Ralf Kätzel scite author profile

Ralf Kätzel

5Publications

106Citation Statements Received

68Citation Statements Given

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Affiliations

Eberswalde University for Sustainable Development, Johann Heinrich von Thünen-Institut, Ludwig-Maximilians-Universität München

Publications

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Genetic monitoring in forests - early warning and controlling system for ecosystemic changes

Konnert¹,

Maurer²,

Деген³

et al. 2011

iForest

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In the context of existent programmes of environmental monitoring which have been established as efficient tools for permanently observing environmental changes, a concept for a genetic monitoring in forests was recently elaborated by a German forest geneticist working group. Genetic monitoring is assumed to contribute essentially to the estimation and valuation of the effect of factors influencing the genetic system of trees in the forests, thus making it an early warning and controlling system for ecosystemic changes. The “Concept of a Genetic Monitoring for Forest Tree Species in the Federal Republic of Germany” gives scientifically-based guidelines for monitoring the current state and dynamics of genetic systems in forest stands of diverse tree species in an extensively, harmonized manner. Both objectives and the realization of the genetic monitoring concept are presented here. The status of the genetic systems of forest tree populations is assessed on the basis of criteria, indicators and verifiers. For this purpose the genetic as well as the phenological and physiological levels are taken into consideration in order to follow temporal developments and to estimate influencing factors. The results of a pioneer study concerning the tree species Fagus sylvatica and Prunus avium are reported

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Genetic variation of chloroplast and nuclear markers in natural populations of hazelnut (Corylus avellana L.) in Germany

Leinemann

Steiner

Hosius³

et al. 2012

Plant Syst Evol

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Corylus avellana L. (hazel) is a long-lived, monoecious and wind-pollinated shrub species, widespread all over Europe. In Germany, hazel is intensively traded and planted, and thus is of central interest from a nature conservancy point of view. To assess the within-and between-population differentiation of hazel, 20 natural populations (18 from Germany, one from Italy and one from Hungary) were investigated genetically. Seven isozyme systems comprising 11 gene loci were analysed in up to 100 samples (average 92.6) per population, amplified fragment length polymorphisms (AFLP) were analysed in up to 50 samples (average 47.4) and nine cpDNA-SSR markers were assessed in 20 samples per population. Results for overall isozyme variability with Na 2.46 alleles per locus, allelic diversity (Ne) 1.39, expected heterozygosity He 21 % and 79 % polymorphic loci were in accordance with the findings of previous studies. The respective values for AFLPs were lower, but both marker systems revealed the same level of about 3.5 % differentiation between populations. For cpSSR only the Italian sample showed within-population variation and the two haplotypes were completely differentiated from all other populations expressing a unique genetic structure with one single haplotype. Among the three marker systems AFLPs showed the best ability to differentiate between populations. While only one isozyme locus revealed significant differentiation, 41 AFLP loci showed highly significant differentiation between all populations, but 26 loci when only German populations were considered. Consequently geographic differentiation analyses focused mainly on molecular markers. Mantel tests showed significant correlations between genetic and geographic distance, but in the unweighted pair-group method with arithmetic mean analyses, adjacent populations did not always form clusters. While chloroplast markers were able to clearly distinguish only the Hungarian population, the nuclear

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Genetic composition and differentiation of sloe (Prunus spinosa L.) populations in Germany with respect to the tracing of reproductive plant material

Leinemann

Kleinschmit

Fussi³

et al. 2014

Plant Syst Evol

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Factors Influencing the Variability of Antioxidative Phenolic Glycosides in Salix Species

Förster

Ulrichs

Zander

et al. 2010

J. Agric. Food Chem.

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Phenolic glycosides, especially the salicylates, are important secondary metabolites in the bark of willows (Salix spp.). Because of their anti-inflammatory, analgesic, and fever-reducing properties, they are of particular interest to society. Compared to the fabrication of synthetic salicylacetylic acid, the commercial production of willow bark extracts with adequate amounts of salicylate is very difficult due to several biological and technical reasons. Therefore, one of the objectives was to identify salicylate-rich clones from three species, Salix daphnoides , Salix purpurea , and Salix pentandra , with potentially high amounts of phenolic glycosides. Three hundred different Salix clones were collected, and the chemical profiles of their bark were analyzed by HPLC. Overall, S. daphnoides clones showed the highest phenolic glycoside contents, followed by S. purpurea and S. pentandra. Second, seasonal changes of secondary compounds in willow bark were analyzed to determine the optimal harvesting time. The phenolic glycoside levels decreased over the growing season, with highest contents detected during plant dormancy. The effects of different cultivation conditions were also examined, and none of these treatments were found to have a significant effect on the phenolic glycoside content in willow bark. Biomass accumulation in the clones with grass competition was significantly lower than in the other three treatments.

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Conservation of Forest Genetic Resources: The Basis for Adaptability in Managed Forests

Kätzel

2009

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Ralf Kätzel

Genetic monitoring in forests - early warning and controlling system for ecosystemic changes

Genetic variation of chloroplast and nuclear markers in natural populations of hazelnut (Corylus avellana L.) in Germany

Genetic composition and differentiation of sloe (Prunus spinosa L.) populations in Germany with respect to the tracing of reproductive plant material

Factors Influencing the Variability of Antioxidative Phenolic Glycosides in Salix Species

Conservation of Forest Genetic Resources: The Basis for Adaptability in Managed Forests

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