Zusammenfassung
Bei 46 Arten der GattungenTriticum undAegilops wurden anatomische Untersuchungen im Bereich der Organe Wurzel, Halm, Blattspreite, Ährenspindel, Spelzen, Blüte und Karyopse mittels gefärbter Hand- bzw. Mikrotomschnitte vorgenommen. Bedingt durch die kleineren Sproßorgane vonAegilops ergaben sich dort oft geringere Zellgrößen. Häufig waren auch mit der Ploidiestufe korrelierte Merkmale anzutreffen. In einigen Fällen ließ sich der Einfluß bestimmter Arten bzw. Genome auf die Merkmalsausprägung der allopolyploiden Sippen deutlich nachweisen, wofür als besonders klares BeispielAegilops tauschii mit seinem Einfluß auf die hexaploiden Weizenarten und auf die SektionVertebrata der GattungAegilops zu nennen ist. Innerhalb der GattungTriticum konnte eine Beziehung der Weizenarten mit einem G-Genom zu den diploiden Arten dieser Gattung durch Merkmale aller Organe belegt werden, während mit den übrigen Weizenarten weniger Ähnlichkeit besteht. Ein Merkmal im Halmbereich gibt sogar einen Hinweis auf die mögliche Beteiligung vonTriticum urartu an der Evolution der Weizenarten mit dem G-Genom. Nach Blatt- und Spelzenmerkmalen lassen sich die meisten tetraploidenTriticum- Sippen. mit einem AB-Genom zwei verschiedenen Gruppen zuordnen. Die diploiden Weizenarten erwiesen sich als gut charakterisierbare Gruppe. Echte anatomische Unterschiede zwischen Wild- und Kulturweizen bestehen nur in Bezug auf die Brüchigkeit der Ährenspindel. Innerhalb der GattungAegilops stehen sich die SektionenSitopsis undAmblyopyrum sehr nahe und sind auch denTriticum- Sippen viel ähnlicher als die übrigen Vertreter ihrer Gattung. Ein genauerer Hinweis auf den möglichen Donor des B-Genoms läßt sich aber anhand der anatomischen Merkmale nicht geben. Im gesamten Verwandtschaftskreis vonTriticum undAegkilops nur einmal auftretende Merkmale sind sehr selten, jedoch gibt es in mehreren Gruppen relativ isoliert stehende Arten. Zahlreiche anatomische Merkmale sind durch eine so große infraspezifische Variationsbreite gekennzeichnet, daß sie keine phylogenetische Aussage erlauben.
Summary
The anatomical characters of the root, culm, leaf lamina, ear rhachis, glume, palea, flower and caryopsis of 46Triticum andAegilops species were examined on the basis of coloured sections, made by hand or by microtome. Due to the smaller organ sizes ofAegilops also the cell sizes are mostly reduced in this genus. Often distinct character proved to be correlated with distinct ploidy levels. In some instances we were able to find a clear influence of distinct species or genomes on the characters of their alloploid taxa, e. g. an influence ofAegilops tauschii on the characters of the hexaploid wheat species and on the remaining species of sectionVertebrata ofAegilops. We found characters in all organs which point to a connection betweenTriticum species with genome G and the diploid wheats. The degree of similiarity to the other wheat species is much less strongly. One anatomical character of the culm indicates even a possible contribution ofTriticum urartu to the evolution of the wheat species with genome G. Most of the tetraploid species ofTriticum, genome AB, can be arranged into two different groups by means of leaf and glume characters. The diploid wheat species are a well characterized group. We were not able to find real anatomical differences between wild and cultivated wheat species besides the brittle ear rhachis. Within the genusAegilops the species of the sectionsSitopsis andAmblyopyrum resemble one another and theTriticum species much more than the other species ofAegilops. By anatomical characters it is not possible to indicate exactly the donor of genome B. Characters, which can be found only one time within the genera studied, are very seldom, but rather isolated species occur in several groups. Many anatomical characters are so variable even within the same species, that these characters can not be evaluated in phylogenetic respect.
Краткое содержание
У 46 видовTriticum иAegilops на окраш енных ручных и микрот омных срезах проводились а натомические исслед ования корней, стеблей, листо вых пластинок, колосовых стержней, плёнок, цвет ков и зерновок. Более мелки е размеры клеток уAegilops бы ли часто обусловлены более мелкими размерами побеговых органов. Ча сто встречались такж е признаки, коррелирующие со степенью плоидности. В некоторых случаях м ожно было показать влияние определенных видов и ли геномов на выражен ие признака аллополиплоидных форм; особенно хороши м примером здесь може т служитьAegilops tauschii с его четким влиянием на гексаплоидные вид ы пшениц и на секциюVertebrata рода Aegilops. Внутри родаTriticum с вязь видов пшеницы, не сущих геном G, с диплоидными видами этого рода могла быть показана на признаках всех органов, в то время как с прочими видами пшен ицы они имеют мало сходства. Один из признаков сте бля может даже служит ь указанием на участиеTriticum urartu в эволюции видов пше ницы, обладающих гено мом G. По признакам листа и плёнок больши нство тетраплоидных формTriticum, несущих геном AB, можно отнести к двум различным групп ам. Диплоидные виды пшеницы оказались гр уппой, которую можно х орошо охарактеризовать. На стоящие анатомические разли чия между дикорастущ ими и культурными пшеница ми наблюдаются только п о признаку ломкости к олосового стержня. Внутри родаAegilops особенно близк и друг другу секции Sitopsis иAmblyopyrum; эти секции имеют такж е значительно больше е сходство с формамиTriticum, чем прочие представи тели их рода. Сколько-н ибудь точного указания на в озможного донора генома В, при по мощи анатомических п ризнаков, сделать не удается. Признаки, вст речающиеся только од ин раз во всем многообразии родственных формTritcum иAegilops — очень редки, однак о, во многих группах существуют в иды, относительно хор ошо изолированные. Очень большое число анатомических признаков отличаетс я настолько сильной внутривидов ой изменчивостью, что о н их нельзя сделать ник аких филогенетических заключений.
Literatur
Aleksandrov, V. G., 1943: O stroenii plodovoj oboločki zernovki pšenicy. - Doklady Akad. Nauk SSSR,40, 93–96.
Aleksandrov, V. G. iA. V. Dobrotvorskaja, 1959: Fiziologičeskaja anatomija epidermy listopodobnych organov kolosa pšenicy. - Bot. Žurnal44, 759–771.
Alexandrov, W. G. undAlexandrova, O. G., 1935: Über den anatomischen Bau des Endosperms im Weizenkorn. - Flora (Jena)130, 21–38.
Andelić, M., V. Janjatović andS. Borojević, 1970: Number and Size of Stomata in Different Wheat Genotypes. - Contemporary Agriculture18/10, 55–58.
Andrews, A. C., 1964: The Genetic Origin of Spelt and Related Wheats. - Züchter34, 17–22.
Aniol, A., 1974: A Serological Investigation of Wheat Evolution. - Z. Pflanzenzüchtg.73, 194–203.
Apel, P., 1972: Über Wechselbeziehungen zwischen Assimilatbildung und -speicherung. - Tag.-Ber. Akad. Landwirtschaftswiss. DDR, Nr. 119, 41–46.
Apel, P., M. Peisker undM. Tschäpe, 1972: Beiträge der Photosyntheseforschung zur Ertragsbildung, speziell bei Getreide. - Kulturpflanze20, 43–62.
Asana, R. D. andV. S. Mani, 1950: Studies in physiological analysis of yield. I. Varietal differences in photosynthesis in the leaf, stem, and ear of wheat. - Physiol. Plant3, 22–39.
—, 1955: Studies in the physiological analysis of yield. II. Further obervations on varietal differences in photosynthesis in the leaf, stem, and ear of wheat. - Physiol. Plant8, 8–19.
Athwal, R. S. andG. Kimber, 1972: The pairing of an alien chromosome with homoeologous chromosomes of wheat.- Canad. J. Genet. Cytol.14, 325–333.
Aziz, P., 1972: Histogenesis of the carpel inTriticum aestivum L. - Bot. Gaz.133, 376–386.
Azpiazu, A. andJ. R. Lacadena, 1970: Introduction of alien variation into wheat by gene recombination. III. Possible interaction between the 5B and 3D genetic systems on the meiotic behaviour of the hybridsTriticum aestivum L. xAegilops cylindrica Host. - Genet. Iberica22, 121–127.
Banerjee, U. C. andE. S. Barghoorn, 1970: The Palynology ofTriticum: Importance of Size. - Ref. in: Amer. J. Bot.57, 753.
Barabás, Z., 1959: An Induced Mutant inTriticum carthlicum with the Diagnostic Feature ofTr. vavilovi.- Nature183, 1349.
Barber, H. N., C. J. Driscoll, P. M. Long andR. S. Vickery, 1968: Protein Genetics of Wheat and Homoeologous Relationships of Chromosomes. - Nature218, 450–452.
Barber, H. N., C. J.Driscoll and R. S.Vickery, 1968: Enzymic Markers for Wheat and Rye Chromosomes, pp. 116–122. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third International Wheat Genetics Symposium. - Canberra.
Belea, A., 1971: Are there other possibilities for the origin ofT. spelta orT. aestivum? - Acta Agron. Acad. Sci. Hung.20, 227–229.
Bell, G. D. H., 1965: The Comparative Phylogeny of the Temperate Cereals, pp. 70–102. In:Hutchinson, J. (Edit.): Essays on Crop Plant Evolution. - London.
Bendich, A. J. andB. J. McCarthy, 1970: DNA comparisons among some biotypes of wheat. - Genetics65, 567–573.
Berchin, Ju. I., 1963: Anatomija vegetativnych organov dvuch tetraploidnych vidov pšenic. - Bot. Žurnal48, 1368–1373.
Beridze, R. K. iA. D. Gorgidze, 1970: Ob eksperimental'nom polučenii komponenta populjacii Zanduri —Triticum timopheeviZhuk. - Genetika (Moskva)6/12, 5–12.
Berrie, A. M. andB. A. Knights, 1972: Sterols in the genusTriticum. - Phytochemistry11, 2363–2365.
Bhatia, C. R., 1968: Electrophoresis of Analogous Enzymes inTriticinae, pp. 111–115. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third International Wheat Genetics Symposium. - Canberra.
Boonstra, A. E. H. R., 1937: Der Einfluß der verschiedenen assimilierenden Teile auf den Samenertrag von Weizen.- Z. Pflanzenzüchtg.21, 115–147.
Bowden, W. M., 1959: The taxonomy and nomenclature of wheats, barleys, and ryes and their relatives. - Canad. J. Bot.37, 657–684.
Bozzini, A. andB. Giorgi, 1969: Karyotype analysis in Triticum. II. Analysis ofT. araraticumJakubz. andT. timopheeviZhuk. and their relationships with other tetraploid wheats. - Caryologia22, 261–268.
Bozzini, A., P. Cantagalli, S. E. Piazzi andS. Sordi, 1970: An Immunochemical Approach to Species Relationship inTriticum and Some Related Species. - Theor. Appl. Genet.40, 300–304.
Bradbury, D., I. M. Cull andM. M. MacMasters, 1956: Structure of the mature wheat kernel. I.–IV. - Cereal Chem.33, 329–391.
Brewer, G. J., Ch. F. Sing andE. R. Sears, 1969: Studies of isozyme patterns in nullisomic — tetrasomic combinations of hexaploid wheat. - Proc. Nat. Acad. Sci. USA64, 1224–1229.
Briggle, L. W., 1967: Morphologie of the Wheat Plant, pp. 89–116. In:Quisenberry, K. S. and L. P.Reitz (Editors): Wheat and Wheat Improvement. - Madison, Wisc.
Burström, H. andB. Hansen, 1956: Root growth effects of indan, indene and thionaphtene derivatives.- Physiol. Plant9, 502–514.
Buttrose, M. S., 1963: Ultrastructure of the developing wheat endosperm. - Austr. J. biol. Sci.16, 305–317.
Camara, A., 1935: Efeitos dos Raios-X nos cromosomas doTriticum monococcum. Sua analise na apreciacav da filogenia do Trigo. - Ann. Inst. Super. Agron. (Lisboa)7, 29–61 (non vidi).
Cetl, I., 1960: The size of pollen grain of the genusTriticum. - Biol. Plant.2, 287–291.
Chapman, V., T. E. Miller andR. Riley, 1976: Equivalence of the A genome of bread wheat and that ofTriticum urartu. - Genet. Res.27, 69–76.
Chen, K., J. C. Gray andS. G. Wildman, 1975: Fraction l Protein and the origin of polyploid Wheats. - Science190, 1304–1306.
Chennaveeraiah, M. S., 1960: Karyomorphologic and cytotaxonomic studies inAegilops. - Acta Horti Gotoburgensis23, 85–178.
Craig, S. andT. P. O'Brien, 1975: The Lodicules of Wheat: Pre- and Post-anthesis. - Austr. J. Bot.23, 451–458.
Cubadda, R., A. Bozzini andE. Quattrucci, 1975: Genetic Control of Esterases in Common Wheat.- Theor. Appl. Genet.45, 290–293.
Dagan, J. andD. Zohary, 1970: Wild tetraploid wheats from West Iran cytogenetically identical with IsraeliT. dicoccoides. - Wheat Inf. Serv., No. 31, 15–17.
Damisch, W., 1974: Photosynthese und Ertragsbildung — ein Problem der modernen Züchtungsforschung.- Tag.-Ber. Akad. Landwirtschaftswiss. DDR, Nr. 127, 143–151.
Dass, H. C., 1972: Phylogenetic Affinities inTriticinae Studied by Thin-Layer Chromatography. - Canad. J. Genet. Cytol.14, 703–712.
Dekaprelevich, L. L., 1961: Die ArtTriticum machaDek. etMen. im Lichte neuester Untersuchungen über die Herkunft der hexaploiden Weizen. - Z. Pflanzenzüchtg.45, 17–30.
—, 1971: Has West Georgia particular position in the Transcaucasian breeding ground? - Acta Agr. Acad. Sci. Hung.20, 208–211.
Dennell, R. W., 1973: The Phylogenesis ofTriticum dicoccum. A Reconsideration.- Econ. Bot.27, 329–331.
Dhaliwal, H. S. andB. L. Johnson, 1976: Anther morphology and the origin of the tetraploid wheats. - Amer. J. Bot.63, 363–368.
Doodson, J. K., J. G. Manners andA. Myers, 1964: The distribution of14carbon assimilated by the third leaf of wheat. - J. exp. Bot.15, 96–103.
Dorofeev, V. F., 1969: Die Weizen Transkaukasiens und ihre Bedeutung in der Evolution der GattungTriticum L. I. Die Formenmannigfaltigkeit der Weizen Transkaukasiens. - Z. Pflanzenzüchtg.61, 1–28.
Dorofeev, V. F., 1969: Die Weizen Transkaukasiens und ihre Bedeutung in der Evolution der GattungTriticum L. II. Formenbildung in Populationen der Weizen Transkaukasiens. - Z. Pflanzenzüchtg.62, 201–230.
—, 1971: Die Weizen Transkaukasiens und ihre Bedeutung in der Evolution der GattungTriticum L. III. Die Spelzweizen Transkaukasiens (T. macha Dek. etMen.,T. spelta L. ssp.spelta Dorof., ssp.kuckuckianum Gö kg. und ssp.vavilovii Sears). - Z. Pflanzenzüchtg.66, 335–360.
—, 1972: Pšenicy Zakavkaz'ja. - Trudy prikl. bot. genet. selekc.47/1, 1–202.
Dorofeev, V. F. iO. D. Gradčaninova, 1971: Anatomičeskoe izučenie steblja i lista pšenicy. - Trudy prikl. bot. genet. selekc.44/1, 57–75.
Dover, G. A. andR. Riley, 1972: Variation at Two Loci affecting Homoeologous Meiotic Chromosome Pairing inTriticum aestivum ×Aegilops mutica Hybrids. - Nature, New Biology235, No. 54, 61–62.
Driscoll, C. J. andC. J. Quinn, 1968: Wheat alien hybrids involving a chromosome 5B translocation.- Canad. J. Genet. Cytol.10, 217–220.
Drozd, D., 1970: Studies on the inheritance of total protein level in wheat grain. - Genetica Polonica11, 321–339.
Dunstone, R. L. andL. T. Evans, 1974: Role of Changes in Cell Size in the Evolution of Wheat. - Austr. J. Plant Physiol.1, 157–165.
Dunstone, R. L., R. M. Gifford andL. T. Evans, 1973: Photosynthetic characteristics of modern and primitive wheat species in relation to ontogeny and adaptation to light. - Austr. J. biol. Sci.26, 295–307.
Dvořák, J., 1972: Genetic variability inAegilops speltoides affecting homoeologous pairing in wheat.- Canad. J. Genet. Cytol. 14, 371–380.
Dvořák, J., 1976: The relationship between the genome ofTriticum urartu and the A and B genomes ofTriticum aestivum. - Canad. J. Genet. Cytol.18 (1976) 371–377.
Eig, A., 1929: Monographisch-Kritische Uebersicht der GattungAegilops. - Repert. spec. nov. reg. veg., Beih.55, 1–228.
Ellerton, S., 1939: The origin and geographical distribution ofTriticum sphaerococcumPerc. and its cytogenetical behaviour in crosses withT. vulgareVill. - J. Genet.38, 307–324.
Erdtman, G., 1954: An Introduction to Pollen Analysis. - Waltham, Mass.
Evans, L. T. andR. L. Dunstone, 1970: Some physiological aspects of evolution in wheat. - Austr. J. biol. Sci.23, 725–741.
Evans, L. T., R. L. Dunstone, H. M. Rawson andR. F. Williams, 1970: The phloem of the wheat stem in relation to requirements for assimilate by the ear. - Austr. J. biol. Sci.23, 743–752.
Evans, L. T. andH. M. Rawson, 1970: Photosynthesis and respiration by the flag leaf and components of the ear during grain development in wheat. - Austr. J. biol. Sci.23, 245–254.
Evers, A. D., 1970: Development of the Endosperm of Wheat. - Ann. Bot.34, 547–555.
Feldman, M., 1966: Effect of Chromosomes 5B, 5D and 5A on Chromosomal Pairing inTriticum aestivum. - Proc. Nat. Acad. Sci. USA55, 1447–1453.
- The mechanism regulating pairing inTriticum timopheevi. - Wheat Inf. Serv., No. 21, 1–2.
- Identification of unpaired chromosomes in F1 hybrids involvingTriticum aestivum andT. timopheevi. - Canad. J. Genet. Cytol.8, 144–151.
Filatenko, A. A. iU. Kurkiev, 1975: Pšenica sinskoj (novyj vid —Triticum sinskajaeA. Filat. etKurk.). - Trudy prikl. bot. genet. selekc.54/1, 239–241.
Firbas, F., 1937: Der pollenanalytische Nachweis des Getreidebaus.- Z. Botanik31, 447–478.
Flaksberger, C., 1930: Ursprungszentrum und geographische Verbreitung des Spelzes (Triticum spelta). - Angew. Botanik12, 86–99.
Freidenfelt, T., 1904: Der anatomische Bau der Wurzel in seinem Zusammenhange mit dem Wassergehalt des Bodens. - Bibl. Bot. (Stuttgart)61, 1–118.
Fritsch, R., 1976: Anatomisch-morphologische Untersuchungen an Wurzeln der GattungenTriticum L. undAegilops L. - Diss. Halle.
—, 1977a: Über die Anatomie der Wurzeln vonTriticum L. undAegilops L. (Gramineae).- Flora (Jena)166, 289–326.
Fritsch, R., 1977b: Über morphologische Wurzelmerkmale beiTriticum L. undAegilops L. (Gramineae).- Kulturpflanze25, 45–70.
Fulcher, R. G., T. P. O'Brien andJ. W. Lee, 1972: Studies on the aleurone layer. I. Conventional and fluorescence microscopy of the cell wall with emphasis on phenolcarbohydrate complexes in wheat. - Austr. J. biol. Sci.25, 23–34.
Furuta, Y., K. Nishikawa andT. Tanino, 1974: Stability in DNA content of AB genome component of common wheat during the past seven thousand years. - Japan J. Genet.49, 179–187.
Gandiljan, P. A., 1972: On the wild growingTriticum species of the Armenian SSR. - Bot. Žurnal57, 173–181.
—, 1972: Spontannaja gibridizacija, mutacii i voprosy filogenii pšenicy. - Genetika (Moskva)8/8, 4–19.
Garcia-Olmedo, F. andP. Carbonero, 1970: Homoeologous proteins synthesis controlled by homoeologous chromosomes in wheat. - Phytochemistry9, 1495–1497.
Gendel's, T. V., 1974: Anatomičeskoe stroenie lista r.Aegilops L. - Vestnik Leningradskogo Univ., Biol.29/3, 66–74.
Gervais, C., 1968: Sur un critère anatomique nouveau, utilisable dans la taxionomie des Avoines vivaces. - Bull. Soc. bot. suisse78, 369–372.
Gill, B. S., 1974: Giemsa C-Banding and the Evolution of Wheat. - Proc. Nat. Acad. Sci. USA71, 4086–4090.
Giorgi, B. andA. Bozzini, 1969: Karyotype analysis inTriticum. I. Analysis ofTriticum turgidum (L.)Thell. and some related tetraploid wheats. III. Analysis of the presumed diploid progenitors of polyploid wheats. IV. Analysis of (Aegilops speltoides ×Triticum boeoticum) amphiploid and a hypothesis on the evolution of tetraploid wheat. - Caryologia22, 249–259; 279–288; 289–306.
Göbö, A., F. Kubjatko andA. Droba, 1971: A study of the anatomical structure of the stem in some lines of winter wheat. II. Number of vascular bundles. - Pol'nohospodarstvo (Bratislava)17, 939–946.
Gökgöl, M., 1961: Die iranischen Weizen. - Z. Pflanzenzüchtg.45, 315–333.
—, 1963: Das Ursprungsgebiet des Weizens. - Getreide und Mehl13, 80–84.
Gora, B., 1968: Forschungsergebnisse zum Einfluß von CCC auf Weizenerträge. - Intern. Z. Landwirtsch.1968, 423–427.
Gorgidze, A. D., 1974: K évoljucii pšenicy. - Soobšč. Akad. Nauk Gruz SSR 75/3, 689–692.
Goss, J. A., 1968: Development, physiology and biochemistry of corn and wheat pollen. - Bot. Rev.34, 333–354.
Gradčaninova, O. D., 1971: Stroenie épidermy koloskovych češuj različnych vidov pš enicy. - Bjull. VIR (Leningrad), vyp.18, 11–18.
Gubareva, N. K., I. P. Gavriljuk, T. I. Peneva andA. V. Konarev, 1975: Wheat genome origination on the data of biochemical and serological studies of seed proteins. - Abstracts of the papers presented at the XII International Botanical Congress (Leningrad) II, 507.
Hadlaczky, Gy. andA. Belea, 1975: C-Banding in wheat evolutionary cytogenetics. - Plant Sci. Letters4, 85–88.
Hanif, M. undR. H. M. Langer, 1972: Das Gefäßsystem der Ährchen beim Weizen (Triticum aeslivum). - Ann. Bot.36, 721–727.
Hanssen, E. undG. Otto, 1962: Über Aleuronzellen. - Naturwissenschaften49, 70.
Harlan, J. R., 1967: A Wild Wheat Harvest in Turkey. - Archaeology20, 197–201.
Harlan, J. R. andD. Zohary, 1966: Distribution of Wild Wheats and Barley. - Science153, 1074–1080.
Hart, G. E., 1970: Evidence for triplicate genes for alcohol dehydrogenase in hexaploid wheat. - Proc. Nat. Acad. Sci. USA66, 1136–1141.
Helbaek, H., 1959: Domestication of Food Plants in the Old World. - Science130, 365–372.
Heslot, H., 1958:Triticum hispahanicum: une nouvelle espèce de Blé cultivé originaire d'Iran.- Compt. Rend. Acad. Sci.247, 2477–2479.
Heslot, H. etR. Ferrary, 1959: Obtention expérimentale d'un autotétraploide aberrant (Trihicum timonovum) à partir deTrilicum timopheeviZhuk. - Compt. Rend. Acad. Sci.248, 452–455.
Hinton, J. J. C., F. G. Peers andB. Shaw, 1953: The B-Vitamins in Wheat: the Unique Aleurone Layer. - Nature172, 993–995.
Hlynka, I. (Edit.), 1964: Wheat. Chemistry and Technology.- St. Paul, Minn. (Amer. Ass. Cereal Chem.).
Hopf, M., 1954: Anatomische Untersuchungen an Weizenspelzen und -körnern verschiedener Polyploidiestufen als Vorarbeit für die Bestimmung prähistorischer Funde. - Züchter24, 174–180.
Hristrova, J. undR. Baeva, 1972: Untersuchungen zur Natur der Proteinphaenotypen beiTriticale.- Z. Pflanzenzüchtg.67, 327–336.
Hunt, L. A. andB. R. Christie, 1969: Determination of stomatal numbers, stomatal lengths, and dry weight increments of detached Bromegrass leaves. - Canad. J. Plant Sci.49, 597–602.
Jaaska, V., 1974: Proischoždenie tetraploidnych pšenic po dannym elektroforetičeskogo izučenija fermentov. - Eesti NSV Teaduste Akadeemia Toimetised, Bioloogia23, 201–220.
Jackson, V. G., 1922: Anatomical Structure of the Roots of Barley. - Ann. Bot. (London)36, 21–39.
Jakubziner, M. M., 1959: New Wheat Species, pp. 207–220. In:Jenkins, B. CH. (Edit.): Proceedings of the First International Wheat Genetics Symposium. - Winnipeg.
—, 1971: IsT. carthlicum the product ofT. durum ×T. aestivum? - Acta Agron. Acad. Sci. Hung.20, 203.
Jenkins, J. A., 1929: Chromosome homologies in wheat andAegilops. - Amer. J. Bot.16, 238–245.
Jennings, A. C. andR. K. Morton, 1963: Changes in carbohydrate, protein, and nonprotein nitrogenous compound of developing wheat grain. - Austr. J. biol. Sci.16, 318–331.
Jirásek, V., 1969: Morphologie der Schüppchen (Lodiculae) von Gräsern und ihre Terminologie. Ein weiterer Beitrag zur Kenntnis des Baues der Lodiculae. - Acta Universitatis Carolinae, Biologica1968, 321–344.
Jörgensen, J. H. andC. J. Jensen, 1972: Genes for resistance to wheat powdery mildew in derivatives ofT. timopheevi andT. carthlicum. - Euphytica21, 121–128.
Johnson, B. L., 1967: Tetraploid wheats: Seed protein electophoretic patterns of the Emmer and Timopheevi groups.- Science158, 131–132.
- 1968: Electrophoretic Evidence on the Origin ofTriticum zhukovskyi, pp. 105–110. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third International Wheat Genetics Symposium. - Canberra.
—, 1972: Protein Electrophoretic Profiles and the Origin of the B Genome of Wheat. - Proc. Nat. Acad. Sci. USA69, 1398–1402.
Johnson, B. L., 1972: Seed protein profiles and the origin of the hexaploid wheats. - Amer. J. Bot.59, 952–960.
—, 1973: Protein elctrophoretic patterns and the evolution ofTriticum. - Genetics74, s128.
- 1973: Seed protein patterns and the gene resources of wheat, pp. 153–164. In: Scarascia Mugnozza, G. T. (Edit.): Proceedings of the symposium on genetics and breeding of durum wheat. - Bari.
—, 1975: Identification of the apparent B-genome donor of wheat. - Canad. J. Genet. Cytol.17, 21–39.
—, 1976: Polyploid wheats and fraction 1 protein. - Science192, 1252.
Johnson, B. L., D. Barnhart andO. Hall, 1967: Analysis of genome and species relationship in the polyploid wheats by protein electrophoresis. - Amer. J. Bot.54, 1089–1098.
Johnson, B. L. andO. Hall, 1965: Analysis of phylogenetic affinities in theTriticinae by protein electrophoresis. - Amer. J. Bot.52, 506–513.
—, 1966: Electrophoretic studies of species relationships inTriticum.- Acta Agric. Scand.16 (Suppl.), 222–224.
Johnson, R. andG. Kimber, 1967: Homoeologous pairing of a chromosome fromAgropyron elongatum with those ofTriticum aestivum andAegilops speltoides. - Genet. Res.10, 63–71.
Johnson, V. A., P. J.Matter, J. W.Schmidt and J. E.Stroike, 1973: Genetic advances in wheat protein quantity and composition, pp. 547–556. In:Sears, E. R. and L. M. S.Sears (Editors): Proceedings of the Fourth International Wheat Genetics Symposium. - Columbia, Mo.
Joneas, J. K. andB. N. Majisu, 1968: The homoeology ofAegilops mutica chromosomes. - Canad. J. Genet. Cytol.10, 620–626.
Joshi, M. G., 1973: Assessement of Relationship among TetraploidTriticum. Species through Diallel Cross Analysis. - Z. Pflanzenzüchtg.69, 231–238.
Kaiser, B., 1975: Untersuchungen zur Blattanatomie bei Arten der GattungenTriticum L. undAegilops L. - Abschlußarbeit (Manuskr.), Agraringenieurschule Quedlinburg.
Kashiri, M., 1974: Kreuzungsexperimente zwischen Weizen der Emmerreihe undAegilops-Formen derSitopsis-Gruppe sowie cytologische Analysen triploider AEm. BEm. SSit.-Bastarde. I. Ein Beitrag zur Phylogenie des Weizens. - Z. Pflanzenzüchtg.73, 217–232.
—, 1974: Bedeutung von Weizen-Aegilops-Kreuzungen für die Verbesserung des Saatweizens.- Angew. Botanik48, 161–174.
Kent, N. L., 1966: Subaleurone endosperm cells of high protein content. - Cereal Chem.43, 585–601.
Kent, N. L. andC. R. Jones, 1952: The cellular structure of wheat flour. - Cereal Chem.29, 383–398.
Kerber, E. R., 1964: Wheat: reconstitution of the tetraploid component (AABB) of hexaploids. - Science143, 253–255.
Kerber, E. R. andP. L. Dyck, 1973: Inheritance of stem rust resistance transferred from diploid wheat (Triticum monococcum) to tetraploid and hexaploid wheat and chromosome location of the gene involved. - Canad. J. Genet. Cytol.15, 397–409.
Kerber, E. R. andG. G. Rowland, 1974: Origin of the three free threshing characters in hexaploid wheat.- Canad. J. Genet. Cytol.16, 145–154.
Kerber, E. R. andK. H. Tipples, 1969: Effects of the D-genome on milling and baking properties of wheat.- Canad. J. Plant Sci.49, 255–263.
Khan, M. A. andS. Tsunoda, 1970: Classification of wild and cultivated wheat strains based on their leaf structures. - Tohoku J. agric. Res.21/3–4, 118–125.
—, 1971: Comparative leaf anatomy of cultivated wheats and wild relatives with reference to their leaf photosynthetic rates. - Japan. J. Breed.21, 143–150.
Kihara, H., 1924: Cytologische und genetische Studien bei wichtigen Getreidearten mit besonderer Rücksicht auf das Verhalten der Chromosomen und die Sterilität in den Bastarden. - Mem. Coll. Sci. Kyoto Imp. Univ., Ser. B,1, 1–200.
Kihara, H., 1940: Verwandtschaft derAegilops-Arten im Lichte der Genomanalyse. Ein Überblick. - Zü chter12, 49–62.
—, 1944: Die Entstehung der DD-Analysatoren beim Weizen. - Agr. Hort. Japan19, 889–890.
—, 1945: Genomanalyse beiTriticum undAegilops. IX. Systematischer Aufbau der GattungAegilops auf genomanalytischer Grundlage. - Cytologia14, 135–144.
—, 1954: Considerations on the Evolution and Distribution ofAegilops Species Based on the Analyser-method.- Cytologia19, 336–357.
—, 1965: The origin of wheat in the light of comparative genetics. - Japan J. Genet.40, 45–54.
—, 1966: Factors affecting the evolution of common wheat. - Indian J. Genet. Plant Breed.26 A (Symp. no.), 14–28.
—, 1970: Considerations on the Cytoplasmatic Relationships among theTriticum Species. - Seiken Zihô22, 107–111.
—, 1973: Characteristics ofAegilops squarrosa cytoplasm. - Seiken Zihô24, 5–9.
—, 1975: Origin of cultivated plants with special reference to wheat. - Seiken Zihô25/26, 1–24.
Kihara, H. andF. Lilienfeld, 1949: A new synthesis 6 x-wheat. - Proc. VIII. Intern. Congr. Genet., 1948, Stockholm. In: Hereditas, Suppl.1, 307–319.
Kihara, H. andK. Yamashita, 1956: Wheat and its Relatives. - Wheat Inf. Serv., No. 4, Suppl. II, 16–24.
Kihara, H., K. Yamashita andM. Tanaka, 1959: Genomes of 6 × species ofAegilops.- Wheat Inf. Serv., No. 8, 3–5.
Kimber, G., 1966: Estimate of the Number of Genes involved in the Genetic Suppression of the Cytological Diploidisation of Wheat. - Nature212, 317–318.
—, 1971: The evolution of chromosome-arm ratio in wheat. - Canad. J. Genet. Cytol.13, 404–409.
- 1973: The relationships of the S-genome diploids to polyploid wheats, pp. 81–85. In:Sears, E. R. and L. M. S.Sears (Editors): Proceedings of the Fourth International Wheat Genetics Symposium. - Columbia, Mo.
—, 1974: A reassessment of the origin of the polyploid wheats. - Genetics78, 487–492.
Kimber, G. andR. S. Athwal, 1972: A reassessment of the course of evolution of wheat. - Proc. Nat. Acad. Sci. USA69, 912–915.
Kimber, G. andJ. Larsen, 1973: The B-genome of polyploid wheat. - Cereal Res. Comm.1, 17–26.
Kiss, Á., 1971: How did wheat originate? - Acta Agron. Acad. Sci. Hung.20, 219–221.
Klein, G., 1974: Zur Nutzung der quantitativen Histochemie bei der Charakterisierung züchterisch bedeutsamer Genotypen des Getreides. - Arch. Züchtungsforsch.4, 179–190.
Kobrehel, K. andM.-F. Gautler, 1974: Variability in peroxydase isozymes in wheat and related species.- Canad. J. Bot.52, 755–759.
Kokkonen, P., 1931: Untersuchungen über die Wurzeln der Getreidepflanzen.- Acta Forestalia Fennica37, 1–144.
Konarev, V. G. iT. I. Peneva, 1975: Gliadiny égilopsov sekciiSitopsis (Jaub. et Spach.) Zhuk. i struktura genoma S (B). - Sel'skochoz. biol.10, 211–219.
Konarev, V. G., I. P. Gavriljuk, T. I. Peneva, A. V. Konarev, A. G. Chakimova iÉ. F. Migušova, 1976: O prirode i proischoždenii genomov pšenicy po dannym biochimii i immunochimii belkov zerna. - Sel'skochoz. biol.11, 656–665.
Kostoff, D., 1936: The genoms ofTrilicum TimopheeviZhuk.,Secale cereale L., andHaynaldia villosaSchur- Z. induktive Abstammungs-Vererbungslehre72, 115–118.
Kostoff, D., 1937: Studies on the polyploid plants. XI. AmphidiploidTriticum TimopheeviZhuk. xTriticum monococcum L. - Z. Pflanzenzüchtg.21, 41–45.
Kranz, A. R., 1966: Stoffproduktion und Assimilationsleistung in der Evolution der Kulturpflanzen. II. Versuchsergebnisse und zusammenfassende Diskussion. - Biol. Zbl.85, 681–734.
—, 1967: Assimilationsleistung und Evolution des Weizens. - Ber. Dt. Bot. Ges.80, 119–123.
Krauss, L., 1933: Entwicklungsgeschichte der Früchte vonHordeum, Triticum, Bromus undPoa mit besonderer Berücksichtigung ihrer Samenschalen. -Pringsheim's Jb. wiss. Bot.77, 733–808.
Kuckuck, H., 1959: Neuere Arbeiten zur Entstehung der hexaploiden Kulturweizen. - Z. Pflanzenzüchtg.41, 205–226.
—, 1964: Experimentelle Untersuchungen zur Entstehung der Kulturweizen. I. - Z. Pflanzenzüchtg.51, 97–140.
—, 1971:T. carthlicum — direct progenitor of vulgare? - Acta Agron. Acad. Sci. Hung.20, 223–224.
Kuckuck, H. undR. Peters, 1964: Experimentelle Untersuchungen zur Entstehung der Kulturweizen. II. - Z. Pflanzenzüchtg.51, 215–228.
Kuckuck, H. undE. Schiemann, 1957: Über das Vorkommen von Spelz und Emmer (Triticum spelta L. undTr. dicoccumSchübl.) im Iran. - Z. Pflanzenzüchtg.38, 383–396.
Larsen, J. andG. Kimber, 1973: The effect of the genotype of Triticum speltoides on the pairing of homolog chromosomes. - Canad. J. Genet. Cytol.15, 233–236.
Lawrence, J. M., K. M. Day, E. Huey andB. Lee, 1958: Lysine content of wheat varieties, species, and related genera. - Cereal Chem.35, 169–178.
Lilienfeld, F. A., 1952:H. Kihara: Genome Analysis inTriticum andAegilops. X. Concluding Review.- Cytologia16, 101–123.
Lilienfeld, F. A. undH. Kihara, 1934: Genomanalyse beiTriticum undAegilops. V.Triticum timopheeviZhuk. - Cytologia6, 87–122.
Linser, H. undH. Kühn, 1964: Die Wirkung von Chlorcholinchlorid (CCC) auf Halmverkürzung, Ertrag und Stickstoffaufnahme bei verschiedenen Winterweizensorten im Gefäßversuch. - Z. Acker-Pflanzenbau120, 1–16.
Lupton, F. G. H. andM. J. Pinthus, 1969: Carbohydrate Translocation from Small Tillers to Spike-producing Shoots in Wheat. - Nature221, 483–484.
Maan, S. S., 1973: Cytoplasmatic and cytogenetic relationships among tetraploidTriticum species. - Euphytica22, 287–300.
Maan, S. S. and K. A.Lucken, 1968: Cytoplasmatic Male Sterility and Fertility Restoration inTriticum L., pp. 135–140. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third Internationale Wheat Genetics Symposium. - Canberra.
—, 1971: Nucleo-Cytoplasmic Interactions InvolvingAegilops Cytoplasm andTriticum Genomes. - J. Heredity62, 149–152.
Mac Key, J., 1954: Neutron and X-ray experiments in wheat and a revision of the speltoid problem. - Hereditas40, 65–180.
—, 1954: The taxonomy of hexaploid wheat. - Svensk Bot. Tidskr.48, 579–590.
—, 1966: Species relationship inTriticum. - Hereditas, Suppl.2, 237–276.
- 1968: Relationships in theTriticinae, pp. 39–50. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third International Wheat Genetics Symposium. - Canberra.
—, 1971: IsT. dicoccoides different fromT. dicoccum?. - Acta Agron. Acad. Sci. Hung.20, 211–212.
Mándy, Gy., 1970: New concept of the origin ofTriticum L. - Acta Agron. Acad. Sci. Hung.19, 413–417.
Matsumura, S., M. Nezu andY. Koshiba, 1956: Genome analysis ofTriticum georgicum. - Wheat Inf. Serv., No. 7, 7–8.
McFadden, E. S. andE. R. Sears, 1944: The artificial synthesis ofTriticum spelta. - Rec. Genet. Soc. Amer.13, 26–27.
—, 1946: The Origin ofTriticum Spelta and its Free-Threshing Hexaploid Relatives. - J. Heredity37, 81–89, 107–116.
McIntosh, R. A., 1973: A catalogue of gene symbols for wheat, pp. 893–937. In:Sears, E. R. and L. M. S.Sears (Editors): Proceedings of the Fourth International Wheat Genetics Symposium. - Columbia, Mo.
McNeal, F. H. andD. J. Davis, 1966: Protein content of wheat kernels from different parts of the spike.- Agronomy J.58, 635–636.
Mello-Sampayo, T., 1971: Promotion of homoeologous pairing in hybrids ofTriticum aestivum XAegilops longissima.- Genet. Iberica23, 1–9.
Menabde, V., 1971: Has onlyAe. squarrosa monopoly role in the formation of hexaploid wheats?. - Acta Agr. Acad. Sci. Hung.20, 212–219.
Metcalfe, C. R., 1960: Anatomy of the monocotyledons. I. Gramineae. - Oxford.
Mettin, D., 1964: On the intraspecific variability of baking quality components in Einkorn-wheats,Aegilops speltoides andAegilops squarrosa. - Wheat Inf. Serv., No. 17–18, 17–19.
Migušova, Ė. F. iL. A. Smel'cova, 1970: Pšenicy s genom G v uslovijach oroš enija. - Trudy prikl. bot., genet. selekc.41/3, 154–165.
Migušova, Ė. F. iP. M. Žukovskij, 1969: K poznaniju pšenicyTriticum ispahanicum Heslot. - Trudy prikl. bot., genet. selekc.39/3, 71–90.
Mitra, R. andC. R. Bhatia, 1973: Repeated and non-repeated nucleotide sequences in diploid and polyploid species. - Heredity31, 251–262.
Moritz, C., 1970: Die Bedeutung einzelner Pflanzenorgane für die Ertragsbildung bei Weizen. - Ber. Pflanzenzüchter3, 11–18.
Morris, R. and E. R.Sears, 1967: The Cytogenetics of Wheat and Its Relatives, pp. 19–87. In:Quisenberry, K. S. and L. P.Reitz (Editors): Wheat and Wheat Improvement. - Madison, Wisc.
Morrison, I. N., 1975: Ultrastructure of the cuticular membranes of the developing wheat grain. - Canad. J. Bot.53, 2077–2087.
Moldenhaver, K., 1914: Die Gefäßbündelzahl und ihre Bedeutung für die Lagerung des Getreides.- Z. landw. Versuchsw. Österr.17, 886–891.
Muramatsu, M., 1963: Dosage effect of the spelta gene q of hexaploid wheat. - Genetics48, 469–482.
Nainawatee, H. S. andN. B. Das, 1972: Species relationship inTriticum by protein electrophoresis.- Curr. Sci.41, 778–779.
Nakai, Y., 1972: Isozymes of Ae. triuncialis and its parental species. - Wheat Inf. Serv., No. 33–34, 15–19.
—, 1973: Isozyme variations inAegilops andTriticum. II. Esterase and acid phosphatase isozymes studied by the gel isoelectrofocusing method. - Seiken Zihô24, 45–73.
Natarajan, A. T. andN. P. Sarma, 1974: Chromosome banding pattern and the origin of the B genome in wheat.- Genet. Res.24, 103–108.
Nikolaevskij, V. G., 1972: Puti specializacii struktury lista u zlakov tribyTriticeaeDum. - Bju ll. Moskovsk. obščestva isp. prirody otd. biol.77/5, 103–114.
Okamoto, M., 1962: Identification of the chromosomes of common wheat belonging to the A and B genomes. - Canad. J. Genet. Cytol.4, 31–37.
Pathak, G. N., 1940: Studies in the cytology of cereals. J. Genet.39, 437–467.
Patrick, J. W., 1972: Vascular system of the stem of the wheat plant. I.–II. - Austr. J. Bot.20, 49–78.
Patrick, J.W. 1972: Distribution of assimilate during stem elongation in wheat. - Austr. J. biol. Sci.25, 455–467.
Pedington, C. andH. Rees, 1970: Chromosome weights and measures in theTriticinae. - Heredity25, 195–205.
Percival, J., 1921: The wheat plant. - London.
Peneva, T. I., 1973: Komponentnyj sostav gliadinov égilopsov gruppySitopsis v sopostavlenii s gliadinami pšenic. - Bjull. VIR (Leningrad), vyp. 32, 81–85.
Petrova, L. P., 1958: Razvitie i anatomo-morfologičeskie osobennosti cvetkovych češuj uTriticum.- Bot. Žurnal43, 1160–1169.
Pissarek, H.-P., 1971: Untersuchungen über Bau und Funktion der Gramineen-Lodiculae. - Beitr. Biol. Pflanzen47, 313–370.
Pomeranz, Y. andJ. A. Shellenberger, 1961: Histochemical Characterizations of Wheat and Wheat Products. II. Mapping of Protein Distribution in the Wheat Kernel. - Cereal Chem.38, 109–113.
Prasad, M. V. R., 1972: Studies on induced mutants with reference to species relationships on some tetraploid Triticums.- Theor. Appl. Genet.42, 160–167.
Rawson, H. M. andL. T. Evans, 1970: The pattern of grain growth within the ear of wheat. - Austral. J. biol. Sci.23, 753–764.
Rawson, H. M. andG. Hofstra, 1969: Translocation and remobilization of14C assimilated at different stages by each leaf of the wheat plant. - Austral. J. biol. Sci.22, 321–333.
Reeder, J. R. andK. vonMaltzahn, 1953: Taxonomic significance of root hair development in theGramineae. - Proc. Nat. Acad. Sci. USA39, 593–598.
Rees, H. andM. R. Walters, 1965: Nuclear DNA and the evolution of wheat. - Heredity20, 73–82.
Riley, R., 1965: Cytogenetics and Evolution of Wheat, pp. 103–122. In:Hutchinson, J. (Edit.): Essays on Crop Plant Evolution.- London.
Riley, R. andV. Chapman, 1960: The D genome of hexaploid wheat. - Wheat Inf. Serv., No. 11, 18–19.
- 1966: Estimates of the homoeology of wheat chromosomes by measurement of differential affinity at meiosis, pp. 46–58. In:Riley, R. and K. R.Lewis (Editors): Chromosome Manipulations and Plant Genetics. - Edinburgh.
Riley, R., V. Chapman andG. Kimber, 1960: Position of the gene determining the diploid-like meiotic behaviour of wheat. - Nature183, 1244–1246.
Riley, R., H. Coucoli andV. Chapman, 1967: Chromosomal interchanges and the phytogeny of wheat.- Heredity22, 233–247.
Riley, R., J. Unrau andV. Chapman, 1958: Evidence on the Origin of the B-Genome of Wheat. - J. Heredity49, 91–98.
Rohrlich, M. undK. Friedel, 1972: Das Eiweiß der Aleuronzellen des Weizens.- Naturwissenschaften59, 216–217.
Roth, I., 1956: Histogenese und Entwicklungsgeschichte desTriticum-Embryos. - Flora (Jena)144, 163–212.
Rothmaler, W., 1955: Zur Fruchtmorphologie der Weizen-Arten (Triticum L.). - Feddes Repert.57, 209–216.
Rovenská, B., 1963: Zur Frage des Verwachsens der Fruchthülle und der Samenschale in den Getreidekö rnern des Weizens. - Biol. Plant.5, 161–165.
- 1968: Anatomický atlas pšenice. - Praha.
—, 1973a: A comparison of anatomical features of different wheat and rye varieties. - Acta Agrobot.26, 311–320.
- 1973b: Anatomický atlas žita. - Praha.
Row, H. C. andJ. R. Reeder, 1957: Root hair development as evidence of relationships among genera of Gramineae. - Amer. J. Bot.44, 596–601.
Rudolph, A., P. Hanelt, Ch. Lehmann, K. Müntz undF. Scholz, 1975: Protein-screening am Weizen- und Ackerbohnen-Sortiment in Gatersleben. - Nahrung19, 793–807.
Sachs, L., 1953: The occurrence of hybrid semi-lethals and the cytology ofTriticum macha andTriticum vavilovi.- J. agric. Sci.43, 204–213.
—, 1953: Chromosome behaviour in species hybrid withTriticum timopheevi. - Heredity7, 49–58.
Sakamura, T., 1918: Kurze Mitteilungen über die Chromosomenzahlen und die Verwandtschaftsverhältnisse derTriticum-Arten. - Bot. Mag. (Tokyo)32.
Sandstedt, R. M., 1946: Photomicrographic studies of wheat starch. I. Development of the starch granules. - Cereal Chem.23, 337–359.
Sarkar, P. andG. L. Stebbins, 1956: Morphological Evidence concerning the Origin of the B-Genome in Wheat.- Amer. J. Bot.43, 297–304.
Sass, J. E., 1961: Botanical Microtechnique. - Iowa (3. Aufl).
Sax, K., 1918: The behaviour of the chromosomes in fertilization. - Genetics3, 309–327.
Schiemann, E., 1932: Pfahlbauweizen — Historisches und Phylogenetisches. - Z. Pflanzenzüchtg.17, 36–54.
—, 1940: Weizenstammbäume. - Engler's bot. Jb.71, 1–31.
—, 1947: ÜberMcFadden-Sears's Theorie zur Phylogenie des Weizens. - Züchter17/18, 385–391.
—, 1951: New results on the history of cultivated cereals. - Heredity5, 305–320.
Schmalz, H., 1969: Die Reaktion von Winterweizensorten bzw. -stämmen auf eine Chlorcholinchlorid (CCC)-Behandlung hinsichtlich Halmlängenreduktion, Standfestigkeitsverbesserung, Ertrag und Ertragsaufbau. - Ber. Pflanzenzüchter1968, 48–52.
Schmalz, H., C. Grummt, G. Jeruzel undS. Stolberg, 1971: Die Reaktion von chlorophyllhaltigen bzw. chlorophyllfreien Weizenkeimpflanzen auf eine Chlorcholinchlorid (CCC)-Applikation. - Arch. Züchtungsforsch.1, 163–166.
Schröder, E., 1931: Anatomische Untersuchungen an den Spindeln derTriticum- undAegilopsarten zur Gewinnung neuer Gesichtspunkte für die Abstammung und Systematik derTriticumarten. - Beih. Bot. Zentralbl., Abt. 2,48, 333–403.
Schulz, A., 1913: Die Geschichte der kultivierten Getreide. - Halle.
Sears, E. R., 1941a: Amphidiploids in the seven-chromosomeTriticinae. - Mo. Agr. Exp. Sta., Bull. No. 336, 1–46.
—, 1941 b: Chromosome pairing and fertility in hybrids and amphidiploids in theTriticinae. - Mo. Agr. Exp. Sta., Bull. No. 337, 1–20.
—, 1944: Inviability of intergeneric hybrids involvingTriticum monococcum andT. aegilopoides.- Genetics29, 113–127.
—, 1948: The cytology and genetics of the wheats and their relatives. - Adv. Genet.2, 239–270.
—, 1956: The B genome ofTriticum. - Wheat Inf. Serv., No. 4, 8–10.
- 1959: The Systematics, Cytology and Genetics of Wheat, pp. 164–187. In:Roemer, Th. und W.Rudorf: Handbuch der Pflanzenzü chtung2. - Berlin, Hamburg (2. Aufl.).
- 1966: Nullisomic-tetrasomic Combinations in Hexaploid Wheat, pp. 29–45. In:Riley, R. and K. R.Lewis (Editors): Chromosome Manipulations and Plant Genetics. - New York.
—, 1969: Wheat cytogenetics. - Ann. Rev. Genet.3, 451–468.
—, 1975: ATriticum timopheevi chromosome homoeologous toT. aestivum chromosome 6B. - Abstracts of the papers presented at the XII International Botanical Congress (Leningrad) II, 512.
Sehnalova, J., 1973: Klič k určeni pestovaných i planých druhů pšenic (Triticum L.). - Gen. šlechtění9, 303–310.
Semenova, L. V., Ė. F. Migušova iĖ. P. Devjatkina, 1973: Kačestvo zerna sorodiča pšenicy — égilopsa. - Trudy prikl. bot. genet, selekc.50/1, 216–226.
Shands, H. L. and G.Kimber, 1973: Reallocation of the genomes ofTriticum timopheeviZhuk., pp. 101–108. In:Sears, E. R. and L. M. S.Sears (Editors): Proceedings of the Fourth International Wheat Genetics Symposium. - Columbia, Mo.
Siddiqui, K. A. andJ. K. Jones, 1968: Chromosome pairing in pentaploid hybrids involvingT. durum, Ae. squarrosa andAe. bicornis. - Caryologia21, 339–342.
Sing, C. F. andG. J. Brewer, 1969: Isozymes of a polyploid series of wheat. - Genetics61, 391–398.
Sinskaja, E. N., 1955: Proischoždenie pšenicy, pp. 5–72. In:Žukovskij, P. M. (Edit.): Problemy botaniki2.- Moskva, Leningrad.
- 1969: Istoričeskaja geografija kul'turnoj flory. - Lenigrad.
Smith, D. B. andR. B. Flavell, 1975: Characterization of the wheat genome by renaturation kinetics.- Chromosoma50, 223–242.
Stålfelt, M. G., 1935: Die Transpiration und Kohlensäureassimilation bei Blättern und Stroh des Hafers. - Angew. Botanik17, 157–190.
Stevens, D. J., 1973: The Aleurone Layer of Wheat. III. Isolation and scanning electron microscope examination of the layer and of its component parts. - J. Sci. Food Agric.24, 307–317.
Stieber, J., 1972: Comparative analysis of wheat straw by the method of quantitative anatomy. - Acta Agron. Acad. Sci. Hung.21, 345–357.
Stoy, V., 1963: The translocation of C14-labelled photosynthetic products from the leaf to the ear in wheat. - Physiol. Plant.16, 851–866.
Suemoto, H., 1968: The Origin of the Cytoplasm of Tetraploid Wheats, pp. 141–152. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third International Wheat Genetics Symposium. - Canberra.
Swaminathan, M. S. andM. V. P. Rao, 1961: Macro-mutations and subspecific differentiation inTriticum.- Wheat Inf. Serv., No. 13. 9–11.
Szynal, T., 1963: Delsze badania morfologiczne i anatomiczne nad systemem korzeniowym roslin jednoliściennych.- Ann. Univ.Mariae Curie-Skłodowska Sect. E18, 165–195.
Tanaka, M., 1965: Phylogenetic relationship and species differentiation in genusTriticum. - Mem. Coll. Agric., Kyoto Univ., Japan, No. 87, 1–30.
Tanaka, M. and H.Ishii, 1973: Cytogenetical evidence on the speciation of wild tetraploid wheats collected in Iraq, Turkey, and Iran, pp. 115–121. In:Sears, E. R. and L. M. S.Sears (Editors): Proceedings of the Fourth International Wheat Genetics Symposium. - Columbia, Mo.
Tanaka, M. andS. Ishikawa, 1972: Cytogenetical relationships of two types ofTriticum araraticumJakubz. to other tetraploid wheat species. - Japan J. Genet.47, 103–114.
Tavčar, A. iV. Kendelić, 1966: Svojstva korjenja sijanaca uzgojenih u platnenim smocina-indikatori rasta biljaka u poljskim uvjetima. - Arhiv poljopr. nauke (Beograd)66, 151–157.
—, 1969: Development of root in 14-day-old wheat plants in relation to some useful characters of the adult plants. - Contemporary Agriculture17/11–12, 53–58.
Tavrin, Ė. V., 1964: K proischoždeniju vidaTriticum zhukovskyiMen. et Er. - Trudy prikl. bot. genet, selekc.36/1, 89–96.
Teare, I. D., C. J. Peterson andA. G. Law, 1971: Size and frequency of leaf stomata in cultivars ofTriticum aestivum and otherTriticum species. - Crop Sci.11, 496–498.
Tjuterev, S. L., Z. V. Čmeleva, I. I. Mojsa iV. F. Dorofeev, 1973: Isučenie soderžanija belka i nezamenimych aminokislot v zerne vidov pšenicy i ee dikich sorodičej. - Trudy prikl. bot. genet. selekc.52/1, 22–241.
Torrens, M. A. andG. E. Hart, 1974: Developmental specifity and evolution of the acid phosphatase isozymes ofTriticum aestivum and its progenitor species. - Genetics77, Suppl., No. 1/2,s66.
Troll, W., 1949: Über die Grundbegriffe der Wurzelmorphologie. - Österr. Bot. Z.96, 444–452.
Tschermak, E. von, 1914: Die Verwertung der Bastardierung für phylogenetische Fragen in der Getreidegruppe.- Z. Pflanzenzüchtg.2, 291–312.
Tsunewaki, K., 1968: Origin and Phylogenetic Differentiation of Common Wheat Revealed by Comparative Gene Analysis, pp. 71–85. In:Finlay, K. W. and K. W.Shepherd (Editors): Proceedings of the Third International Wheat Genetics Symposium. - Canberra.
Tuan, H.-C., L. C. Hsu, P.-Y. Tso andW.-L. Hung, 1974: Studies on the leaf cells of wheat. The ontogeny of winter wheat and variations in the structure of the mesophyll and many other types of cells. - Acta Bot. Sinica16/3, 262 (Abstracts).
Tumanjan, M. G., 1937: The occurrence in nature of polyploid mutations in wild monococcal wheat. - Doklady Akad. Nauk SSSR16, 325–327.
Tzvelev, N. N., 1973: Conspectus specierum tribusTriticinae Dum. familiae Poaceae in flora URSS. - Novosti sistematiki vysšich rastenij10, 19–59.
Udačin, R. A. iĖ. F. Migušova, 1970: Novoe v poznanii rodaTriticum L.- Vestnik sel'skochoz. nauki15/9, 20–24.
Udačin, R. A. iI. S. Šachmedov, 1974: K poznaniju vidaTriticum sphaerococcumPerc.- Bjull. VIR (Leningrad), vyp. 46, 19–25.
Upadhya, M. D., 1967: Genomic constitution ofTrilicum ispahanicumHeslot. - Wheat Inf. Serv., No. 23– 24, 1–2.
Upadhya, M. andM. S. Swaminathan, 1961: Karyotype ofTriticum zhukovskyiMen. etEr.- Wheat Inf. Serv., No. 13, 9.
—, 1963: Genome analysis inTriticum zhukovskyi, a new hexaploid wheat. - Chromosoma14, 589–600.
—, 1963: Desoxyribonucleic acid and the ancestry of wheat. - Nature200, 713–714.
Vardi, A., 1974: Introgression from tetraploid durum wheat to diploidAegilops longissima andAegilops speltoides.- Heredity32, 171–181.
Vavilov, N., 1925: Studies on the origin of cultivated plants. - Trudy prikl. bot. genet.15, 139–245.
Voldeng, H. D. andG. M. Simpson, 1967: The relationship between photosynthetic area and grain yield per plant in wheat. - Canad. J. Plant Sci.47, 359–365.
Wagenaar, E. B., 1961: Studies on the genome constitution ofTriticum timopheeviZhuk. I. Evidence for genetic control of meiotic irregularities in tetraploid hybrids. - Canad. J. Genet. Cytol.3, 47–60.
—, 1966: Studies on the genome constitution ofTriticum timopheevi Zhuk. II. TheTriticum timopheevi complex and its origin. - Evolution20, 150–164.
—, 1970: Studies on the genome constitution ofTriticum timopheevi Zhuk. III. Segregation of meiotic chromosome behaviour in backcross generations. - Canad. J. Genet. Cytol.12, 347–355.
Waines, J. G., 1969: Electrophoretic-systematic studies inAegilops. - Ph. D. Thesis, University of California, Riverside, Calif.
—, 1971: What do we not know about wheat evolution?. - Acta Agric. Acad. Sci. Hung.20, 204–207.
Waines, J. G. andB. L. Johnson, 1971: New protein bands in an amphiploid ofAegilops caudata andAe. umbellulata. - Wheat Inf. Serv., No. 32, 22–24.
—, 1972: Genetic differences betweenAegilops longissima, A. sharonensis andA. bicornis. - Canad. J. Genet. Cytol.14, 411–416.
—, 1975: Incomplete concurrence of evidence from protein electrophoresis and genome analysis regarding the origin ofAegilops ovata. - Canad. J. Genet. Cytol.17, 1–8.
Waines, J. G. andG. Kimber, 1973: Satellite number and size inTriticum monococcum L. and the evolution of the polyploid wheats. - Canad. J. Genet. Cytol.15, 117–122.
Washington, W. J., 1971: Homoeoallelism inTriticum aestivum. - Canad. J. Genet. Cytol.13, 169–172.
Williams, D. B., 1971: Protein Heterogeneity and Polyploid Evolution inAegilops L. - Ph. D. Thesis, University of California Riverside, Calif.
Woessner, E., 1970: Astrablau — Safranin — noch einfacher. - Mikrokosmos59, 31–32.
Wolf, G. andB. Lerch, 1974: Genome analysis in theTriticinae using isoenzymes of phosphordiesterase.- Wheat Inf. Serv., No. 38, 17–19.
Yakubtsiner, M. sieheJakubziner, M. M.Yamashita, K., 1965: Origin of Cultivated Wheats, pp. 305–313. In:Livermore, A. H. (Edit.): Science in Japan (Symp. 1963). - Washington, D. C.
Zade, A., 1914: Serologische Studien von Leguminosen und Gramineen - Z. Pflanzenzüchtg.2, 101.
Zee, S.-Y. andT. P. O'Brien, 1970: Studies on the ontogeny of the pigment strand in the caryopsis of wheat.- Austr. J. biol. Sci.23, 1153–1171.
Zhebrak, A., 1944: Synthesis of new species of wheats. - Nature153, 549–551.
Zohary, D. andM. Feldman, 1962: Hybridization between amphidiploids and the evolution of polyploids in the wheat (Aegilops — Triticum) group. - Evolution16, 44–61.
Zoz, N. N., A. G. Chakimova andV. K. Ščerbakov, 1975: Sferokokkoidnye mutanty mjagkoj pšenicy o svjazi s voprosami taksonomii i evoljucii. - Sel'skochoz. biol.10, 703–709.
Žukovskij, P.M., 1928: Kritiko-sistematičeskij obzor vidov rodaAegilops L. - Trudy prikl. bot., genet, selekc.18, 417–609.
- 1944: Ėtjudy v oblasti gibridizacii, immuniteta i transplantacii rastenij. - Trudy Sel'skochoz. akad. im. K. A. Timirjazeva6.
- 1971: Kul'turnye rastenija i ich sorodiči. - Leningrad.
Žukovskij, P. M. iĖ. F. Migušova, 1969: Naibolee vysokoimmunyj ėndemič nyj genofond dlja vyvedenija ustojčivych sortov pšenicy puteni otdalennoj gibridizacii. - Vestnik sel'skochoz. nauki14/2, 9–20.
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Fritsch, R., Kruse, J., Ohle, H. et al. Vergleichend-anatomische Untersuchungen im Verwandtschaftskreis vonTriticum L. undAegilops L. (Gramineae). Die Kulturpflanze 25, 155–265 (1977). https://doi.org/10.1007/BF02014811
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DOI: https://doi.org/10.1007/BF02014811