Institut für Lebensmittelchemie

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Antifungal properties of bioactive compounds isolated from Fucus vesiculosus supercritical carbon dioxide extract
(2024) Tyśkiewicz, Katarzyna; Rüttler, Felix; Tyśkiewicz, Renata; Nowak, Artur; Gruba, Marcin; Wziątek, Anita; Dębczak, Agnieszka; Sandomierski, Michał; Vetter, Walter; Cacciola, Francesco
The exploration of natural antifungal substances from algal origins is significant due to the increasing resistance of pathogens to conventional antifungal agents and the growing consumer demand for natural products. This manuscript represents the inaugural investigation into the antifungal attributes of bioactive compounds extracted from Fucus vesiculosus via supercritical carbon dioxide (scCO2) extraction utilizing contemporary countercurrent chromatography (CCC). In aligning with the prospective utilization of this extract within the agricultural sector, this study also serves as the preliminary report demonstrating the capability of Fucus vesiculosus scCO2 extract to enhance the activity of plant resistance enzymes. The fractions obtained through CCC were subjected to evaluation for their efficacy in inhibiting the macrospores of Fusarium culmorum. The CCC methodology facilitated the successful separation of fatty acids (reaching up to 82.0 wt.% in a given fraction) and fucosterol (attaining up to 79.4 wt.% in another fraction). All CCC fractions at the concentration of 1.0% were found to inhibit 100% of Fusarium culmorum growth. Moreover, Fucus vesiculosus scCO2 extract was able to activate plant resistance enzymes (Catalase, Ascorbic Peroxidase, Guaiacol Peroxidase, Phenylalanine Ammonia-Lyase, and Phenylalanine Ammonia-Lyase Activity).
Characterization of the major odor-active compounds in fresh rhizomes and leaves of Houttuynia cordata by comparative aroma extract dilution analysis
(2025) Xu, Zhenli; Liu, Jing; Kreissl, Johanna; Oellig, Claudia; Vetter, Walter; Steinhaus, Martin; Frank, Stephanie; Rodov, Victor
Houttuynia cordata is a culinary herb from Asia. Its edible rhizomes and leaves have a fishy aroma, the molecular background of which was unknown. A comparative aroma extract dilution analysis applied to fresh rhizomes and leaves resulted in 44 and 41 odorants, respectively, 38 of which were present with FD factors ≥1 in both samples. The odorant with the highest FD factors, whether in the rhizomes or leaves, was identified as metallic, soapy, fishy smelling 3-oxododecanal. Toward clarifying its tautomeric composition, quantum calculations suggested a predominance of the enol forms in the plant. However, the form perceived at the sniffing port during GC–O remained unclear.
Combining spring wheat genotypes with contrasting root architectures modifies plant–microbe interactions under different water regimes
(2025) Lattacher, Adrian; Le Gall, Samuel; Rothfuss, Youri; Harings, Moritz; Armbruster, Wolfgang; van Dusschoten, Dagmar; Pflugfelder, Daniel; Alahmad, Samir; Hickey, Lee T.; Kandeler, Ellen; Poll, Christian; Lattacher, Adrian; Soil Biology Department, Institute of Soil Science and Land Evaluation, University of Hohenheim, 70599, Stuttgart, Germany; Le Gall, Samuel; Institute of Bio- and Geosciences, Agrosphere (IBG-3), Forschungszentrum Jülich, 52428, Jülich, Germany; Rothfuss, Youri; Institute of Bio- and Geosciences, Agrosphere (IBG-3), Forschungszentrum Jülich, 52428, Jülich, Germany; Harings, Moritz; Institute of Bio- and Geosciences, Agrosphere (IBG-3), Forschungszentrum Jülich, 52428, Jülich, Germany; Armbruster, Wolfgang; Department of Food Chemistry and Analytical Chemistry, Institute of Food and Chemistry, University of Hohenheim, 70599, Stuttgart, Germany; van Dusschoten, Dagmar; Institute of Bio- and Geoscience, Plant Sciences (IBG-2), Forschungszentrum Jülich, 52428, Jülich, Germany; Pflugfelder, Daniel; Institute of Bio- and Geoscience, Plant Sciences (IBG-2), Forschungszentrum Jülich, 52428, Jülich, Germany; Alahmad, Samir; Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, 4072, St Lucia, QLD, Australia; Hickey, Lee T.; Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, 4072, St Lucia, QLD, Australia; Kandeler, Ellen; Soil Biology Department, Institute of Soil Science and Land Evaluation, University of Hohenheim, 70599, Stuttgart, Germany; Poll, Christian; Soil Biology Department, Institute of Soil Science and Land Evaluation, University of Hohenheim, 70599, Stuttgart, Germany
Background and Aims: Improving agricultural tolerance to climate change is crucial for food security. We investigated whether combining wheat genotypes with contrasting root architecture enhances plant performance under varying conditions. Specifically, we examined how these genotype mixtures affect nitrogen uptake, carbon release and root-microbe interactions compared to single-genotype plantings. Methods: We exposed monocultures and a mixture of shallow- and deep-rooting spring wheat (Triticum aestivum L.) genotypes separately to well-watered and water-deficit conditions in a column experiment. We determined plant and microbial biomass, major microbial groups, and β-glucosidase activity using soil zymography. Additionally, we followed carbon and nitrogen fluxes in the plant-soil-microorganism system by 13CO2 labelling of the atmosphere and 15N injection into top- and subsoil. Results: Combining wheat genotypes with contrasting root phenotypes influenced microbial activity and nutrient uptake depending on water availability. Under well-watered conditions, the mixture performed similarly to the respective monocultures. However, under water-deficit conditions, it exhibited complementary nutrient acquisition strategies where the deep-rooting genotype accessed deeper soil layers, while the shallow-rooting genotype relied more on topsoil nitrogen. This was accompanied by a reduced release of plant-derived carbon into the soil, resulting in lower microbial abundance and reduced β-glucosidase activity compared to monocultures. Conclusion: Our results show that plants grown in a mixture performed similarly to monocultures under well-watered conditions while acquiring nutrients more efficiently under water-deficit conditions. This highlights the potential suitability of combining genotypes with contrasting root phenotypes under climate change. However, yield effects remained untested due to experimental constraints, warranting further investigation under field conditions.
Hydroxylated transformation products obtained after UV irradiation of the current-use brominated flame retardants hexabromobenzene, pentabromotoluene, and pentabromoethylbenzene
(2023) Klimm, Alexandra; Vetter, Walter
Hexabromobenzene (HBB), pentabromotoluene (PBT), and pentabromoethylbenzene (PBEB) are current-use brominated flame retardants (cuBFRs) which have been repeatedly detected in environmental samples. Since information on hydroxylated transformation products (OH-TPs) was scarcely available, the three polybrominated compounds were UV irradiated for 10 min in benzotrifluoride. Fractionation on silica gel enabled the separate collection and identification of OH-TPs. For more insights, aliquots of the separated OH-TPs were UV irradiated for another 50 min (60 min total UV irradiation time). The present investigation of polar UV irradiation products of HBB, PBT, and PBEB was successful in each case. Altogether, eight bromophenols were detected in the case of HBB (three Br3-, four Br4-, and one Br5-isomer), and nine OH-TPs were observed in the case of PBT/PBEB (six Br3- and three Br4-congeners). In either case, Br➔OH exchange was more relevant than H➔OH exchange. Also, such exchange was most relevant in meta- and ortho-positions. As a further point, and in agreement with other studies, the transformation rate decreased with decreasing degree of bromination. UV irradiation of HBB additionally resulted in the formation of tri- and tetrabrominated dihydroxylated compounds (brominated diphenols) that were subsequently identified. These dihydroxylated transformation products were found to be more stable than OH-TPs.
Pesticide residues in daily bee pollen samples (April–July) from an intensive agricultural region in Southern Germany
(2021) Friedle, Carolin; Wallner, Klaus; Rosenkranz, Peter; Martens, Dieter; Vetter, Walter
Insect-pollinated plants are essential for honey bees to feed their brood. In agricultural landscapes, honey bees and other pollinators are often exposed to pesticides used for cultivation. In order to gain more insight into the fluctuation of pesticide loads, 102 daily pollen samples were collected between April and July 2018 in a fruit-growing area in Southern Germany. Samples were analyzed with respect to more than 260 pesticides using a multi-residue pesticide analysis method. Almost 90% of the analyzed pollen samples featured between one and thirteen different pesticides. In total, 29 pesticides were detected at maximum concentrations of up to 4500 ng/g pollen. Maximum residual concentrations of most pesticides were observed during April and the first half of May, as well as during the second half of June. In most cases, serial data of pesticide residuals were detected for approximately 10 subsequent days with two or three maximum values, which were several folds higher than concentrations on the days before and thereafter. The pollen hazard quotient (PHQ) was calculated to estimate the risk of the detected pesticides to honey bees and wild pollinators.

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