Seiteninhalt Kontaktlinks
  • Wissenschaftliche Publikationen

Veröffentlichungen der HSWT

Die chronologische Liste zeigt aktuelle Veröffentlichungen aus dem Forschungsbetrieb der Hochschule Weihenstephan-Triesdorf. Zuständig ist das Zentrum für Forschung und Wissenstransfer (ZFW).

8 Ergebnisse

  • Dr. Thomas Schwend, Dipl. Ing. (FH) Christoph Mühlmann, Prof. Dr. Michael Beck, Dietmar Prucker, Prof. Dr. Heike Susanne Mempel

    Regulation of greenhouse lighting with a PAR sensor (2017) BHGL-Tagungsband 31/2015 , S. 119.

  • Dr. Thomas Schwend, Dietmar Prucker, Hans-Peter Haas, Prof. Dr. Bernhard Hauser

    Pelargonium Cultivars: Einfluss von Licht auf die Bewurzelung von Stecklingen (2016) Versuche im deutschen Gartenbau 2016 – Zierpflanzen (www.hortigate.de/bericht?nr=71510) .

  • Dr. Thomas Schwend, Dietmar Prucker, Hans-Peter Haas, Prof. Dr. Heike Susanne Mempel

    Wärmestrahlung, LED und Streckungswachstum (2016) Gärtnerbörse (10), S. 62-65.

  • Dr. Thomas Schwend, M. Kriedel, Dietmar Prucker, Prof. Dr. Sebastian Peisl, Prof. Dr. Heike Susanne Mempel

    • Berechtigungen:  Peer Reviewed

    On the role of the light regime in root development of Euphorbia pulcherrima leafy stem cuttings (2016) European Journal of Horticultural Science (EJHS) 81 (3), S. 148-151. DOI: 10.17660/eJHS.2016/81.3.2

    The development of primordial roots of Euphorbia pulcherrima cuttings coincides with a significant increase in photosynthesis. Therefore, Svenson and Davies (1990) suggested that supplementary lighting has no effect on root development of Euphorbia pulcherrima cuttings before primordial roots develop. In this study this hypothesis was experimentally challenged. Cuttings were cultivated with supplementary lighting from the day of sticking and compared to cuttings that were exposed to the same lighting after primordial root development. Our data show that both sets of cuttings developed equally well and both did better than cuttings that were cultivated without supplementary light. Moreover, the data show that light quality had a major impact on root number, length and weight. Therefore, this study confirms the hypothesis of Svenson and Davies (1990) and shows that the positive effect of supplementary lighting is partially mediated by photoreceptors.

  • Dr. Thomas Schwend, Prof. Dr. Michael Beck, Dietmar Prucker, Prof. Dr. Sebastian Peisl, Prof. Dr. Heike Susanne Mempel

    • Berechtigungen:  Peer Reviewed

    Test of a PAR sensor-based, dynamic regulation of LED lighting in greenhouse cultivation of Helianthus annuus (2016) European Journal of Horticultural Science 81 (3), S. 152-156. DOI: 10.17660/eJHS.2016/81.3.3

    The intensity, and consequently the energy consumption, of light emitting diodes (LEDs) can be regulated. Therefore, LEDs can be implemented in new, dynamic energy saving strategies. Recently it has been shown that a program, which adjusts the intensity of a LED to the current solar PAR, reduced its energy consumption by 20%. The effect of a dynamic LED lighting on ornamental crops has not been tested. In this study we compared the growth of the model plant Helianthus annuus under a dynamic versus a static, control LED lighting. The data of this study show that the dynamic LED consumed 21% less energy than a control LED. However, there was no difference in crop quality or time to anthesis.

  • Dr. Thomas Schwend, Dietmar Prucker, Prof. Dr. Heike Susanne Mempel

    Mit Licht hemmen? (2016) DEGA Gartenbau (7), S. 56-58.

  • Dr. Thomas Schwend, Dietmar Prucker, Prof. Dr. Sebastian Peisl, Athanasios Nitsopoulos, Prof. Dr. Heike Susanne Mempel

    • Berechtigungen:  Peer Reviewed

    The rosmarinic acid content of basil and borage correlates with the ratio of red and far-red light (2016) European Journal of Horticultural Science 81 (5), S. 243-247. DOI: 10.17660/eJHS.2016/81.5.2

    Rosmarinic acid (RA) and caffeic acid (CA) are potent antixodiants and show antimicrobial activity against many fungal plant pathogens. Their biosynthesis employs enzymes of the phenylpropanoid pathway, a pathway that in mustard is regulated by phytochrome. If RA biosynthesis is regulated by phytochromes one would expect that the RA level correlated with the ratio of red to far-red light. In this paper we tested this hypothesis by growing basil and borage under different ratios of red to far-red light. CA and RA contents were measured with state of the art LC-MS/MS. Regression analysis showed that there is a significant inverse correlation of the ratio of red to far-red light and the content of RA, but not of CA. Hence, we conclude that RA biosynthesis is regulated by phytochrome.

  • Dr. Thomas Schwend, Dietmar Prucker, Prof. Dr. Heike Susanne Mempel

    • Berechtigungen:  Peer Reviewed

    Red light promotes compact growth of sunflowers (2015) European Journal of Horticultural Science 80 (2), S. 56-61. DOI: 10.17660/eJHS.2015/80.2.2

    Light quality affects plant morphology. Hence, light quality is an important factor in the cultivation of ornamental plants. The recent advances in LED technology allow producers to adjust light quality to manipulate plant growth. For growers of ornamental plants the primary aim regarding plant morphology is to keep plants short and compact with attractive flowers. However, data on the effect of light quality on plant morphology are still sparse. This study provides data on the effect of different LED light regimes on height and fresh weight of shoot and flower, leaf area and compactness of the model plant Helianthus annuus. Regression analysis of these data shows that red light promotes compact growth.

Betreuung der Publikationsseiten

Zentrum für Forschung und Wissenstransfer - Lageplan in Weihenstephan an der HSWT

Kontakt

Hochschule Weihenstephan-Triesdorf
Zentrum für Forschung und Wissenstransfer
Gebäude H21
Am Staudengarten 9
85354 Freising

nach oben