Browsing by Subject "Resistance"

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Assessment of a postharvest treatment with pyrimethanil via thermo-nebulization in controlling storage rots of apples
(2021) Büchele, Felix; Neuwald, Daniel A.; Scheer, Christian; Wood, Rachael M.; Vögele, Ralf T.; Wünsche, Jens N.
Apples are very susceptible to infections from various fungal pathogens during the growing season due to prolonged exposure to environmental influences in the field. Therefore, a strict and targeted fungicide strategy is essential to protect fruit and trees. Increased environmental and health concerns and pathogen resistance have resulted in a rising demand to reduce fungicide usage and residues on marketed fruit. Thus, producers must develop new plant protection strategies to conform to the legal and social demands while still offering high-quality apples. This study assessed the efficacy of a post-harvest fungicide treatment with pyrimethanil via thermo-nebulization for controlling storage rots and compared the results to those of standard pre-harvest fungicide strategies. The results showed that a single post-harvest application of pyrimethanil successfully controlled storage rots and is comparable to strategies using multiple pre-harvest fungicide applications. The control of fungal rot was sustained even after 5 months of storage and 2 weeks of shelf life. Thermo-nebulization into the storage facility allowed for a lower dosage of fungicide to be used compared to pre-harvest applications, while still maintaining optimal rot control. Residue analyses showed that the post-harvest fungicide treatment did not exceed legal or retailer’s standards.
Breeding for resistance to Fusarium ear diseases in maize and small-grain cereals using genomic tools
(2021) Gaikpa, David Sewordor; Miedaner, Thomas
The world’s human and livestock population is increasing and there is the need to increase quality food production to achieve the global sustainable development goal 3, zero hunger by year 2030 (United Nations, 2015). However, biotic stresses such as Fusarium ear infections pose serious threat to cereal crop production. Breeding for host plant resistance against toxigenic Fusarium spp. is a sustainable way to produce more and safer cereal crops such as maize and small-grain winter cereals. Many efforts have been made to improve maize and small-grain cereals for ear rot (ER) and Fusarium head blight (FHB) resistances, using conventional and genomic techniques. Among small-grain cereals, rye had the shortest maturity period followed by the descendant, hexaploid triticale while both wheat species had the longest maturity period. In addition, rye and triticale were more robust to Fusarium infection and deoxynivalenol accumulation, making them safer grain sources for human and animal consumption. However, a few resistant cultivars have been produced by prolonged conventional breeding efforts in durum wheat and bread wheat. High genetic variation was present within each crop species and can be exploited for resistance breeding. In this thesis, the genetic architecture of FHB resistance in rye was investigated for the first time, by means of genome-wide association study (GWAS) and genomic prediction (GP). GWAS detected 15 QTLs for Fusarium culmorum head blight severity, of which two had major effects. Both weighted and unweighted GP approaches yielded higher prediction abilities than marker-assisted selection (MAS) for FHB severity, heading stage and plant height. Genomics-assisted breeding can shorten the duration of breeding rye for FHB resistance. In the past decade, genetic mapping and omics were used to identify a multitude of QTLs and candidate genes for ear rot resistances and mycotoxin accumulation in maize. The polygenic nature of resistance traits, high genotype x environment interaction, and large-scale phenotyping remain major bottlenecks to increasing genetic gains for ear rots resistance in maize. Phenotypic and molecular analyses of DH lines originating from two European flint landraces (“Kemater Landmais Gelb”, KE, and “Petkuser Ferdinand Rot”, PE) revealed high variation for Gibberella ear rot (GER) severity and three agronomic traits viz. number of days to female flowering, plant height and proportion of kernels per cob. By employing multi-SNP GWAS method, we found four medium-effect QTLs and many small-effect (10) QTLs for GER severity in combined DH libraries (when PCs used as fixed effects), none co-localized with the QTLs detected for the three agronomic traits analyzed. However, one major QTL was detected within KE DH library for GER severity. Two prioritized SNPs detected for GER resistance were associated with 25 protein-coding genes placed in various functional categories, which further enhances scientific knowledge on the molecular mechanisms of GER resistance. Genome-based approaches seems promising for tapping GER resistance alleles from European maize landraces for applied breeding. After several cycles of backcrossing and sufficient selection for agronomic adaptation traits, the resistant lines identified in this thesis can be incorporated into existing maize breeding programs to improve immunity against F. graminearum ear infection. Breeding progress can be faster using KE landrace than PE. A successful validation of QTLs identified in this thesis can pave way for MAS in rye and marker-assisted backcrossing in maize. Effective implementation of genomic selection requires proper design of the training and validation sets, which should include part of the current breeding population.
Genetic variation in early maturing European maize germplasm for resistance to ear rots and mycotoxin contamination caused by Fusarium spp.
(2010) Bolduan, Christof; Melchinger, Albrecht E.
Ear rots of maize, caused by Fusarium spp., are of major concern because they lead to losses in grain yield and contamination with mycotoxins which harm animals and humans. In the absence of other strategies, breeding maize for genetic resistance is currently the most promising avenue to control these rots and mycotoxin accumulation. The predominant pathogens in Central Europe are F. graminearum, the causative agent of Gibberella ear rot (GER), and F. verticillioides, the causative agent of Fusarium ear rot (FER). GER causes contamination with deoxynivalenol (DON), nivalenol and zearalenone (ZEA), whereas FER causes contamination with fumonisins (FUM). Information on the resistance to GER and FER and mycotoxin contamination is lacking for maize adapted to the cooler climatic conditions of Central Europe. In this study we investigated (1) the resistance of early maturing European elite inbred lines against GER and FER and contamination of mycotoxins, (2) the genetic variances and heritabilities for ear rot ratings and mycotoxin concentrations, (3) the correlations of ear rot ratings with mycotoxin concentrations, (4) the correlations between line per se (LP) and testcross performance (TP) for GER rating and DON concentration, (5) the aggressiveness of and mycotoxins produced by different isolates of F. graminearum and F. verticillioides, and (6) the potential of near infrared spectroscopy (NIRS) to estimate concentrations of DON and FUM in maize grains under artificial inoculation. Significant genotypic variances and moderate to high heritabilities were found for GER, DON and ZEA among the inbred lines and for GER and DON among the testcrosses, as well as for FER and FUM among the inbred lines. Further, genotype x environment interaction variances were significant for all traits except FUM. Thus, the results underlined the presence of ample genotypic variation and the need to conduct multi-environment tests for reliable identification of resistant genotypes. Ear rot ratings and mycotoxin production of eight isolates each of F. graminearum and F. verticillioides differed significantly. Even though, isolate x inbred interactions were significant only in the case of F. graminearum, and no rank reversals occurred among the tested inbred lines. Most isolates differentiated the susceptible inbreds from the resistant ones for severity ratings. However, the differences between the two groups were smaller for the less aggressive isolates. Therefore, we recommend using a single, environmentally stable and sufficiently aggressive isolate for resistance screenings under artificial inoculation. Strong correlations between ear rot severity and mycotoxin concentrations indicated that selection for low ear rot severity under artificial inoculation will result in high correlated selection response for low mycotoxin concentration, particularly for GER and DON. Selection for ear rot severity is less resource-demanding and quicker than selection for mycotoxin concentration. Thus, it enables the breeder to maximize selection gain for a given budget. However, the selected elite material should be evaluated for mycotoxin concentrations in order to avoid ?false positives?. In this regard, NIRS showed high potential to predict DON concentrations in grain obtained from artificially inoculated maize. Compared to the commonly employed ELISA assay, NIRS assays are considerably cheaper, because no mycotoxin extractions and test kits are needed. We observed moderate positive correlations between GER and FER, and identified inbreds combining resistance to both ear rots. Therefore, selection for resistance to one pathogen is expected to result in indirect response to the other. Nevertheless, in advanced stages of each breeding cycle, lines preselected for other agronomically important traits should be evaluated for resistance to both pathogens. Genotypic variances for GER and DON were generally higher in LP than TP. Thus, assuming identical selection intensities for each scheme, the expected response to selection for LP should be higher than for TP. However, owing to moderate correlations between LP and TP for GER and DON, selection based on LP is not sufficient, because the ultimate goal is to develop resistant hybrids. Therefore, a multi-stage selection procedure is recommended with evaluation of agronomically promising lines for GER in only one environment in order to eliminate highly susceptible lines, followed by evaluation of TP of the selected lines for GER with one tester of moderate to high resistance level from the opposite heterotic pool in two to three environments.
The importance of Fusarium head blight resistance in the cereal breeding industry: Case studies from Germany and Austria
(2023) Miedaner, Thomas; Flamm, Clemens; Oberforster, Michael
Fusarium head blight (FHB) resistance in wheat and triticale has a high priority in the European Union because of the strict guidelines for the major mycotoxins deoxynivalenol (DON) and zearalenone (ZON) and the admission policy of the regulatory authorities. Potentially 70% of the arable land in Germany and about 60% in Austria can be affected by Fusarium. Although epidemics occur only in some years and/or some regions, DON and ZON are detected every year in varying amounts in wheat, rye and maize. Despite a high significance of FHB resistance in breeding companies, as validated by a recent survey, breeding progress in wheat is basically absent for FHB resistance in both countries. The main reasons are the complex inheritance of FHB resistance and the high proportions of the dwarfing allele Rht‐D1b in high‐yielding varieties promoting susceptibility. Despite this, some varieties with high FHB resistance (score 2–3 on the 1–9 scale) have been released that account, however, only for 11% and 18% of the multiplication area in Germany and Austria, respectively. For triticale, an official testing system for FHB resistance in terms of DON content exists in Germany and Austria, but not for the other cereals. Susceptibility to maize ear rot has been described in Austria, but not in Germany. Additionally, a testing system for stalk rot resistance in both countries should be established.
Mapping of quantitative-trait loci (QTL) for adult-plant resistance to Septoria tritici in five wheat populations (Triticum aestivum L.)
(2010) Risser, Peter; Miedaner, Thomas
Septoria tritici blotch (STB), caused by Septoria tritici (teleomorph Mycosphaerella graminicola), is one of the most important diseases in wheat varieties worldwide, responsible for severe damage of the leaves causing yield losses between 30 and 40 %. Control of STB includes crop rotation, soil tillage, fungicide application, and cultivation of resistant varieties. Profit-making wheat growers are forced to apply narrow crop rotations under reduced tillage. Some fungicides including widely-used strobilurins are no longer effective due to mutations in the highly variable pathogen population of S. tritici. Therefore, resistance breeding using genetic mapping to identify quantitative-trait loci (QTL) associated with STB resistance provides a promising strategy for controlling the disease. The main goal of this study was to detect chromosomal regions for quantitative adult-plant resistance of winter wheat to STB. Besides this, we analyzed the genetic diversity of 24 European varieties after inoculation with four different isolates of S. tritici. Multienvironmental field trials inoculated with S. tritici were applied to test isolates and varieties and to phenotype mapping populations. In detail, the objectives were to (1) compare natural infection and inoculation, (2) evaluate genotypic variation of adult-plant resistance to STB in European varieties, (3) analyze genotype x environment (G x E) interaction, (4) evaluate and analyze phenotypic data including STB severity, heading date (HED), and plant height (PLH) of five mapping populations, (5) construct genetic linkage maps of these populations using AFLP, DArT, and SSR markers, (6) determine number, positions, and genetic effects of QTL for evaluated traits, and (7) reveal QTL regions for multiple-disease resistance within mapping populations using QTL meta-analysis. In all trials, inoculation with one to four preselected isolates was performed and STB severity was visually scored plotwise as percentage coverage of flag leaves with lesions bearing pycnidia. 24 winter wheat varieties were chosen with maximal differentiation in resistance to STB and evaluated across three years including nine environments. Five mapping populations, Florett/Biscay, Tuareg/Biscay, History/Rubens, Arina/Forno, and Solitär/Bussard, each comprising a cross of a resistant and a susceptible variety, with population sizes ranging from 81 to 316, were phenotyped across four to six environments. In parallel, 221 to 491 polymorphic genetic markers were assigned to linkage groups covering 1,314 to 3,305 cM of the genome. Based on these linkage maps, the number, positions, and genetic effects of QTL could be determined by composite interval mapping. Furthermore, raw data of different experiments evaluated for resistance to two other pathogens, Fusarium head blight and Stagnospora glume blotch, were used to reveal multiple-disease resistance QTL within Arina/Forno and History/Rubens populations by the software package PLABMQTL. Results of inoculated field trials coincided with not inoculated trials showing natural infection (r = 0.84 to 0.99, P < 0.01), thus inoculation method was accurate to evaluate STB severity in the field. Genotypic variation between 24 varieties ranged from 8 % (Solitär) to 63 % (Rubens) flag leaf area infected. In the analysis of variance, genotypic variance had highest impact followed by G x E interaction (P < 0.01). Therefore, environmental stability of varieties should be a major breeding goal. The varieties Solitär, History, and Florett were most stable, as revealed by a regression approach. In contrast, disease symptoms of Biscay ranged from 19 to 72 % within the three experimental years. Phenotypic data revealed significant (P < 0.01) genotypic differentiation for STB, HED, and PLH within all five mapping populations and between the parents. Entry-mean heritabilities (h²) ranged from 0.69 to 0.87 for STB, the only exception was Tuareg/Biscay (h² = 0.38). For HED (h² = 0.78 to 0.93) and PLH (h² = 0.92 to 0.98) heritabilities were high. All correlations between STB and HED (r = -0.18 to -0.33) as well as between STB and PLH (r = -0.13 to -0.45) were negative and moderate. The exception was History/Rubens which is segregating at the Rht-D1 locus showing considerably higher correlation between STB and PLH (r = -0.55, P < 0.01). The five mapping populations showed a wide and continuous distribution of mean STB severity averaged across three to six environments in field trials at adult-plant stage. In QTL analysis, one to nine, zero to nine, and four to eleven QTL were detected for STB, HED, and PLH, respectively, across five wheat populations using composite interval mapping. One to two major QTL for resistance to STB were detected consistently across environments in each population (QStb.lsa_fb-3B, QStb.lsa_fb-6D, QStb.lsa_tb-4B, QStb.lsa_tb-6B, QStb.lsa_hr-4D, QStb.lsa_hr-5B.1, QStb.lsa_af-3B, QStb.lsa_bs-7A) explaining more than 10 % of normalized adjusted phenotypic variance. Altogether, resistance QTL explained 14 to 55 % of adjusted phenotypic variance. Both parents contributed resistant alleles. Major QTL, however, were all from the resistant parent. QTL meta-analysis revealed each of four loci for multiple-disease resistance located on chromosomes 3B, 4B, 5B, and 6D in Arina/Forno, and on chromosomes 2B, 4D, 5B, and 7B in History/Rubens. The most effective meta QTL was on chromosome 4D in History/Rubens closely linked to Rht-D1. The resistance allele from History reduced disease severity by 9.8 % for STB and 6.3 % for FHB, thus explaining 47 % and 60 % of partial phenotypic variance. In general, European wheat varieties showed a wide range of genotypic variation for STB resistance useful for breeding. Although the influence of environment and G x E interaction was high, some resistant varieties which were stable across multiple environments were found (Solitär, History, Florett). Genomic regions associated with STB resistance were mapped across 13 out of 21 wheat chromosomes. Together with the continuous distribution of five segregating populations for flag leaf infection, it can be concluded that the adult-plant resistance to S. tritici was inherited quantitatively depending on several loci explaining part of phenotypic variance. QTL meta-analysis across three severe pathogens, including Fusarium head blight, Stagnospora glume blotch, and STB, within two populations revealed eight loci for multiple-disease resistance with closely linked markers applicable in resistance breeding. Combining detected major QTL as well as meta QTL in present breeding material by applying marker-assisted selection seems a promising approach to the breeding of varieties with improved resistance to Septoria tritici blotch, Fusarium head blight, and Stagnospora glume blotch.
Metabolization and sequestration of plant specialized metabolites in insect herbivores: Current and emerging approaches
(2022) Jeckel, Adriana Moriguchi; Beran, Franziska; Züst, Tobias; Younkin, Gordon; Petschenka, Georg; Pokharel, Prayan; Dreisbach, Domenic; Ganal-Vonarburg, Stephanie Christine; Robert, Christelle Aurélie Maud
Herbivorous insects encounter diverse plant specialized metabolites (PSMs) in their diet, that have deterrent, anti-nutritional, or toxic properties. Understanding how they cope with PSMs is crucial to understand their biology, population dynamics, and evolution. This review summarizes current and emerging cutting-edge methods that can be used to characterize the metabolic fate of PSMs, from ingestion to excretion or sequestration. It further emphasizes a workflow that enables not only to study PSM metabolism at different scales, but also to tackle and validate the genetic and biochemical mechanisms involved in PSM resistance by herbivores. This review thus aims at facilitating research on PSM-mediated plant-herbivore interactions.
Study of the natural resistance towards apple proliferation disease and establishment of an in vitro resistance screening system in view of the development of resistant apple rootstocks
(2007) Bisognin, Claudia; Reustle, Götz
Apple proliferation (AP) is an economically important disease of apple which occurs in all countries of central and southern Europe. All currently grown cultivars and rootstocks are susceptible to the disease and no curative treatments are applicable. AP is caused by a phytoplasma, Candidatus Phytoplasma mali, which is restricted to the phloematic tissue of the plant. Ca. P. mali is naturally spread by psyllid vectors and by root bridges as well as by man through infected planting material. An efficient control of the disease is hampered by these different ways of transmission. The objective of the thesis was therefore to evaluate a strategy for a long-term solution to AP based on natural resistance. This resistance has been detected in the wild apomictic species Malus sieboldii and in first and second generation hybrids of M. sieboldii. Although the obtained progeny turned out to be too vigorous for modern apple culture, a certain number of genotypes remained resistant to AP. While phytoplasmas colonise constantly the roots of infected trees, infections in the susceptible cultivar are eliminated each year during the renewal of the phloem in early spring. A resistance strategy towards AP can therefore be solely based on AP-resistant rootstocks in order to prevent the re-colonisation of the canopy in spring. The first part of the thesis was concentrated on the re-evaluation of the AP resistance in M. sieboldii and its hybrids in a 12-years field trial under natural infection pressure at BBA Dossenheim. The annual data for symptom recording and fruit size were analysed as cumulative disease index and cumulative undersized fruit index, respectively. By the end of the trial the phytoplasma concentration in roots and shoots was analysed by quantitative real-time PCR. The results confirmed previous data that M. sieboldii and its hybrids exhibit resistance towards AP. Infected trees of these genotypes had low concentrations of phytoplasmas in the roots and showed almost no symptoms and no undersized fruits. Contrary, previously as resistant classified genotypes derived from M. sargentii reacted highly susceptible. As individual trees of the resistant genotypes showed an altered behaviour, molecular analyses were performed to verify if the seed propagated, apomictic material used for the trial was really true-to-type. For this analysis, co-dominant microsatellite (SSR) markers were used which were derived from published work. However, for each M. sieboldii genotype suitable, polymorphic markers had to be selected. This analysis revealed that apomixis was not complete and that a varying percentage of progeny of the different genotypes was recombinant due to open pollination. As the resistant M. sieboldii genotypes were too vigorous for modern apple culture, new breedings were carried out with these genotypes in combination with dwarfing rootstock genotypes such as M9. More than 3.000 seedlings have been produced in 17 cross combinations. All seedlings were examined by microsatellite analysis in order to distinguish recombinant from non-recombinant, apomictic progeny. SSR markers were also useful in determining the ploidy level of the parents and their progenies. These results were confirmed by flow cytometric analysis. The recombinant progeny is currently being evaluated in the field for its AP resistance. As the screening of resistance towards AP in the field necessitates several years of observation, an alternative in vitro method was developed. This method is based on in vitro graft-inoculation of the genotype to test. As a prerequisite in vitro cultures of all parental genotypes of the breeding program were established. For each genotype the optimal culture medium was defined. Thus, efficient micropropagation and in vitro rooting protocols were established for the M. sieboldii genotypes which are difficult to root under normal nursery conditions. The established protocols enable a large scale production of these genotypes on a commercial scale. The in vitro resistance screening method allows the evaluation of a given genotype under standardized conditions by using repetitions of micro-grafts. The quality of the grafts, the mortality, the transmission rates of the phytoplasmas as well as the concentration of the phytoplasmas in the inoculated genotypes was determined. The results obtained by qPCR showed that the phytoplasma concentration in resistant genotypes was significantly lower than in susceptible ones. Whereas susceptible genotypes exhibited stunted growth and proliferation symptoms in vitro the resistant genotypes had a phenotype almost comparable to the healthy control. Interestingly, significant differences in phytoplasma concentration could be found between two different Ca. P. mali subtypes used in the experiments. The results demonstrated that the method enables a reliable result 3 months p.i. and can be used to evaluate the virulence of different Ca. P. mali strains.
The return of happiness : resilience in times of pandemic
(2022) Ahlheim, Michael; Kim, In Woo; Vuong, Duy Thanh
Many papers have been written about peoples loss of life satisfaction during the first wave of the COVID-19 pandemic in 2020, but not much has been said about their resilience after the first shock had passed. Were people able to return, at least in part, to their original level of life satisfaction? This amounts to the question to which degree people had shown psychological resilience during the first wave of the COVID-19 crisis. In this context, it is also of interest which internal and external factors supported a persons tendency to prove resilient during the crisis. Based on an online survey conducted in August / September 2020 in Germany we try to answer these questions. We find that after a loss of average life satisfaction during the first three months after the outbreak of the pandemic in Germany many peoples life satisfaction increased again. Roughly 60% of the respondents proved resilient in the sense that eight months after the outbreak of the pandemic they had regained the same or an even higher level of life satisfaction as compared to the situation before the COVID-19 crisis. Our results show that besides socioeconomic characteristics like age and income and certain character traits, peoples personal experience during the crisis and their approval or disapproval of government policy during the crisis had an important influence on their chance to prove resilient. Therefore, a consistent and competent crisis communication building up trust in governments crisis management capacity is essential for peoples resilience in a crisis.