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Literature Cited
Alam, S. &P. C. Sandal. 1967a. Inheritance of cytoplasmic male sterility in sudangrass. Crop Sci.7: 668–669.
——. 1967b. Cyto-histological investigations of pollen abortion in male-sterile sudangrass. Crop Sci.7: 587–589.
——. 1969. Electrophoretic analyses of anther proteins from male-fertile and male-sterile sudangrass,Sorghum vulgare var.sudanense (Piper). Crop Sci.9: 157–159.
Alexander, D. E. &J. B. Beckett. 1962. Search for a conversion-type mutator system at the Rf1 locus in maize, Crop Sci.2: 139–140.
Andersen, W. R. 1963. Cytoplasmic sterility in hybrids ofLycopersicon esculentum andSolanum penellii. Tomato Genet. Coop. Rept.13: 7–8.
—. 1964. Evidence of plasmon differentiation inLycopersicon. Tomato Genet. Coop. Rept.14: 4–6.
Appl, J. 1929. Weitere Mitteilungen uber die Aufspaltung eines Bastards zwischenOriganum majorana L. undOriganum vulgare L. in der F2 und F3-Generation. Genetica11: 519–558.
—. 1933. Artkreuzungen, Geschlechtsvererbung, und Nondisjunction bei Lippenblutlern aus der Thymiangruppe. Bl. Pflanzenbau.11: 51–56.
Arnold, C.-G. 1963. Versuch einer Homologisierung der Chromosomenenden von Eu-Oenotheren mit denen von Raimannia- und Renneria-Oenotheren. Chromosoma14: 31–44.
Artschwager, E. 1947. Pollen degeneration in male-sterile sugar beets, with special reference to the tapetal plasmodium. Jour. Ag. Res.75: 191–197.
Atal, C. K. 1958. Cytoplasmic male sterility in Psyllium (Plantago ovata Forsk.). Current Sci.27: 268.
Atanasoff, D. 1964. Viruses and cytoplasmic heredity. Zeits. Pflanzenzucht.51: 197–214.
Bandlow, G. 1958. Die Pollensterilitat der Beta-Rube und ihre Bedeutung fur die Polyploidiezuchtung. Wissen. Abhand. Deut. Akad. Landwirtswiss. Berlin34: 52–68.
—. 1964. Die Pollensterilitat vonBeta vulgaris und deren Artbastarden sowie ihre Verwertung in der Zuckerrubenzuchtung. Zeits. Pflanzenzucht.52: 160–240.
Banga, O. 1961. The use of male sterility in the production of hybrid varieties of horticultural crops. Advances in Hort. Sci. and their Applications1: 288–294.
— &J. Petiet. 1958. Breeding male sterile lines of Dutch onion varieties as a preliminary to the breeding of hybrid varieties. Euphytica7: 21–30.
——, &J. L. van Bennekom. 1964. Genetical analysis of malesterility in carrots, Daucus carota L. Euphytica13: 75–93.
Barham, W. S. &H. M. Munger. 1950. The stability of male sterility in onions. Proc. Am. Soc. Hort. Sci.56: 401–409.
Bateson, W. &A. E. Gairdner. 1921. Male sterility in flax subject to two types of segregation. Jour. Genet. 11: 269–275.
Baur, E. 1904. Zur Aetiologie der infectiosen Panachierung. Ber. Deut. Bot. Ges.4: 453–460.
Beckett, J. B. 1966. Inheritance of partial male fertility in maize in the presence of Texas sterile cytoplasm. Crop Sci.6: 183–184.
Bell, G. D. H. 1968. Plant breeding for crop improvements in Britain: methods, achievements and objectives. Proc. Roy. Soc. B.171: 145–173.
Bennett, C. W. 1969. Seed transmission of plant viruses. Advances in Virus Research14: 221–261.
Bianchi, F. 1963. Transmission of male sterility in Petunia by grafting. Genen et Phaenen8: 36–43.
Bliss, F. A., &W. H. Gabelman. 1965. Inheritance of male sterility in beets,Beta vulgaris L. Crop Sci.5: 403–406.
Bolz, G. 1968. Monohybride Vererbung der plasmatisch-genisch bedingten Pollensterilitat bei Beta vulgaris L. Zeits. Pflanzenzucht.60: 219–234.
Bond, D. A. &R. P. Hawkins. 1967. Behaviour of bees visiting male-sterile field beans (Vicia faba). Jour. Agric. Sci. Camb.68: 243–247.
—,J. L. Fyfe, &G. Toynbee-Clarke. 1966a. Male sterility in field beans (Vicia faba L.) III. Male sterility with a cytoplasmic type of inheritance. Jour. Ag. Sci. Camb.66: 359–367.
———. 1966b. Male sterility in field beans (Vicia faba L.) IV. Use of cytoplasmic male sterility in the production of F1 hybrids, and their performance in trials. Jour. Ag. Sci. Camb.66: 369–377.
Borovskij, M. I. 1962. The transfer of the character of male sterility in maize by vegetative hybridization. Plant Breeding Abstracts32: 849. Abst. 4749.
Brabec, F. 1962. Uber triploide fertileBryonia-Bastarde. Biol. Zent.81: 291–302.
Bradner, N. R. &W. R. Childers. 1968. Cytoplasmic male sterility in alfalfa. Can. Jour. Plant Sci.48: 111–112.
Briggle, L. W., R. J. Daum, &H. Stevens. 1964. Expression of heterosis in two wheat crosses. Crop Sci.4: 220–223.
Brooks, M. H. 1962. Comparative analyses of some of the free amino acids in anthers of fertile and genetic cytoplasmic male sterile sorghum. Genetics47: 1629–1638.
Brooks, J. S. &M. H. Brooks. 1967. Pollen abortion in relation to cytoplasmicgenetic male sterility in sorghum. Crop Sci.7: 47–50.
Brooks, M. H. &J. S. Brooks. 1969. Pollen sterility in A, B, and R lines and their hybrids. Sorghum Newsletter12: 78.
——, &L. Chien. 1966. The anther tapetum in cytoplasmicgenetic male sterile sorghum. Am. Jour. Bot.53: 902–908.
Buck, R. W. 1960. Male sterility in interspecific hybrids of Solanum. Jour. Hered.51: 13–14.
Burk, L. G. 1960. Male-sterile flower anomalies in interspecific tobacco hybrids. Jour. Hered.51: 27–31.
Buhnham, C. R. 1962. Discussions in Cytogenetics. 375 pp.
Burton, G. W. 1957. Utilization of heterosis in plant breeding. 7th Int. Grassland Cong. 9–10.
—. 1958. Cytoplasmic male-sterility in Pearl millet (Pennisetum glaucum). Agron. Jour.50: 230.
— &D. S. Athwal. 1967. Two additional sources of cytoplasmic malesterility in pearl millet and their relationship to Tift 23A. Crop Sci.7: 209–211.
Caspari, E. &G. S. Watson. 1959. On the evolutionary importance of cytoplasmic sterility in mosquitoes. Evolution13: 568–570.
Cavalcantt, A. G. L. &D. N. Falcao. 1954. A new type of sex-ratio inDrosophila prosaltans Duda. Proc. 9th Int. Cong. GeneticsII: 1233–1235.
—,D. N. Falcao, &L. E. Castro. 1957. Sex-ratio inDrosophila prosaltans, a character due to interaction between nuclear genes and a cytoplasmic factor. Am. Nat.91: 321–325.
———. 1958. The interaction of nuclear and cytoplasmic factors in the inheritance of the “sex-ratio” character inDrosophila prosaltans. Univ. Brazil Publ. Fac. Nacl. Fil. Ser. Cient.1: 25–34.
Chaplin, J. F. 1964. Use of male-sterile tobaccos in the production of hybrid seed. Tobacco Sci.8: 105–109.
— &Z. T. Ford. 1965. Agronomic and chemical characteristics of malesterile flue-cured tobacco as influenced by cytoplasms of different Nicotiana species. Crop Sci.5: 436–438.
Chauhan, S. V. S. &S. P. Singh. 1966. Pollen abortion in male-sterile hexaploid wheat (Norin) having Aegilops ovata L. cytoplasm. Crop Sci.6: 532–535.
Chtttenden, R. J. 1927. Cytoplasmic inheritance in flax. Jour. Hered.18: 337–343.
— &C. A. Pellew. 1927. A suggested interpretation of certain cases of anisogeny. Nature119: 10–12.
Clarke, A. E. &L. H. Pollard. 1949. The amount of self-pollination in malesterile onion lines. Proc. Am. Soc. Hort. Sci.53: 299–301.
Clayton, E. E. 1950. Male sterile tobacco. Jour. Hered.41: 171–175.
Cleij, G. 1967. Influencing of the cytoplasmic male sterility and fertility in beets. Euphytica16: 23–28.
Cohn, M. &K. Horibata. 1959. Analysis of the differentiation and of the heterogeneity within a population ofEscherichia coli undergoing induced B-galactosidase synthesis. Jour. Bacteriology78: 613–623.
Correns, C. 1904. Experimentelle Untersuchungen uber die Gynodioecie. Ber. Deut. Bot. Ges.22: 506–517.
—. 1908. Die Rolle der mannlichen Keimzellen bei der Geschlechtsbestimmung der gynodioecischen Pflanzen. Ber. Deut. Bot. Ges.26A: 686–707.
—. 1909a. Vererbungsversuche mit blass (gelb) grunen und buntblattrigen Sippen beiMirabilis jalapa, Urtica pilulifera undLunaria annua. Zeits. Ind. Abst. Vererb.1: 291–329.
—. 1909b. Zur Kenntnis der Rolle von Kern und Plasma bei der Vererbung. Zeits. Ind. Abst. Vererb.1: 331–340.
—. 1916. Untersuchungen uber Geschlechtsbestimmung bei Distelarten. Sitsungs. Konig. Preuss. Akad. Wiss.20: 448–477.
—. 1922. Vererbungsversuche mit buntblattrigen Sippen VI. Einige neue Falle vonalbomaculatio. Sitsungs. Konig. Preuss. Akad. Wiss.33: 460–486.
-. 1928. Uber nicht mendelnde Vererbung. Proc. V Int. Congr. Genet., Zeits. Ind. Abst. Vererb. Suppl. I. 131–168.
—. 1937. Nicht mendelnde Vererbung. Handb. Vererb.II: 1–159.
Cortessi, H. A. 1967. Investigations made into male sterile beets. Euphytica16: 425–432.
Counce, S. J. &D. F. Poulson. 1962. Developmental effects of the sex-ratio agent in embryos ofDrosophila willistoni. Jour. Exp. Zool.151: 17–31.
——. 1966. The expression of maternally-transmitted sex ratio condition (SR) in two strains ofDrosophila melanogaster. Genetica37: 364–390.
Craigmiles, J. P. 1961. The development, maintenance, and utilization of cytoplasmic male-sterility for hybrid sudangrass seed production. Crop Sci.1: 150–152.
—. 1962. Genetic inheritance of cytoplasmic male-sterility in Sudangrass. Crop Sci.2: 203–205.
—,H. B. Harms, J. P. Newton, &J. W. Dobson. 1958. Heterosis in F1 hybrids ofSorghum vulgare × S.sudanense and S.vulgare × S.arundinaceum. Agron. Jour.50: 714–715.
Curtis, G. J. 1967. Graft-transmission of male sterility in sugar beet (Beta vulgaris L.). Euphytica16: 419–424.
Damon, E. G. 1961. Studies of the occurrence of multiploid sporocytes in three varieties of cytoplasmic male-sterile and the normal fertile variety, Resistant Wheatland Sorghum. Phyton17: 193–203.
Daskaloff, S. 1968. A male sterile pepper (C. annuum L.) mutant. Theoretical and Applied Genetics38: 370–372.
Davis, E. W. 1960. Use of cytoplasmic male-sterility in making interspecific crosses in Allium. Science132: 1481.
—. 1966. An improved method of producing hybrid-onion seed. Jour. Hered.57: 55–57.
Davis, W. H. &I. M. Greenblatt. 1967. Cytoplasmic male sterility in alfalfa. Jour. Hered.58: 301–305.
Diener, T. O. &W. B. Raymer. 1967. Potato spindle tuber virus: A plant virus with properties of a free nucleic acid. Science158: 378–381.
Dionne, L. A. 1961. Cytoplasmic sterility in derivatives ofSolanum demissum. Am. Potato Jour.38: 117–120.
Dmitrieva, A. N. &O. E. Khavzhinskaia. 1962. Physiological-biochemical differences between fertile forms of corn and their analogues with male cytoplasmatic sterility. Trudy Ukrains. Nauch. Instit. Rasteinovodstva, Selek. Genetiki.7: 147–153.
Dobzhansky, Th. &O. Pavlovsky. 1967. Experiments on the incipient species of theDrosophila paulistorum complex. Genetics55: 141–156.
Dubey, D. K. &S. P. Singh. 1965a. Inheritance of cytoplasmic male-sterility in some commercial varieties of Indian linseed. Indian Jour. Genet. and Plant Breed.25: 291–296.
——. 1965b. Mechanism of pollen abortion in three male sterile lines of flax (Linum usitatissimum L.). Crop Sci.5: 121–124.
——. 1966. Use of cytoplasmic male sterility for the production of hybrid seeds in flax (Linum usitatissimum L.). Crop Sci.6: 125–126.
Duvick, D. N. 1958. Yields and other agronomic characteristics of cytoplasmically pollen sterile corn hybrids, compared to their normal counterparts. Agron. Jour.50: 121–125.
—. 1959. The use of cytoplasmic male-sterility in hybrid seed production. Economic Bot.13: 167–195.
—. 1965. Cytoplasmic pollen sterility in corn. Advances in Genetics13: 1–56.
-. 1966. Influence of morphology and sterility on breeding methodology. Plant Breeding, Symp. Iowa State Univ. 85–138.
—,R. J. Snyder, &E. G. Anderson. 1961. The chromosomal location of Rf1, a restorer gene for cytoplasmic pollen sterile maize. Genetics 46: 1245–1252.
East, E. M. 1932. Studies of self-sterility. IX. The behavior of crosses between self-sterile and self-fertile plants. Genetics17: 175–202.
—. 1934. The nucleus-plasma problem. Am. Nat.68: 289–303, 402–439.
Edwardson, J. R. 1956. Cytoplasmic male-sterility. Bot. Rev.22: 296–738.
—. 1965. Radiosensitivity in maize seed influenced by cytoplasmic factors. Radiation Bot.5: 53–59.
—. 1967. Cytoplasmic male sterility and fertility restoration inCrotalaria mucronata. Jour. Hered.58: 266–268.
— &M. K. Corbett. 1961. Asexual transmission of cytoplasmic male sterility. Proc. Nat. Acad. Sci.47: 390–396.
— &H. E. Warmke. 1967. Fertility restoration in cytoplasmic malesterile petunia. Jour. Hered.58: 195–196.
Ehrman, L. 1963. Apparent cytoplasmic sterility inDrosophila paulistorum. Proc. Nat. Acad. Sci.49: 155–157.
—. 1964a. “Cytoplasmic” sterility in Drosophila paulistorum which is ultimately dependent on nuclear genes. Science145: 159.
—. 1964b. “Cytoplasmic” sterility. Science145: 1460.
—. 1967a. Infectious hybrid sterility in Drosophila. Science156: 537.
—. 1967b. A study of infectious hybrid sterility in Drosophila paulistorum. Proc. Nat. Acad. Sci.58: 195–198.
—. 1968a. Antibiotics and infectious hybrid sterility in Drosophila paulistorum. Molec. Gen. Genetics103: 218–222.
—. 1968b. Infectious hybrid sterility and the “New Llanos” strain ofDrosophila paulistorum. Nature219: 1266–1267.
— &D. L. Williamson. 1965. Transmission by injection of hybrid sterility to nonhybrid males inDrosophila paulistorum: preliminary report. Proc. Nat. Acad. Sci.54: 481–483.
Ellerton, S. &A. J.Th.Hendriksen. 1959. Note on the probable cause of occurrence of tetraploid plants in commercial triploid varieties of sugar beet. Euphytica8: 99–103.
Endrizzi, J. E. 1957. Cytological studies of some species and hybrids in the eu-sorghums. Bot. Gaz.119: 1–9.
Erichsen, A. W. &J. G. Ross. 1963a. Inheritance of colchicine induced male sterility in sorghum. Crop Sci.3: 335–338.
——. 1963b. Irregularities at microsporogenesis in colchicineinduced male sterile mutants inSorghum vulgare Pers. Crop Sci.3: 481–483.
Essad, S. 1960. Sur les possibilites evolutives de l’hybridation-Lolium.perenne L. ×Festuca pratensis Huds. Ann. Genetique.2: 41–46.
Felz, H. 1953. Untersuchungen an diploiden und polyploiden Zuckerruben. Zeits. Pflanzenzuch.32: 275–300.
Filion, W. G. &B. R. Christie. 1966. The mechanism of male sterility in a clone of Orchardgrass (Dactylis glomerata L.). Crop Sci.6: 345–347.
Foskett, R. L. 1954. Nature and inheritance of male-sterility in the onion variety Scott County Globe. Iowa State Col. Jour. Sci.28: 317.
Frankel, R. 1956. Graft-induced transmission to progeny of cytoplasmic male sterility in petunia. Science124: 684–685.
—. 1962. Further evidence on graft induced transmission to progeny of cytoplasmic male sterility in Petunia. Genetics47: 641–646.
—,S. Izhar, &J. Nitsan. 1969. The timing of callase activity and cytoplasmic male sterility inPetunia. Biochem. Genetics3: 451–455.
Frost, S. 1963. Cytoplasmic pollen sterility inCentaurea scabiosa. Hereditas49: 454–456.
Fukasawa, H. 1953. Studies on restoration and substitution of nucleus inAegilotricum. I. Appearance of male-steriledurum in substitution crosses. Cytologia18: 167–175.
—. 1954. On the free amino acids in anthers of male-sterile wheat and maize. Jap. Jour. Genet.29: 135–137.
—. 1955. Studies on restoration and substitution of nucleus (genome) inAegilotricum. II. The interrelationships betweenovata cytoplasm and fertility restoring factors. Cytologia20: 211–217.
—. 1956a. Studies on restoration and substitution of nucleus (genome) inAegilotricum. III. Cyto-histological investigation of pollen degeneration in anthers of male-sterile plants. Cytologia21: 97–106.
-. 1956b. Chlorophyll variegation which appeared in male-sterile Emmer wheat. Wheat Info. Ser. No.3: 19.
—. 1957a. Studies on restoration and substitution of nucleus (genome) inAegilotricum. IV. Genome exchange betweendurum andovata cytoplasm and its theoretical consideration for male-sterility. Cytologia22: 30–39.
—. 1957b. Studies on restoration and substitution of nucleus (genome) inAegilotricum, VI. Some conspicuous characters appearing in male-sterile Emmer wheats. Jap. Jour. Genet.32: 313–322.
-. 1958a. Fertility restoration of cytoplasmic male-sterile Emmer wheats. Wheat Info. Ser. No.7:21.
—. 1958b. Studies on restoration and substitution of nucleus (genome) inAegilotricum, VII. Curious abnormalities of stomata appearing in the leaves of male-steriledurum plants. Cytologia23: 128–142.
—. 1959. Nucleus substitution and restoration by means of successive backcrosses in wheat and its related genus Aegilops. Jap. Jour. Bot.17: 55–91.
—. 1961a. The reduction of triphenyltetrazolium chloride by dehydrogenase in cytoplasmic male-sterile wheat. Nucleus and Cytoplasm2: 32–35.
—. 1961b. Nucleotide composition of RNA from cytoplasmic male-sterile wheat. Exp. Cell Res.25: 276–285.
—. 1967. Constancy of cytoplasmic property during successive backcrosses. Am. Nat.101: 41–46.
—. 1968. Abnormal increase of amide nitrogen in cytoplasmic male-sterile wheat. Jap. Jour. Genet.43: 299–304.
— &K. Mito. 1957. Paper Chromatographic analysis of chlorophylls in cytoplasmic male-sterile wheat. Seiken Ziho8: 4–8.
——, &M. Fujiwara. 1957. Preventative effect of sugars on the pollen degeneration of wheat plant. Bot. Mag. Tokyo70: 251–257.
Gabelman, W. H. 1949. Cytogenic studies of cytoplasmic inheritance of male sterility in Zea mays. Ph.D. Thesis, Yale University, New Haven.
—. 1956. Male sterility in vegetable breeding. Brookhaven Symp. Biol.9: 113–122.
Gagnieu, A. 1954. Interaction noyau-cytoplasme dans la realisation d’un type de sterilite male chez le lin cultive. VIII Cong. Int. Bot. 103–105.
Gairdner, A. E. 1929. Male-sterility in flax. II. A case of reciprocal crosses differing in F2. Jour. Genet.21: 117–124.
Gajewski, W. A. 1937. A contribution to the knowledge of the cytoplasmic influence on the effect of nuclear factors inLinum. Acta Soc. Bot. Polon.14: 205–214.
Geith, K. 1924. Experimentell-systematische Untersuchungen an der GattungEpilobium. Bot. Arch.6: 123–186.
Gibbons, R. A. &G. D. Hunter. 1967. Nature of the scrapie agent. Nature215: 1041–1043.
Gibbs, A. 1969. Plant virus classification. Advances in Virus Research14: 263–328.
Gibor, A. 1965. Chloroplast heredity and nucleic acids. Am. Nat.99: 229–240.
Giorgi, B. &A. Bozzini. 1969. Karyotype analysis of Triticum III. Analysis of the presumed diploid progenitors of polyploid wheats. Caryologia22: 279–306.
Goodspeed, T. H. 1930. Inheritance inNicotiana tabacum IX. Mutations following treatment with X-rays and radium. Univ. Calif. Publ. Bot.11: 285–298.
— &P. Avery. 1934. The cytogenetics of fourteen types derived from a single X-rayed sex cell ofNicotiana tabacum. Jour. Genet.29: 327–353.
Gorenflot, M. R. 1964. Sterilite et chromosome surnumeraire chez le “Plantago Coronopus” L. Comptes Rendus Acad. Sci. (Paris)258: 321–324.
Grant, V. 1956. The genetic structure of races of species inGilia. Advances in Genetics8: 55–88.
Griffith, J. S. 1967. Self-replication and scrapie. Nature215: 1043–1044.
Grogan, C. O. &P. Sarvella. 1964. Morphological variations in normal, cytoplasmic male-sterile, and restored counterparts in maize, Zea mays L. Crop Sci.4: 567–570.
——,J. O. Sanford, &H. V. Jordan. 1965. Influence of cytoplasmic male sterility on dry matter accumulation in maize (Zea mays L.). Crop Sci.5: 365–367.
Grun, P. &M. Aubertin. 1965. Evolutionary pathways of cytoplasmic male sterility in Solanum. Genetics51: 339–409.
——. 1966. Cytological expressions of a cytoplasmic male sterility in Solanum. Am. Jour. Bot.53: 295–301.
——, &A. Radlow. 1962. Multiple differentiation of plasmons of diploid species of Solanum. Genetics47: 1321–1333.
Goujon, C. &M. Ingold. 1967. Restauration de fertilite de quelques lignees malesteriles de bles hexaploides. Comptes Rendus Acad. Sci. (Paris)264: 334–336.
Hadley, H. H. 1958. Chromosome numbers, fertility and rhizome expression of hybrids between grain sorghum and Johnsongrass. Agron. Jour.50: 278–282.
—. 1960. A genetic method for producing seedless hybrid broomcorn. Agron. Jour.52: 610–611.
— &S. P. Singh. 1961. Partial male fertility in sorghum hybrids with cytoplasm from male sterile Combine Kafir 60. Crop Sci.1: 457–458.
Hall, O. L. 1954. Hybridization of wheat and rye after embryo transplantation. Hereditas40: 453–458.
—. 1956. Further experiments in embryo transplantation. Hereditas42: 261–262.
Hansche, P. E. &W. H. Gabelman. 1963a. Digenic control of male sterility in carrots,Daucus carota L. Crop Sci.3: 383–386.
——. 1963b. Phenotypic stability of pollen sterile carrotsDaucus carota L. Proc. Am. Soc. Hort. Sci.82: 341–350.
Heilbronn, A. 1953. Uber die Rolle der Plasmas bei der Geschlechtsbestimmung der Bryonien. Rev. Fac. Sci. Univ. Istanbul B. Sci. Nat.18: 205–206.
-. 1954. Plasmon und Geschlecht. VIII Cong. Int. Bot. 105–107.
— &M. Basarman. 1942. Uber die F 2 der Bryoniabastarde und ihre Bedeutung fur das Problem der Geschlechtsrealisation. Rev. Fac. Sci. Univ. Istanbul B. Sci. Nat. 7 1/2: 138–144.
Herich, R. 1965. Nucleoli and cytoplasmic male sterility. Zeits. Vererb.96: 22–27.
L’Heritier, Ph. 1948. Sensitivity to CO2 in Drosophila—A review. Heredity2: 325–348.
Heslop-Harrison, J. 1963. Sex expression in flowering plants. Brookhaven Symp. Biol.16: 109–125.
—. 1967. Differentiation. Ann. Rev. Plant Physiol.18: 325–348.
Heyne, E. G. &R. W. Livers. 1968. Use of male sterility in the breeding of selfpollinating crops. Proc. XII Int. Cong. Genet. 230–231.
Hiorth, G. 1948a. Uber Hemmungssysteme beiGodetia Whitneyi. I. Zeits. Ind. Abst. Vererb.82: 12–63.
—. 1948b. Uber Hemmungssysteme beiGodetia Whitneyi. II. Zeits. Ind. Abst. Vererb.82: 276–330.
Hogaboam, G. J. 1957. Factors influencing phenotypic expression of cytoplasmic male sterility in the sugar beet (Beta vulgaris L.). Jour. Am. Soc. Sugar Beet Tech.9: 457–465.
Hosowaka, S., C. Tsuda, &T. Takeda. 1963. Histochemical studies on the cytoplasmic male sterility of sugar beets. Jap. Jour. Breed.13: 117–129.
Hsu, K.-J. 1945. On sterility resulting from crossing different types of rice. Indian Jour. Genet. Plant Breed.5: 51–57.
Hunter, G. D., R. H. Kimberlin, &R. A. Gibbons. 1968. Scrapie: A modified membrane hypothesis. Jour. Theoret. Biol.20: 355–357.
Hyde, B. B. 1953. Differentiated chromosomes inPlantago ovata. Am. Jour. Bot.40: 809–815.
Ikeda, H. 1965. Interspecific transfer of the “sex-ratio” agent of Drosophila willistoni in Drosophila bifasciata and Drosophila melanogaster. Science147: 1147–1148.
Ikeno, S. 1930. Studien uber einen eigentumlichen Fall der infektiosen buntblatterigkeit bei Capsicum annuum. Planta11: 359–367.
Ingold, M. 1968. Male sterility and restorer systems in wheat. Euphytica17, Suppl. I: 69–74.
Izard, C. &H. Hitter. 1955. Cytogenetique d’un hybride complexe presentant le syndrome de sterilite male. Ist Int. Sci. Tobacco Cong.I: 211–213.
Jaynes, R. A. 1963. Male sterility in Castanea. Genetics TodayI: 203.
Johnson, V. A., J. W. Schmidt, &P. J. Mattern. 1967. Hybrid wheat in the United States. Qual. Plant. Mater. Veget.14: 193–211.
Jones, C. M. &W. H. Gabelman. 1965. Cytoplasmic inheritance in Epilobium. Jour. Hered.61: 144–148.
Jones, D. F. 1956. Genic and cytoplasmic control of pollen abortion in maize. Brookhaven Symp. Biol.9: 101–112.
- &P. C. Mangelsdorf. 1951. The production of hybrid corn seed without detasseling. Conn. Ag. Exp. Sta., Bull. 550.
-,H. T. Stinson, &U. Khoo. 1957. Pollen restoring genes. Conn. Ag. Exp. Sta., Bull. 610.
Jones, H. A. &A. E. Clarke. 1943. Inheritance of male sterility in the onion and the production of hybrid seed. Proc. Am. Soc. Hort. Sci.43:189–194.
- & -. 1947. The story of hybrid onions. U. S. Dept. Agr., Yearbook: 320–326.
— &S. L. Emsweller. 1937. A male-sterile onion. Proc. Am. Soc. Hort. Sci.34: 583–585.
- &L. K. Mann. 1963. Onions and their allies. 286 pp.
Josephson, L. M. 1964. Deletion of rf gamete in male-sterile crosses in corn. Agron. Abst. 70.
Kanno, C, T. Yonemoto, T. Yamaguchi, &H. Kurata. 1963. Studies on the differences of character manifestation in reciprocal crosses of Rape (Brassica napus L.). 1st Agronomy Div. Tokai-Kinki Nat. Agr. Exp. Sta. Bull. 9.
Kappert, H. 1944. Untersuchungen uber Plasmonwirkungen beiAquilegia. Gynodioecie-Heterosis-Gestalt des Sporns. Flora37: 95–105.
Karper, R. E. &J. R. Quinby. 1947. The inheritance of callus formation and seed shedding in sorghum. Jour. Hered.38: 211–214.
Katsuo, K. &U. Mizushima. 1958. Studies on cytoplasmic differences in rice I. On the fertility of direct and reciprocal crosses between cultivated and wild rices. Jap. Jour. Breed.8: 1–5.
Kellen, W. R. &W. Wills. 1962. The transovarial transmission ofThelohania californica Kellen and Lipa inCulex tarsalis Coquillet. Jour. Insect Path.4: 321–326.
Kempanna, C. &K. S. K. Sastry. 1958. Male sterility inCrotalaria striata. Cur. Sci.27: 81.
Khehde, M. D., I. M. Atkins, O. G. Merkle, &K. B. Porter. 1967. Cross pollination studies with male sterile wheats of three cytoplasms, seed size on F1 plants, and seed and anther size of 45 pollinators. Crop Sci.7: 389–394.
Kidd, H. J. 1961. The inheritance of restoration of fertility in cytoplasmic malesterile sorghum—a preliminary report. Sorghum Newsletter4: 47–49.
Kihara, H. 1950. Japanese papers on genetics 1942–1948 English abstracts. Heredity4: 401.
—. 1951. Substitution of nucleus and its effect on genome manifestation. Cytologia16: 177–193.
—. 1954. Restoration and substitution of nucleus. Proc. IX Int. Cong. Genet.II: 900–902.
—. 1958. Fertility and morphological variation in the substitution and restoration backcrosses of the hybrids,Triticum vulgare ×Aegilops caudata. Proc. X Int. Cong. Genet.I: 142–171.
—. 1963. Nucleus and chromosome substitution in wheat and Aegilops, II. Seiken Ziho15: 12–23.
—. 1966. Factors affecting the evolution of common wheat. Indian Jour. Genet.26A: 14–28.
—. 1967. Cytoplasmic male sterility in relation to hybrid wheat breeding. Zuchter37: 86–93.
— &N. Kondo. 1943. Stulies in amphidiploids ofAegilops caudata ×Aegilops umbellulata induced by colchicine. Seiken Ziho2: 41–42.
- &F. A. Lilienfeld. 1949. A new synthesized 6x-wheat. Proc. VIII Int. Cong. Genet. 307–319.
— &K. Tsunewaki. 1961. Pistilloidy ofTriticum durum induced by an alien cytoplasm. Seiken Ziho12: 1–10.
——. 1962. Use of an alien cytoplasm as a new method of producing haploids. Jap. Jour. Genet.37: 310–313.
——. 1964. Some fundamental problems underlying the program for hybrid wheat breeding. Seiken Ziho16: 1–14.
Kimura, M. 1964. Gibberellin-like activities of certain auxins and diterpenes. Ph.D. Thesis, University of California, Los Angeles.
Kinoshita, T. &S. Nagao. 1968. Use of male sterility in triploid sugar beets. Proc. XII Int. Cong. Genet. 232–233.
— &M. Takahashi. 1966. Inheritance of a pollen sterility induced by the irradiation. Bull. Sugar Beet Res. Suppl.7: 40–42.
Kistner, G. 1955. Uber plastidenbedingtes Absterben wahrend der Embryoentwicklung einiger Oenotherenbastarde. Zeits. Ind. Abst. Vererb.86: 521–544.
Kitzmiller, J. B. &H. Laven. 1954. Hybridization experiments withCulex molestus, Culex pipiens, andCulex fatigans. Proc. IX Int. Cong. Genet. II: 767–771.
Kloen, D. 1964. On the occurrence of male sterility in West-European fodder and sugar beets. Euphytica13: 268–272.
Knapp, E. 1955. Zur plasmonisch kontrollierten Pollensterilitat der Zuckerruben. Zuchter25: 231–236.
—. 1958. Beta-Ruben, bes. Zuckerruben. Manual Plant Breed.3: 196–284.
Kohls, H. L. &G. J. Hogaboam. 1955. Production of sugar beet hybrids. Proc. VII Reg. Meeting Am. Soc. Sugar Beet Tech. 103–107.
Koopmans, A. 1951. Cytogenetic studies onSolanum tuberosum and some of its relatives. Genetica25: 194–337.
—. 1952. Changes in sex in the flowers of the hybridSolanum rybinii × S.chacoense. Genetica26: 359–380.
—. 1954. Changes in sex in the flowers of the hybridSolanum rybinii × S.chacoense. II. Plasmatic influence upon gene action. Genetica27: 273–285.
—. 1955. Changes in sex in the flowers of the hybridSolanum rybinii × S.chacoense. III. Data about the reciprocal crossSolanum chacoense × S.rybinii. Genetica27: 465–471.
—. 1959. Changes in sex in the flowers of the hybridSolanum rybinii × S.chacoense. IV. Further data from the reciprocal cross S.chacoense × S.rybinii. Genetica30: 384–390.
Koul, A. D. &R. L. Paliwal. 1961. Further studies on B. R. C. Teosinte × maize hybrids. Agra Univ. Jour. Res.10: 79–97.
Lacadena, J. R. 1968a. Hybrid wheat. VII. Tests on the transmission of cytoplasmic male sterility in wheat by embryo-endosperm grafting. Euphytica14: 439–444.
—. 1968b. Cytoplasmic male-sterility: a proposal on its terminology. Genet. Iberica20: 195–201.
—,A. Monteagudo, &E. Sanchez-Monge. 1966. Trigo hibrido III. Ensayos de restauracion de la fertilidad en 1965. Inst. Nac. Invest. Agron. Bol.54: 5–8.
———. 1967. Pollen-restoring ability of some wheats. Wheat Newsletter12: 57–58.
Lamm, R. 1941. Varying cytological behavior in reciprocalSolanum crosses. Hereditas27: 202–208.
—. 1945. Cytogenetic studies onSolanum sect.Tuberarium. Hereditas21: 1–128.
—. 1953. Investigations on some tuber-bearing Solanum hybrids. Hereditas39: 97–112.
Lanier, G. N. &J. H. Oliver. 1966. “Sex-ratio” condition: Unusual mechanisms in bark beetles. Science153: 208–209.
Laven, H. 1953. Reziprok unterschiedliche Kreuzbarkeit von Stechmucken (Culicidae) und ihre Deutung als plasmatische Vererbung. Zeits. Ind. Abst. Vererb.85: 118–136.
—. 1957. Vererbung durch kerngene und das problem der ausserkaryotischen Vererbung beiCulex pipiens II. Ausserkaryotische Vererbung. Zeits. Ind. Abst. Vererb.88: 478–516.
—. 1964. Cytoplasmic incompatibility: Description of phenomenon and a working hypothesis for its explanation. WHO Vector Control143.65: 1–4.
-. 1967a. Speciation and evolution in Culex pipiens. 251–275. Genetics of Insect Vectors of Disease. 794 pp.
—. 1967b. Eradication of Culex pipiens fatigans through cytoplasmic incompatibility. Nature216: 383–384.
Lawrence, W. J. C. 1958. Studies on Streptocarpus Lindl. V. Speciation and gene systems. Heredity12: 333–356.
Lederberg, J. & E. M. Lederberg. 1956. Infection and heredity. 101–124. Cellular Mechanisms in Differentiation and Growth. 236 pp.
Lehmann, E. 1925. Uber Kreuzungsversuche mit Epilobium-Arten. III. Zeits. Ind. Abst. Vererb.37: 1–27.
— &J. Schwemmle. 1927. Genetische Untersuchungen in der Gattung Epilobium. Bib. Bol.95: 1–156.
Lein, A. 1948. Uber alloplasmatische Roggen (Roggen mit Weizenplasma). Zuchter19: 101–108.
Lelley, J. 1966. Befruchtungsbiologische Beobachtungen im Zusammenhang mit der Saatguterzeugung von Hybridweizen. Zuchter36: 314–316.
Lewis, D. &L. K. Crowe. 1952. Male sterility as an outbreeding mechanism in Origanum vulgare. Heredity6: 136.
——. 1956. The genetics and evolution of gynodioecy. Evolution10: 115–125.
Lichter, R. &M. Mundler. 1961. Untersuchungen uber die Pollensterilitat der Kuchenzwiebel (Allium cepa L.), insbesondere uber den Einfluss von Witterung und genetischer Konstitution. Zeits. Pflanzenzucht.45: 393–405.
Lilienfeld, F. A. &H. Kihara. 1934. Genomanalyse beiTriticum undAegilops V.Triticum timopheevi Zhuk. Cytologia6: 87–122.
Lindstrom, E. E. 1933. Hereditary radium-induced variations in the tomato. Jour. Hered.24: 129–137.
Lister, R. M. &A. F. Murant. 1967. Seed-transmission of nematode-borne viruses. Ann. Appl. Biol.59: 49–62.
Little, T. M., H. A. Jones, &A. E. Clarke. 1944. The distribution of the malesterility gene in varieties of onion. Herbertia11: 310–312.
Livers, R. W. 1964. Fertility restoration and its inheritance in cytoplasmic malesterile wheat. Science144: 420.
—. 1968. Hybrid wheat release. World Farming10: 32.
Lombardo, G., &F. M. Gerola. 1968. Cytoplasmic inheritance and ultrastructure of the male generative cell of higher plants. Planta82: 105–110.
McClelland, G. A. H. 1967. Speciation and evolution in Aedes. 277–311. Genetics of Insect Vectors of Disease. 794 pp.
McClure, W. J. 1962. Frequency of interspecific crossing between Sorghum vulgare × Sorghum halepense and between Sorghum vulgare × Sorghum almum with cytological studies. Sorghum Newsletter5: 47.
McFadden, E. S. &E. R. Sears. 1944. The artificial synthesis ofTriticum spelta. Genetics30: 14.
——. 1946. The origin ofTriticum spelta and its free-threshing hexaploid relatives. Jour. Hered.37: 81–89, 107–116.
McWhirter, K. S. 1969. Cytoplasmic male sterility inDesmodium. Aust. Jour. Ag. Res.20: 227–241.
Maan, S. S. &K. A. Lucken. 1966. Development and use of an aneuploid set of male sterile Chinese spring wheat in Triticum timopheevi Zhuk. cytoplasm. Can. Jour. Genet. Cytol.8: 398–403.
——. 1967. Additional cytoplasmic male sterility-fertility restoration systems inTriticum. Wheat Info. Ser.23-24: 6–9.
— &E. U. McCracken. 1968. Meiotic instability of common wheat strains derived fromTriticum timopheevi Zhuk. crosses. Euphytica17: 445–450.
Magni, G. E. 1953. Sex-ratio: a non-Mendelian character inDrosophila bifasciata. Nature171: 81.
—. 1954. Thermic cure of cytoplasmic sex-ratio inDrosophila bifasciata, Proc. IX Int. Cong. Genet.II: 1213–1216.
Malogolowkin, C. 1958. Maternally inherited “sex-ratio” conditions inDrosophila willistoni andDrosophila paulistorum. Genetics43: 247–286.
—. 1959. Temperature effects on maternally inherited “sex-ratio” conditions inDrosophila willistoni andDrosophila equinoxialis. Am. Nat.93: 362–368.
— &D. F. Poulson. 1957. Infective transfer of maternally inherited abnormal sex-ratio inDrosophila willistoni. Science126: 32.
——. 1958. Sex-ratio inD. willistoni andD. paulistorum. Proc. X Int. Cong. Genet.II: 176–177.
—,G. G. Carvalho, &M. C. da Paz. 1960. Interspecific transfer of the “sex-ratio” condition in Drosophila. Genetics45: 1553–1557.
—,D. F. Poulson, &E. Y. Wright. 1959. Experimental transfer of maternally inherited abnormal sex-ratio inDrosophila willistoni. Genetics44: 59–74.
Mann, T. J., G. L. Jones, &D. F. Matzinger. 1962. The use of cytoplasmic male sterility in flue-cured tobacco hybrids. Crop Sci.2: 407–410.
van Marrewijk, G. A. M. 1969. Cytoplasmic male sterility in petunia I. Restoration of fertility with special reference to the influence of environment. Euphytica18: 1–20.
Martin, J. 1959. Sorghum and Pearl millet. Manual of Plant Breeding2: 565–585.
Maunder, A. B. &R. C. Pickett. 1959. The genetic inheritance of cytoplasmicgenetic male sterility in grain sorghum. Agron. Jour.51: 47–49.
Mazoti, L. B. &R. S. Velasquez. 1962. Interacciones nucleocitoplasmaticas. Revista Fac. Agron.38: 1–19.
Menon, P. M. 1959. Occurrence of cytoplasmic male-sterility in Pearl millet (Pen-nisetum typhoides Stapf and Hubb.). Cur. Sci.28: 165–167.
Meyer, V. G. 1965. Cytoplasmic effects on anther numbers in interspecific hybrids of cotton. Jour. Hered.56: 292–294.
—. 1966a. The effect ofGossypium arboreum cytoplasm on expression of the gene for external ovules. Jour. Hered.57: 72.
—. 1966b. Environmental effects on the differentiation of abnormal cotton flowers. Am. Jour. Bot.53: 976–980.
—. 1968. An association between male sterility and fiber strength in hybrids of upland cotton,Gossypium hirsutum L. Crop Sci.8: 117–118.
—. 1969. Some effects of genes, cytoplasm, and environment on male sterility of cotton (Gossypium). Crop Sci.9: 237–242.
— &M. Buffet. 1962. Cytoplasmic effects on external ovule production in cotton. Jour. Hered.53: 251–253.
— &J. R. Meyer. 1964. Cytoplasmic effects of the differentiation of anthers and ovules of cotton. Am. Jour. Bot.51: 693–696.
——. 1965. Cytoplasmically controlled male sterility in cotton. Crop Sci.5: 444–448.
Michaelis, P. 1929. Uber den Einfluss von Kern und Plasma auf die Vererbung. Biol. Zent.49: 302–316.
—. 1932. Uber die Beziehung zwischen Kern und Plasma bei den reziprok verschiedenenEpiolobium-Bastarden. Zeits Ind. Abst. Vererb.62: 95–102.
—. 1933. Entwichlungsgeschichlich-genetische Untersuchungen anEpilobium. II. Die Bedeutung des Plasmons fur die Pollenfertilitat desEpilobium luteum-hirsutum-Bastardes. Zeits. Ind. Abst. Vererb.65: 1–71.
—. 1939. Uber den Einfluss des Plasmon auf die Manifestation der Gene. Zeits. Ind. Abst. Vererb.77: 548–567.
—. 1942. Experimentelle Untersuchungen uber die geographische Verbreitung von Plasmon-Unterschieden und der auf disese Unterschiede empfindlichen Gene, sowie deren theoretische Bedeutung fur das Kern-Plasma-Problem. Biol. Zent.62: 170–186.
—. 1943. Untersuchungen an reziprok verschiedenen Artbastarden beiEpilobium. I. Uber die Bastarde verschiedener Sippen der ArtenE. hirsutum mitE. parviflorum, resp.E. montanum. Flora 37: 1–23.
—. 1949. Uber Abanderungen des plasmatischen Erbgutes. Zeits. Vererb.83: 36–85.
—. 1954. Cytoplasmic inheritance in Epilobium and its theoretical significance. Advances in Genetics6: 287–401.
—. 1964. Virus und zytoplasmatische Vererbung. Zeits. Pflanzenzucht.52: 333–354.
— &K. Bakker. 1948. Uber reziprok verschiedene Sippen-bastarde beiEpilobium hirsutum. VIII. Vergleichende Untersuchungen uber das Plasmon mehrerer Epilobium hirsutum Sippen, die bei reziproker Kreuzung unterscheide der Pollenfertilitatzeigen. Zeits. Ind. Abst. Vererb.82: 384–414.
— &M. von Dellinghausen. 1942. Uber reziprok verschiedene Sippenbastarde beiEpilobium hirsutum. IV. Weitere Untersuchungen uber die genischen Grundlagen der extrem stark gestorten Bastarde derE. hirsutum- Sippen Jena. Zeits. Ind. Abst. Vererb.80: 373–482.
— &G. Michaelis. 1948. Uber die Konstanz des Zytoplasmons beiEpilobium. Planta35: 467–512.
— &E. Wertz. 1935. Entwichlungsgeschichtlich-genetische Untersuchungen anEpilobium. IV. Vergleichende Untersuchungen uber das Plasmon vonEpilobium hirsutum, E. luteum, E. montanum undE. roseum. Zeits. Ind. Abst. Vererb.70: 138–159.
Miller, D. A. &R. C. Pickett. 1964. Inheritance of partial amel-fertility in Sorghum vulgare Pers. Crop Sci.4: 1–4.
Miller, P. A., K. P. Milstrey, &P. W. Trown. 1968. Specific inhibition of viral ribonucleic acid replication by gliotoxin. Science159: 431–432.
Mital, S. P., V. Swarup, &A. B. Joshi. 1958. Cytoplasmic male sterility inJowar (Sorghum vulgare Pers.). Cur. Sci.27: 314.
Monod, J. &F. Jacob. 1961. General conclusions: Teleonomic mechanisms in metabolism, growth and differentiation. Cold Spring Harbor Symp. Quant. Biol.26: 389–401.
Monteagudo, A., E. Sanchez-Monge, &J. R. Lacadena. 1967. Pollen-restoring ability of some wheats. Wheat Newsletter13: 50–51.
Moriwaki, D., &O. Kitagawa. 1957. ‘Sex-Ratio-J’ inDrosophila bifasciata I. A preliminary note. Jap. Jour. Genet.32: 308–310.
Mustafaev, N. D., M. A. Fedin, &A. M. Sejh-Zamanov. 1968. New sources of cytoplasmic male sterility. Plant Breeding Abst.39: 55. Abst. No. 370.
Myers, W. M. 1946. Effects of cytoplasm and gene dosage on expression of male sterility in Dactylis glomerata. Genetics31: 225–226.
Nagao, S. &T. Kinoshita. 1982. Causal genes and character expression of male sterility in beets. Jour. Fac. Agric. Hokkaido Univ.52: 51–69.
—,M. Takahashi, &T. Kinoshita. 1962. A basic gene for mono-germ character in beets. Jour. Fac. Agric. Hokkaido Univ.52: 246–255.
Nass, M. N. K. 1969. Mitochondrial DNA: Advances, problems, and goals. Science165: 25–35.
de Nettancourt, D. &W. F. Grant. 1963. The cytogenetics ofLotus (Leguminosae). II. A diploid interspecific hybrid betweenL. tenuis andL. filicaulis. Can. Jour. Genet. Cytol.5: 338–347.
Nettevich, E. D. 1968a. The problem of utilizing heterosis of wheat (Triticum aestivum). Euphytica17: 54–62.
—. 1968b. The specificity of the action of fertility-restoring factors in wheat. Agric. Biol.3: 53–56.
— &T. N. Fedorova. 1966. Presence of factors for cytoplasmic male sterility in the hexaploidTriticum zhukovsky Men. and the octaploidT. timonovum Heslot. Plant Breeding Abst.37: 43. Abst. No. 343.
Nielsen, E. L. 1961a. Cytology, seed set, and breeding behavior of the putative inter-generic hybridAgroelymus turneri. Am. Jour. Bot.48: 340–349.
—. 1961b. Cytology and fertility of derivatives ofAgroelymus turneri. Cytologia26: 137–154.
Novick, R. P. 1969. Extrachromosomal inheritance in bacteria. Bact. Rev.33: 210–235.
- &M. Weiner. 1959. The kinetics of β galactosidase induction. 78–90. Symp. Molecular Biol.
Nurnberg-Kruger, U. 1956. Die Beeinflussung des Geschlechts bei zwittrigen Fragaria-Arten durch Bastardierung. Ber. Deut. Bot. Ges.68: 16.
—. 1958. Genetische Untersuchungen an DiploidenFragaria-Arten, I. Die Kreuzung zwischenF. vesca undF. nilgerrensis, ihre Auswirkung auf die Morphologie der Pflanzen und die Ausbildung des Geschlechts. Zeits. Vererb.89: 747–773.
Oberreuter, M. 1925. Untersuchung der Pollensterilitat der reziprok verschidenen Epilobiumbastarden. Ber. Deut. Bot. Ges.43: 47–51.
Oehler, E. &M. Ingold. 1966a. Mannliche Sterilitat und Wiederherstellung der Fertilitat bei denTriticanae. Arch. Julius Klaus-Stiftung41: 26–36.
——. 1966b. New cases of male sterility and new restorer source inT. aestivum. Wheat Info. Ser.22: 1–3.
Oehlkers, F. 1938. Bastardierungsversuche in der GattungStreptocarpus Lindley. I. Plasmatische Vererbung und die Geschlechtsbestimmung von Zwitterpflanzen. Zeits. Bot.32: 305–393.
—. 1940. Bastardierungsversuche in der GattungStreptocarpus Lindley. III. Neue Ergebnisse uber die Genetik vor Wuchgestalt und Geschlechtsbestimmung. Ber. Deut. Bot. Ges.58: 76–91.
—. 1941. Bastardierungsversuche in der GattungStreptocarpus Lindl. IV. Neue Untersuchungen uber die Geschlechtsbestimmung beiStreptocarpus. Zeits. Bot.37: 158–182.
—. 1961. Bastardierungsversuche in der GattungStreptocarpus Lindl. IX. Neue Untersuchungen uber die Geschlechtsbestimmung beiStreptocarpus. Zeits. Vererb.92: 445–456.
—. 1964. Cytoplasmic inheritance in the genus Streptocarpus Lindley. Advances in Genetics12: 329–370.
— &U. Ebell. 1958. Bastardierungsversuche in der GattungStreptocarpus Lindley. Zeits. Vererb.89: 559–586.
Ogura, H. 1968. Studies on the new male-sterility in Japanese radish, with special reference to the utilization of this sterility towards the practical raising of hybrid seeds. Mem. Fac. Agric. Kagoshima Univ.6: 39–78.
Ohta, Y. 1961. Grafting and cytoplasmic male sterility inCapsicum. Seiken Ziho12: 35–39.
Oka, H. I. 1954. Phylogenetic differentiation of the cultivated rice plant II. Classification of rice varieties by intervarietal hybrid sterility. Jap. Jour. Breed.3: 1–6.
Oldemeyeb, R. K. 1957. Sugar beet male sterility. Jour. Am. Soc. Sugar Beet Tech.9: 381–386.
Owen, F. V. 1942. Male sterility in sugar beets produced by complementary effects of cytoplasmic and Mendelian inheritance. Am. Jour. Bot.29: 692.
—. 1945. Cytoplasmically inherited male-sterility in sugar beets. Jour. Ag. Res.71: 423–440.
—. 1948. Utilization of male sterility in breeding superior yielding sugar beets. Proc. Am. Soc. Sugar Beet Tech.5: 156–161.
-. 1949. Interpretation of cytoplasmically inherited male sterility in sugar beets. Proc. VIII Int. Cong. Genet.: 638–639.
—. 1950. The sugar beet breeder’s problem of establishing male-sterile populations for hybridization purposes. Proc. Am. Soc. Sugar Beet Tech.6: 191–194.
—. 1954. Hybrid sugar beets made by utilizing both cytoplasmic and Mendelian male sterility. Proc. Am. Soc. Sugar Beet Tech.8: 64.
Ownbey, M. &G. D. McCollum. 1953. Cytoplasmic inheritance and reciprocal amphiloidy in Tragopogon. Am. Jour. Bot.40: 788–796.
Paliwal, R. L. &B. B. Hyde. 1959. The association of a single B-chromosome with male sterility inPlantago coronopus. Am. Jour. Bot.46: 460–466.
Panchenko, A. Y. 1966. Methods of producing planting seed and yearly varietal renovation. Proc. II Int. Sunflower Conf. Morden Manitoba 27.
Patel, G. I. &H. P. Olmo. 1955. Cytogenetics of Vitis. I. The hybrid V.vinifera ×V. rotundifolia. Am. Jour. Bot.42: 141–159.
——. 1956. Causes of difference in success in reciprocal crosses betweenVitis vinifera Linn, andVitis rotundifolia Michx. Cytologia21: 411–416.
Patterson, F. L. &M. J. Bitzer. 1966. Hybrid wheat research at Purdue University. Purdue Univ. Res. Prog. Rept. 222.
Pedersen, M. W. &R. E. Stucker. 1969. Evidence of cytoplasmic male sterility in alfalfa. Crop Sci.9: 767–770.
Peterson, C. E. &R. L. Foskett. 1953. Occurrence of pollen sterility in seed fields of Scott County globe onions. Proc. Am. Soc. Hort. Sci.62: 443–448.
Peterson, P. A. 1958. Cytoplasmically inherited male sterility inCapsicum. Am. Nat.90: 111–119.
Pi, C.-P. &K.-D. Wu. 1963. The inheritance of cytoplasmic genetic male sterility in sorghum. Bot. Bull. Academia Sinica 4: 15–22.
Pissarev, V. E. &N. M. Vinogradova. 1944. Hybrids between wheat andElymus. Comptes Rendus (Doklady) Acad. Sci. USSR45: 129–132.
Porter, K. B., K. A. Lahr, &I. M. Atkins. 1965. Cross-pollination of male-sterile winter wheat (Triticum aestivum L.) havingAegilops caudata L. andAegilops ovata L. cytoplasm. Crop Sci.5: 161–163.
Poulson, D. F. 1962. Hereditary infections. Yale Sci. Mag.: 1–2.
-. 1963. Cytoplasmic inheritance and hereditary infections in Drosophila. 404–424. Methodology in Basic Genetics. 484 pp.
-. 1968. Nature, stability, and expression of hereditary SR infections in Drosophila. Proc. XII Int. Cong. Genet. 91–92.
— &B. Sakaguchi. 1960. Evidence concerning the nature of the “sexratio” agent in Drosophila. Anat. Rec.138: 376–377.
——. 1961a. Nature of “Sex-Ratio” agent in Drosophila. Science133: 1489–1490.
——. 1961b. Hereditary infections in Drosophila. Genetics46: 890–891.
——. 1963. Hereditary infections and plasmatic inheritance inDrosophila. Genetics TodayI: 206–207.
Powell, J. B. &G. W. Burton. 1966. A suggested commercial method of producing an interspecific hybrid forage in Pennisetum. Crop Sci.6: 378–379.
Punnett, R. C. 1927. Mendelism. ed. 7. 236 pp.
Quinby, J. R. &J. G. Martin. 1954. Sorghum improvement. Advances in AgronomyVI: 305–357.
Raeber, J. G. &A. Bolton. 1955. A new form of male sterility inNicotiana tabacum L. Nature176: 314–315.
Raghavan, T. S. 1951. Cytoplasmic inheritance in Saccharum. Cur. Sci.20: 138–140.
-. 1953. Some cytogenetical features and breeding behaviour of aSaccharum spontaneum derivative. Proc. VIII Int. Soc. Sugar Crop Techn. Cong. 475–485.
—. 1964. Cytoplasmic inheritance of Saccharum. Indian Jour. Sugarcane Res. Dev.8: 134–139.
Rhoades, M. M. 1931. Cytoplasmic inheritance of male-sterility inZea Mays. Science73: 340–341.
—. 1933. The cytoplasmic inheritance of male-sterility inZea Mays. Jour. Genet.27: 71–93.
—. 1950. Gene induced mutation of a heritable cytoplasmic factor producing male sterility in maize. Proc. Nat. Acad. Sci. 36: 634–635.
Rhyne, C. L. 1965. Cytoplasmic inheritance of reduced androecium in cotton. Jour. Hered.61: 67–70.
Richmond, T. R. &R. J. Kohel. 1961. Analysis of a completely male-sterile character in American upland cotton. Crop Sci.I: 397–401.
Riley, R., J. Unrau, &V. Chapman. 1958. Evidence on the origin of the B genome of wheat. Jour. Hered.49: 91–98.
Robertson, L. D. &B. C. Curtis. 1967. Monosomic analysis of fertility-restoration in common wheat (Triticum aestivium L.). Crop Sci.7: 493–495.
Rohrbach, U. 1965a. Beitrage zum Problem der Pollensterilitat beiBeta vulgaris L. II. Untersuchungen uber die Wirkung der Herkunft auf den Phanotyp des Merkmals Pollensterilitat. Zeits. Pflanzenzucht.54: 23–45.
—. 1965b. Beitrage zum Problem der Pollensterilitat beiBeta vulgaris L. I. Untersuchungen uber die Ontogenese des Phanotyps. Zeits. Pflanzenzucht.53: 105–124.
—. 1965c. Beitrage zum Problem der Pollensterilitat bei Beta vulgaris L. IV. Untersuchung uber die Auswirkungen der Pollensterilitat auf Samen- und Wurzelertrag der Zuckerruben. Zeits. Pflanzenzucht.54: 193–205.
Ross, W. M. 1957. Stigma receptivity in cytoplasmic male-sterile sorghum. Agron. Jour.49: 219–220.
—. 1961. Cytoplasm substitutions. Sorghum Newsletter4: 29.
—. 1965. Yields ofSorghum vulgare Pers. populations with various degrees of male sterility. Crop Sci.5: 480.
— &O. J. Webster. 1959. Additional notes on stigma receptivity in cytoplasmic male-sterile sorghum. Agron. Jour.51: 632.
Rudorf, W. 1954. Neue Beobachtungen an Bastarden vonPhaseolus vulgaris L. ×Phaseolus multiflorus Lam. undPh. multiflorus ×Ph. vulgaris. Proc. IX Int. Cong. Genet.II: 844–845.
Russell, W. A. &F. Marquez-Sanchez. 1966. Effect of cytoplasmic male sterility and restorer genes on performance among different genotypes of corn,Zea mays L. Crop Sci.6: 294–295.
Sage, G. C. M. 1967. Male sterility and the exploitation of hybrid vigor. Ann. Appl. Biol.59: 319–321.
Sakaguchi, B. &D. F. Poulson. 1960. Transfer of the “sex-ratio” condition fromDrosophila willistoni toD. melanogaster. Anat. Rec.138: 381.
——. 1961a. Comparative analysis of transmissive efficiency and pathological effects of “sex-ratio” agents of different origin inDrosophila. Ann. Rept. Nat. Inst. Genet.12: 2–3.
——. 1961b. Transfer of tie “sex-ratio” condition fromD. willistoni to other species ofDrosophila. Ann. Rept. Nat. Inst. Genet.12: 1.
——. 1961c. Distribution of “sex-ratio” agent in tissues ofDrosophila willistoni. Genetics56: 1665–1676.
——. 1963. Interspecific transfer of the “sex-ratio” condition fromDrosophila willistoni toD. melanogaster. Genetics48: 841–861.
-,H. Chikushi, D. F. Poulson, &K. Oishi. 1968. Genetic diversities and chemical properties of SR spirochetes inDrosophila. Proc. XII Int. Cong. Genet. 88–89.
Sampath, S. 1963. The significance of hybrid sterility in rice. Proc. Symp. Rice Genetics and Cytogenetics, Los Banos, Philippines. 175–186.
— &H. K. Mohanty. 1954. Cytology of semisterile rice hybrids. Cur. Sci.32: 182–183.
Sanchez-Monge yParellada, E. 1967. Trigo hibrido, IV. Marcha de la conversion de variedades. Inst. Nac. Invest. Agron. Bol.56: 71–78.
—. 1969. Trigo hibrido VIII. Conversion a androesterilidad hasta 1968. Tendencia a la alogamia. Inst. Nac. Invest. Agron. Bol.60: 43–56.
Sand, S. A. 1960. Autonomy of cytoplasmic male sterility in grafted scions of tobacco. Science131: 665.
—. 1968. Genetic modification of cytoplasmic male sterility in tobacco. Jour. Hered.59: 175–177.
Sarkar, P. &G. L. Stebbins. 1956. Morphological evidence concerning the origin of the B genome in wheat. Am. Jour. Bot.43: 297–304.
Sarvella, P. 1966. Environmental influences on sterility in cytoplasmic malesterile cottons. Crop Sci.6: 361–364.
— &C. O. Grogan. 1965. Morphological variations at different stages of growth in normal, cytoplasmic male-sterile, and restored versions of Zea mays L. Crop Sci.5: 235–238.
— &B. J. Stojanovic. 1968. Amino acids present in male-sterile cottons. (Gossypium). Can. Jour. Genet. Cytol.10: 369–373.
Sasahara, T. &K. Katsuo. 1965. Studies on cytoplasmic differences in rice III. On sterile pollen in a cultivated rice plant with cytoplasm of a wild rice. Jap. Jour. Breed.15: 291–296.
Savitsky, V. F. 1952. A genetic study of monogerm and multigerm characters in beets. Proc. Amer. Soc. Sugar Beet Tech.6: 330–338.
Scheifele, G. L., R. R. Nelson, &C. Koons. 1969. Male sterility cytoplasm conditioning susceptibility of resistant inbred lines of maize to yellow leaf blight caused by Phyllosticta zeae. Plant Dis. Rep.53: 656–659.
Schmidt, J. W., V. A. Johnson, &S. S. Maan. 1962. Hybrid wheat. Nebr. Exp. Sta. Qtrly.9: 9.
Schooler, A. B. 1967. A form of male sterility in barley hybrids. Jour. Hered.58: 206–211.
Schwemmle, J. 1951. Gibt es eine selektive Befruchtung. II. Biol. Zent.70: 193–252.
—. 1952. Der Einfluss des Plasmas auf die Affinitat zwischen Samenanlagen und Pollenschlauchen. Biol. Zent.71: 487–499.
—,E. Haustein, A. Sturm, &M. Binder. 1938. Genetische und cytologische Untersuchungen an Eu-Oenotheren. I–IV. Zeits. Ind. Abst. Vererb.75: 358–800.
— &W. Koepchen. 1953. Weitere Untersuchungen zur selektiven Befruchtung. Zeits. Ind. Abst. Vererb.85: 307–346.
Schweppenhauser, M. A. &T. J. Mann. 1968. Restoration of staminal fertility in Nicotiana by introgression. Can. Jour. Genet. Cytol.10: 401–411.
Sears, E. R. 1947. Genetics and farming. U. S. Dept. Agr., Yearbook: 245–255.
—. 1948. Cytology and genetics of the wheats and their relatives. Advances in Genetics2: 240–270.
Semancik, J. S. &L. G. Weathers. 1968. Exocortis virus of citrus: Association of infectivity with nucleic acid preparations. Virology36: 326–328.
Shepherd, R. J., R. J. Wakeman, &R. R. Romanko. 1968. DNA in cauliflower mosaic virus. Virology36: 150–152.
Shinjyo, C. 1969. Cytoplasmic-genetic male sterility in cultivated rice,Oryza sativa L. II. The inheritance of male sterility. Jap. Jour. Genet.44: 149–156.
— &T. Omura. 1966. Cytoplasmic-genetic male sterility in cultivated rice,Oryza sativa L. I. Fertilities of F1, F2 and offspring obtained from their mutual reciprocal backcrosses; and segregation of completely male sterile plants. Jap. Jour. Breed.16: 179–180.
Shull, A. F. 1945. Inheritance in lady beetles. III. Crosses between variants ofHippodamia quinquesignata and between this species andH. convergens. Jour. Hered.36: 149–160.
—. 1948. An all-female strain of lady beetles with reversions to normal sex ratio. Am. Nat.82: 241–251.
Shumway, L. K. &L. F. Bauman. 1966. The effect of hot water treatment, X-ray irradiation and mesocotyle grafting on cytoplasmic male sterility of maize. Crop Sci.6: 341–342.
Singh, S. P. &H. H. Hadley. 1961. Pollen abortion in cytoplasmic male sterile sorghum. Crop Sci.1: 430–432.
— &Y. P. Sharma. 1963. Preliminary observations on the breeding of Pennisetum at B. R. College, Bichpuri, Agra, India. Sorghum Newsletter6: 26–28.
Sirks, M. J. 1931. Plasmatic influences upon the inheritance inVicia faba I. The elimination of a whole linkage group in the plasma ofVicia Faba minor. Proc. Kon. Akad. Wet. Amsterdam34: 1057–1062.
—. 1932. Beitrage zu einer genotypischen Analyse der AckerbohneVicia Faba L. Genetica13: 209–632.
Skalinska, M. 1928a. Sur les causes d’une disjonction non typique hybrides du genreAquilegia. Acta Soc. Bot. Pol.5: 141–173.
—. 1928b. Etudes sur la sterilite partielle des hybrides du genre Aquilegia. Proc. V. Int. Congr. Genet. Zeits. Ind. Abst. Vererb. Suppl.2: 1343–1372.
—. 1929. Das Problem des Nichterscheinens des vaterlichen Typus in der Spaltung der partiellsterilen Aquilegia-Spezies-Bastarde. Acta Soc. Bot. Pol.6: 138–164.
—. 1930. (On the significance of the cytoplasm in matroclinous hybrids ofAquilegia). Acta Bio. Exp.5: 1–18. (Polish, English summary.)
-. 1931. A new case of unlike reciprocal hybrids inAquilegia. Rep. V Int. Bot. Cong. 250.
Smith, H. H. 1962. Studies on the origin, inheritance and mutation of geniccytoplasmic male sterility inNicotiana. Genetics47: 985–986.
—. 1968. Recent cytogenetic studies in the genus Nicotiana. Advances in Genetics14: 1–54.
Smith, I. D. 1965. Hybrid wheat is almost “in the bag.” Doane’s Ag. Rep. July 8. 21–23.
Snyder, R. J. &D. N. Duvick. 1969. Chromosomal location of Rf2, a restorer gene for cytoplasmic pollen sterile maize. Crop Sci.9: 156–157.
Sonneborn, T. M. 1947. Recent advances in the genetics ofParamecium andEuplotes. Advances in Genetics1: 264–355.
Staudt, G. 1968. Die Genetik und evolution der heterozie in der Gattung Fragaria. III. Untersuchungen an hexa- und oktoploiden Arten. Zeits. Pflanzenzucht.59: 83–102.
Stebbins, G. L. 1950. Variation and evolution in plants. 643 pp.
Stephens, J. C. &R. F. Holland. 1954. Cytoplasmic male-sterility for hybrid sorghum seed production. Agron. Jour.46: 20–23.
Stern, C. 1933. Zur Deutung eines lethalen Effekts in Kreuzungen zwischenVicia Faba major undVicia Faba minor. Zeits. Ind. Abst. Vererb.64: 169–172.
Stinson, H. T. 1960. Extranuclear barriers to interspecific hybridization betweenOenothera hookeri andOenothera argillicola. Genetics45: 819–839.
Stubbe, W. 1959. Genetische analyse der Zusammenwirkens von Genom und Plastom bei Oenothera. Zeits. Vererb.90: 288–298.
—. 1964. The role of the plastome in evolution of the genusOenothera. Genetica35: 28–33.
Suemoto, H. 1968. The origin of the cytoplasm of tetraploid wheat. Proc. XII Int. Cong. Genet. 188.
Swift, H. 1965. Nucleic acids of mitochondria and chloroplasts. Am. Nat.99: 201–228.
Tahir, C. M. &K. Tseunewaki. 1969. Monosomic analysis ofTriticum spelta var.duhamelianum, a fertility-restorer forT. timopheevii cytoplasm. Jap. Jour. Genet.44: 1–9.
Tatebe, T. 1957. (Cytological studies on pollen degeneration in male-sterile onions.) Jour. Hort. Assoc. Japan21: 73–75. (Japanese, English summary.)
Tavrin, E. V. 1964. On the origin of the speciesTriticum zhukovskyi Men. et Er. Plant Breeding Absts.34: 669. Abst. No. 5467.
Theurer, J. C., R. J. Hecker, &E. H. Ottley. 1968. Attempted graft transmission of cytoplasmic male sterility in sugar beets (Beta vulgaris L.). Jour. Am. Soc. Sugar Beet Tech.14: 695–703.
— &G. K. Ryser. 1969. Double-cross sugarbeet hybrids utilizing pollen restorers. Crop Sci.9: 610–612.
Thompson, D. J. 1960. Studies on the inheritance of male-sterility and other characters in the carrot,Daucus carota L. var.sativa. Ph.D. Thesis, Cornell Univ., Ithaca, N.Y.
—. 1961. Studies on the inheritance of male-sterility in the carrot,Daucus carota L. var.sativa. Proc. Am. Soc. Hort. Sci.78: 332–338.
von Tschermak, E. &H. Bleier. 1926. Uber fruchtbareAegilops-Weizen- bastarde (Bespeil fur die Entstehung neuer Arten durch Bastardierung). Ber. Deut. Bot. Ges.44: 110–132.
Tsunewaki, K. 1963. Analysis of the fertility-restoring gene inTriticum aestivum ssp.compactum. Seiken Ziho15: 47–53.
—. 1964. Genetic studies of a 6X-derivative from an 8X Triticale. Can. Jour. Genet. Cytol.6: 1–11.
—,K. Noda, &T. Fujisawa. 1968. Haploid and twin formation in a wheat strain Salmon with alien cytoplasms. Cytologia33: 526–538.
Upadhya, M. D. &M. S. Swaminathan. 1965. Studies on the origin of Triticum zhukovskyi and on the mechanisms regulating chromosome pairing in Triticum. Indian Jour. Genet. Plant Breed.25: 1–13.
Villerts, A. 1942. Uber die Verschiedenheit reziproker Art-Bastarde in der GattungBegonia. Jour. Genet.43: 223–236.
Virnich, H. 1967. Untersuchungen uber das Verhalten der mannlichen Sterilitat und anderer Eigenschaften bei polyploiden Zwiebeln (Allium cepa L.) als Grundlage fur eine Nutzung in der Hybrid-auchtung. Zeits. Pflanzenzucht.58: 205–244.
Vozda, J. 1966. Linkage of the Rf1 gene in the T cytoplasm of maize with genes of the 3rd chromosome. Biol. Plant.8: 411–420.
Watson, I. A. &K. S. McWhirter. 1968. A bulk method of producing hybrid wheat. Crop Sci.8:124–125.
Webster, O. J. &S. P. Singh. 1964. Breeding behavior and histological structure of a nondehiscent anther character in Sorghum vulgare Pers. Crop Sci.4: 656–658.
Welch, J. R. &E. L. Grimball. 1947. Male sterility in the carrot. Science106: 594.
Westergaard, M. 1958. The mechanism of sex determination in dioecious flowering plants. Advances in Genetics9: 217–281.
von Wettstein, F. 1924. Morphologie und Physiologie des Formwechsels der Moose auf genetischer Grundlage. I. Zeits. Ind. Abst. Vererb.33: 1–236.
—. 1925. Genetische Untersuchungen an Moosen (Musci und Hepaticae). Bib. Genet.1: 1–37.
-. 1926. Uber plasmatische Vererbung sowie Plasma- und Genwirkung. I. Nack. Ges. Wiss. Gottingen Math-Phys. Kl. Jahresber: 250–281.
—. 1928. Uber plasmatische Vererbung und uber das Zussamenwirken von Genen und Plasma. Ber. Deut. Bot. Ges.46: 33–49.
—. 1930. Uber plasmatische Vererbung sowie Plasma-Genwirken. II. Nack. Ges. Wiss. Gottingen, Math-Phys. Kl.6: 109–118.
—. 1946. Untersuchungen zur plasmatischen Vererbung. I.Linum. Biol. Zent.65: 149–166.
Wilhite, J. R. 1960. Frequency of interspecific crossing between Sorghum vulgare and Sorghum halepense. Sorghum Newsletter3: 45.
Williamson, D. L. 1966. Atypical transovarial transmission of sex ratio spirochetes byDrosophila robusta Sturtevant. Jour. Exp. Zool.161: 425–429.
-. 1968. The sex ratio spirochete in Drosophila robusta. Proc. XII Int. Cong. Genet. 90.
— &L. Ehrman. 1967. Induction of hybrid sterility in nonhybrid males ofDrosophila paulistorum. Genetics55: 131–140.
Wilson, J. A. 1962. Milestones. DeKalb Ag. Assoc. Letter Oct. 26. 1962.
—. 1968. Problems in hybrid wheat breeding. Euphytica17: 13–33.
— &W. M. Ross. 1961. Cross-breeding in wheat,Triticum aestivum. I. Frequency of the pollen-restoring character in hybrid wheats havingAegilops ovata cytoplasm. Crop Sci.1: 191–193.
——. 1962. Male sterility interaction of theTriticum aestivium nucleus andTriticum timopheevi cytoplasm. Wheat Info. Ser.14: 29.
——. 1962a. Cross-breeding in wheat,Triticum aestivum L. II. Hybrid seed set on a cytoplasmic male-sterile winter wheat composite subjected to cross pollination. Crop Sci.2: 415–417.
Yamaguchi, T. &C. Kanno. 1963. Studies on the differences of character manifestation in reciprocal crosses of Rape (Brassica napus L.) VI. 1st Agron. Div. Tokai-Kinki Nat. Ag. Exp. Stn. Bull. No. 9: 162–182.
Zenkteler, M. 1962. Microsporogenesis and tapetal development in normal and male-sterile carrots (Daucus carota). Am. Jour. Bot.49: 341–348.
Zeven, A. C. 1967. Transfer and inactivation of male sterility and sources of restorer genes in wheat. Euphytica16: 183–189.
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Florida Agricultural Experiment Station Journal Series No. 3571. Supported in part by A.E.C. Contract AT-(40-1)-2583.
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Edwardson, J.R. Cytoplasmic male sterility. Bot. Rev 36, 341–420 (1970). https://doi.org/10.1007/BF02859253
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DOI: https://doi.org/10.1007/BF02859253