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7,904 results on '"Audenaert, K."'

51. The phenylpropanoid pathway inhibitor piperonylic acid induces broad-spectrum pest and disease resistance in plants.

Author

Desmedt W, Jonckheere W, Nguyen VH, Ameye M, De Zutter N, De Kock K, Debode J, Van Leeuwen T, Audenaert K, Vanholme B, and Kyndt T

Subjects
Animals, Botrytis, Flavonoids metabolism, Gene Expression Profiling, Solanum lycopersicum drug effects, Solanum lycopersicum immunology, Solanum lycopersicum microbiology, Metabolic Networks and Pathways drug effects, Nematoda metabolism, Plant Diseases immunology, Plant Diseases microbiology, Plant Diseases parasitology, Plant Growth Regulators metabolism, Plant Roots immunology, Plant Roots parasitology, Pseudomonas syringae, Transcriptome, Benzoates pharmacology, Disease Resistance drug effects
Abstract

Although many phenylpropanoid pathway-derived molecules act as physical and chemical barriers to pests and pathogens, comparatively little is known about their role in regulating plant immunity. To explore this research field, we transiently perturbed the phenylpropanoid pathway through application of the CINNAMIC ACID-4-HYDROXYLASE (C4H) inhibitor piperonylic acid (PA). Using bioassays involving diverse pests and pathogens, we show that transient C4H inhibition triggers systemic, broad-spectrum resistance in higher plants without affecting growth. PA treatment enhances tomato (Solanum lycopersicum) resistance in field and laboratory conditions, thereby illustrating the potential of phenylpropanoid pathway perturbation in crop protection. At the molecular level, transcriptome and metabolome analyses reveal that transient C4H inhibition in tomato reprograms phenylpropanoid and flavonoid metabolism, systemically induces immune signalling and pathogenesis-related genes, and locally affects reactive oxygen species metabolism. Furthermore, C4H inhibition primes cell wall modification and phenolic compound accumulation in response to root-knot nematode infection. Although PA treatment induces local accumulation of the phytohormone salicylic acid, the PA resistance phenotype is preserved in tomato plants expressing the salicylic acid-degrading NahG construct. Together, our results demonstrate that transient phenylpropanoid pathway perturbation is a conserved inducer of plant resistance and thus highlight the crucial regulatory role of this pathway in plant immunity., (© 2021 John Wiley & Sons Ltd.) more...

Published
2021
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52. Cross-talk between Fusarium verticillioides and Aspergillus flavus in vitro and in planta.

Author

Chen X, Landschoot S, Detavernier C, De Saeger S, Rajkovic A, and Audenaert K

Subjects
Aspergillus flavus growth & development, Fusarium growth & development, Mycotoxins biosynthesis, Aspergillus flavus metabolism, Fusarium metabolism, Microbial Interactions, Mycotoxins analysis, Zea mays microbiology
Abstract

Driven by increasing temperatures and the higher incidences of heat waves during summer, an increased incidence of Aspergillus flavus next to Fusarium verticillioides in European maize can be expected. In the current study, we investigated the interaction between both species. Colonies of A. flavus/F. verticillioides were grown in a single culture, in a dual culture, and in a mixed culture. The growth rate of A. flavus and F. verticillioides grown in a dual or mixed culture with the other species was clearly slower compared to the growth rate in a single culture. Mycotoxin production was in most cases negatively affected by dual or mixed inoculation. In planta, a dual inoculation resulted in reduced lesions of A. flavus, whereas the lesion size and toxin production of F. verticillioides were unaffected in the presence of A. flavus. The lesions as a result of a mixed inoculation were 112% bigger than a single A. flavus inoculation and 9% smaller than a single F. verticillioides inoculation. The fumonisin levels were 17% higher compared to a single inoculation. In case A. flavus was present two days before F. verticillioides, the lesion size of F. verticillioides was 55% smaller compared to a single F. verticillioides inoculation, and fumonisin production was almost completely inhibited. The interaction between A. flavus and F. verticillioides is highly dynamic and depends on the experimental conditions, on the variables measured and on the way they colonize the host, in two inoculation points, simultaneously in one inoculation point, or sequentially one species colonizing an existing lesion made by the other., (© 2021. Society for Mycotoxin (Research Gesellschaft für Mykotoxinforschung e.V.) and Springer-Verlag GmbH Germany, part of Springer Nature.) more...

Published
2021
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54. Aspergillus flavus and Fusarium verticillioides and Their Main Mycotoxins: Global Distribution and Scenarios of Interactions in Maize.

Author

Chen X, Abdallah MF, Landschoot S, Audenaert K, De Saeger S, Chen X, and Rajkovic A

Abstract

Maize is frequently contaminated with multiple mycotoxins, especially those produced by Aspergillus flavus and Fusarium verticillioides . As mycotoxin contamination is a critical factor that destabilizes global food safety, the current review provides an updated overview of the (co-)occurrence of A. flavus and F. verticillioides and (co-)contamination of aflatoxin B1 (AFB1) and fumonisin B1 (FB1) in maize. Furthermore, it summarizes their interactions in maize. The gathered data predict the (co-)occurrence and virulence of A. flavus and F. verticillioides would increase worldwide, especially in European cold climate countries. Studies on the interaction of both fungi regarding their growth mainly showed antagonistic interactions in vitro or in planta conditions. However, the (co-)contamination of AFB1 and FB1 has risen worldwide in the last decade. Primarily, this co-contamination increased by 32% in Europe (2010-2020 vs. 1992-2009). This implies that fungi and mycotoxins would severely threaten European-grown maize. more...

Published
2023
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55. Uncovering Genomic Features and Biosynthetic Gene Clusters in Endophytic Bacteria from Roots of the Medicinal Plant Alkanna tinctoria Tausch as a Strategy To Identify Novel Biocontrol Bacteria.

Author

Naranjo HD, Rat A, De Zutter N, De Ridder E, Lebbe L, Audenaert K, and Willems A

Subjects
Humans, Reproducibility of Results, Bacteria, Fungi, Genomics, Pseudomonas metabolism, Multigene Family, Plant Diseases prevention & control, Plant Diseases microbiology, Antifungal Agents metabolism, Plants, Medicinal genetics, Plants, Medicinal metabolism
Abstract

The world's population is increasing at a rate not seen in the past. Agriculture, providing food for this increasing population, is reaching its boundaries of space and natural resources. In addition, changing legislation and increased ecological awareness are forcing agriculture to reduce its environmental impact. This entails the replacement of agrochemicals with nature-based solutions. In this regard, the search for effective biocontrol agents that protect crops from pathogens is in the spotlight. In this study, we have investigated the biocontrol activity of endophytic bacteria isolated from the medicinal plant Alkanna tinctoria Tausch. To do so, an extensive collection of bacterial strains was initially genome sequenced and in silico screened for features related to plant stimulation and biocontrol. Based on this information, a selection of bacteria was tested in vitro for antifungal activity using direct antagonism in a plate assay and in planta with a detached-leaf assay. Bacterial strains were tested individually and in combinations to assess the best-performing treatments. The results revealed that many bacteria could produce metabolites that efficiently inhibit the proliferation of several fungi, especially Fusarium graminearum. Among these, Pseudomonas sp. strain R-71838 showed a strong antifungal effect, in both dual-culture and in planta assays, making it the most promising candidate for biocontrol application. Using microbes from medicinal plants, this study highlights the opportunities of using genomic information to speed up the screening of a taxonomically diverse set of bacteria with biocontrol properties. IMPORTANCE Phytopathogenic fungi are a major threat to global food production. The most common management practice to prevent plant infections involves the intensive use of fungicides. However, with the growing awareness of the ecological and human impacts of chemicals, there is a need for alternative strategies, such as the use of bacterial biocontrol agents. Limitations in the design of bacterial biocontrol included the need for labor-intensive and time-consuming experiments to test a wide diversity of strains and the lack of reproducibility of their activity against pathogens. Here, we show that genomic information is an effective tool to select bacteria of interest quickly. Also, we highlight that the strain Pseudomonas sp. R-71838 produced a reproducible antifungal effect both in vitro and in planta . These findings build a foundation for designing a biocontrol strategy based on Pseudomonas sp. R-71838., Competing Interests: The authors declare no conflict of interest. more...

Published
2023
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60. Uncovering the biofumigant capacity of allyl isothiocyanate from several Brassicaceae crops against Fusarium pathogens in maize.

Author

Vandicke J, De Visschere K, Deconinck S, Leenknecht D, Vermeir P, Audenaert K, and Haesaert G

Subjects
Fumigation, Fungicides, Industrial chemistry, Fusarium growth & development, Gas Chromatography-Mass Spectrometry, Isothiocyanates chemistry, Mustard Plant classification, Plant Extracts chemistry, Fungicides, Industrial pharmacology, Fusarium drug effects, Isothiocyanates pharmacology, Mustard Plant chemistry, Plant Diseases microbiology, Plant Extracts pharmacology, Zea mays microbiology
Abstract

Background: Driven by environmental concerns, chemical fumigants are no longer allowed in many countries. Therefore, other strategies for reducing fungal inoculum in soils and on crop debris are being explored. In the present study, several Brassicaceae crops were screened for their potential to control Fusarium gramineaum and Fusarium poae mycelial growth in an in vitro inverted Petri dish experiment. Volatile production was measured using gas chromatography-mass spectrometry headspace analysis. A selection of cultivars from each crop species was further investigated using a pot experiment with maize., Results: Ethiopian mustard (Brassica carinata) and brown mustard (Brassica juncea) released volatile allyl isothiocyanate (AITC) and a higher concentration of AITC was correlated with a better fungal growth reduction in the in vitro screening. Brown mustard cultivar Etamine completely inhibited growth of both Fusarium spp. Pure AITC in a solution with methanol resulted in a sigmoid dose-response curve for both Fusarium spp. tested. Fusarium poae appeared to be more tolerant to AITC than F. graminearum. A pot experiment revealed that the incorporation of brown mustard plant material could alleviate the clear negative effect of F. graminearum infection on maize growth., Conclusion: The present study demonstrated the correlation between the fungistatic effect of biofumigation crops on Fusarium spp. and their production of volatile AITC in vitro, without the addition of exogenous enzymes, and confirmed the biofumigation potential of brown mustard in a pot experiment with maize. These results may help farmers when selecting a green manure crop suitable for biofumigation. © 2020 Society of Chemical Industry., (© 2020 Society of Chemical Industry.) more...

Published
2020
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63. Accelerated high frequency rTMS induces time-dependent dopaminergic alterations: a DaTSCAN brain imaging study in healthy beagle dogs.

Author

Xu Y, Peremans K, Salden S, Audenaert K, Dobbeleir A, Van Eeckhaut A, De Bundel D, Saunders JH, and Baeken C

Abstract

Aim: The neurobiological effects of repetitive transcranial magnetic stimulation are believed to run in part through the dopaminergic system. Accelerated high frequency rTMS (aHF-rTMS), a new form of stimuli delivery, is currently being tested for its usefulness in treating human and canine mental disorders. However, the short-and long-term neurobiological effects are still unclear, including the effects on the dopaminergic system. In aHF-rTMS, multiple sessions are delivered within 1 day instead of one session per day, not only to accelerate the time to response but also to increase clinical efficacy. To gain more insight into the neurobiology of aHF-rTMS, we investigated whether applying five sessions in 1 day has direct and/or delayed effects on the dopamine transporter (DAT), and on dopamine metabolites of cerebrospinal fluid (CSF) in beagles., Materials and Methods: Thirteen beagles were randomly divided into two groups: five active stimulation sessions ( n  = 9), and 5 sham stimulation sessions ( n  = 4). Using DaTSCAN, DAT binding indices (BI) were obtained at baseline, after 1 day, 1 month, and 3 months post stimulation. CSF samples were collected after each scan., Results: Active aHF-rTMS significantly reduced striatal DAT BI 1 day post-active stimulation session ( p  < 0.01), and the effect lasted to 1 month ( p  < 0.01). No significant DAT BI change was found in sham group. No significant changes in dopamine metabolites of CSF were found., Conclusion: Although no significant effects on CSF dopamine metabolites were observed, five sessions of active aHF-rTMS significantly decreased striatal DAT BI after 1 day and up to 1 month post stimulation, indicating immediate and delayed effects on the brain dopaminergic system. Our findings in healthy beagles further substantiate the assumption that (a)HF-rTMS affects the brain dopaminergic system and it may pave the way to apply (a)HF-rTMS treatment in behaviorally disturbed dogs., 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 Xu, Peremans, Salden, Audenaert, Dobbeleir, Van Eeckhaut, De Bundel, Saunders and Baeken.) more...

Published
2023
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71. Deciphering Alternaria metabolic responses in microbial confrontation via an integrated mass spectrometric targeted and non-targeted strategy.

Author

Tian Y, Abdallah MF, De Boevre M, Audenaert K, Wang C, De Saeger S, and Wu A

Subjects
Alternaria metabolism, Plant Diseases microbiology, Antibiosis, Trichoderma genetics, Trichoderma metabolism, Mycotoxins metabolism
Abstract

Microbial confrontation is ubiquitously present in nature, such as mycoparasitism, competition and antibiosis between biocontrol agents and microbial pathogens. However, the internal metabolic responses of fungal pathogens under microbial interaction scenario have been scarcely investigated. In this study, we set up an integrated mycotoxin analysis and non-targeted metabolomics workflow to decipher metabolic changes of Alternaria pathogens when confronted with selected Trichoderma strains, as well as mycotoxin metabolization in the Trichoderma spp. Results demonstrated that Trichoderma spp. significantly influenced mycotoxin production and whole metabolome of Alternaria pathogens when in cocultivation, and one Trichoderma strain could metabolize alternariol into its hydroxylated form. These differential metabolites revealed fungal physiological alternations in various confrontation conditions. In all, a MS-based strategy was proposed to investigate microbial metabolic profiles under fungal/fungal and fungal/mycotoxin cocultivation, and this generic methodology would be significant for understanding the occurrence and change of food contaminants in microbial interactions., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.) more...

Published
2023
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72. β-Aminobutyric acid induced phytotoxicity and effectiveness against nematode is stereomer-specific and dose-dependent in tomato.

Author

Singh RR, Ameye M, Haesaert G, Deveux M, Spanoghe P, Audenaert K, Rabasse JM, and Kyndt T

Subjects
Anthocyanins, Aminobutyrates, Soil, Solanum lycopersicum
Abstract

β-Aminobutyric acid (BABA) induces resistance to a/biotic stress but is associated with phytotoxicity in some plant species. There are two enantiomers of BABA, the R and S enantiomers. We evaluated the phytotoxicity caused by the RS BABA (racemic mixture of R and S BABA), evaluating the dose-response effect and different modes of application on tomato. Results show that RS BABA-induced phytotoxicity in tomato is dose-dependent and stronger with foliar applications than with soil drench. We further evaluated the phytotoxicity of the two enantiomers separately and observed that BABA-induced phytotoxicity is stereomer-specific. In comparison with less phytotoxic effects induced by S BABA, R BABA induces dose-dependent and systemic phytotoxic symptoms. To investigate the possible physiological causes of this phytotoxicity, we measured levels of oxidative stress and anthocyanins and validated the findings with gene expression analyses. Our results show that high doses of RS and R BABA induce hydrogen peroxide, lipid peroxidation, and anthocyanin accumulation in tomato leaves, while this response is milder and more transient upon S BABA application. Next, we evaluated BABA induced resistance against root-knot nematode Meloidogyne incognita in tomato. BABA-induced resistance was found to be stereomer-specific and dependent on dose and mode of application. R or RS BABA multiple soil drench application at low doses induces resistance to nematodes with less phytotoxic effects. Taken together, our data provide useful knowledge on how BABA can be applied in crop production by enhancing stress tolerance and limiting phytotoxicity., (© 2023 Scandinavian Plant Physiology Society.) more...

Published
2023
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81. Abstracts of Papers presented at a Workshop on Ecology of Botrytis and Sclerotinia and their Interaction With Other Microorganisms Abstracts of Papers Presented at a Workshop on Genetic Aspects ofFusarium oxysporum and Related Species Abstracts of Papers and Discussion Contributions Presented at the Dutch-Israeli (Diarp) Workshop on Environment-Friendly Crop Protection of the Flower Industry to Suit Future Market Trends

Author

Ten Have, A., Breuil, W. Oude, Wubben, J., Mulder, W., Visser, J., van Kan, J., Quidde, T., Tudzynski, P., O’Neill, T. M., Meyer, G. De, Audenaert, K., Bigirimana, J., Höfte, M., Sesan, Tatiana Eugenia, Oprea, Maria, Csep, N., Procopovici, Emilia, Guran, Maria, Tica, C., Cristescu, Aurelia Podosu, Oancea, F., Elad, Y., David, D. Rav, Levi, T., Kapat, A., Kirshner, B., Govrin, E., Levine, A., Boland, G. J., O’Donnell, K., Cigelnik, E., Chiocchetti, A., Ghignone, S., Bernardo, I., Sciaudone, L., Gullino, M. L., Garibaldi, A., Migheli, Q., Kung’u, J. N., Jeffries, P., Baayen, R. P., O’Donnell, K., Waalwijk, C., Bonants, P. J. M., Cigelnik, E., Roebroeck, E. J. A., Rosewich, U. L., Pettway, R. E., Katan, Talma, Kistler, H. C., van Steekelenburg, N. A. M., Fransen, Joanne J., Ausher, R., Gokkes, M., Blind, M. P., Horowitz, A. R., Ishaaya, I., Gokkes, M., Antignus, Y., Lapidot, M., Cohen, S., Gottlieb, Y., Amsalem, D., Yad-Shalom, A., Gera, A., Dik, A. J., Kerssies, A., Bélanger, R. R., Elad, Y., Valentijn-Benz, M., Lanser, C., Elad, Y., Fischer, E., Kerssies, A., Amsing, J., Numansen, A., Paternotte, P., Runia, W., Lanser, C., van der Sar, M., Gamliel, A., Ben-Yephet, Y, Katan, J., Elad, Y, Kirshner, B., David, D. Rav, Bar-Tal, A., Silber, A., Fischer, E., Dik, A. J., Freidkin, T., Murira, Y., Gokkes, M., Kostyukovsky, M., Shaaya, E., Carmi, Y., Atzmi, Shulamit, Blind, M. P., Ausher, R., Hameiri, Y., Horowitz, A. R., Ishaaya, I., Austerweil, Miriam, de Groot, Theo, Israel, S., van der Maas, A. A., van Uffelen, R. L. M., Ammerlaan, J. C. J., van Uffelen, R. L. M., Splinter, G. M., Ammerlaan, J. C. J., Ruijs, M. N. A., and Kramer, K. -J. more...

Published
1999
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85. Samenvattingen Fusarium

Author

Armitage, A., Taylor, A., Bates, H., Jackson, A., Harrison, R., Clarkson, J., Tran, T.M., Phan, L.Th.K., Eeckhout, M., Audenaert, K., Tan, J., Ameye, M., Nijs, M. de, Torres Sanchez, D., Ordonez, N., Maryani, N., Garcia-Bastidas, F., Meijer, H.J.G., Seidl, M.F., Kema, G.H.J., Diepingen, A. van, Brankovics, B., Lee, Th. van der, Waalwijk, C., Armitage, A., Taylor, A., Bates, H., Jackson, A., Harrison, R., Clarkson, J., Tran, T.M., Phan, L.Th.K., Eeckhout, M., Audenaert, K., Tan, J., Ameye, M., Nijs, M. de, Torres Sanchez, D., Ordonez, N., Maryani, N., Garcia-Bastidas, F., Meijer, H.J.G., Seidl, M.F., Kema, G.H.J., Diepingen, A. van, Brankovics, B., Lee, Th. van der, and Waalwijk, C. more...

Abstract

An overview has been made on the theme of Fusarium with short summaries of research projects. Various topics are discussed. The titles of the summaries are: Dissection of lineage specific chromosomes in the onion pathogen Fusarium oxysporum f. sp. cepae and other emerging UK pathosystems; Differences in pre-harvest practices linked with the occurrence of Fusarium species and associated mycotoxins in maize from two ethnic groups in Vietnam; Biology, control and detection of Fusarium diseases in UK horticulture; Fusarium poae reduces Fusarium graminearum infection and mycotoxin production; European Union Reference Laboratory for mycotoxins & plant toxins in food and feed; Global epidemic of Panama disease on banana is caused by a new fungal species originating from Southeast Asia; Epidemiology of Fusarium in greenhouses. more...

Published
2020

86. Innovative Rhizosphere-Based Enrichment under P-Limitation Selects for Bacterial Isolates with High-Performance P-Solubilizing Traits.

Author

De Zutter N, Ameye M, Vermeir P, Verwaeren J, De Gelder L, and Audenaert K

Subjects
Phosphates, Bacteria, Soil Microbiology, Rhizosphere, Fertilizers
Abstract

The use of phosphate solubilizing bacteria (PSB) as inoculants for the rhizosphere is a well-known strategy to mitigate P-deficiency in plants. However, despite the multiple modes of action to render P available for plants, PSB often fail to deliver in the field as their selection is often based on a single P-solubilizing trait assessed in vitro. Anticipating these shortcomings, we screened 250 isolates originating from rhizosphere-based enriched consortia for the main in vitro P-solubilizing traits, and subsequently grouped the isolates through trait-based HCPC (hierarchical clustering on principal components). Representative isolates of each cluster were tested in an in planta experiment to compare their in vitro P-solubilizing traits with their in planta performance under conditions of P-deprivation. Our data convincingly show that bacterial consortia capable to mitigate P-deficiency in planta were enriched in bacterial isolates that had multiple P-solubilizing traits in vitro and that had the capacity to mitigate plant P-stress in planta under P-deprived conditions. Furthermore, although it was assumed that bacteria that looked promising in vitro would also have a positive effect in planta , our data show that this was not always the case. Opposite, lack of performance in vitro did not automatically result in a lack of performance in planta . These results corroborate the strength of the previously described in planta -based enrichment and selection technique for the isolation of highly efficient rhizosphere competent PSB. IMPORTANCE With the growing awareness on the ecological impact of chemical phosphate fertilizers, research concerning the use of phosphate solubilizing bacteria (PSB) as a sustainable alternative for, or addition to these fertilizers is of paramount importance. In previous research, we successfully implemented a plant-based enrichment technique for PSB, which simultaneously selected for the rhizosphere competence and phosphate solubilizing characteristics of bacterial suspensions. Current research follows up on our previous findings, whereas we screened 250 rhizobacteria for their P-solubilizing traits and were able to substantiate the results obtained from the enriched suspensions at a single-isolate level. With this research, we aim for a paradigm shift toward the plant-based selection of PSB, which is a more holistic approach compared to the plate-based methods. We emphasize the strength of the previously described plant-based enrichment and selection technique for the isolation of highly efficient and diverse PSB. more...

Published
2022
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97. Exploring the genetic and phenotypic diversity within and between onion (Allium cepa L.) ecotypes in Morocco.

Author

Brahimi A, Landschoot S, Bekaert B, Hajji L, Hajjaj H, Audenaert K, Haesaert G, and Mazouz H

Abstract

Background: Gaining insight into crop diversity, both at the genetic and phenotypic levels, is of prime importance for onion breeding with an enhanced yield and quality in combination with improved resistance to biotic and abiotic stresses. In the current study, 192 different onion plants, representing 16 ecotypes, were characterized using ISSR markers., Results: Based on the ISSR marker profile, there was a clear grouping of the plants into 16 different ecotypes. Though the 16 populations originated from the same geographic region in Morocco, a significant genetic diversity was detected. After a genomic characterization, field trials in three different environments in Morocco were laid out. The phenotypic characterization showed that there were always significant differences between ecotypes, and for most traits, there was also a significant environmental effect and a significant interaction between environment and ecotype. The broad-sense heritability (H 2 ) for the phenotypic traits associated with color (L*, a*, and b*) was the largest (84.2%, 80.6%, 79.2%), demonstrating that color is conditioned primarily by genetic factors. In contrast, the H 2 for yield was the lowest (41.8%), indicating that the environment has a substantial effect on yield. In addition, there was a significant association between the presence/absence of certain bands and various phenotypic traits., Conclusion: ISSR markers are a powerful tool in distinguishing onion ecotypes. In addition, significant associations between marker scores and phenotypic traits could be detected, representing particular importance for future breeding programs., (© 2022. The Author(s).) more...

Published
2022
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