Die chronologische Liste zeigt aktuelle Veröffentlichungen aus dem Forschungsbetrieb der Hochschule Weihenstephan-Triesdorf. Zuständig ist das Zentrum für Forschung und Wissenstransfer (ZFW).
8 Ergebnisse
Elena Beuth,
Maximilian Schreiner,
Dr. Dieter Lohr,
Prof. Dr. Elke Meinken
In the wake of the decarbonisation of the entire economy, the use of peat in horticulture is under increasing pressure. In Germany, wood fibre is by far the most important substitute in growing media for professional horticulture. However, due to readily microbial degradability and a wide C:N ratio, nitrogen immobilization is a major problem of wood fibre products and considerably limits their use. Concurrently, stability of wood fibre is assessed by incubation experiments in which the change of mineral nitrogen is measured. However, these experiments have three shortcomings: First, they are quite labour and time-consuming as incubation period is up to 21 days. Second, if long-term fertilizers – especially urea-aldehyde condensation products – are applied by the manufacturer, the experiments only provide information about the stability of the N balance, but not about the stability of the material itself. Third, comparability and repeatability of the incubation experiments are rather poor. To overcome these shortcomings new approaches to evaluate stability of wood fibre were tested.The setup of the first approach is similar to the currently used incubation experiments. However, the incubation period is only five days and additionally to change in mineral nitrogen from the beginning to the end of the experiment, carbon mineralization is analysed continuously by Oxitop®-C measuring heads. The second approach focusses on the characterization of readily decomposable nitrogen and carbon fractions in the wood fibre. On the one hand, hydrolysable nitrogen and carbon is measured and on the other hand, a stepwise thermal fractionation of carbon under pyrolytic conditions is done. The results of the two approaches are compared to nitrogen immobilization measured in common incubation experiments and further validated by nitrogen balances deduced form short-term pot experiments with Chinese cabbage.
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Ivonne Jüttner,
Nicolas Mauser,
Sabine Wittmann,
Eleonora Itri,
Prof. Dr. Heike Susanne Mempel
Development of an indoor farming cultivation process for Rhodiola rosea, using an aeroponic and deep-water irrigation method (2022) 31. International Horticultural Congress (IHC2022); International Symposium on advances in Vertical Farming .
Ivonne Jüttner,
B.Sc. Julian Hecht,
Sabine Wittmann,
Prof. Dr. Heike Susanne Mempel
Influence of different light spectra on growth and quality of Rosmarinus officinalis cultivars in a deep- water vertical indoor farming system (2022) 31. International Horticultural Congress (IHC2022): International Symposium on Advances in Vertical Farming .
Sabine Wittmann,
Ivonne Jüttner,
Prof. Dr. Heike Susanne Mempel
Pulsed light − optimal ratio between yield and energy reduction (2022)
Sabine Wittmann,
Ivonne Jüttner,
Prof. Dr. Heike Susanne Mempel
Fruit vegetables in indoor farming – potential of chili pepper production (2022) 31. International Horticultural Congress (IHC2022): International Symposium on Advances in Vertical Farming .
Dr. Dieter Lohr,
Heinz-Josef Schmitz,
Prof. Dr. Elke Meinken
Green roofs play a crucial role in climate change mitigation strategies. On the one hand, they should reduce the risk of urban floods after heavy rainfalls. On the other hand, they should cool the city by evapotranspiration and avoid the formation of urban heat islands. However, concurrently most green roofs in Germany are extensive ones. They are designed as dry sites, with shallow and well-drained vegetation layers, no additional irrigation and greened with highly drought-adapted plants - mainly sedum. Indeed, during the last years a new kind of extensive green roofs – still with shallow vegetation layers – but equipped with sub-surface irrigation and voluminous retention elements as temporary water storage beneath the vegetation layer as well as greened with plants with high transpiration, were developed. But also these new kind of green roofs are facing a conflict of objectives between storm water retention and cooling performance. To solve this conflict of objectives an adaptive and sensor based water management system was developed. It consists of two main components: Irrigation management of the plants and management of storm water runoff, especially the control of the retention element. For the irrigation management a decision matrix was developed which adapts the irrigation strategy, depending if cooling performance or water retention has higher priority. Prioritization is based on thermal discomfort and rain forecast. The decision matrix uses environmental data, data of the weather forecast and information about water resources (e.g. grey water, water supply in the retention element). For management of storm water, run-off is actively controlled and the vegetation layer used as temporary water storage. In combination with a retention element, this can quadruple water retention capacity of green roofs. The amount of water stored in the green roof system – especially the retention element – is mainly controlled on basis of real-time, radar-based precipitation data.
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Johannes Görl,
Dr. Dieter Lohr,
Prof. Dr. Elke Meinken
Effect of co-composted biochar on nitrogen availability to spinach (2022) 31. International Horticultural Congress (IHC2022); International symposium on plant nutrition, fertilization, soil management .
Co-composted biochar is suspected to be an effective sorbent for nitrate and thus might reduce nitrate leaching from agricultural soils. However, the underlying mechanism is unknown now and the effect on nitrogen availability is under discussion. In the current study, a pot trial with spinach was conducted to evaluate the influence of two co-composted biochars on nitrogen availability. Two wood-based biochars were co-composted with grass clippings and woody scrap material from landscaping activities. Additionally, a compost without biochar was prepared. Composts were mixed to an arable soil at rates of 30, 60 and 120 t ha-1 and nitrate was applied on basis of 100 kg N per hectare. Afterwards, mixtures were filled in balcony boxes, moisturized and placed in a greenhouse for 40 days. As control the soil without compost was treated in the same way. Furthermore, additional treatments without and with the highest application rate, but without nitrogen fertilization, were prepared. After the 40 days these balcony boxes were also fertilized with 100 kg ha-1 of nitrogen and spinach – pre-cultivated in press pots – was planted in all balcony boxes. Irrespectively of application rates and – in case of the highest application rate – of date of nitrogen fertilization, no negative effect of co-composted biochar on N uptake was observed. In addition, the nitrogen balance for treatments with co-composted biochar was not significantly different from the control. However, for treatments with compost without biochar an increasing balance shortfall with increasing amounts of compost was observed. This might due to a nitrogen immobilization of woody residues. In view of the fact, that N uptake by plants was comparable and significant amounts of easily extractable nitrate were found in the soil at the end of the experiment, we assume that the co-composted biochars used in this experiment had no adsorption capacity for nitrate.
Dr. Dieter Lohr,
Bettina Babel,
Carina Lau,
Nolwen Levaillant,
Felix Prell,
Dipl.-Biol. Daniel Hauck
Due to depletion of global phosphorus resources, there is an increasing interest in phosphorus recycling products as fertilizer for growing media. However, in contrast to currently used fertilizers, which are almost completely based on calcium phosphates, at least in sewage-sludge based recycling products a remarkably amounts of phosphorus can be bound to iron or aluminum. In previous studies, the CaCl2/DTPA (CAT) and CAL method partly underestimated plant availability of such sewage-sludge based recycling products, which might be due to a low solubility of iron- and aluminium-bound phosphorus in these two extractants. Thus, a pot trial with marigold was done: plants were fertilized with mono-calcium phosphate (MCaP), di-calcium phosphate (DCaP), tri-calcium phosphate (TCaP), aluminium phosphate (AlP) or iron phosphate (FeP) at growing media pH of 5.5 and 6.5, respectively. No effect on plant growth was observed for the three calcium phosphates irrespectively of pH. However, plant fresh weight was reduced if P was applied as FeP and AlP, whereby no effect of pH was found for AlP but for FeP. Against expectations, plant availability was poorer at the higher pH. In contrary to fresh weight, P uptake of plants decreases from mono- to tri-calcium phosphate and with increasing pH. For aluminium and iron phosphates results for P uptake was comparable to those reported for fresh weight. Whereas plant availability of the three calcium phosphates was well reflected by CAT and overestimated by CAL, P uptake from iron phosphate was strongly underestimated by CAT but matches CAL soluble P. Availability of aluminum phosphate was strongly underestimated by both extractants as well as by the combination of CAT and CAL soluble phosphorus. This supports previous findings for various sewage-sludge based products and raises the question of the need of other extractants.
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Referent für Wissenstransfer und Forschungskommunikation
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