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2. BIOLOGY SECTION – “THE IMPORTANCE OF G. GAMOW'S IDEAS FOR BIOLOGY OF THE 21st CENTURY” XXIII INTERNATIONAL CONFERENCE NAMED BY G. GAMOW THAT TOOK PLACE IN AUGUST 2023 AT ODESA I. I. MECHNIKOV NATIONAL UNIVERSITY

Author

Avogadro, E. G., primary, Alqudah, A. M., additional, Blagodarova, O. M., additional, Bucher, E., additional, Börner, A., additional, Volkov, R. A., additional, Gorodna, O., additional, Griffiths, S., additional, Gromyko, O., additional, Zelinska, N., additional, Kalynovskyi, V., additional, Kachor, A., additional, Kowalczyk, K., additional, Kondić-Špika, A., additional, Kumlehn, J., additional, Laneuville, P., additional, Livshits, L., additional, Lister, C., additional, Lohwasser, U., additional, Marinelli, F., additional, Moysiyenko, I. I., additional, Monczak, Yu., additional, Nagel, M., additional, Nucia, A., additional, Okoń, S., additional, Ociepa, T., additional, Panchuk, I. I., additional, Peltier, L., additional, Popovych, Yu. A., additional, Rebets, Y., additional, Samborskyy, M., additional, Simón, M. R., additional, Sirokha, D., additional, Segrè, G., additional, Slafer, G., additional, Thabet, S. G., additional, Tynkevich, Y. O., additional, Fedorenko, V., additional, Chebotar, S. V., additional, Chebotar, G., additional, Schierenbeck, M., additional, and Yushchuk, O., additional

Published
2023
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10. APLICACIÓN DE FUNGICIDAS Y FERTILIZACIÓN NITROGENADA EN AVENA: EFECTOS SOBRE LA GENERACIÓN DE BIOMASA AÉREA Y RENDIMIENTO.

Author

MARTINEZ, N., DIETZ, J. I., SCHIERENBECK, M., and SIMON, M. R.

Abstract

Copyright of Revista FAVE is the property of Universidad Nacional del Litoral and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2016

11. VARIABILIDAD EN LA RESISTENCIA A MANCHA AMARILLA EN GENOTIPOS DE TRIGOS PRIMAVERALES DE DIVERSOS ORÍGENES.

Author

URANGA, J. P., SCHIERENBECK, M., PERELLÓ, A. E., BORNER, A., and SIMÓN, M. R.

Abstract

Tan spot caused by Pyrenophora tritici-repentis (Died.) Drechs. (anamorph Drechslera tritici-repentis (Died.) Shoem.) is one of the most important wheat diseases. The aim of this work was to generate information about variability of the resistance to tan spot in a population of spring wheat genotypes. Field experiments were carried out in 2014 at the Experimental Station Julio Hirs chhorn, National University of La Plata. The experimental design was a split-plot with two replications. The main plots were two isolates of P. tritici-repentis. Subplots were 110 spring wheat genotypes. Severity evaluation was performed in seedlings as the area affected with necrosis and chlorosis. Genotypes and isolates significanlty influenced the disease severity. Los Hornos isolate was more aggressive than Gualeguaychú isolate . Severity ranged between 18,4% to 78,7%. Some genotypes showed better performance against one of the isolates. The high variability in resistance to tan spot found could be used in breeding to improve the resistance to the disease. [ABSTRACT FROM AUTHOR]

Published
2015

12. GENERACIÓN DE BIOMASA Y RENDIMIENTO EN TRIGO FRENTE A INFECCIONES DE PUCCINIA TRITICINA Y PYRENOPHORA TRITICI-REPENTIS.

Author

SCHIERENBECK, M., FLEITAS, M. C., GOLIK, S. I., and SIMÓN, M. R.

Abstract

The present study was designed to determine the effects of inoculations of foliar disease pathogens with different nutritional habits: Pyrenophora tritici-repentis (necrothroph -PTR-) and Puccinia triticina (biotroph -LR-) on the physiological components of biomass generation, like absorbed photosynthetic active radiation (APAR) and radiation use efficiency (RUE), and on the yield production in wheat. Field experiments were carried out in 2012-2013 at FCAyF-UNLP using a split-split-plot design with three replications. The main plots were the pathogen inoculations. Subplots were inoculation treatments: 1- Without inoculation, 2- Low dose of spores concentration inoculation, 3- High dose of spores concentration. Ten cultivars were the sub-subplots. Foliar diseases decreasedbiomass production mainly explained by reductions in green leaf area, healthy area duration and reductionson APAR, showing higher declines under PTR inoculations. A detrimental effect in the RUE was detected at LR inoculations, which could be associated with the nutritional habit of the pathogen. [ABSTRACT FROM AUTHOR]

Published
2015

13. EFICACIA DE CONTROL Y RESIDUALIDAD DE CURASEMILLAS SOBRE ENFERMEDADES FOLIARES DE TRIGO.

Author

GERARD, G. S., FLEITAS, M. C., SCHIERENBECK, M., and SIMÓN, M. R.

Abstract

Copyright of Revista FAVE is the property of Universidad Nacional del Litoral and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2015

14. Balancing between reality, ideality, and equity: critical reflections from recruiting key informants for qualitative health research.

Author

Luetke Lanfer H, Krawiec S, Schierenbeck M, Touzel V, and Reifegerste D

Subjects
Humans, Female, Male, Patient Selection, Interviews as Topic methods, Physicians psychology, Physicians statistics & numerical data, Adult, Research Design, Qualitative Research
Abstract

Background: Key informant interviews (KII) are a widely used method in qualitative health research to gain in-depth insights from individuals with specialized knowledge, experience, or access that is crucial to the research topic. However, there is growing criticism regarding how the selection of key informants is insufficiently described in research. This opacity is problematic as the authority and knowledge of key informants may be given undue weight in research findings, potentially overshadowing other non-expert samples. The resulting imbalance in representation can lead to favoring certain viewpoints while marginalizing others, and thereby reinforcing existing inequities., Methods: Using our KII study as an example, we demonstrate how we initially composed an ideal sample based on theoretical considerations and subsequently operationalized it in the field. We employed a selective recruitment strategy informed by intersectional theory, targeting physicians with migration backgrounds from Middle Eastern countries for a study on cancer prevention and screening. Our recruitment process combined direct methods, including database searches and email outreach, with indirect methods like snowball sampling and engagement with multipliers. The recruitment strategy was iterative, allowing for ongoing assessment and adaptation to ensure a diverse and representative sample., Results: The KII study successfully recruited 21 physicians with diverse social categories, including different genders, migration backgrounds, language skills, and medical specialties. Direct recruitment was more effective than indirect methods and allowed for greater control in reaching out to specific subsamples. It highlights the importance of flexible and persistent recruitment strategies to achieve the desired sample., Conclusions: This KII study underscores the interplay between methodological ideals and the practical realities of recruiting a diverse, carefully composed sample of key informants in health research. Our intersectional approach aimed to ensure equitable representation by considering power dynamics and refining recruitment strategies, while balancing the challenges of real-world fieldwork-such as engaging busy physicians with specific recruitment criteria-with practical adaptability. Our KII study emphasizes the need for ongoing reflexivity to balance ideality and equity with practical feasibility., Competing Interests: Declarations Ethics approval and consent to participate The research project was granted ethical clearance by the ethical board of Bielefeld University (No. 2022 − 181). Prospective participants from all samples received an information sheet, detailing their role, rights, type of data collection, data protection, and a consent form. Informed consent was obtained from all research participants. Invitations to attend any of the study components were extended to participants solely upon receipt of their signed consent forms. All our procedures have been performed in accordance with the ethical standards as laid down in the 1964 Declaration of Helsinki and its later amendments. Clinical trial number Not applicable. Consent for publication Written consent for publication was obtained from all study participants. Competing interests The authors declare no competing interests., (© 2024. The Author(s).)

Published
2024
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15. Exploring Novel Genomic Loci and Candidate Genes Associated with Plant Height in Bulgarian Bread Wheat via Multi-Model GWAS.

Author

Kartseva T, Aleksandrov V, Alqudah AM, Schierenbeck M, Tasheva K, Börner A, and Misheva S

Abstract

In the context of crop breeding, plant height (PH) plays a pivotal role in determining straw and grain yield. Although extensive research has explored the genetic control of PH in wheat, there remains an opportunity for further advancements by integrating genomics with growth-related phenomics. Our study utilizes the latest genome-wide association scan (GWAS) techniques to unravel the genetic basis of temporal variation in PH across 179 Bulgarian bread wheat accessions, including landraces, tall historical, and semi-dwarf modern varieties. A GWAS was performed with phenotypic data from three growing seasons, the calculated best linear unbiased estimators, and the leveraging genotypic information from the 25K Infinium iSelect array, using three statistical methods (MLM, FarmCPU, and BLINK). Twenty-five quantitative trait loci (QTL) associated with PH were identified across fourteen chromosomes, encompassing 21 environmentally stable quantitative trait nucleotides (QTNs), and four haplotype blocks. Certain loci (17) on chromosomes 1A, 1B, 1D, 2A, 2D, 3A, 3B, 4A, 5B, 5D, and 6A remain unlinked to any known Rht ( R educed h eigh t ) genes, QTL, or GWAS loci associated with PH, and represent novel regions of potential breeding significance. Notably, these loci exhibit varying effects on PH, contribute significantly to natural variance, and are expressed during seedling to reproductive stages. The haplotype block on chromosome 6A contains five QTN loci associated with reduced height and two loci promoting height. This configuration suggests a substantial impact on natural variation and holds promise for accurate marker-assisted selection. The potentially novel genomic regions harbor putative candidate gene coding for glutamine synthetase, gibberellin 2-oxidase, auxin response factor, ethylene-responsive transcription factor, and nitric oxide synthase; cell cycle-related genes, encoding cyclin, regulator of chromosome condensation (RCC1) protein, katanin p60 ATPase-containing subunit, and expansins; genes implicated in stem mechanical strength and defense mechanisms, as well as gene regulators such as transcription factors and protein kinases. These findings enrich the pool of semi-dwarfing gene resources, providing the potential to further optimize PH, improve lodging resistance, and achieve higher grain yields in bread wheat.

Published
2024
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16. Natural allelic variation confers diversity in the regulation of flag leaf traits in wheat.

Author

Schierenbeck M, Alqudah AM, Thabet SG, Avogadro EG, Dietz JI, Simón MR, and Börner A

Subjects
Genotype, Genetic Variation, Quantitative Trait, Heritable, Triticum genetics, Triticum growth & development, Plant Leaves genetics, Plant Leaves growth & development, Quantitative Trait Loci, Genome-Wide Association Study, Alleles, Polymorphism, Single Nucleotide, Phenotype
Abstract

Flag leaf (FL) dimension has been reported as a key ecophysiological aspect for boosting grain yield in wheat. A worldwide winter wheat panel consisting of 261 accessions was tested to examine the phenotypical variation and identify quantitative trait nucleotides (QTNs) with candidate genes influencing FL morphology. To this end, four FL traits were evaluated during the early milk stage under two growing seasons at the Leibniz Institute of Plant Genetics and Crop Plant Research. The results showed that all leaf traits (Flag leaf length, width, area, and length/width ratio) were significantly influenced by the environments, genotypes, and environments × genotypes interactions. Then, a genome-wide association analysis was performed using 17,093 SNPs that showed 10 novel QTNs that potentially play a role in modulating FL morphology in at least two environments. Further analysis revealed 8 high-confidence candidate genes likely involved in these traits and showing high expression values from flag leaf expansion until its senescence and also during grain development. An important QTN (wsnp_RFL_Contig2177_1500201) was associated with FL width and located inside TraesCS3B02G047300 at chromosome 3B. This gene encodes a major facilitator, sugar transporter-like, and showed the highest expression values among the candidate genes reported, suggesting their positive role in controlling flag leaf and potentially being involved in photosynthetic assimilation. Our study suggests that the detection of novel marker-trait associations and the subsequent elucidation of the genetic mechanism influencing FL morphology would be of interest for improving plant architecture, light capture, and photosynthetic efficiency during grain development., (© 2024. The Author(s).)

Published
2024
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17. Green Revolution dwarfing Rht genes negatively affected wheat floral traits related to cross-pollination efficiency.

Author

Schierenbeck M, Alqudah AM, Lantos E, Avogadro EG, Simón MR, and Börner A

Subjects
Plant Proteins genetics, Plant Proteins metabolism, Plant Breeding methods, Phenotype, Genes, Plant genetics, Triticum genetics, Triticum physiology, Triticum growth & development, Flowers genetics, Flowers physiology, Flowers growth & development, Alleles, Pollination
Abstract

Hybrid breeding is a promising strategy to quickly improve wheat yield and stability. Due to the usefulness of the Rht 'Green Revolution' dwarfing alleles, it is important to gain a better understanding of their impact on traits related to hybrid development. Traits associated with cross-pollination efficiency were studied using Near Isogenic Lines carrying the different sets of alleles in Rht genes: Rht1 (semi-dwarf), Rht2 (semi-dwarf), Rht1 + 2 (dwarf), Rht3 (extreme dwarf), Rht2 + 3 (extreme dwarf), and rht (tall) during four growing seasons. Results showed that the extreme dwarfing alleles Rht2 + 3, Rht3, and Rht1 + 2 presented the greatest effects in all the traits analyzed. Plant height showed reductions up to 64% (Rht2 + 3) compared to rht. Decreases up to 20.2% in anther length and 33% in filament length (Rht2 + 3) were observed. Anthers extrusion decreased from 40% (rht) to 20% (Rht1 and Rht2), 11% (Rht3), 8.3% (Rht1 + 2), and 6.5% (Rht2 + 3). Positive correlations were detected between plant height and anther extrusion, anther, and anther filament lengths, suggesting the negative effect of dwarfing alleles. Moreover, the magnitude of these negative impacts depends on the combination of the alleles: Rht2 + 3 > Rht3/Rht1 + 2 > Rht2/Rht1 > rht (tall). Reductions were consistent across genotypes and environments with interactions due to magnitude effects. Our results indicate that Rht alleles are involved in multiple traits of interest for hybrid wheat production and the need to select alternative sources for reduced height/lodging resistance for hybrid breeding programs., (© 2024 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.)

Published
2024
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18. Wheat Grains as a Sustainable Source of Protein for Health.

Author

Alomari DZ, Schierenbeck M, Alqudah AM, Alqahtani MD, Wagner S, Rolletschek H, Borisjuk L, and Röder MS

Subjects
Humans, Quantitative Trait Loci, Genome-Wide Association Study, Proteomics, Triticum chemistry, Grain Proteins metabolism
Abstract

Protein deficiency is recognized among the major global health issues with an underestimation of its importance. Genetic biofortification is a cost-effective and sustainable strategy to overcome global protein malnutrition. This study was designed to focus on protein-dense grains of wheat ( Triticum aestivum L.) and identify the genes governing grain protein content (GPC) that improve end-use quality and in turn human health. Genome-wide association was applied using the 90k iSELECT Infinium and 35k Affymetrix arrays with GPC quantified by using a proteomic-based technique in 369 wheat genotypes over three field-year trials. The results showed significant natural variation among bread wheat genotypes that led to detecting 54 significant quantitative trait nucleotides (QTNs) surpassing the false discovery rate (FDR) threshold. These QTNs showed contrasting effects on GPC ranging from -0.50 to +0.54% that can be used for protein content improvement. Further bioinformatics analyses reported that these QTNs are genomically linked with 35 candidate genes showing high expression during grain development. The putative candidate genes have functions in the binding, remobilization, or transport of protein. For instance, the promising QTN AX-94727470 on chromosome 6B increases GPC by +0.47% and is physically located inside the gene TraesCS6B02G384500 annotated as Trehalose 6-phosphate phosphatase (T6P), which can be employed to improve grain protein quality. Our findings are valuable for the enhancement of protein content and end-use quality in one of the major daily food resources that ultimately improve human nutrition.

Published
2023
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19. Detecting Bone Marrow Edema of the Extremities on Spectral Computed Tomography Using a Three-Material Decomposition.

Author

Schierenbeck M, Grözinger M, Reichardt B, Jansen O, Kauczor HU, Campbell GM, and Sedaghat S

Abstract

Background: Detecting bone marrow edema (BME) as a sign of acute fractures is challenging on conventional computed tomography (CT). This study evaluated the diagnostic performance of a three-material decomposition (TMD) approach for detecting traumatic BME of the extremities on spectral computed tomography (SCT)., Methods: This retrospective diagnostic study included 81 bone compartments with and 80 without BME. A TMD application to visualize BME was developed in collaboration with Philips Healthcare. The following bone compartments were included: distal radius, proximal femur, proximal tibia, distal tibia and fibula, and long bone diaphysis. Two blinded radiologists reviewed each case independently in random order for the presence or absence of BME., Results: The interrater reliability was 0.84 ( p < 0.001). The different bone compartments showed sensitivities of 86.7% to 93.8%, specificities of 84.2% to 94.1%, positive predictive values of 82.4% to 94.7%, negative predictive values of 87.5% to 93.3%, and area under the curve (AUC) values of 85.7% to 93.1%. The distal radius showed the highest sensitivity and the proximal femur showed the lowest sensitivity, while the proximal femur presented the highest specificity and the distal tibia presented the lowest specificity., Conclusions: Our TMD approach provides high diagnostic performance for detecting BME of the extremities. Therefore, this approach could be used routinely in the emergency setting.

Published
2023
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20. Endovascular Aneurysm Sac Embolization for Treatment of Ruptured Aneurysms in the Aortoiliac Segment Using N-Butyl-Cyanoacrylate.

Author

Mostafa K, Schierenbeck M, Trentmann J, Gottschalk H, Andersson J, Pfarr J, Sieren M, Jansen O, and Schäfer PJ

Abstract

Background Aneurysmal rupture in the aortoiliac segment is a severe, life-threatening condition. Nowadays, in addition to surgical treatment, the implantation of a covered stent graft constitutes a feasible, minimally invasive treatment option. A novel approach is the add-on of transarterial aneurysm sac embolization with N-butyl-cyanoacrylate (NBCA). Here, we report our experience of performing this add-on embolization procedure after endovascular aneurysm repair for complex ruptured aneurysms of the aortoiliac segment. Material and Methods We describe six patients (mean age of 75.2 years; all male) with ruptured aneurysms in the visceral aortic and aortoiliac segment in whom a high-volume transarterial aneurysm sac embolization was performed as an add-on therapy to the implantation of an aortic prosthesis. The aim of this add-on intervention was to achieve the definite embolization of the aneurysmal rupture site and to ensure the best possible aneurysmal sealing. We report the feasibility, technical success, and considerations of using NBCA as well as clinical and follow-up imaging results, given their availability. Results Technical success was achieved in all cases. Clinical success was achieved in four cases. No periprocedural complications or reinterventions were reported. The mean full procedure time was 107.8 min. The mean radiation dose was 12,966.1 cGy/cm 2 . A mean amount of 10.7 mL of NBCA mixed with lipiodol in a 1:3 to 1:5 ratio was used for all patients. Available follow-up imaging up to 36 months after the procedure showed no aneurysm progression or endoleaks. In two patients, the NBCA cast had almost fully dissolved over the course of follow-up. Conclusions Our study underscores the notion that aneurysm sac embolization using high volumes of NBCA with ethiodized oil as an embolic agent is a feasible and add-on treatment option for optimizing the exclusion of the aneurysm from patients with ruptured aneurysms in the aortoiliac segment.

Published
2023
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21. Association mapping unravels the genetics controlling seedling drought stress tolerance in winter wheat.

Author

Schierenbeck M, Alqudah AM, Thabet SG, Lohwasser U, Simón MR, and Börner A

Abstract

Drought is a major constraint in wheat ( Triticum aestivum L. ) grain yield. The present work aimed to identify quantitative trait nucleotides (QTNs)/ candidate genes influencing drought tolerance-related traits at the seedling stage in 261 accessions of a diverse winter wheat panel. Seeds from three consecutive years were exposed to polyethylene glycol 12% (PEG-6000) and a control treatment (distilled water). The Farm-CPU method was used for the association analysis with 17,093 polymorphic SNPs. PEG treatment reduced shoot length (SL) (-36.3%) and root length (RL) (-11.3%) compared with control treatments, while the coleoptile length (CL) was increased by 11% under drought conditions, suggesting that it might be considered as an indicator of stress-tolerance. Interestingly, we revealed 70 stable QTN across 17 chromosomes. Eight QTNs related to more than one trait were detected on chromosomes 1B, 2A (2), 2B, 2D, 4B, 7A, and 7B and located nearby or inside candidate genes within the linkage disequilibrium (LD) interval. For instance, the QTN on chromosome 2D is located inside the gene TraesCS2D02G133900 that controls the variation of CL&#95;S and SL&#95;C. The allelic variation at the candidate genes showed significant influence on the associated traits, demonstrating their role in controlling the natural variation of multi-traits of drought stress tolerance. The gene expression of these candidate genes under different stress conditions validates their biological role in stress tolerance. Our findings offer insight into understanding the genetic factors and diverse mechanisms in response to water shortage conditions that are important for wheat improvement and adaptation at early developmental stages., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Schierenbeck, Alqudah, Thabet, Lohwasser, Simón and Börner.)

Published
2023
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22. Screening Spring Wheat Genotypes for TaDreb-B1 and Fehw3 Genes under Severe Drought Stress at the Germination Stage Using KASP Technology.

Author

Mohamed EA, Ahmed AAM, Schierenbeck M, Hussein MY, Baenziger PS, Börner A, and Sallam A

Subjects
Droughts, Genotype, Seedlings genetics, Germination, Triticum genetics
Abstract

Drought stress is a major yield-limiting factor throughout the world in wheat ( Triticum aestivum L.), causing losses of up to 80% of the total yield. The identification of factors affecting drought stress tolerance in the seedling stage is especially important to increase adaptation and accelerate the grain yield potential. In the current study, 41 spring wheat genotypes were tested for their tolerance to drought at the germination stage under two different polyethylene glycol concentrations (PEG) of 25% and 30%. For this purpose, twenty seedlings from each genotype were evaluated in triplicate with a randomized complete block design (RCBD) in a controlled growth chamber. The following nine parameters were recorded: germination pace (GP), germination percentage (G%), number of roots (NR), shoot length (SL), root length (RL), shoot-root length ratio (SRR), fresh biomass weight (FBW), dry biomass weight (DBW), and water content (WC). An analysis of variance (ANOVA) revealed highly significant differences ( p < 0.01) among the genotypes, treatments (PEG25%, PEG30%) and genotypes × treatment interaction, for all traits. The broad-sense heritability (H 2 ) estimates were very high in both concentrations. They ranged from 89.4 to 98.9% under PEG25% and from 70.8 to 98.7% under PEG30%. Citr15314 (Afghanistan) was among the best performing genotypes under both concentrations for most of the germination traits. Two KASP markers for TaDreb-B1 and Fehw3 genes were used to screen all genotypes and to study the effect of these on drought tolerance at the germination stage. All genotypes with Fehw3 (only) showed a better performance for most traits under both concentrations compared to other genotypes having TaDreb-B1 or having both genes. To our knowledge, this work is the first report showing the effect of the two genes on germination traits under severe drought stress conditions.

Published
2023
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23. The Interaction of Fungicide and Nitrogen for Aboveground Biomass from Flag Leaf Emergence and Grain Yield Generation under Tan Spot Infection in Wheat.

Author

Schierenbeck M, Fleitas MC, and Simón MR

Abstract

Pyrenophora tritici-repentis (Died.) Drechs., the causal agent of tan spot, is one of the most serious biotic diseases affecting wheat worldwide ( Triticum aestivum L.). Studying the interaction between different fungicide mixtures and nitrogen (N) rates under tan spot outbreaks is of key importance for reducing aboveground biomass and grain yield losses. Taking this into account, our study took a mechanistic approach to estimating the combined effect of different fungicides and N fertilization schemes on the severity of tan spot, green leaf area index, SPAD index, aboveground biomass dynamics, and yield in a wheat crop affected at the reproductive stage. Our results indicated that reductions in green leaf area, healthy area duration (HAD), and the chlorophyll concentration (SPAD index) due to increases in the percentage of damage led to decreases in biomass production (-19.2%) and grain yield (-48.1%). Fungicides containing triazole + strobilurin + carboxamides (TSC) or triazole + strobilurin (TS) combined with high N doses showed the most efficient disease control. The positive physiological effects of TSC fungicides, such as extending the green leaf area, are probably responsible for the greater production of aboveground biomass (+29.3%), as well as the positive effects on grain yield (+15.8%) with respect to TS. Both fungicide treatments increased grains per spike, kernel weight, spikes m -2 , grains m -2 and grain yield. The increase in biomass in the TSC tended to cause slighter non-significant increases in grains per spike, 1000-kernel weight and grain yield compared with TS. The linear regression revealed positive associations among the extension of HAD and biomass (+5.88 g.m , and grain yield. The increase in biomass in the TSC tended to cause slighter non-significant increases in grains per spike, 1000-kernel weight and grain yield compared with TS. The linear regression revealed positive associations among the extension of HAD and biomass (+5.88 g.m -2 .HAD -1 .day -1 ), grain yield (+38 kg.ha.HAD -1 ), and grain number (100.7 grains m -1 ), and grain number (100.7 grains m 2 .HAD -1 .day -1 ), explained by the interactions of high N doses and fungicides. Our study is the first report of the positive effect of TSC fungicides with high N doses on grain yield related-traits under tan spot infections in wheat.

Published
2023
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25. Genetic dissection of grain architecture-related traits in a winter wheat population.

Author

Schierenbeck M, Alqudah AM, Lohwasser U, Tarawneh RA, Simón MR, and Börner A

Subjects
Edible Grain anatomy & histology, Edible Grain genetics, Genetic Variation, Genome, Plant, Genome-Wide Association Study, Quantitative Trait Loci, Genotype, Phenotype, Polymorphism, Single Nucleotide, Seeds anatomy & histology, Seeds genetics, Triticum anatomy & histology, Triticum genetics
Abstract

Background: The future productivity of wheat (T. aestivum L.) as the most grown crop worldwide is of utmost importance for global food security. Thousand kernel weight (TKW) in wheat is closely associated with grain architecture-related traits, e.g. kernel length (KL), kernel width (KW), kernel area (KA), kernel diameter ratio (KDR), and factor form density (FFD). Discovering the genetic architecture of natural variation in these traits, identifying QTL and candidate genes are the main aims of this study. Therefore, grain architecture-related traits in 261 worldwide winter accessions over three field-year experiments were evaluated., Results: Genome-wide association analysis using 90K SNP array in FarmCPU model revealed several interesting genomic regions including 17 significant SNPs passing false discovery rate threshold and strongly associated with the studied traits. Four of associated SNPs were physically located inside candidate genes within LD interval e.g. BobWhite&#95;c5872&#95;589 (602,710,399 bp) found to be inside TraesCS6A01G383800 (602,699,767-602,711,726 bp). Further analysis reveals the four novel candidate genes potentially involved in more than one grain architecture-related traits with a pleiotropic effects e.g. TraesCS6A01G383800 gene on 6A encoding oxidoreductase activity was associated with TKW and KA. The allelic variation at the associated SNPs showed significant differences betweeen the accessions carying the wild and mutated alleles e.g. accessions carying C allele of BobWhite&#95;c5872&#95;589, TraesCS6A01G383800 had significantly higher TKW than the accessions carying T allele. Interestingly, these genes were highly expressed in the grain-tissues, demonstrating their pivotal role in controlling the grain architecture., Conclusions: These results are valuable for identifying regions associated with kernel weight and dimensions and potentially help breeders in improving kernel weight and architecture-related traits in order to increase wheat yield potential and end-use quality., (© 2021. The Author(s).)

Published
2021
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26. How Foliar Fungal Diseases Affect Nitrogen Dynamics, Milling, and End-Use Quality of Wheat.

Author

Simón MR, Fleitas MC, Castro AC, and Schierenbeck M

Abstract

Foliar fungal diseases may cause important losses on yield and quality of wheat ( Triticum aestivum L.). They may impact crop growth rate differently, modifying nitrogen (N) dynamics and carbohydrate accumulation in the grain. The relationship between N and carbohydrates accumulation determines the grain protein concentration, which impacts the gluten concentration and rheological properties of the wheat flour. In addition, types of fungicides and N fertilization can influence the intensity of foliar diseases and have an effect on the milling and end-use quality, depending on the bread-making aptitude of the genotypes, the nutritional habit of the pathogen involved, the amount and time of infection, environmental factors, and interactions between these factors. In that way, N fertilization may modify the severity of the diseases according to the nutritional habit of the pathogen involved. Some fungicides, such as strobilurins and carboxamides, produce high levels of disease control and prolong the healthy leaf area duration, which translates into important yield responses, potentially compromising the grain protein concentration by additional carbohydrate production, with consequences in the bread-making quality. Furthermore, infections caused by biotrophic pathogens can be more damaging to N deposition than to dry matter accumulation, whereas the reverse has been generally true for diseases caused by necrotrophic pathogens. The time of infection could also affect yield components and N dynamics differentially. Early epidemics may reduce the number of grains per area and the N remobilization, whereas late epidemics may affect the thousand kernel weight and mainly the N absorption post-flowering. A review updating findings of the effects of infections caused by foliar fungal pathogens of different nutritional habits and the incidence of several factors modifying these effects on the above-ground biomass generation, N dynamics, protein and gluten concentration, milling, rheological properties, loaf volume, and other quality-related traits is summarized. Three main pathogens in particular, for which recent information is available, were taken as representative of biotrophic ( Puccinia triticina ), necrotrophic ( Pyrenophora tritici - repentis ), and hemibiotrophic ( Zymoseptoria tritici ) nutritional habit, and some general models of their effects are proposed. New challenges for researchers to minimize the impact of foliar diseases on end-use quality are also discussed., (Copyright © 2020 Simón, Fleitas, Castro and Schierenbeck.)

Published
2020
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