Browsing by Subject "Genetische Ressourcen"

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Assessing the Genetic Diversity in Crops with Molecular Markers: Theory and Experimental Results with CIMMYT Wheat and Maize Elite Germplasm and Genetic Resources
(2004) Reif, Jochen Christoph; Melchinger, Albrecht E.
Genetic diversity is a valuable natural resource and plays a key role in future breeding progress. Germplasm collections as a source of genetic diversity must be well-characterized for an efficient management and effective exploitation. The advent of PCR-based molecular markers such as sim-ple sequence repeats (SSRs) has created an opportunity for fine-scale genetic characterization of germplasm collections. The objective of this research was to optimize the utilization of genetic re-sources conserved at the International Wheat and Maize Improvement Center (CIMMYT), with the aid of DNA markers. Choice of suitable dissimilarity measures is important to facilitate the interpretation of findings from DNA marker studies on a theoretically sound basis. The objective of a theoretical study was to examine 10 dissimilarity coefficients widely used in germplasm surveys, with special focus on applications in plant breeding and seed banks. The distance and Euclidean properties of the dissimi-larity coefficients were investigated as well as the underlying genetic models. Application areas for different coefficients were suggested on the basis of the theoretical findings. It has been claimed that plant breeding reduces genetic diversity in elite germplasm, which could seriously jeopardize the continued ability to improve crops. The objectives of the presented ex-perimental study with wheat were to examine the loss of genetic diversity during (i) domestication of the species, (ii) change from traditional landrace cultivars (LC) to modern breeding varieties, and (iii) intensive selection over 50 years of international breeding. A sample of 253 CIMMYT or CIMMYT-related modern wheat cultivars, LC, and Triticum tauschii accessions were characterized with up to 90 SSR markers covering the entire wheat genome. A loss of genetic diversity was ob-served from T. tauschii to LC and from LC to the elite breeding germplasm. Wheat genetic diver-sity was narrowed from 1950 to 1989, but was enhanced from 1990 to 1997. The results indicate that breeders averted the narrowing of the wheat germplasm base and subsequently increased the genetic diversity through the introgression of novel materials. The LC and T. tauschii contain nu-merous unique alleles that were absent in modern wheat cultivars. Consequently, both LC and T. tauschii represent useful sources for broadening the genetic base of elite wheat breeding germ-plasm. In the 1980's, CIMMYT generated more than 100 maize populations and pools but little is known about the genetic diversity of this germplasm. The objective of the study with 23 CIMMYT maize populations was to characterize their population genetic structure with SSRs. The populations adapted to tropical, subtropical intermediate-maturity, subtropical early-maturity, and temperate mega-environments (ME) were fingerprinted with 83 SSR markers. Estimates of genetic differen-tiation between populations revealed that most of the molecular variation was found within the populations. Principal coordinate analysis based on allele frequencies of the populations revealed that populations adapted to the same ME clustered together and, thus, supported clearly the ME structure. Novel strategies were suggested to optimize the conservation of the genetic diversity within and among the populations. Heterotic groups and patterns are of fundamental importance in hybrid breeding. The objective of the presented study with a subset of 20 out of the 23 maize populations was to investigate the rela-tionship between heterosis and genetic distance determined with SSR markers. The published data of three diallels and one factorial trial evaluated for grain yield were re-analyzed to calculate het-erosis in population hybrids. Correlations of squared modified Rogers distance and heterosis were mostly positive and significant, but adaption problems caused deviations in some cases. For popu-lations adapted to the target regions, genetic distance can be used as a further criterion in the search for promising heterotic patterns and groups. For intermediate- and early-maturity subtropical germ-plasm, two heterotic groups were suggested, consisting of a flint and dent composite. For the tropi-cal germplasm, it was possible to assign population (Pop29) to the established heterotic group A and propose new heterotic groups (Pop25, Pop43). Our experimental results corroborate that SSRs are a powerful tool to (i) detect relationships among different germplasm, (ii) assess the level of genetic diversity present in germplasm pools and its flux over time, and (iii) search for promising heterotic groups for hybrid breeding in complementa-tion to field trials.
Development of high quality niche products from local chicken and pig genetic resources
(2016) Muth, Philipp; Valle Zárate, Anne
This thesis indicates that the application of non-conventional and/or slow-growing pig and chicken genotypes alone does not guarantee a superior and/or distinctive meat color and quality of the products. It appears that the valorization of monogastric meat products through niche marketing is critically dependent on matching the respective genotype with appropriate production methods, thus, for instance, highlighting the need for producers to be discerning in regard to the choice of slaughter age and feeding strategy. In the case that these premises are implemented, a distinguished positioning of meat products derived from local pig and chicken genetic resources can be realized, and, expanded by standards that also take the social and economic dimensions of food value chains into account, translated into a common pool resource as a basis for an alternative food network. Efforts should then be directed toward the elaboration of stable distribution channels and effective governance structures in the respective food network.
Diversity in the tropical multipurpose shrub legumes Cratylia argentea (Desv.) O. Kuntze and Flemingia macrophylla (Willd.) Merrill.
(2006) Andersson, Meike S.; Schultze-Kraft, Rainer
Cratylia argentea (Desv.) O. Kuntze and Flemingia macrophylla (Willd.) Merrill are promising tropical multipurpose shrub legumes. Both are drought-tolerant, well adapted to low-fertility, acid soils, and especially suited for low-input smallholder production systems in the sub-humid and humid tropics. They can be used e.g. as dry season forage supplementation, live soil cover or mulch, erosion barrier hedges, and shade-providing shrubs in young coffee and cocoa plantations. Germplasm collections were assembled from the wild-legume flora in Brazil (C. argentea) and Southeast Asia (F. macrophylla), but research and development are so far based on only a few accessions. Knowledge about the extent of genetic diversity within these collections is very limited. In addition, the potential utilization of F. macrophylla is so far limited by poor forage quality and acceptability of the few evaluated accessions. The objective of the present study, conducted in a research cooperation with the International Centre for Tropical Agriculture (CIAT), Cali, Colombia, was to assess the diversity in the germplasm collections of C. argentea (38 accessions) and F. macrophylla (69 accessions) in terms of morphological and phenological traits, agronomic and forage quality traits, and molecular markers, and to identify superior genotyes. Based on these different characterization approaches, the objective was furthermore to establish core collections for F. macrophylla, and to compare and validate the different strategies, giving particular consideration to their practical implications (time and cost efficiency) for the application to small collections of perennial wild tropical legumes. Cratylia argentea High diversity in terms of phenological and agronomic as well as forage quality traits was detected in the collection, with scope for plant improvement in terms of higher dry season DM production. Accessions CIAT 18674 and 22406 were identified as promising for further evaluation since they were similar to the commercial cultivar "Veraniega" in terms of forage quality, and superior in terms of DM production, particularly in the dry season. Molecular marker analysis with RAPDs showed that the genetic diversity in the collection was relatively low and fairly homogeneously distributed. Accessions CIAT 22373, 22378, 22380, 22381 and 22411 were identified as possible duplicates. Flemingia macrophylla High diversity in terms of morphological and agronomic as well as forage quality traits was detected among the 69 accessions. The identification of four morphotypes in the collection probably has taxonomic implications. Scope for plant improvement was identified with respect to forage quality - one of the species´ main limitations. Accessions CIAT 18437, 21083 and 21090 had similar DM production and higher digestibility than the control accession, and were virtually free of extractable condensed tannins. Problems with low palatability and low seed production of these promising accessions need to be further studied. Genetic diversity in F. macrophylla was higher than in C. argentea, and corresponded closely to the four morphotypes revealed by conventional characterization. Various duplicate accessions were identified, and evidence was provided that the non-Asian accessions are not native to their collection site regions, but rather introduced from Southeast Asia. The results have direct applications for plant improvement of these promising multipurpose legumes. The superior genotypes selected in this study will be used in work with farmers in CIAT-research sites in Central America and distributed to partners. It must be recognized, however, that the diversity assessed is influenced by the climatic and edaphic conditions at the site where the studies were conducted. Therefore, multilocational trials should be considered with a selected subset (including the promising accessions) of C. argentea and F. macrophylla i) to assess the extent of genotype x environment interaction, and ii) to identify genotypes with consistently high performance in a range of distinct environments. Research on the reproduction system of both species is urgently required to determine the potential extent and impact of outcrossing. Beyond the immediate application of these species for farmer utilization, the results of the use and comparison of different approaches to assess diversity and to establish core collections can help to improve germplasm management and characterization of wild tropical legume species in general. Random sampling has been identified as a valuable and resource-efficient strategy for the creation of core collections when no additional information about accessions is available, and in the absence of adequate funds. The validation of the findings of this study with a broader range of perennial tropical wild legumes is necessary to assess their applicability to other species.
Experimental and simulation studies on introgressing genomic segments from exotic into elite germplasm of rye (Secale cereale L.) by marker-assisted backcrossing
(2005) Susic, Zoran; Geiger, Hartwig H.
The introgression of exotic germplasm is a promising approach to increase the genetic diversity of elite rye breeding materials. Even though exotic germplasm may contain genomic segments that can improve oligo- and polygenically inherited traits, it has not been intensively utilized in modern rye breeding due to its agronomically inferior phenotypes and low performance level. Introgression of exotic germplasm requires techniques that would minimize negative side effects attributable to genetic interactions between recipient and donor. This appears achievable by the introgression library approach involving the systematic transfer of donor chromosome (DC) segments from an agriculturally unadapted source (donor) into an elite line (recipient, recurrent parent). A set of introgression lines (ILs) is thus developed, in which introgression is restricted to one or a few short DC segments. Ideally, the introgressed DC segments are evenly distributed over the whole recipient genome and the total genome of the exotic donor is comprised in the established set of ILs. The systematic development of an introgression library in rye has not been described yet. The main objectives of this study were to i) establish two rye introgression libraries by marker-assisted backcrossing, comprising of ILs each harbouring one to three DC segments and jointly covering most of the donor genome (DG), and ii) apply computer simulations to develop a highly effective and cost-efficient marker-assisted introgression strategy for the creation of introgression libraries in rye. A cross between a homozygous elite rye inbred line L2053-N (recurrent parent) and a heterozygous Iranian primitive rye population Altevogt 14160 (donor) was used as base material to generate the two libraries (F and G). Repeated backcrossing (BC) and subsequent selfing (S) until generation BC2S3 were chosen as the introgression method. The AFLP and SSR markers were employed to select individuals carrying desired DC segments, starting from generation BC1 to generation BC2S2. The chromosomal localization of DC segments, the number of DC segments per IL, and the proportion of recurrent parent genome were used as criteria to select parent individuals. This procedure resulted in the first two rye introgression libraries worldwide, comprising 40 BC2S3 ILs per library and covering 72% of the total DG in library F and 63% in library G (jointly approximately 80%). Most of the established ILs harboured one to three homozygous DC segments (on average 2.2 in both libraries), with a mean length of 18.3 cM in library F and 14.3 cM in library G. Computer simulations were conducted using the software PLABSIM version 2 to evaluate and optimize strategies for developing an introgression library in rye. Simulations were based on map-length estimates obtained from genotyping the BC1 generation of population F (7 chromosome pairs, genome size 665 cM). Six strategies differing in the number of BC and S generations were analysed, by setting the restrictions of sufficient DG coverage and RPG recovery. The medium-long BC3S1 strategy proved to be the most recommendable. It allows to achieve close to 100% DG coverage with moderate progeny sizes (19 individual per IL) in the individual generations and an acceptable total number of marker data points (52700), thus providing a good compromise between the cost and speed of an introgression procedure. Longer strategies are somewhat more cost-efficient but too time-demanding. The reverse is true for shorter strategies. An optimal allocation of resources is achieved by starting an introgression strategy with a small BC1 population (between 60 and 200 individuals) and stepwise increasing the progeny size per IL from about 15 to about 25-35 individuals in the succeeding generations. Targeting longer DC segments and using genetic maps with lower marker density allow a remarkable reduction in resources. This approach, however, possesses shortcomings when implementation in breeding is considered. The longer DC segments more likely carry i) unfavourable loci as well, ii) more than one gene controlling the trait in question, or iii) many additional loci affecting other traits. The major disadvantage of genetic maps with large marker distances is the unknown information about possible double cross-overs within marker intervals. All above-mentioned disadvantages may cause problems in the process of identification and isolation of genes controlling the trait of interest. Thus, a lower initial effort for the establishment of an introgression library will later on require additional efforts for using the ILs in breeding and genomics. Since the results of the simulation study became available after the marker-assisted establishment of the two rye introgression libraries had been finished, the dimensioning of the experimental study deviated from the optimum dimensioning determined in the simulation study: i) The BC2S2 introgression strategy was used in the empirical approach, whereas the BC3S1 strategy proved to be most recommendable in the simulation study. ii) The BC1 population sizes of libraries F and G (68 and 69, respectively) were far below the optimum value (200) determined in the simulation study for the chosen BC2S2 strategy. iii) The mean progeny sizes per IL from generation BC2 onwards varied between 7 and 21, whereas the optimum progeny size would have been two to three times higher. iv) The total number of analysed individuals (690 in library F, 684 in library G) was considerably lower than the optimum determined in the simulation study (3440). As a consequence, the coverage of the donor genome in the two libraries was incomplete and most ILs harboured more than a single DC segment. The potential application of the results of the simulation study would have increased the value of the developed ILs (higher DG coverage, lower number of DC segments per IL) considerably, despite limited resources. The effects of the introgressed DC segments on agronomically important qualitative and quantitative traits still need to be examined in multi-environmental field experiments. Introgression lines with beneficial DC segments may directly be used in practical hybrid rye breeding programs. Moreover, such ILs may be further backcrossed to create near isogenic lines (NILs) each carrying a single marker-characterized short DC segment. These NILs are an ideal starting point for high-resolution mapping and for the isolation and functional characterisation of candidate genes. The two rye introgression libraries and the results of the simulation study mark important milestones for the targeted exploitation of exotic rye germplasm and provide a promising opportunity to proceed towards functional genomics in rye.
Improving host resistance to Fusarium head blight in wheat (Triticum aestivum L.) and Gibberella ear rot in maize (Zea mays L.)
(2023) Akohoue, Félicien; Miedaner, Thomas
Fusarium head blight (FHB) in wheat and Fusarium (FER) and Gibberella ear rot (GER) in maize are major cereal diseases which reduce yield and contaminate kernels with several mycotoxins. In Europe, these diseases contribute to significant yield gaps and high mycotoxin risks across countries. However, existing management strategies related to agronomic practices are not fully effective, with some of them being cost-prohibitive. Enhancing host plant resistance is additionally required for managing the diseases more effectively and sustainably. Unfortunately, breeding for FHB resistance is challenged by complex interactions with morphological traits and the quantitative nature of the trait. In maize, available genetic resources have not been fully exploited to improve GER resistance in elite materials. In this work, we elucidated the complex interactions between FHB resistance and morphological traits, like plant height (PH) and anther retention (AR) in wheat. The effect of reduced height (Rht) gene Rht24 on AR and the contribution of genomic background (GB) to FHB resistance in semi-dwarf genotypes were also assessed. GB refers to all genomic loci, except major Rht genes, that affect the traits. To achieve this, 401 winter wheat cultivars were evaluated across five environments (location × year combination). All cultivars were genotyped using Illumina 25 K Infinium single-nucleotide polymorphism array. We performed correlation and path coefficient analysis, and combined single and multi-trait genome-wide association studies (GWAS). Our findings revealed significant genotypic correlations and path effects between FHB severity with PH and AR, which were controlled by several pleiotropic loci. FHB severity and PH shared both negatively and positively acting pleiotropic loci, while only positively acting pleiotropic loci were detected between FHB severity and AR. Rht-D1 is a major pleiotropic gene which exerted a negative effect on FHB resistance. These pleiotropic loci contribute to our understanding of the complex genetic basis of FHB resistance, and their exploitation can help to simultaneously select for FHB resistance with PH and AR. Contrary to Rht-D1b, Rht24b had no negative effect on FHB resistance and AR. This exhibits Rht24 as an important FHB-neutral Rht gene which can be integrated into breeding programs. Genomic estimated breeding values (GEBV) were calculated for each cultivar to assess GB. We observed highly negative GEBV for FHB severity within resistant wheat cultivars. Susceptible cultivars exhibited positive GEBV. Genomic prediction has a great potential and can be exploited by selecting for semi-dwarf winter wheat genotypes with higher FHB resistance due to their genomic background resistance. To tackle maize ear rot diseases, refined and stable quantitative trait loci (QTL) harboring candidate genes conferring resistances to FER and GER were identified. The effectiveness of introgression of two European flint landraces, namely “Kemater Gelb Landmais” (KE) and “Petkuser Ferdinand Rot” (PE) was evaluated. The prediction accuracy of using line performance as a predictor of hybrid performance for GER resistance was also evaluated within the two landraces. We applied a meta-QTL (MQTL) analysis based on 15 diverse SNP-based QTL mapping studies and performed gene expression analysis using published RNA-seq data on GER resistance. In total, 40 MQTL were identified, of which 14 most refined MQTL harbored promising candidate genes for use in breeding programs for improving FER and GER resistances. 28 MQTL were common to both FER and GER, with most of them being shared between silk (channel) and kernel resistances. This highlights the co-inheritance of FER and GER resistances as well as types of active resistance. Resistance genes can be transferred into elite cultivars by integrating refined MQTL into genomics-assisted breeding strategies. Afterwards, four GER resistant doubled haploid (DH) lines from both KE and PE landraces were crossed with two susceptible elite lines to generate six bi-parental populations with a total of 534 DH lines which were evaluated for GER resistance. GER severity within the six landrace-derived populations were reduced by 39−61% compared to the susceptible elite lines. Moderate to high genetic advance was observed within each population, and the use of KE landrace as a donor was generally more effective than PE landrace. This shows promise in enhancing resistance to GER in elite materials using the European flint landraces as donors. Furthermore, per se performance of 76 DH lines from both landraces was used to predict GER resistance of their corresponding testcrosses (TC). Moderate phenotypic and genomic prediction accuracy between TC and line per se performance was found for GER resistance. This implies that pre-selecting lines for GER resistance is feasible; however, TC should be additionally tested on a later selection stage to aim for GER-resistant hybrid cultivars.
Mapping stem rust and leaf rust resistances in winter rye (Secale cereale L.)
(2023) Gruner, Paul; Miedaner, Thomas
Rye (Seale cereale L.) is one of the few cross-pollinating small-grain cereals and is mainly used for bread baking, biogas production and as animal feed. In its largest cultivation area (Northern, Central and Eastern Europe, including the Russian Federation) two major rust diseases, stem rust (SR) caused by Puccinia graminis f. sp. secalis and leaf rust (LR) caused by Puccinia recondita, can cause severe yield losses. Whereas LR can be found in most rye growing areas every year, SR is occurring less regularly, but can become epidemic in some years. The general occurrence of stem rust in Germany is becoming more regular, especially when hot summers provide optimum conditions for the growth and the spread of this fungus. Resistant cultivars can be a successful way to control both diseases, but SR is not assessed in the (German) variety registration and still several cultivars can be found that are susceptible or medium resistant for LR. Before the studies of this thesis were conducted, no marker-associated SR resistance gene locus was known and only six LR resistance loci had been reported. Rust resistances can be classified into all-stage resistances (ASR), that are usually caused by single R-genes and adult-plant resistances (APR), that are characterized by smaller (quantitative) effects and can only be observed in the adult-plant stage and thus make field tests mandatory. This thesis aimed on identifying resistant genotypes and respective resistance loci for SR and LR resistances in the rye genome. Two different material groups were used: biparental populations composed of inbred lines and populations composed of self-incompatible single plants. In total ten biparental populations and two additional testcross populations were studied, each constituting 68-90 genotypes. Self-incompatible populations were genetic resources from the Russian Federation, Austria and the United States of America and had 68-74 single plants each. Inbred lines were assessed in multi-environmental field trials (4-6 environments per population) and to guarantee high disease pressure, SR was artificially inoculated in contrast to naturally occurring LR in all environments. In addition, two different kind of seedling tests, one based on inoculations of entire seedling plants and one based on inoculation of detached leaves, were used to assess SR resistance. Mixed linear models were used to analyze the phenotypic data from field experiments and (mixed) cumulative logit models were used to analyze ordinal data resulting from seedling tests. Due to small sample size of a single detached leaf per genotype and isolate in self-incompatible populations, the results based on cumulative modes were cross checked with a non-parametric test. Both, progenies from biparental populations and single plants from self-incompatible populations were genotyped with single nucleotide polymorphism (SNP) based markers (Illumina iSelect 10K SNP chip or DArTseqTM) and appropriate statistical tests for phenotype-marker association were applied. This was achieved by extending phenotypic models with additive and dominant marker effects and their respective interaction with the environment or the isolates. Two marker-associated SR ASR loci (Pgs1, Pgs3.1) could be identified in biparental populations that were responsible for (large) qualitative differences between resistant and susceptible plants in the field and/or seedling stage. Additionally, 14 quantitative trait loci (QTLs) were shown to be responsible for SR APR. For LR, except one QTL found at similar position compared to a previous study, two new genes (Pr7, Pr8) and three QTLs were identified. Self-incompatible rye populations were used for the first time for association mapping and three SR resistance loci (Pgs1 - Pgs3) could be identified. Two thereof were also found within biparental mapping populations by means of QTL mapping and this was considered as prove of this new method. Throughout all studies, the natural cross-pollinating character of rye had to be considered in choosing appropriate methods and for developing rust resistant rye hybrids. This thesis includes breeding material from the largest European rye breeding companies and experiments were conducted in close cooperation with them. The characterization of breeding material for SR and LR infection, development of (new) mapping approaches, detection of resistance loci and marker candidates in the rye genome and finally the discussion of selection strategies provides a solid basis for breeders to develop the most durable SR and LR resistant rye cultivars. For scientists, new research topics could be, for example, the cloning of rye genes or a more thorough understanding of pathogen dynamics to finally achieve durable resistance in future.
Utilization of landraces of European flint maize for breeding and genetic research
(2023) Renner, Juliane; Melchinger, Albrecht E.
Mais ist eine der wichtigsten Kulturarten für die Landwirtschaft weltweit. Seit seiner Domestikation bildeten Landrassen den traditionellen Sortentyp. Durch Selektion und genetische Faktoren entstand eine breite Diversität an panmiktisch vermehrten Populationen, die gut an lokale Bedingungen angepasst waren. Dies änderte sich mit der Einführung der Hybridzüchtung, als nahezu alle Landrassen in der landwirtschaftlichen Produktion und als Ausgangsmaterial für die Züchtung verschwanden. Molekulare Analysen zeigen eine enge genetische Basis des Flint Pools im Vergleich zum Dent Pool. Genetische Ressourcen im Mais gehören zu den umfangreichsten aller Nutzpflanzen. Die Nutzung dieses bislang ungenutzten Reservoirs an genetischer Diversität in Landrassen bietet eine Möglichkeit, um der fortschreitenden Einengung der genetischen Basis entgegenzuwirken und somit den Aufgaben der Pflanzenzüchtung im Hinblick auf eine wachsende Weltbevölkerung sowie den Herausforderungen des Klimawandels und reduzierten Inputs im Anbau gerecht zu werden. Übergeordnetes Ziel dieser Studie war die Evaluierung europäischer Flint-Mais Landrassen, um deren genetische Vielfalt nutzen zu können. Im Speziellen waren die Ziele (i) die Variation in Testkreuzungen europäischer Mais-Landrassen zu bestimmen; (ii) die phänotypische und genotypische Variation der Linien innerhalb und zwischen Landrassen zu beurteilen; (iii) die Eigenleistung dieser Linien mit Elite-Linien sowie Founder-Linien aus dem europäischen Flint-Pool zu vergleichen; (iv) das Potential von doppelhaploiden (DH) Linien aus Landrassen im Vergleich zum Elitematerial für die Züchtung zu analysieren, um die enge genetische Basis des Flint-Pools zu erweitern; (v) die Verwendung von DH-Bibliotheken aus Landrassen für die Assoziationskartierung bis hin zur Eingrenzung kausaler Gene zu demonstrieren; und (vi) Schlussfolgerungen und Leitlinien für die Züchtung und Forschung zu erörtern , um DH-Linien aus Landrassen nutzbar zu machen. In einem ersten Versuch wurde eine umfangreiche Kollektion von 70 europäischen Flint-Landrassen mehrortig in Kombination mit zwei Elite Dent-Testern auf ihre Testkreuzungsleistung hin untersucht. Verglichen mit dem Ertrag moderner Hybriden war der Kornertrag der Testkreuzungen der Landrassen im Durchschnitt um 26 % geringer, jedoch wurde eine hohe genotypische Varianz zwischen den Landrassen für alle Merkmale beobachtet. Die Korrelationen waren mittel bis hoch für die meisten Merkmalskombinationen und entsprachen denen im Elitezuchtmaterial. Die genetische Korrelation der beiden Testkreuzungsserien überstieg 0,74 für alle Merkmale. Dies zeigt, dass es ausreicht die Leistung von Testkreuzungen in Kombination mit einem oder zwei Testern - bestehend aus Einfachkreuzungen des anderen Gen-Pools – zu bewerten, um das Potenzial von Landrassen für die Züchtung zu beurteilen. In einem zweiten Versuch produzierten wir Bibliotheken von DH-Linien der vielversprechendsten Landrassen des vorigen Versuches. Insgesamt wurden 389 DH-Linien aus sechs europäischer Flint Landrassen zusammen mit vier Flint Founder-Linien und 53 Elite Flintlinien auf 16 agronomische Merkmale an vier Standorten geprüft. Die genotypische Varianz (σ^2G) innerhalb der DH-Bibliotheken war größer als die zwischen den Bibliotheken und übertraf auch σ^2G der Elite Flintlinien. Darüber hinaus variierten die Mittelwerte und σ^2G zwischen den DH-Bibliotheken, was zu großen Unterschieden im Brauchbarkeits-Kriterium („usefulness“) führte. Der mittlere Kornertrag der Elite Flintlinien übertraf den der Flint Founder-Linien um 25 % und der DH-Bibliotheken um 62 %, was auf den beträchtlichen Zuchtfortschritt im Elitematerial hinweist sowie auf die erhebliche genetische Bürde, welche in den DH-Bibliotheken vorliegt. Die Brauchbarkeit der besten DH-Linien war trotzdem für viele Merkmale, einschließlich dem Kornertrag, mit der von Elite Flintlinien vergleichbar. Dies zeigt das enorme Potenzial, Landrassen zur Verbreiterung des genetisch engen Elite Flint-Pools zu verwenden. In einem dritten Versuch wurden das genetische Material des vorherigen Versuches mit dem MaizeSNP50 BeadChip von Illumina® genotypisiert und Samen aller Genotypen zur Extraktion und Analyse von 288 Metaboliten mit GC-MS verwendet. Sowohl die agronomischen Merkmale als auch die Metabolit-Daten wurden für eine Assoziationskartierung verwendet. Der schnelle Abfall des Kopplungsungleichgewichts benachbarter Marker in den DH-Bibliotheken im Vergleich zu den Elite Flintlinien führte zu einer hervorragenden Auflösung in der QTL-Kartierung, was durch die Feinkartierung eines QTL (= quantitative trait locus) für Ölgehalt bis zur Phenylalanin Insertion F469 in DGAT1-2 als kausale Variante demonstriert werden konnte. Darüber hinaus wurden für den Metaboliten Allantoin, der im Zusammenhang mit abiotischem Stress steht, Promotorpolymorphismen sowie die Expression einer Allantoinase als vermutete Ursache der Variation identifiziert. Dies gelang trotz der moderaten Größe der Kartierungspopulation. Diese Ergebnisse sind ermutigend, um DH-Bibliotheken von Landrassen für die Assoziationskartierung zu verwenden und QTL bis auf die kausalen Varianten zu entschlüsseln. Eine Erweiterung der Populationsgrößen der DH-Bibliotheken, ähnlich wie sie in anderen Versuchsdesigns in der Literatur verwendet wurden, ist hierbei zu empfehlen, um mit diesem Ansatz QTL zu detektieren, welche lediglich einen kleinen Teil der genetischen Varianz erklären. Dies eröffnet neue Wege zur Nutzung natürlicher und/oder neu geschaffener Allele in der Züchtung. Zusammenfassend zeigen die Ergebnisse dieser Arbeit, dass die genetische Variation europäischer Landrassen bei Flint-Mais eine einzigartige Quelle darstellt, um die fortschreitende Verengung der genetischen Basis des Elitematerials in diesem Gen-Pool umzukehren. Um vielversprechende Landrassen zu identifizieren, schlagen wir folgenden zweistufigen Ansatz vor: (i) Basierend auf der Bewertung der molekularen Diversität werden etwa hundert Landrassen in Leistungsprüfungen auf ihre Anpassungsfähigkeit für die Zielregionen evaluiert und ihre Kombinationsfähigkeit mit dem entgegengesetzten heterotischen Gen-Pool in Testkreuzungen mit einer Einfachkreuzung als Tester bewertet. (ii) Für eine geringe Zahl (< 6) von Landrassen wird anschließend eine große Anzahl von DH-Linien erstellt, welche für die Nutzung in der Assoziationskartierung und/oder genomischen Selektion phänotypisiert und genotypisiert werden, um diese „Goldreserven“ für die Maiszüchtung mit innovativen Methoden zugänglich zu machen.