H K Lichtenthaler
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Explore the profile of H K Lichtenthaler including associated specialties, affiliations and a list of published articles.
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54
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1262
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Recent Articles
1.
Lichtenthaler H, Abuslima E, Nick P
Photosynthetica
. 2024 Dec;
61(3):297-307.
PMID: 39651366
A 50-year-old solitary, sun-exposed ginkgo tree had strongly been pruned in the fall of 2021. Very few buds for the formation of new leaves, twigs, and branches were left over....
2.
Lichtenthaler H, Babani F
Photosynthetica
. 2024 Dec;
60(1):3-9.
PMID: 39648996
The content of chlorophylls (Chl) (+), total carotenoids (+), and the pigment ratios of Chl / and Chls to carotenoids (+)/(+) of green leaves of five C plants were determined...
3.
Lichtenthaler H, Peveling E
Planta
. 2014 Feb;
72(1):1-13.
PMID: 24554152
The occurence and size of plastoglobuli were studied in the different types of plastids from Allium cepa. The function of plastoglobuli as a reservoir for lipoquinones is discussed. 1. The...
4.
Lichtenthaler H
Planta
. 2014 Feb;
81(2):140-52.
PMID: 24519649
The distribution of lipophilic plastid quinones was investigated in green plants of different systematic position. The relative concentrations of plastid quinones, carotenoids and chlorophylls are presented. 1. The lipophilic plastid...
5.
Reznik H, Lichtenthaler H, Peveling E
Planta
. 2014 Feb;
86(4):353-9.
PMID: 24515860
1. The plastids of the saprophytic orchid Neottia nidus-avis contain, besides chlorophyll a, all plastidquinones and carotenoids of normal chloroplasts from higher plants. The relative concentrations of plastidquinones and carotenoids...
6.
Lichtenthaler H
Planta
. 2014 Feb;
87(4):304-10.
PMID: 24504779
The chloroplasts in the assimilation parenchym of Cereus stems possess numerous osmiophilic plastoglobuli, the size and frequency of which increase with increasing age of chloroplasts. Parallel to this there occurs...
7.
Lichtenthaler H
Planta
. 2014 Feb;
90(2):142-52.
PMID: 24500742
1. The yellow petals of Sarothamnus are colored by chromoplasts which contain free xanthophylls and carotenoid esters. During development of chromoplasts from young chloroplasts the secondary carotenoids are formed together...
8.
Lichtenthaler H
Planta
. 2014 Feb;
93(2):143-51.
PMID: 24496709
The chromoplasts of yellow perigon leaves of Tulipa derive from the young chloroplasts present in the bud stage. During chromoplast development and thylakoid breakdown many large plastoglobuli (diameter 80-360 nm)...
9.
Lichtenthaler H, Buschmann C, Doll M, Fietz H, Bach T, Kozel U, et al.
Photosynth Res
. 2014 Jan;
2(2):115-41.
PMID: 24470202
The photosynthetic CO2-fixation rates, chlorophyll content, chloroplast ultrastructure and other leaf characteristics (e.g. variable fluorescence, stomata density, soluble carbohydrate content) were studied in a comparative way in sun and shade...
10.
Lichtenthaler H, Burkard G, Grumbach K, Meier D
Photosynth Res
. 2014 Jan;
1(1):29-43.
PMID: 24469982
Photosystem II-herbicides (bentazone*, diuron) not only block photosynthetic electron transport, but have additional effects on the cell metabolism of Raphanus seedlings. They induce the formation of shade-type chloroplasts with a...