Christiane Balko

Identification of genomic regions involved in tolerance to drought stress and drought stress induced leaf senescence in juvenile barley

The project is dealing with the improvement of a universal pneumatic seeder which is suitable for sowing a wide range of different seeds in order to decrease particulate emissions of seed dressings. Aim of the project is to identify leakages in the pneumatic system in order to develop opportunities for the subsequent improvement of existing equipment to fulfill the high demands of user and environmental protection. Pneumatic seeders are characterized by a central, funnelshaped hopper. The batch feeder being an airlock and dosing feeder is located in the outlet of the seeder. The metered seed is fed into the air stream and transported to the sowing distributor by a conveying air stream.Due to climatic change, phenology traits are becoming increasingly important in grapevine breeding, since a premature flowering and ripening time could be observed for grapevine in the last decades. However, knowledge about these traits is still limited as they are genetically very complex and highly influenced by environmental factors. The analysis of the genetic basis of flowering time therefore will enable the development of tightly linked molecular markers useful for markerassisted selection of especially late flowering breeding lines.One recently occurred invasive insect pest has caught the attention for investigating biological control mechanisms and systems: The spotted wing drosophila (SWD, Drosophila suzukii Matsumura) is endemic in East China and Japan but has been introduced to the western hemisphere about 10 years ago and has been found in Europe since 2009. Nowadays, it has emerged to one of the most harmful pests to commercially grown fruit plants like stone fruits and nearly all kind of berries while it prefers ripe and overripe fruits. Our intention is to investigate the possible usage of natural antagonists for biological control. Therefore, we examine the natural load of parasites and pathogens (i.e. fungi, bacteria, viruses, microsporidia and protista) in fruit flies, isolate them and re-infect lab populations of D. suzukii for investigating the antagonistic potential. Furthermore, we will integrate the fruit pest codling moth (Cydia pomonella), which is an ongoing problem in apple orchards also because the pest develops resistance against commercially available insecticides. The long-term aim is to establish a stable system for pathogen detection that can be used for rapid identification of microbial antagonists in natural populations.Two main problems have to be considered in the development of control agents against the Fire Blight pathogen Erwinia amylovora: First, the ability of exponential growth leads to high cell densities in a short amount of time. Second, the most critical phase of Fire Blight infection occurs during blossoming, when the pathogen is transported to open flowers by various insects. To prevent infection, it is important to avoid invasion inside the plants tissue by interfering with growth of E. amylovora cells.The entomopathogenic fungus Isaria fumosorosea, formerly known as Paecilomyces fumosoroseus, has got a relatively wide host range. Within the scope of the EU project BIOCOMES investigations were done to validate the use of I. fumosorosea as a BCA against several pest insects. Under laboratory conditions it could be shown that I. fumosorosea seems to be a suitable BCA against Bemisia tabaci (silverleaf whitefly) and Spodoptera exigua (beet armyworm).Since the last two decades a number of fingerprinting methods have been developed to analyze microbial communities and their dynamics, including Terminal Restriction Fragment Length Polymorphism (T-RFLP), Length Heterogeneity-Polymerase Chain Reaction (LHPCR) and Automated Ribosomal Intergenic Spacer Analysis (ARISA). Because the latter provides a quick and cheap way together with high accuracy, we have chosen this method to investigate the fungal communities on grapevine, wood, leaves and berries.Saoussen Ben Tiba, Andreas Larem, Eva Fritsch, Karin Undorf-Spahn, Asma Laarif, Sami Fattouch, Johannes A. Jehle 1 Julius Kuhn-Institut, Institute for Biological Control, Darmstadt, Germany 2 Regional Center for Agriculture and Biological Agriculture, Chott Meriem, Tunisia 3 National Institute for applied technological Science Tunis (INSAT), Carthage University, Tunisia Email of corresponding author: saoussen.ben.tiba@jki.bund.deOne promising approach to a more environmentally friendly viticulture is growing fungus resistant cultivars with the novel cultivation method of the minimal pruning of trellis trained grapevines (MPTS). This practice reduces the tremendous amounts of fungicides needed to protect traditional cultivars and is expected to increase biodiversity compared to vineyards with traditional trellis trained grapevines (TS).Meiosis as the specialized cell division of sexual reproduction plays a crucial role in the exchange and reorganization of genetic material between two individuals by dividing the chromosome set in half and forming gametes. Even though in the last years major findings in the field of meiosis have been achieved, especially in plants, some key questions remain concealed. For a proper meiosis the initiation of double strand breaks (DSBs) during early prophase I is essential. Without DSBs no physical connection can occur between homologous chromosomes and recombination, pairing, and crossing over are excluded. So far in all analyzed eukaryotes SPO11, a meiosis specific transesterase, is the key enzyme inducing DSBs. But other than in animals and fungi where a single SPO11 is sufficient, plants need at least two different SPO11, referred to as SPO11-1 and SPO11-2, for proper meiosis. In Arabidopsis thaliana both have crucial functions and are essential in a functional form for the induction of meiotic DSBs as single knock out mutants are leading to near sterility by random chromosome distribution. Despite the same function of the homologs SPO111 and -2, the identity between both proteins is quite low. Homology of the orthologous SPO11 from different organisms is much higher. By exchanging SPO11-1 and -2 in Arabidopsis by their orthologs from various organisms we could demonstrate a species specific function of each SPO11, as a functional complementation of sterility could only be achieved with SPO11 from closely related species from the Brassicaceae. By exchanging non conserved regions between SPO11-1 and -2 of Arabidopsis we additionally could show a sequence specific function for each SPO11, as a functional rescue could not be achieved with all chosen regions. Interestingly, we could reveal a specific pattern of aberrant spliced isoforms for each SPO11 which are also sequence as well as species specific. By producing antibodies against AthSPO11-1 and -2 we were able to analyze for the first time the binding of SPO11-2 onto the DNA and perform co-immunolocalization studies with SPO11-1 and -2.European Stone Fruit Yellows (ESFY) is one of the most serious diseases in European fruit production. Infected Prunus cultivars yield poorly and lead to high economic losses. ESFY is caused by a specialized bacterium located in the phloem tissue of Prunus ssp., the Phytoplasma ‘Candidatus Phytoplasma prunorum’. It is spread by the phloemfeeding plum psyllid (Cacopsylla pruni) which acquires the bacterium by feeding on infected plants and is able to transmit it to healthy plants.Leaf rust caused by Puccinia triticina can cause yield losses up to 60 % and is the most common rust disease of wheat in the world. Vertical leaf rust resistance genes (Lr-genes) have been introduced in cultivars. Many of these resistances are broken down by virulent pathotypes. Horizontal resistances which are independent from races of a pathogen are known but show a quantitative characteristic which is carried by a few cultivars.

Kühletoleranz bei der Sojabohne ( Glycine max (L.) Merr.)– Voraussetzung für die Ausweitung des Sojaanbaus in Deutschland

Uber die Vorteile hinaus, die Leguminosen generell in der Fruchtfolge bieten, hat die Sojabohne ( Glycine max ( L.) Merr.)eine fur die Ernahrung von Mensch und Tier besonders gunstige Proteinzusammensetzung. Aufgrund der nicht hinreichenden zuchterischen Anpassung von Soja an unsere Klimaverhaltnisse kann sie jedoch in Deutschland nur begrenzt angebaut werden. In diesem Zusammenhang ist die Kuhletoleranz ein wichtiges Zuchtziel.Um Informationen uber die genetische Variation bezuglich der Kuhletoleranz zu gewinnen, wurde ein Test zur Erfassung des Hulsenansatzes unter Kuhlestressetabliert, bei dem unter kontrollierten Bedingungen ab Bluhbeginn 3 Wochen Kuhlestress bei 15°C Tag/10°C Nacht appliziert wird. Dieser Test erwies sich als gut geeignet, um genotypische Unterschiede bezuglich des Hulsenansatzes unter Kuhlestress reproduzierbar zu erfassen. Dabei wurde sowohl die Toleranz im engeren Sinne in Form eines wenig verminderten Hulsenansatzes unter Kuhlestress gefunden, als auch Kompensationsvermogen in Form von vermehrtem Hulsenansatz nach der Kuhlestressphase (Toleranz im weiteren Sinne) - bei einigen Genotypen ohne, bei anderen mit deutlicher Reifeverzogerung. Daruber hinaus gab es auch sensitive Genotypen ohne Kompensationsvermogen. Im Feldversuch 2011 und 2013 beobachtete Auswirkungen einer Kuhlestressphase nach Bluhbeginn auf den Hulsenansatz ergaben eine vergleichsweise gute Ubereinstimmung mit den Ergebnissen aus dem Gefasversuch unter kontrollierten Bedingungen. Die dreijahrigen Feldversuche am Standort Gros Lusewitz zeigten weiterhin,dass trotz der extrem nordlichen Lage des Standortes Sojaerfolgreich in Norddeutschland angebaut werden kann,wenn entsprechend fruhreife Sorten (fruhe 00-0000) zum Einsatz kommen. Dabei stellte sich heraus, dass in Jahren mit hoheren Warmesummen die etwas spateren Sorten ihr meist hoheres Ertragspotential realisieren konnten, uber alle Jahre gesehen, die fruhen Sorten auf einem etwas niedrigeren Ertragsniveau jedoch ertragsstabiler sind und ertragsstabile Sorten in der Regel auch uber eine gute Kuhletoleranz verfugen.

Identification of genomic regions involved in drought stress tolerance in winter barley by association genetics

The main role of MADS-box transcription factors in plant developmental processes has been well described in the model plant Arabidopsis thaliana. However, little is known about their function in crops of important agricultural and commercial value. Our study aims to investigate their role in two agronomical relevant Rosaceae crops: apple (Malus x domestica Borkh.) and strawberry (Fragaria vesca). Expression studies using qPCR and RNA seq have identified two apple Dormancy Associated MADS-box (DAM) genes. They group with the StMADS11 clade, and were named MdDAM1 and MdDAM2, the last one discovered ex novo. Real time expression studies in dormant buds collected during the chilling period and chromatin immunoprecipitation (ChIP) analyses confirmed that the genes are downregulated by exposure to cold and MdDAM1 is epigenetically repressed, as it has been demonstrated for Arabidopsis FLC and peach DAM genes. In parallel we worked on strawberry MADS-box genes of known function involved in flower development. We chose three MADS-box genes that are homologs of Arabidopsis PISTILLATA and AGAMOUS to perform gene expression and functional analysis using a RNA interference approach to obtain post-transcriptional gene silencing. The positive transgenic lines of each transformation were evaluated at the molecular and phenotypic level. Single gene mutants does not show altered flower phenotype, suggesting a different mechanism of flower development in strawberry, probably due to the peculiar flower structure.The quarantine pest pine wood nematode (PWN) Bursaphelenchus xylophilus, native in North America, can be found in wood and root parts of infected conifer trees with focus on Pinus species. At the beginning of the 20 century this species was introduced into Japan supposedly with timber imports where it induced pine wilt expression on susceptible native pine species. Further outbreaks outside Europe are reported from China, Korea, Taiwan and Mexico. In 1999 PWN was found in Portugal, which today is declared as complete infested, since followed by first single tree outbreaks in Spain. The European Union (EU) member states have to undertake measures to prevent further spread of this nematode according to the emergency measures of the EU Commission.The box tree pyralid Cydalima perspectalis (Walker 1859) is an invasive alien moth from East Asia which occurs in Central Europe since 2007. It is an insect pest on plants of the genus Buxus, causing serious damage. Because of the rapid spread in Germany and nearby countries like Switzerland, one part of this study was testing different ways of eco-friendly regulation with commercially available beneficials and biological control agents.1 Julius Kühn-Institute, Federal Research Centre for Cultivated Plants (JKI), Institute for Epidemiology and Pathogen Diagnostics, Braunschweig, Germany. 2 Geisenheim Research Center, Section Phytomedicine, Geisenheim, Germany. 3 Área de Genética, Facultad de Ciencias, Universidad de Málaga, Instituto de Hortofruticultura Subtropical y Mediterránea La Mayora (IHSM-UMA-CSIC), Málaga (Spain). 4 Suez Canal University, Faculty of Agriculture, Ismailia, Egypt. Email of corresponding author: namis.eltlbany@jki.bund.deExcessive use of mineral nitrogen (N) fertilizer is a common practice in rice-wheat rotations in southeastern China. At the same time N use efficiencies (NUEs) in these rice-based cropping system are very low (Peng et al., 2006). The consequences are high N losses from arable land to water bodies (surfaceand groundwater) and to the atmosphere (Richter and Roelcke, 2000). To investigate the scope and scale of reductions in mineral N fertilizer inputs, demonstration field experiments on farmers’ field sites were conducted for three consecutive winter wheat-summer rice double crop rotations in two counties of Jiangsu Province from 2008 to 2011. Results from the first two years are presented here. NUEsPolycyclic aromatic hydrocarbons (PAHs) are important environmental pollutants which often persist in soil. The biochemistry of microbe-driven degradation of PAHs is well-studied though less is known about abiotic soil environmental factors influencing the microbe-phenanthrene interaction. Since minerals and charcoal are major soil components we matured different microbial communities in artificial soils based only on variation in the mineral content (montmorillonite, illite, ferrihydrite) and presence of charcoal for 2 years after addition of Luvisol microorganisms and sterile manure. Established microbial communities in soils were exposed to PAHs’ model compound phenanthrene (2 mg/g) to study microbial functionality depending on soil composition. Furthermore, litter which was previously shown to enhance microbial activity was added to the soils (1 wt%). Both treatments with corresponding controls were further incubated for 63 days with sampling on day 0, 7, 21 and 63. A natural Luvisol soil was treated similarly for control. Fingerprints by denaturing gradient gel electrophoresis (DGGE) based on 16S rRNA or ITS gene fragments, respectively, amplified from extracted total community DNA were generated. The presence of phenanthrene-degradative genes was screened by PCR-Southern Blot detection and soil treatments were subjected to a chemical phenanthrene analysis. DGGE fingerprints revealed that the addition of phenanthrene and litter caused a shift in microbial community composition. Differences in bacterial response to phenanthrene were seen depending on litter addition and soil composition. The incubation time was determined as additional influencing factor. Furthermore, a dominance of a specific genotype for phenanthrene degradation is assumed based on PCR-Southern Blot analysis.1 Julius Kühn-Institute Federal Research Centre for Cultivated Plants (JKI), Institute for Epidemiology and Pathogen Diagnostics, Messeweg 11-12, D-38104 Braunschweig 2 Institute of Crop Science and Resource Conservation, Soil Science and Ecology, University of Bonn, Nussallee 13, D-53115 Bonn 3 Institute of Bioand Geosciences 3, Agrosphere, Forschungszentrum Jülich GmbH, D-52425 Jülich Email of corresponding author: sven.jechalke@jki.bund.de

Phenotyping of Brassica napus genotypes for resistance to drought

The main role of MADS-box transcription factors in plant developmental processes has been well described in the model plant Arabidopsis thaliana. However, little is known about their function in crops of important agricultural and commercial value. Our study aims to investigate their role in two agronomical relevant Rosaceae crops: apple (Malus x domestica Borkh.) and strawberry (Fragaria vesca). Expression studies using qPCR and RNA seq have identified two apple Dormancy Associated MADS-box (DAM) genes. They group with the StMADS11 clade, and were named MdDAM1 and MdDAM2, the last one discovered ex novo. Real time expression studies in dormant buds collected during the chilling period and chromatin immunoprecipitation (ChIP) analyses confirmed that the genes are downregulated by exposure to cold and MdDAM1 is epigenetically repressed, as it has been demonstrated for Arabidopsis FLC and peach DAM genes. In parallel we worked on strawberry MADS-box genes of known function involved in flower development. We chose three MADS-box genes that are homologs of Arabidopsis PISTILLATA and AGAMOUS to perform gene expression and functional analysis using a RNA interference approach to obtain post-transcriptional gene silencing. The positive transgenic lines of each transformation were evaluated at the molecular and phenotypic level. Single gene mutants does not show altered flower phenotype, suggesting a different mechanism of flower development in strawberry, probably due to the peculiar flower structure.The quarantine pest pine wood nematode (PWN) Bursaphelenchus xylophilus, native in North America, can be found in wood and root parts of infected conifer trees with focus on Pinus species. At the beginning of the 20 century this species was introduced into Japan supposedly with timber imports where it induced pine wilt expression on susceptible native pine species. Further outbreaks outside Europe are reported from China, Korea, Taiwan and Mexico. In 1999 PWN was found in Portugal, which today is declared as complete infested, since followed by first single tree outbreaks in Spain. The European Union (EU) member states have to undertake measures to prevent further spread of this nematode according to the emergency measures of the EU Commission.The box tree pyralid Cydalima perspectalis (Walker 1859) is an invasive alien moth from East Asia which occurs in Central Europe since 2007. It is an insect pest on plants of the genus Buxus, causing serious damage. Because of the rapid spread in Germany and nearby countries like Switzerland, one part of this study was testing different ways of eco-friendly regulation with commercially available beneficials and biological control agents.1 Julius Kühn-Institute, Federal Research Centre for Cultivated Plants (JKI), Institute for Epidemiology and Pathogen Diagnostics, Braunschweig, Germany. 2 Geisenheim Research Center, Section Phytomedicine, Geisenheim, Germany. 3 Área de Genética, Facultad de Ciencias, Universidad de Málaga, Instituto de Hortofruticultura Subtropical y Mediterránea La Mayora (IHSM-UMA-CSIC), Málaga (Spain). 4 Suez Canal University, Faculty of Agriculture, Ismailia, Egypt. Email of corresponding author: namis.eltlbany@jki.bund.deExcessive use of mineral nitrogen (N) fertilizer is a common practice in rice-wheat rotations in southeastern China. At the same time N use efficiencies (NUEs) in these rice-based cropping system are very low (Peng et al., 2006). The consequences are high N losses from arable land to water bodies (surfaceand groundwater) and to the atmosphere (Richter and Roelcke, 2000). To investigate the scope and scale of reductions in mineral N fertilizer inputs, demonstration field experiments on farmers’ field sites were conducted for three consecutive winter wheat-summer rice double crop rotations in two counties of Jiangsu Province from 2008 to 2011. Results from the first two years are presented here. NUEsPolycyclic aromatic hydrocarbons (PAHs) are important environmental pollutants which often persist in soil. The biochemistry of microbe-driven degradation of PAHs is well-studied though less is known about abiotic soil environmental factors influencing the microbe-phenanthrene interaction. Since minerals and charcoal are major soil components we matured different microbial communities in artificial soils based only on variation in the mineral content (montmorillonite, illite, ferrihydrite) and presence of charcoal for 2 years after addition of Luvisol microorganisms and sterile manure. Established microbial communities in soils were exposed to PAHs’ model compound phenanthrene (2 mg/g) to study microbial functionality depending on soil composition. Furthermore, litter which was previously shown to enhance microbial activity was added to the soils (1 wt%). Both treatments with corresponding controls were further incubated for 63 days with sampling on day 0, 7, 21 and 63. A natural Luvisol soil was treated similarly for control. Fingerprints by denaturing gradient gel electrophoresis (DGGE) based on 16S rRNA or ITS gene fragments, respectively, amplified from extracted total community DNA were generated. The presence of phenanthrene-degradative genes was screened by PCR-Southern Blot detection and soil treatments were subjected to a chemical phenanthrene analysis. DGGE fingerprints revealed that the addition of phenanthrene and litter caused a shift in microbial community composition. Differences in bacterial response to phenanthrene were seen depending on litter addition and soil composition. The incubation time was determined as additional influencing factor. Furthermore, a dominance of a specific genotype for phenanthrene degradation is assumed based on PCR-Southern Blot analysis.1 Julius Kühn-Institute Federal Research Centre for Cultivated Plants (JKI), Institute for Epidemiology and Pathogen Diagnostics, Messeweg 11-12, D-38104 Braunschweig 2 Institute of Crop Science and Resource Conservation, Soil Science and Ecology, University of Bonn, Nussallee 13, D-53115 Bonn 3 Institute of Bioand Geosciences 3, Agrosphere, Forschungszentrum Jülich GmbH, D-52425 Jülich Email of corresponding author: sven.jechalke@jki.bund.de

Identification of QTLs for drought stress induced leaf senescence in barley using genome wide association studies

The main role of MADS-box transcription factors in plant developmental processes has been well described in the model plant Arabidopsis thaliana. However, little is known about their function in crops of important agricultural and commercial value. Our study aims to investigate their role in two agronomical relevant Rosaceae crops: apple (Malus x domestica Borkh.) and strawberry (Fragaria vesca). Expression studies using qPCR and RNA seq have identified two apple Dormancy Associated MADS-box (DAM) genes. They group with the StMADS11 clade, and were named MdDAM1 and MdDAM2, the last one discovered ex novo. Real time expression studies in dormant buds collected during the chilling period and chromatin immunoprecipitation (ChIP) analyses confirmed that the genes are downregulated by exposure to cold and MdDAM1 is epigenetically repressed, as it has been demonstrated for Arabidopsis FLC and peach DAM genes. In parallel we worked on strawberry MADS-box genes of known function involved in flower development. We chose three MADS-box genes that are homologs of Arabidopsis PISTILLATA and AGAMOUS to perform gene expression and functional analysis using a RNA interference approach to obtain post-transcriptional gene silencing. The positive transgenic lines of each transformation were evaluated at the molecular and phenotypic level. Single gene mutants does not show altered flower phenotype, suggesting a different mechanism of flower development in strawberry, probably due to the peculiar flower structure.The quarantine pest pine wood nematode (PWN) Bursaphelenchus xylophilus, native in North America, can be found in wood and root parts of infected conifer trees with focus on Pinus species. At the beginning of the 20 century this species was introduced into Japan supposedly with timber imports where it induced pine wilt expression on susceptible native pine species. Further outbreaks outside Europe are reported from China, Korea, Taiwan and Mexico. In 1999 PWN was found in Portugal, which today is declared as complete infested, since followed by first single tree outbreaks in Spain. The European Union (EU) member states have to undertake measures to prevent further spread of this nematode according to the emergency measures of the EU Commission.The box tree pyralid Cydalima perspectalis (Walker 1859) is an invasive alien moth from East Asia which occurs in Central Europe since 2007. It is an insect pest on plants of the genus Buxus, causing serious damage. Because of the rapid spread in Germany and nearby countries like Switzerland, one part of this study was testing different ways of eco-friendly regulation with commercially available beneficials and biological control agents.1 Julius Kühn-Institute, Federal Research Centre for Cultivated Plants (JKI), Institute for Epidemiology and Pathogen Diagnostics, Braunschweig, Germany. 2 Geisenheim Research Center, Section Phytomedicine, Geisenheim, Germany. 3 Área de Genética, Facultad de Ciencias, Universidad de Málaga, Instituto de Hortofruticultura Subtropical y Mediterránea La Mayora (IHSM-UMA-CSIC), Málaga (Spain). 4 Suez Canal University, Faculty of Agriculture, Ismailia, Egypt. Email of corresponding author: namis.eltlbany@jki.bund.deExcessive use of mineral nitrogen (N) fertilizer is a common practice in rice-wheat rotations in southeastern China. At the same time N use efficiencies (NUEs) in these rice-based cropping system are very low (Peng et al., 2006). The consequences are high N losses from arable land to water bodies (surfaceand groundwater) and to the atmosphere (Richter and Roelcke, 2000). To investigate the scope and scale of reductions in mineral N fertilizer inputs, demonstration field experiments on farmers’ field sites were conducted for three consecutive winter wheat-summer rice double crop rotations in two counties of Jiangsu Province from 2008 to 2011. Results from the first two years are presented here. NUEsPolycyclic aromatic hydrocarbons (PAHs) are important environmental pollutants which often persist in soil. The biochemistry of microbe-driven degradation of PAHs is well-studied though less is known about abiotic soil environmental factors influencing the microbe-phenanthrene interaction. Since minerals and charcoal are major soil components we matured different microbial communities in artificial soils based only on variation in the mineral content (montmorillonite, illite, ferrihydrite) and presence of charcoal for 2 years after addition of Luvisol microorganisms and sterile manure. Established microbial communities in soils were exposed to PAHs’ model compound phenanthrene (2 mg/g) to study microbial functionality depending on soil composition. Furthermore, litter which was previously shown to enhance microbial activity was added to the soils (1 wt%). Both treatments with corresponding controls were further incubated for 63 days with sampling on day 0, 7, 21 and 63. A natural Luvisol soil was treated similarly for control. Fingerprints by denaturing gradient gel electrophoresis (DGGE) based on 16S rRNA or ITS gene fragments, respectively, amplified from extracted total community DNA were generated. The presence of phenanthrene-degradative genes was screened by PCR-Southern Blot detection and soil treatments were subjected to a chemical phenanthrene analysis. DGGE fingerprints revealed that the addition of phenanthrene and litter caused a shift in microbial community composition. Differences in bacterial response to phenanthrene were seen depending on litter addition and soil composition. The incubation time was determined as additional influencing factor. Furthermore, a dominance of a specific genotype for phenanthrene degradation is assumed based on PCR-Southern Blot analysis.1 Julius Kühn-Institute Federal Research Centre for Cultivated Plants (JKI), Institute for Epidemiology and Pathogen Diagnostics, Messeweg 11-12, D-38104 Braunschweig 2 Institute of Crop Science and Resource Conservation, Soil Science and Ecology, University of Bonn, Nussallee 13, D-53115 Bonn 3 Institute of Bioand Geosciences 3, Agrosphere, Forschungszentrum Jülich GmbH, D-52425 Jülich Email of corresponding author: sven.jechalke@jki.bund.de