to low temperatures. [ABSTRACT FROM AUTHOR]

Published

1996

10. 3D Laser Triangulation for Plant Phenotyping in Challenging Environments

Author

Katrine Heinsvig Kjaer and Carl-Otto Ottosen

Subjects

Photosystem II activity, 0106 biological sciences, Plant growth, leaf area, Laser triangulation, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Plant Physiological Phenomena, Analytical Chemistry, Research community, lcsh:TP1-1185, photosystem II activity, Instrumentation, shoot biomass, 0303 health sciences, Spectroscopy, Near-Infrared, rapeseed (Brassica napus), chlorophyll fluorescence, automated growth measurement, food and beverages, Equipment Design, Atomic and Molecular Physics, and Optics, sensor-to-plant concept, Phenotype, High temporal resolution, growth rate, 3D laser scanner, Biological system, high-throughput phenotyping (HTPP), Chlorophyll Fluorescence, Biology, Article, 03 medical and health sciences, Imaging, Three-Dimensional, Stress, Physiological, Electrical and Electronic Engineering, Nir laser, 030304 developmental biology, Brassica napus, fungi, Botany, Plant phenotyping, Chlorophyll flourescence, Agronomy, Temporal resolution, 010606 plant biology & botany

Abstract

To increase the understanding of how the plant phenotype is formed by genotype and environmental interactions, simple and robust high-throughput plant phenotyping methods should be developed and considered. This would not only broaden the application range of phenotyping in the plant research community, but also increase the ability for researchers to study plants in their natural environments. By studying plants in their natural environment in high temporal resolution, more knowledge on how multiple stresses interact in defining the plant phenotype could lead to a better understanding of the interaction between plant responses and epigenetic regulation. In the present paper, we evaluate a commercial 3D NIR-laser scanner (PlantEye, Phenospex B.V., Herleen, The Netherlands) to track daily changes in plant growth with high precision in challenging environments. Firstly, we demonstrate that the NIR laser beam of the scanner does not affect plant photosynthetic performance. Secondly, we demonstrate that it is possible to estimate phenotypic variation amongst the growth pattern of ten genotypes of Brassica napus L. (rapeseed), using a simple linear correlation between scanned parameters and destructive growth measurements. Our results demonstrate the high potential of 3D laser triangulation for simple measurements of phenotypic variation in challenging environments and in a high temporal resolution.

Published

2015

11. Drought stress had a predominant effect over heat stress on three tomato cultivars subjected to combined stress

Author

Carl-Otto Ottosen, Yu Wengui, Zhao Liping, Wang Yinlei, Xiaqing Yu, Tongmin Zhao, Zhen Wu, Rong Zhou, and Eva Rosenqvist

Subjects

0106 biological sciences, 0301 basic medicine, Chlorophyll, Drought stress, Hot Temperature, Acclimatization, Drought tolerance, Plant Science, Biology, 01 natural sciences, Tomato, Heat stress, 03 medical and health sciences, chemistry.chemical_compound, Solanum lycopersicum, Species Specificity, Journal Article, Cultivar, Photosynthesis, Chlorophyll fluorescence, Water content, Pigmentation, drought stress, fungi, food and beverages, Water, Biotic stress, Chlorophyll flourescence, Droughts, Plant Leaves, 030104 developmental biology, Agronomy, chemistry, Shoot, Plant Stomata, Carbohydrate Metabolism, Heat-Shock Response, 010606 plant biology & botany, Research Article

Abstract

BACKGROUND: Abiotic stresses due to environmental factors could adversely affect the growth and development of crops. Among the abiotic stresses, drought and heat stress are two critical threats to crop growth and sustainable agriculture worldwide. Considering global climate change, incidence of combined drought and heat stress is likely to increase. The aim of this study was to shed light on plant growth performance and leaf physiology of three tomatoes cultivars ('Arvento', 'LA1994' and 'LA2093') under control, drought, heat and combined stress.RESULTS: Shoot fresh and dry weight, leaf area and relative water content of all cultivars significantly decreased under drought and combined stress as compared to control. The net photosynthesis and starch content were significantly lower under drought and combined stress than control in the three cultivars. Stomata and pore length of the three cultivars significantly decreased under drought and combined stress as compared to control. The tomato 'Arvento' was more affected by heat stress than 'LA1994' and 'LA2093' due to significant decreases in shoot dry weight, chlorophyll a and carotenoid content, starch content and NPQ (non-photochemical quenching) only in 'Arvento' under heat treatment. By comparison, the two heat-tolerant tomatoes were more affected by drought stress compared to 'Arvento' as shown by small stomatal and pore area, decreased sucrose content, ΦPSII (quantum yield of photosystem II), ETR (electron transport rate) and qL (fraction of open PSII centers) in 'LA1994' and 'LA2093'. The three cultivars showed similar response when subjected to the combination of drought and heat stress as shown by most physiological parameters, even though only 'LA1994' and 'LA2093' showed decreased Fv/Fm (maximum potential quantum efficiency of photosystem II), ΦPSII, ETR and qL under combined stress.CONCLUSIONS: The cultivars differing in heat sensitivity did not show difference in the combined stress sensitivity, indicating that selection for tomatoes with combined stress tolerance might not be correlated with the single stress tolerance. In this study, drought stress had a predominant effect on tomato over heat stress, which explained why simultaneous application of heat and drought revealed similar physiological responses to the drought stress. These results will uncover the difference and linkage between the physiological response of tomatoes to drought, heat and combined stress and be important for the selection and breeding of tolerant tomato cultivars under single and combine stress.

Published

2017

12. Applications of chlorophyll fluorescence for stock quality assessment with different types of fluorometers

Author

Binder, Wolfgang D., Fielder, Peter, Mohammed, Gina H., and L'hirondelle, Sylvia J.

Published

1997

13. An overview of Ontario's Stock Quality Assessment Program

Author

Sampson, P.H/, Templeton, C.W.G., and Colombo, S.J.

Published

1997

14. UNROOTED STEM CUTTING PHYSIOLOGY; WATER USE AND LEAF GAS EXCHANGE OF SEVERED STEM CUTTINGS

Author

Alem, Peter

Subjects

Chlorophyll flourescence, Cuttings gas exchange, Light response curves, Stomatal response to severing, Unrooted cuttings physiology, Unrooted cuttings water uptake, Horticulture

Abstract

Stem cuttings are one of the most frequently used and successful methods of vegetative plant propagation. The understanding of unrooted cutting physiology, especially gas exchange and water flux, is crucial for successful propagation of healthy plants. Prior to root initiation, water uptake is limited and leafy stem cuttings are most vulnerable to wilting. Experiments were carried out in the greenhouse with poinsettia cuttings to determine water uptake, photosynthesis, transpiration and stomatal conductance from the time of severing to rooting, including time spent in storage. Water uptake through the severed stem was investigated in the laboratory and growth chamber. Cutting gas exchange (i.e., photosynthesis, stomatal conductance and transpiration) sharply declined after severing and gradually recovered in propagation after root initiation. CIRAS-2, with optional integrated Chlorophyll Fluorescence Module (CFM) was used to assess chlorophyll fluorescence and photosynthesis of cuttings at different stages: freshly severed cuttings (Day 1), 3 day-old cuttings, callused cuttings (Day 7 and 10), and rooted cuttings (Day 21 and 28). There was no significant difference in chlorophyll fluorescence between the cuttings and stock plants hence we inferred no significant damage to photosynthetic reaction centers as a result of severing. Unrooted cuttings had relatively low photosynthetic rates compared to rooted cuttings with water as a possible limiting factor. Our data also suggest that water use efficiency increases during the first week in propagation prior to root initiation. The mechanism for this improved water use appears to be due to a return in normal stomatal function during the first week in propagation following severing the cutting from the stock plant. The results have implications for the management of mist in propagation environment.

Published

2010

15. Screening for chilling tolerance in Soya and broad bean

Author

Carl-Otto Ottosen, Rong Zhou, and Benita Hyldgaard

Subjects

chilling tolerance, broad bean, protein crops, soya, Stress, Chlorophyll flourescence

16. Increased Photosynthetic Performance in Holly Trees Infested by Scale Insects

Author

Retuerto, R., Fernanez-Lema, B., and Obeso, J. R.

Published

2004