Literaturverzeichnis
Altenburg, E. undMuller, H. I. (1920): The genetic basis of truncate wing — an inconstant and modifiable character inDrosophila. Genetics5.
Astaurov, B. L. (1927): Untersuchungen über erbliche Veränderung der Halteren beiDrosophila melanogaster. Žürn, exper. Biol. (russ.), Ser. A.,3.
Balkaschina, E. I. (1926): Der Einfluß des Genotypus auf die mannigfaltige Manifestierung der Genovariation alae curvatae. Ebenda2.
Čsetverikov, S. S. (1926): On some moments of the process of evolution from the modern genetic standpoint. Ebenda2.
Driver, E. C. (1926): The temperature effective period — the key to eye facet number inDrosophila. J. of exper. Zool.46.
Goldschmidt, R. (1927): Physiologische Theorie der Vererbung. Berlin: Julius Springer.
Hoge, M. A. (1915): The influence of temperature on the development of a Mendelian character. J. of exper. Zool.18.
Johannsen, W. (1909): Elemente der exakten Erblichkeitslehre. Jena: Gustav Fischer.
(1923): Some remarks about units in heredity. Hereditas (Lund)4.
Krafka, I. (1920): The effect of temperature upon facet number in the bar eyed mutant ofDrosophila. J. gen. Physiol.2.
(1920): Environmental factors other than temperature affecting facet number in the bar eyed mutant ofDrosophila. Ebenda3.
Luce, W. M. (1926): The effect of temperature on infrabar, an allelomorph of Bar eye inDrosophila. J. of exper. Zool.46.
Morgan, T. H. (1915): The role of the environment in the realization of a sex-linked Mendelian character inDrosophila. Amer. Naturalist49.
(1926): Genetics and the physiology of development. Ebenda60.
(1926): The Theory of the Gene. Philadelphia.
Muller, H. I. (1918): Genetic variability, twin hybrids and constant hybrids in a case of balanced lethal factors. Genetics3.
Nadler, I. E. (1926): Effects of temperature on length of vestigial wings inDrosophila virilis. Ebenda11.
Plunkett, C. E. (1926): The interaction of genetic and environmental factors in development. J. of exper. Zool.46.
Reinig, W. F. (1928): Über das Manifestieren zweier Genovariationen beiDrosophila funebris. Biol. Zbl.48.
Roberts, E. (1918): Fluctuations in a rezessive Mendelian character and selection. J. of exper. Zool.27.
Robertson, T. B. (1908): On the Normal Rate of Growth of an Individual, and its Biochemical Significance. Arch. Entw.mechan.25.
(1913): On the Nature of the Autocatalyst of Growth. Ebenda37.
Romaschoff, D. D. (1925): The mutation Alae divergentes inDrosophila funebris. Žurn. exper. Biol. (russ.)1.
(1925): Über die Variabilität in der Manifestierung eines erblichen Merkmals (Abdomen abnormalis) beiDrosophila funebris. J. Psychol. u. Neur.31.
Stern, C. (1927): Der Einfluß der Temperatur auf die Ausbildung einer Flügelmutation beiDrosophila melanogaster. Biol. Zbl.47.
TimoféeffRessovsky, N. W. (1925): Studies on the phenotypic manifestation of hereditary factors. I. On the phenotypic manifestation of the genovariation radius incompletus inDrosophila funebris. Žurn. exper. Biol. (russ.), Ser. A. Dasselbe englisch: Genetics12 (1927).
Timoféeff-Ressovsky, H. A. undN. W. (1926): Über das phänotypische Manifestieren des Genotyps. II. Idiosomatische Variationsgruppen beiDrosophila funebris. Roux' Arch.108.
Vogt, O. (1926): Psychiatrisch wichtige Tatsachen der zoologisch-botanischen Systematik. Z. Neur.101.
Zeleny, Ch. (1921): Decrease in sexual dimorphism of bar eye inDrosophila during the course of selection for low and high facet number. Amer. Naturalist55.
(1923): The temperature coefficient of a heterozygote with an expression for the value of a germinal difference in terms of an environmental one. Biol. Bull.44.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Reinig, W.F. Über das Manifestieren zweier Genovariationen bei Drosophila funebris. W. Roux' Archiv f. Entwicklungsmechanik 121, 1–38 (1930). https://doi.org/10.1007/BF00644942
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00644942