1,720,971 research outputs found
Can arbuscular mycorrhizae increase tomato production under the current climate change scenario?
Full text linkIn the Mediterranean region, tomato has high water and fertilization demands. Under the current climate change scenario, the situation will be exacerbated by prolonged droughts and higher temperatures while increasing CO2 concentration might represent an advantage to a C3 crop such as tomato. Previous researches indicated that the effect of drought can be mitigated in plants inoculated with mycorrhizal fungi. In this experiment, we evaluated the performances of mycorrhizal tomato in response to drought and elevated CO2 concentration in terms of net photosynthetic rate, transpiration, water use efficiency, chlorophyll fluorescence and biomass production. In. Mycorrhizal and non-mycorrhizal tomato plants were subjected to severe stress following a dry-down protocol under ambient and elevated CO2 concentration. A recovery period, in which irrigation was restored, followed the dry-down cycle. Plant height, stem diameter, leaf area, chlorophyll content and fluorescence parameters were measured on all plants during the experiment. Whole canopy transpiration and photosynthetic rate were measured every twelve minutes by an automated multi chamber system composed of twelve sampling chambers. Gas exchange measurements were used to calculate instantaneous water use efficiency. Several changes were observed in plant morphology and physiology in response to mycorrhization and elevated CO2. Mycorrhizal tomatoes were shorter and had larger stem diameter than the non-mycorrhizal ones. Moreover, mycorrhizal tomato showed increased water use efficiency, and increased ratio of variable to maximum chlorophyll fluorescence (Fv/Fm) and electron transport rate (ETR)
CHARACTERIZATION OF SORGHUM GENOTYPES FOR TRAITS RELATED TO DROUGHT TOLERANCE
No full textL’incessante aumento della popolazione mondiale ed il conseguente incremento della richiesta di risorse alimentari ed energetiche, congiuntamente al mutevole scenario climatico, sempre più incline a periodi di siccità prolungata in misura sempre maggiore in alcune zone del pianeta, fa sì che sempre più attenzione sia rivolta allo sviluppo ed all’implementazione di risorse energetiche rinnovabili a bassi input. Il sorgo zuccherino (Sorghum bicolor Moench) è una coltura bioenergetica in grado di fornire cibo, bioetanolo e biogas. Lo studio di tale coltura in risposta al deficit idrico promuove una più approfondita conoscenza dei meccanismi alla base dei processi fotosintetici, e di come, e quanto, questi possano essere influenzati dall’assenza temporanea, o più o meno prolungata, di disponibilità idrica. La produzione di biomassa e la sua composizione chimica sono state valutate per genotipi di nuova costituzione in confronto a quelli già disponibili in commercio, ai fini della produzione di biogas e bioetanolo. Una più approfondita analisi fisio-fenologica e molecolare è stata condotta su sei genotipi di sorgo con lo scopo di combinare in una visione di insieme più integrata la risposta alla siccità in sorgo. Due genotipi (uno sensibile e l’altro tollerante la siccità) sono stati selezionati per l’analisi trascrittomica in risposta allo stress idrico al fine di individuare geni candidati potenzialmente utili ai fini di una selezione assistita da marcatore.Due to the increasing human population and the consequent surging energy and water demand, it is necessary to implement energy and fuel production from low input renewable sources. Sweet sorghum (Sorghum bicolor Moench) is a low input multipurpose crop that provides food, feed and bioethanol from conversion of sugars accumulated in the stalk and biogas from anaerobic digestion of whole aboveground dry biomass. This multipurpose crop was studied in response to water deficit. In particular, the biomass production and its composition were evaluated in response to drought for new developed and commercial genotypes for biogas and bioethanol production. The physiologic and molecular approaches were combined in order to provide an integrated view on drought tolerance in sorghum enabling to know which are the mechanisms and with which extent they were affected by drought in this bioenergy crop. The transcriptomic analysis was performed on two sorghum genotypes (one sensitive and the other one tolerant to drought) with RNA-Seq technology in order to evaluate the diversity existing in the sorghum transcriptome that could be related to drought tolerance and to identify candidate genes that could be used as potentially marker for the marker assisted selection
Drought stress tolerance strategies revealed by RNA-Seq in two sorghum genotypes with contrasting WUE
No full textBackground: Drought stress is the major environmental stress that affects plant growth and productivity. It triggers a wide range of responses detectable at molecular, biochemical and physiological levels. At the molecular level the response to drought stress results in the differential expression of several metabolic pathways. For this reason, exploring the subtle differences in gene expression of drought sensitive and drought tolerant genotypes enables the identification of drought-related genes that could be used for selection of drought tolerance traits. Genome-wide RNA-Seq technology was used to compare the drought response of two sorghum genotypes characterized by contrasting water use efficiency. Results: The physiological measurements carried out confirmed the drought sensitivity of IS20351 and the drought tolerance of IS22330 genotypes, as previously studied. The expression of drought-related genes was more abundant in the drought sensitive genotype IS20351 compared to the tolerant genotype IS22330. Under drought stress Gene Ontology enrichment highlighted a massive increase in transcript abundance in the sensitive genotype IS20351 in "response to stress" and "abiotic stimulus", as well as for "oxidation-reduction reaction". "Antioxidant" and "secondary metabolism", "photosynthesis and carbon fixation process", "lipids" and "carbon metabolism" were the pathways most affected by drought in the sensitive genotype IS20351. In addition, genotype IS20351 showed a lower constitutive expression level of "secondary metabolic process" (GO:0019748) and "glutathione transferase activity" (GO:000004364) under well-watered conditions. Conclusions: RNA-Seq analysis proved to be a very useful tool to explore differences between sensitive and tolerant sorghum genotypes. Transcriptomics analysis results supported all the physiological measurements and were essential to clarify the tolerance of the two genotypes studied. The connection between differential gene expression and physiological response to drought unequivocally revealed the drought tolerance of genotype IS22330 and the strategy adopted to cope with drought stress.</p
Drought tolerance strategies highlighted by two Sorghum bicolor races in a dry-down experiment
No full textDrought stress is the major environmental stress that affects more and more frequently plant growth and productivity due to the current climate change scenario. Unravelling the physiological mechanism underlying the response of plants to water stress and discover traits related to drought tolerance provide new and powerful tools for the selection in breeding programmes. Four genotypes of Sorghum bicolor (L.) Moench were screened in a dry-down experiment using different approaches to discover physiological and molecular indicators of drought tolerance.Different strategies were identified in response to drought among the four genotypes and the two Sorghum race allowing to state the tolerance of durra race compared to the caudatum one and, within the durra race, the drought tolerance of the genotype IS22330. It retained high biomass production and high tolerance index, it had a low threshold of fraction of transpirable soil water and high capacity to recover leaf apparatus after drought stress. Furthermore in this study, the expression levels of four genes highlighted that they could be used as proxy for drought tolerance. Dehdrine (DHN) could be used for screening drought tolerance both in durra and in caudatum races. NADP-Malic Enzyme, Carbonic Anhydrase (CA) and Plasma membrane Intrinsic Protein (PIP2-5), being up-regulated by drought stress only in durra race, have a more limited, though nonetheless useful application. In the tolerant durra genotype IS22330 in particular, the regulation of stomatal openings was strongly related to NADP-Malic Enzyme expression.</p
Microarray analysis of differentially expressed mRNAs and miRNAs in young leaves of sorghum under dry-down conditions
No full textSorghum is a C4 plant adapted to semi-arid environments, and characterized by high water-use efficiency.
To better understand the molecular and physiological basis of drought response the sorghum genotype
IS19453, selected as a drought tolerant line during field trials, was evaluated in a “dry-down” experiment
under controlled conditions. The incoming stress was monitored by determining the water potential
available for 4-leaf-old plants. Control plants were maintained at approximately 2.5 pF, while water
stressed plants were sampled at 3.12, 3.65 and 4.14 pF. Transcriptome analysis was monitored using a
high density microarray containing all available sorghum TC sequences. Drought affected gene expression
at 4.14 pF; 1205 genes resulted up-regulated. Most of the differentially expressed genes were involved
in regulation of transcription (bZIPs, MYBs, HOXs), signal transduction (phosphoesterases, kinases, phosphatases),
carbon metabolism (NADP-ME), detoxification (CYPs, GST, AKRs), osmoprotection mechanisms
(P5CS) and stability of protein membranes (DHN1, LEA, HSPs). Several of them could be located in stay
green QTLs. Eight were selected and validated by qRT-PCR. A dedicated miRNA microarray allowed the
identification of four families of miRNAs up-regulated in the earlier phase of stress, while one family
was down-regulated. The selected drought related genes could be used to screen for potential drought
tolerance in other sorghum genotypes
Real-Time Determination of Photosynthesis, Transpiration, Water-Use Efficiency and Gene Expression of Two Sorghum bicolor (Moench) Genotypes Subjected to Dry-Down
Full text linkPlant growth and productivity are strongly affected by limited water availability in drought prone environments. The current climate change scenario, characterized by long periods without precipitations followed by short but intense rainfall, forces plants to implement different strategies to cope with drought stress. Understanding how plants use water during periods of limited water availability is of primary importance to identify and select the best adapted genotypes to a certain environment. Two sorghum genotypes IS22330 and IS20351, previously characterized as drought tolerant and drought sensitive genotypes, were subjected to progressive drought stress through a dry-down experiment. A whole-canopy multi-chamber system was used to determine the in vivo water use efficiency (WUE). This system records whole-canopy net photosynthetic and transpiration rate of 12 chambers five times per hour allowing the calculation of whole-canopy instantaneous WUE daily trends. Daily net photosynthesis and transpiration rates were coupled with gene expression dynamics of five drought related genes. Under drought stress, the tolerant genotype increased expression level for all the genes analyzed, whilst the opposite trend was highlighted by the drought sensitive genotype. Correlation between gene expression dynamics and gas exchange measurements allowed to identify three genes as valuable candidate to assess drought tolerance in sorghum
Increased water use efficiency in miR396-downregulated tomato plants
No full textMicroRNAs regulate plant development and responses to biotic and abiotic stresses but their impact on water use efficiency (WUE) is poorly known. Increasing WUE is a major task in crop improvement programs aimed to meet the challenges posed by the reduction in water availability associated with the ongoing climatic change. We have examined the physiological and molecular response to water stress of tomato (Solanum lycopersicum L.) plants downregulated for miR396 by target mimicry. In water stress conditions, miR396-downregulated plants displayed reduced transpiration and a less then proportional decrease in the photosynthetic rate that resulted in higher WUE. The increase in WUE was associated with faster foliar accumulation of abscisic acid (ABA), with the induction of several drought-protective genes and with the activation of the jasmonic acid (JA) and γ-aminobutyric acid (GABA) pathways. We propose a model in which the downregulation of miR396 leads to the activation of a complex molecular response to water stress. This response acts synergistically with a set of leaf morphological modifications to increase stomatal closure and preserve the efficiency of the photosynthetic activity, ultimately resulting in higher WUE
Going Beyond Counting First Authors in Author Co-citation Analysis
Full text linkThe present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation
counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings
are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that
only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into
account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed
Variations on the Author
Full text link“Variations on the Author” discusses two of Eduardo Coutinho’s recent films (Um Dia na Vida, from 2010, and Últimas Conversas, posthumously released in 2015) and their contribution to the general question of documentary authorship. The director’s filmography is characterized by a consistent yet self-effacing form of authorial self-inscription: Coutinho often features as an interviewer that rather than express opinions propels discourses; an interviewer that is good at listening. This mode of self-inscription characterizes him as an author who is not expressive but who is nonetheless markedly present on the screen. In Um Dia na Vida, however, Coutinho is completely absent form the image, while Últimas Conversas, on the contrary, includes a confessional prologue that moves the director from the margins to the center of his films. This article examines the ways in which these works stand out in the filmography of a director who offers new insights into the notion of cinematic authorship
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