Chlorophyll fluorescence as a tool for nutrient status identification in rapeseed plants

Kalaji, Hazem M.; Bąba, Wojciech; Gediga, Krzysztof; Goltsev, Vasilij; Samborska, Izabela A.; Cetner, Magdalena D.; Dimitrova, S.; Piszcz, Urszula; Bielecki, Krzysztof; Karmowska, Kamila; Dankov, Kolyo; Kompała‐Bąba, Agnieszka

doi:10.1007/s11120-017-0467-7

Cited by 176 publications

(143 citation statements)

References 56 publications

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“…Moreover, the drop in OJIP transient curves was intense upon c-PTIO + l-NAME supplementation to As + Ca treated seedlings indicating that in absence of NO, the effect of As became more severe (even in presence of Ca 2+ ), which could be due to: (i) inhibition in electron transport rate on the donor side of PS II as reflected by decreased values for area over the fluorescence curve (Area), which consequently decreased the maximum quantum yield for primary photochemistry www.nature.com/scientificreports www.nature.com/scientificreports/ (that designates trapped exciton moves an electron into the ETC beyond Q A − ) and the quantum yield of electron transport (ФE o ) was detected ( Fig. 4b), which consequently declined the pool size of Q A − (acceptor side of the PS II 17,26,27 ); suggesting lethargic flow of electrons from PS II to PS I and restriction of Q A − reoxidation (Q A − -Q A ), which could be associated with poor diffusion of PQ across the thylakoid membranes 28 . Indeed, the higher F o / F m designates that Q A reduction rate was much higher than its reoxidation rate by Q B and PS I activity under As + Ca + c-PTIO + l-NAME treatment.…”

Section: Resultsmentioning

confidence: 99%

Interplay of Calcium and Nitric Oxide in improvement of Growth and Arsenic-induced Toxicity in Mustard Seedlings

Singh

Parihar

Prasad

2020

Sci Rep

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In this study, Ca 2+ mediated no signalling was studied in response to metalloid (As) stress in Brassica seedlings. Arsenic toxicity strongly suppressed the growth (fresh weight, root and shoot length), photosynthetic pigments, Chl a fluorescence indices (Kinetic traits: F v , F m , F v /F o , F m /F o , ФP o or F v /F m , Ψ o , ФE o , PI ABS , Area and N and redox status (AsA/DHA and GSH/GSSG ratios) of the cell; whereas energy flux traits: ABS/RC, TR o /RC, ET o /RC and DI o /RC along with F o , F o /F v , F o /F m , ФD o and S m ) were enhanced. Further, addition of EGTA (Ca 2+ scavenger) and Lacl 3 (plasma membrane ca 2+ channel blocker) to As + ca; while c-ptio (no scavenger) and l-nAMe (no synthase inhibitor) to As + Snp treated seedlings, siezed recovery on above parameters caused due to Ca 2+ and NO supplementation, respectively to As stressed seedlings thereby indicating their signalling behaviour. Further, to investigate the link between ca 2+ and NO, when c-ptio and l-nAMe individually as well as in combination were supplemented to As + ca treated seedlings; a sharp inhibition in above mentioned traits was observed even in presence of ca 2+ , thereby signifying that NO plays crucial role in Ca 2+ mediated signalling. In addition, As accumulation, ROS and their indices, antioxidant system, NO accumulation and thiol compounds were also studied that showed varied results.Arsenic (As) exposure has become a major threat for world agriculture that causes adverse effect on crop productivity by inhibiting cell functioning. The metalloid (As) mainly arises from geothermal weathering of rocks and human activities 1 . The toxicity of As depends on As species. Among the two inorganic species, arsenite (As III ), which prevails in anaerobic environment, enters in plant system through aquaporin channels with greater affinity for thiol groups; while arsenate (As V ) prevalent in aerobic condition/ soil, being analogue of inorganic phosphate (iP), enters via inorganic phosphate transporters, competes with phosphate and replaces phosphate from ATP thereby affecting the energy metabolism of cell 2,3 . Arsenic accumulation causes growth suppression which involves many biochemical and physiological changes in plants including oxidative stress, injuries to membrane and thereby affecting redox state of the cell 4-6 , which is detrimental for plant survival under As toxicity. Additionally, As toxicity negatively regulates chlorophyll (Chl) biosynthesis, PS II photochemistry and ribulose 1,5-bisphosphate carboxylase/ oxygenase (RuBisCO) activity, thereby inhibiting photosynthetic efficiency 6-9 . Previous studies have explicated the prominence of upholding a favourable antioxidants level and redox status of cell to encounter the damage caused due to metalloid exposure 4-6 .Calcium (Ca 2+ ) is a pervasive and pivotal secondary messenger in signal transduction network 10 under both stressed and non-stressed situations. In several studies, it has been shown that Ca 2+ is involved in regulation of plant responses such as photosyn...

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Section: Resultsmentioning

confidence: 99%

Interplay of Calcium and Nitric Oxide in improvement of Growth and Arsenic-induced Toxicity in Mustard Seedlings

Singh

Parihar

Prasad

2020

Sci Rep

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“…By measuring these chlorophyll fluorescence indexes, we can quickly and nondestructively study the photosynthetic physiological status of plants. These represent new measurement and diagnosis technology in vivo [11,38]. The fluorescence parameters of the stress-tolerant cultivars of blueberry were higher or more stable than those of the sensitive cultivars under stressful environments, such as high temperature [39], aluminum exposure [40], ultraviolet radiation [41], and high pH [7].…”

Section: Discussionmentioning

confidence: 99%

Growth, Fruit Yield, Photosynthetic Characteristics, and Leaf Microelement Concentration of Two Blueberry Cultivars under Different Long-Term Soil pH Treatments

et al. 2019

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Soil pH is a key factor affecting the growth of blueberries. Understanding the response mechanism of blueberries to different pH values and selecting suitable evaluation indexes are the basis of breeding new blueberry cultivars with high pH tolerances. The effects of different soil pH treatments for 17 months on the plant growth, fruit yield, photosynthetic characteristics, and leaf microelement concentration of Vaccinium ashei Reade ‘Climax’ and V. corymbosum hybrid ‘Chaoyue No. 1′ were studied. Plant height, main stem diameter, branch number per plant, leaf dry weight, stem dry weight, root dry weight, and total dry weight decreased with increasing soil pH. With an increase in soil pH, the first flowering date, 50% flowering date, first ripening date, and 50% ripening date of the two cultivars were postponed, and the flower bud numbers per plant, the floret numbers per bud, and yield per plant showed a downward trend. Moreover, the fruit quality decreased, which was reflected in the increase in the titratable acid content (TA) and the decrease in the total soluble solids content (TSS) and the TSS:TA ratio in the high pH treatment. With increasing soil pH, the chlorophyll content index (CCI), maximal photochemical efficiency of the PSII (Fv/Fm), quantum photosynthetic yield of the PSII (Y(II)) and net photosynthetic rate (Pn) of the two cultivars showed a downward trend, and some microelement concentrations in the leaves were imbalanced. Under high pH treatment, ‘Chaoyue No. 1′ had a relatively higher plant biomass and fruit yield, so it had a stronger tolerance to high pH than ‘Climax’ did. More strongly acidified rhizosphere soil capacity, as well as higher CCI, Fv/Fm, Y(II), and Pn values were the main reasons for the high pH tolerance of ‘Chaoyue No. 1′. Compared with destructive biomass indicators such as plant weight, nondestructive indicators such as CCI, Fv/Fm, and Y(II) can be more valuable indicators for fast and accurate evaluation of blueberry tolerance to high pH at early stages of treatment.

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“…Fluorescence is the quantity of absorbed light (quanta) leading to excitation of chlorophyll particles that have not been used in photosynthesis due to stressors [14]; both abiotic and biotic. Therefore, the measurement of chlorophyll fluorescence is believed to be the best photosynthesis efficiency index [15] for most species, i.e., not exposed to stressors. Optimal fluorescence (F v /F m ) rates are approximately 0.83 with adaptation to darkness [16,17].…”

Section: Introductionmentioning

confidence: 99%

In Situ Hyperspectral Remote Sensing for Monitoring of Alpine Trampled and Recultivated Species

Kycko

Zagajewski

Lavender³

et al. 2019

Remote Sensing

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Vegetation, through its condition, reflects the properties of the environment. Heterogeneous alpine ecosystems play a critical role in global monitoring systems, but due to low accessibility, cloudy conditions, and short vegetation periods, standard monitoring methods cannot be applied comprehensively. Hyperspectral tools offer a variety of methods based on narrow-band data, but before extrapolation to an airborne or satellite scale, they must be verified using plant biometrical variables. This study aims to assess the condition of alpine sward dominant species (Agrostis rupestris, Festuca picta, and Luzula alpino-pilosa) of the UNESCO Man&Biosphere Tatra National Park (TPN) where the high mountain grasslands are strongly influenced by tourists. Data were analyzed for trampled, reference, and recultivated polygons. The field-obtained hyperspectral properties were verified using ground measured photosynthetically active radiation, chlorophyll content, fluorescence, and evapotranspiration. Statistically significant changes in terms of cellular structures, chlorophyll, and water content in the canopy were detected. Lower values for the remote sensing indices were observed for trampled plants (about 10–15%). Species in recultivated areas were characterized by a similar, or sometimes improved, spectral properties than the reference polygons; confirmed by fluorescence measurements (Fv/Fm). Overall, the fluorescence analysis and remote sensing tools confirmed the suitability of such methods for monitoring species in remote mountain areas, and the general condition of these grasslands was determined as good.

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Chlorophyll fluorescence as a tool for nutrient status identification in rapeseed plants

Cited by 176 publications

References 56 publications

Interplay of Calcium and Nitric Oxide in improvement of Growth and Arsenic-induced Toxicity in Mustard Seedlings

Interplay of Calcium and Nitric Oxide in improvement of Growth and Arsenic-induced Toxicity in Mustard Seedlings

Growth, Fruit Yield, Photosynthetic Characteristics, and Leaf Microelement Concentration of Two Blueberry Cultivars under Different Long-Term Soil pH Treatments

In Situ Hyperspectral Remote Sensing for Monitoring of Alpine Trampled and Recultivated Species

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