Source: AGRICOLA database (1970-1996)

Munns, R., R. A. Hare, et al. (2000). Genetic variation for improving the salt tolerance of durum wheat. Australian Journal of Agricultural Research 51(1): 69-74. {a} CSIRO Plant Industry, Canberra, ACT, 2601, Australia

Huang, L., E. Millet, et al. (1999). Restriction fragment length polymorphism in wild and cultivated tetraploid wheat. Israel Journal of Plant Sciences 47(4): 213-224. {a} Department of Plant Sciences, Wiezmann Institute of Science, Rehovot, 76100, Israel

Sallares, R. and T. A. Brown (1999). PCR-based analysis of the intergenic spacers of the Nor loci on the A genomes of Triticum diploids and polyploids. Genome 42(1): 116-128. {a} Department of Biomolecular Sciences, University of Manchester Institute of Science and Technology, Manchester, M60 1QD, UK

Watanabe, N. (1999). Genetic control of the long glume phenotype in tetraploid wheat by homoeologous chromosomes. Euphytica 106(1): 39-43. {a} Faculty of Agriculture, Gifu University, 1-1 Yanagido, Gifu, 501-1193, Japan

Al, H. A., P. Monneveaux, et al. (1998). Direct and indirect selection for drought tolerance in alien tetraploid wheat x durum wheat crosses. Euphytica 100(1-3): 287-294. {a} Fac. Agric., Sana'a Univ., POB 1247 Sana'a, Yemen

Goncharov, N. P., A. P. Seryi, et al. (1998). Location of a wax inhibitor gene in near-isogenic line ANK-26A. Genetika . [print] Jan 34(1): 122-124. {a} Siberian Division, Institute of Cytology and Genetics, Russian Academy of Sciences, Novosibirsk, 630090, Russia

Asakura, N., C. Nakamura, et al. (1997). RAPD markers linked to the nuclear gene from Triticum timopheevii that confers compatibility with Aegilops squarrosa cytoplasm on alloplasmic durum wheat. Genome 40(2): 201-210. {a} Graduate Sch. Sci. Technol., Lab. Plant Genetics, Dep. Biological Envionmental Sci., Fac. Agric., Kobe Univ., 1 Rokkodai-cho, Nada-ku, Kobe 657, Japan

Mori, N., T. Moriguchi, et al. (1997). RFLP analysis of nuclear DNA for study of phylogeny and domestication of tetraploid wheat. Genes and Genetic Systems 72(3): 153-161. {a} Lab. Plant Genetics, Fac. Agric., Kobe Univ., 1 Rokkodai-cho, Nada-ku, Kobe 657, Japan

Watanabe, N. and H. Miura (1997). P gene effects on the starch pasting properties of tetraploid and hexaploid wheat. Cereal Research Communications 25(4): 963-968. {a} Fac. Agric., Gifu Univ., 1-1 Yanagido, Gifu 501-11, Japan

Al, K. A., P. Monneveux, et al. (1996). Selection response for carbon isotope discrimination in a Triticum polonicum x T. durum: Potential interest for improvement of water efficiency in durum wheat. Plant Breeding 115(5): 317-324. {a} UFR Genet. Amelioration Plantes, ENSA-INRA, F-34060 Montpelier, France

Edwards, R. and D. J. Cole (1996). Glutathione transferases in wheat (Triticum) species with activity toward fenoxaprop-ethyl and other herbicides. Pesticide Biochemistry and Physiology 54(2): 96-104. {a} Dep. Biological Sci., Univ. Durham, Durham DH1 3LE, UK

Liu, C. Y. and K. W. Shepherd (1996). Variation of B subunits of glutenin in durum, wild and less-widely cultivated tetraploid wheats. Plant Breeding 115(3): 172-178. Dep. Plant Sci., Waite Agric. Res. Inst., Univ. Adelaide, Glen Osmond, SA 5064, Australia

Tsegaye, S., H. C. Becker, et al. (1996). Variation of leaf esterases in some Ethiopian tetraploid wheat landraces. Genetic Resources and Crop Evolution 43(2): 119-123. {a} Swedish Univ. Agric. Sci., Dep. Plant Breeding Research, S-26831, Svalov, Sweden

Watanabe, N., Y. Yotani, et al. (1996). The inheritance and chromosomal location of a gene for long glume in durum wheat. Euphytica 91(2): 235-239. {a} Lab. Genetics Plant Breeding, Fac. Agric., Gifu Univ., Gifu 501-11, Japan

Al, H. A., P. Monneveux, et al. (1995). Soluble sugars, proline, and relative water content (RCW) as traits for improving drought tolerance and divergent selection for RCW from T. polonicum into T. durum. Journal of Genetics and Breeding 49(3): 237-243. {a} ENSA-INRA, URF Genetique Amelioration Plantes, 2 place Viala, 34060 Montpellier, France

Belay, G., T. Tesemma, et al. (1995). Natural and human selection for purple-grain tetraploid wheats in the Ethiopian highlands. Genetic Resources and Crop Evolution 42(4): 387-391. {a} Dep. Plant Breeding Research, Swedish Univ. Agric. Sci., Box 7003, S-750 07, Uppsala, Sweden

Stepanenko, I. L. and N. P. Goncharov (1995). Associative nitrogen fixation in rhizosphere of various wheat species. Fiziologiya Rastenii Moscow 42(6): 837-841. {a} Inst. Cytol. Genet., Sib. Div., Russ. Acad. Sci., prosp. Akad. Lavrent'eva 10, 630090 Novosibirsk-90, Russia

Goncharov, N. P. (1994). Location of the gene controlling the "waxless" trait on vegetative organs in tetraploid wheats. Genetika 30(11): 1482-1483. Inst. Cytol. Genet., Sib. Div., Russ. Acad. Sci., Novosibirsk 630090, Russia

Elkonin, L. A., T. N. Gudova, et al. (1993). Diploidization in haploid tissue cultures of sorghum. Plant Breeding 110(3): 201-206. Inst. Agric. Biotechnol., Tulaikovastr. 7, 410020 Saratov, Russia

Ghaemi, M., A. Sarrafi, et al. (1993). Genetic variability for anther culture responses in tetraploid and hexaploid wheat species. Cereal Research Communications 21(2-3): 231-237. Dep. Biotechnology Plant Breeding, EA DRED 832, E.N.S.A.T./I.N.P., 145 avenue de Muret, 31076 Toulouse, France

Hetrick, B. A. D., G. W. T. Wilson, et al. (1993). Mycorrhizal dependence of modern wheat cultivars and ancestors: A synthesis. Canadian Journal of Botany 71(3): 512-518. {a} Dep. Plant Pathol., Throckmorton Hall, Kans. State Univ., Manhattan, KS 66506-5502, USA

Loeschenberger, F., H. Haensel, et al. (1993). Plant formation from pollen of tetraploid wheat species and Triticum tauschii. Cereal Research Communications 21(2-3): 133-139. {a} Probstdorfer Saatzucht Ges.m.b.H, A-2301 Gross Enzersdorf, Austria

Watanabe, K., M. Tsuchiya, et al. (1992). Growth responses of Triticum spp. and its allied plants to sodium, chloride concentration in culture medium. Japanese Journal Of Crop Science 61(3): 518-526.

Orel, L. I., R. A. Udachin, et al. (1990). Morphological and karyological features of Triticum petropavlovskyi (Poaceae). Botanicheskii Zhurnal 75(1): 37-44.

Swati, M. S., M. H. Anjum, et al. (1990). Performance of wheat genotypes under different levels of fertilizer. Sarhad Journal Of Agriculture 6(5): 445-454.

Shaimyardyanov, N. A. (1989). Resistance of different wheat species to Septoria nodorum Berk. Izvestiya Timiryazevskoi Sel'Skokhozyaistvennoi Akademii(6): 188-192.

Tomar, S. M. S., M. Kochumadhavan, et al. (1987). Frequency and distribution of genes for necrosis and chlorosis in tetraploid species for Triticum. Indian Journal Of Genetics & Plant Breeding 47(1): 71-75.

Gamzikova, O. I., R. A. Udachin, et al. (1986). The evolutionary aspect of wheat response to nitrogen nutrition level. Sel'Skokhozyaistvennaya Biologiya(3): 53-56.

Kishmariya, Y. S., V. D. Turkov, et al. (1986). Automation of the analysis of chromosomes in wheat. Doklady Vsesoyuznoi Ordena Lenina I Ordena Trudovogo Krasnogo Znameni Akademii Sel'Skokhozyaistvennykh Nauk Imeni: 15-17.

Raghavaiah, P. and M. G. Joshi (1986). Combining ability studies in emmer wheat. Indian Journal Of Genetics & Plant Breeding 46(3): 476-483.

Ahmad, Z., R. H. Ur, et al. (1985). Histochemical distribution of proteins in wheat and its relationship with important genetic traits. Pakistan Journal Of Agricultural Research 6(2): 82-85.

Gorgidze, A. D., P. P. Naskidashvili, et al. (1985). The species composition of Georgian SSR (USSR) wheats. Soobshcheniya Akademii Nauk Gruzinskoi Ssr 117(2): 385-388.

Kozhushko, N. N., V. M. Komarova, et al. (1985). Peculiarities of water regime of winter wheat species. Fiziologiya I Biokhimiya Kul'Turnykh Rastenii 17(5): 466-470.

Mikhailova, N. A. and E. A. Dvoryankin (1984). Amino acid composition of the ripe grain and green parts of the ear in various wheat species and their resistance to sucking pests. Sel'Skokhozyaistvennaya Biologiya(4): 87-91.