Winfried Kronberger scite author profile

Winfried Kronberger

4Publications

38Citation Statements Received

0Citation Statements Given

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Affiliations

Gregor Mendel Institute of Molecular Plant Biology, Institute of Botany, University of Natural Resources and Life Sciences, Vienna

Publications

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A new method to determine the oxygen concentration inside the sapwood of trees

Hierro

Kronberger

Hietz

et al. 2002

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Research into the short-term fluctuations of oxygen concentrations in tree stems has been hampered by the difficulty of measuring oxygen inside tissues. A new method, which is based on fluorescence quenching of a ruthenium complex in the presence of oxygen, has been applied to measure changes of oxygen concentration in the sapwood of trees. During a field day-course oxygen increased with the radiation load and fell during the night (in Fagus orientalis from 20.3% in the afternoon to 17.5% in the morning next day). In a greenhouse experiment the sapwood oxygen concentration of Laurus nobilis could be influenced by flooding the root system. The very fast response, high resolution (better than 0.1%), easy calibration, and dependence only on oxygen and temperature make the technique well suited for measurements of oxygen concentrations in the sapwood.

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Phytochrome-mediated changes in the membrane potential of subepidermal cells of Lemna paucicostata 6746

Löppert

Kronberger

Kandeler

1978

Planta

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Light-stimulated transmembrane potential changes have been measured continuously after implantation of microelectrodes into subepidermal cells of the short-day plant Lemna paucicostata 6746. Irradiation for 5 min with white or red light caused a transient hyperpolarization. These potential changes could be suppressed with 10(-6) M DCMU. Irradiation of DCMU-inhibited plants with far-red light for 5 min hyperpolarized the membrane potential, which thereafter was not changed by further far-red application. Consecutive red light irradiation for 5 min depolarized the membrane potential. The red/far-red reversibility of the potential changes (which could be repeated several times with a single plant) suggests the participation of phytochrome.

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Control of Nitrate Uptake by Photosynthesis in Lemna Paucicostata 6746

Löppert¹,

Kronberger²

1979

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Chloroplast movements in leaves of two evergreen sclerophyllous plants (Ilex aquifoliumandPrunus laurocerasus)

Hierro¹,

Kronberger²,

Richter³

2000

Plant Biosystems - An International Journal Dealing with all As

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