Cereal Research Communications
Volume/Issue:
Volume 42: Issue 3
The abiotic stress response and adaptation of triticale — A review
Author:
A. Blum P.O. Box 16246 Tel Aviv Israel

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Pages:
359–375
Online Publication Date:
06 Sep 2014
Publication Date:
01 Sep 2014
Article Category:
Research Article
DOI:
https://doi.org/10.1556/crc.42.2014.3.1
Keywords:
plant breeding; wheat; rye; drought; cold; freezing; heat; salinity; mineral toxicity; mineral deficiency; waterlogging; tolerance; resistance; abiotic stress; yield; stomata
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After a decade of genetic manipulation and improvement, triticale stand out as a crop of high biomass and grain yield potential which generally surpass that of wheat. Its high productivity is most likely derived from high rates of carbon assimilation linked to stomatal physiology and probably low respiration rate. Being a derivative of rye, triticale has always been assumed to be relatively resistant to abiotic stress. The last review of triticale adaptation to abiotic stress as published by Jessop (1996) pointed at its general and specific fitness to harsh growing conditions. This review as based on additional data published in the last 20 years indicates that triticale retain good to excellent adaptation to conditions of limited water supply and problem soils which involve salinity, low pH, defined mineral toxicities and deficiencies and waterlogging. Despite the understandable expectations, freezing tolerance of triticale was not found to be up to the level of rye. The freezing tolerance of the rye complement in triticale is inhibited by unknown factors on the wheat parent genome. Any given triticale cultivar or selection cannot be taken a priori as being stress resistant. Research has repeatedly shown that triticale presented large genetic diversity for abiotic stress resistance and most likely this diversity has not yet been fully explored due to the very limited research and the small studied sample of the potential triticale germplasm. Triticale is a valuable stress tolerant cereal on its own accord and a potential genetic resource for breeding winter and spring cereals. Because of its high productivity and resilience it might become as important as wheat or better on a global scale if its grain technological quality will be improved to the level of wheat.

  • Abate, E., Hussien, S., Laing, M., Mengistu, F. 2012. Aluminum toxicity tolerance in cereals: Mechanisms, genetic control and breeding methods. African J. Agric. Res. 8:711–722.

    Mengistu F. , 'Aluminum toxicity tolerance in cereals: Mechanisms, genetic control and breeding methods ' (2012 ) 8 African J. Agric. Res. : 711 -722 .

    • Search Google Scholar

  • Abdalla, O.S., Trethowan, R. 1990. Expression of agronomic traits in triticale and other small grains under different moisture regimes. In: Proc. Second Intern. Triticale Symp. Passo Fundo, Rio Grande do Sul, Brazil. CIMMYT, Mexico, pp. 246–248.

    Trethowan R. , '', in Proc. Second Intern. Triticale Symp. Passo Fundo, Rio Grande do Sul, Brazil , (1990 ) -.

  • Aniol, A. 1996. The variability of aluminum tolerance among triticale strains and cultivars bred in Poland. In: Guedes-Pinto, H., Darvey N., Carnide, V.P. (eds), Triticale: Today and Tomorrow. Developments in Plant Breeding. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 461–465.

    Aniol A. , '', in Triticale: Today and Tomorrow. Developments in Plant Breeding , (1996 ) -.

  • Aniol, A. 2006. Aluminum tolerance in triticale as compared to its parental species. In: Proc. 6th Int. Triticale Symp. Stellenbosch, South Africa, pp. 10–18.

    Aniol A. , '', in Proc. 6th Int. Triticale Symp. Stellenbosch, South Africa , (2006 ) -.

  • Araus, J.L., Slafer, G.A., Reynolds, M.P., Royo, C. 2002. Plant breeding and drought in C3 cereals: What should we breed for? Ann. Bot. 89:925–940.

    Royo C. , 'Plant breeding and drought in C3 cereals: What should we breed for? ' (2002 ) 89 Ann. Bot. : 925 -940 .

    • Search Google Scholar

  • Barary, M., Warwick, N.W.M., Jessop, R.S., Taji, A.M. 2003. Variation for osmotic adjustment in Australian triticale cultivars. 11th Australian Agronomy Conference, 2–6 February 2003, Geelong, Victoria, Australia. Poster. http://www.regional.org.au/au/asa/2003/p/9/barary.htm

    Taji A.M. , '', in 11th Australian Agronomy Conference, 2–6 February 2003, Geelong, Victoria, Australia , (2003 ) -.

  • Blum, A. 2005. Drought resistance, water-use efficiency, and yield potential — are they compatible, dissonant, or mutually exclusive? Aust. J. Agric. Res. 56:1159–1168.

    Blum A. , 'Drought resistance, water-use efficiency, and yield potential — are they compatible, dissonant, or mutually exclusive? ' (2005 ) 56 Aust. J. Agric. Res. : 1159 -1168 .

    • Search Google Scholar

  • Blum, A. 2009. Effective use of water (EUW) and not water-use efficiency (WUE) is the target of crop yield improvement under drought stress. Field Crops Res. 112:119–123.

    Blum A. , 'Effective use of water (EUW) and not water-use efficiency (WUE) is the target of crop yield improvement under drought stress ' (2009 ) 112 Field Crops Res. : 119 -123 .

    • Search Google Scholar

  • Blum, A. 2011. Plant Breeding for Water Limited Environments. Springer, New York, USA, 258 pp.

    Blum A. , '', in Plant Breeding for Water Limited Environments , (2011 ) -.

  • Blum, A. 2013. Heterosis, stress, and the environment: A possible road map towards the general improvement of crop yield. J. Exp. Bot. 64:4829–4837.

    Blum A. , 'Heterosis, stress, and the environment: A possible road map towards the general improvement of crop yield ' (2013 ) 64 J. Exp. Bot. : 4829 -4837 .

    • Search Google Scholar

  • Blum, A., Mayer, J., Golan, G. 1983. Chemical desiccation of wheat plants as a simulator of post-anthesis stress. II. Relations to drought stress. Field Crops Res. 6:149–155.

    Golan G. , 'Chemical desiccation of wheat plants as a simulator of post-anthesis stress. II. Relations to drought stress ' (1983 ) 6 Field Crops Res. : 149 -155 .

    • Search Google Scholar

  • Bona, L., Wright, R.J., Baligar, V.C. 1991. A rapid method for screening cereals for acid soil tolerance. Cereal Res. Commun. 19:465–468.

    Baligar V.C. , 'A rapid method for screening cereals for acid soil tolerance ' (1991 ) 19 Cereal Res. Commun. : 465 -468 .

    • Search Google Scholar

  • Bona, L. 2004. Triticale in Hungary. In: Mergoum, M., Gómez-Macpherson, H. (eds), Triticale Improvement and Production. FAO Plant Production and Protection Paper no. 179. Food and Agriculture Organization of the United Nations, Rome, Italy. pp. 119–122.

    Bona L. , '', in Triticale Improvement and Production , (2004 ) -.

  • Bona, L., Carver, B.F. 1998. A proposed scale for quantifying aluminum tolerance levels in wheat and barley detected by hematoxylin staining. Cereal Res. Commun. 26:97–99.

    Carver B.F. , 'A proposed scale for quantifying aluminum tolerance levels in wheat and barley detected by hematoxylin staining ' (1998 ) 26 Cereal Res. Commun. : 97 -99 .

    • Search Google Scholar

  • Bona, L., Acs, E., Palagyi, A., Mihaly, R., Fonad, P., Lantos, C., Tömösközi, S., Langó, B. 2013. Recent developments in human utilization of triticale. In: Abstr. Book of the 2nd Conf. Cereal Biotechnology and Breeding. Budapest, Hungary, pp. 1–8.

    Langó B. , '', in Abstr. Book of the 2nd Conf. Cereal Biotechnology and Breeding. Budapest, Hungary , (2013 ) -.

  • Cai, S., Bai, G.-H., Zhang, D. 2008. Quantitative trait loci for aluminum resistance in Chinese wheat landrace FSW. Theor. Appl. Genet. 117:49–56.

    Zhang D. , 'Quantitative trait loci for aluminum resistance in Chinese wheat landrace FSW ' (2008 ) 117 Theor. Appl. Genet. : 49 -56 .

    • Search Google Scholar

  • Cakmak, I., Derici, R., Torun, B., Tolay, I., Braun, H.J., Schlegel, R. 1997a. Role of rye chromosomes in improvement of zinc efficiency in wheat and triticale. Plant and Soil 196:249–253.

    Schlegel R. , 'Role of rye chromosomes in improvement of zinc efficiency in wheat and triticale ' (1997 ) 196 Plant and Soil : 249 -253 .

    • Search Google Scholar

  • Cakmak, I., Ekiz, H., Yilmaz, A., Torun, B., Köleli, N., Gültekin, I., Alkan, A., Eker, S. 1997b. Differential response of rye, triticale, bread and durum wheats to zinc deficiency in calcareous soils. Plant and Soil 188:1–10.

    Eker S. , 'Differential response of rye, triticale, bread and durum wheats to zinc deficiency in calcareous soils ' (1997 ) 188 Plant and Soil : 1 -10 .

    • Search Google Scholar

  • Cakmak, I., Torun, B., Erenoğlu, B., Öztürk, L., Marschner, H., Kalayci, M., Ekiz, H., Yilmaz, A. 1999. Morphological and physiological differences in the response of cereals to zinc deficiency. Euphytica 100:349–357.

    Yilmaz A. , 'Morphological and physiological differences in the response of cereals to zinc deficiency ' (1999 ) 100 Euphytica : 349 -357 .

    • Search Google Scholar

  • Díaz de León, J.L., Escoppinichi, R., Geraldo, N., Castellanos, T., Mujeeb-Kazi, A., Röder, M.S. 2011. Quantitative trait loci associated with salinity tolerance in field grown bread wheat. Euphytica 181:371–383.

    Röder M.S. , 'Quantitative trait loci associated with salinity tolerance in field grown bread wheat ' (2011 ) 181 Euphytica : 371 -383 .

    • Search Google Scholar

  • Dolferus, R., Xuemei, J., Richards, R.A. 2011. Abiotic stress and control of grain number in cereals. Plant Sci. 181:331–341.

    Richards R.A. , 'Abiotic stress and control of grain number in cereals ' (2011 ) 181 Plant Sci. : 331 -341 .

    • Search Google Scholar

  • Dvorak, J., Fowler, D.B. 1978. Cold hardiness potential of triticale and teraploid rye. Crop Sci. 18:477–478.

    Fowler D.B. , 'Cold hardiness potential of triticale and teraploid rye ' (1978 ) 18 Crop Sci. : 477 -478 .

    • Search Google Scholar

  • Echart, C.L., Barbosa-Neto, J.F., Garvin, D.F., Cavalli-Moli, S. 2002. Al tolerance in barley: Methods for screening and genetic analysis. Euphytica 126:309–313.

    Cavalli-Moli S. , 'Al tolerance in barley: Methods for screening and genetic analysis ' (2002 ) 126 Euphytica : 309 -313 .

    • Search Google Scholar

  • Estrada-Campuzano, G., Slafer, G.A., Miralles, D.J. 2012. Differences in yield, biomass and their components between triticale and wheat grown under contrasting water and nitrogen environments. Field Crops Res. 128:167–179.

    Miralles D.J. , 'Differences in yield, biomass and their components between triticale and wheat grown under contrasting water and nitrogen environments ' (2012 ) 128 Field Crops Res. : 167 -179 .

    • Search Google Scholar

  • Firon, N., Nepi, M., Pacini, E. 2012. Water status and associated processes mark critical stages in pollen development and functioning. Ann. Bot. 109:1201–1214.

    Pacini E. , 'Water status and associated processes mark critical stages in pollen development and functioning ' (2012 ) 109 Ann. Bot. : 1201 -1214 .

    • Search Google Scholar

  • Fischer, R.A., Rees, D., Sayre, K.D., Lu, Z.M., Condon, A.G., Saavedra, A.L. 1998. Wheat yield progress associated with higher stomatal conductance and photosynthetic rate, and cooler canopies. Crop Sci. 38:1467–1475.

    Saavedra A.L. , 'Wheat yield progress associated with higher stomatal conductance and photosynthetic rate, and cooler canopies ' (1998 ) 38 Crop Sci. : 1467 -1475 .

    • Search Google Scholar

  • Fox, P.N., Skovmand, B., Thompson, B.K., Braun, H.-J., Cormier, R. 1990. Yield and adaptation of hexaploid spring triticale. Euphytica 47:57–64.

    Cormier R. , 'Yield and adaptation of hexaploid spring triticale ' (1990 ) 47 Euphytica : 57 -64 .

    • Search Google Scholar

  • Francois, L.E., Donovan, T.J., Maas, E.V., Rubenthaler, G.L. 1988. Effect of salinity on grain yield and quality, vegetative growth, and germination of triticale. Agron. J. 80:642–647.

    Rubenthaler G.L. , 'Effect of salinity on grain yield and quality, vegetative growth, and germination of triticale ' (1988 ) 80 Agron. J. : 642 -647 .

    • Search Google Scholar

  • Genc, Y., Oldach, K., Verbyla, A.P., Lott, G., Hassan, M., Tester, M., Wallwork, H., McDonald, G.K. 2010. Sodium exclusion QTL associated with improved seedling growth in bread wheat under salinity stress. Theor. Appl. Genet. 121:877–894.

    McDonald G.K. , 'Sodium exclusion QTL associated with improved seedling growth in bread wheat under salinity stress ' (2010 ) 121 Theor. Appl. Genet. : 877 -894 .

    • Search Google Scholar

  • Giunta, F., Motzo, R., Deidda, M. 1993. Effect of drought on yield and yield components of durum wheat and triticale in a Mediterranean environment. Field Crops Res. 33:399–409.

    Deidda M. , 'Effect of drought on yield and yield components of durum wheat and triticale in a Mediterranean environment ' (1993 ) 33 Field Crops Res. : 399 -409 .

    • Search Google Scholar

  • Gorham, J. 1990. Salt tolerance in the Triticeae: Ion discrimination in rye and triticale. J. Exp. Bot. 41:609–614.

    Gorham J. , 'Salt tolerance in the Triticeae: Ion discrimination in rye and triticale ' (1990 ) 41 J. Exp. Bot. : 609 -614 .

    • Search Google Scholar

  • Graham, R.D., Pearce, D.T. 1979. The sensitivity of hexaploid and octoploid triticales and their parent species to copper deficiency. Aust. J. Agric. Res. 30:791–799.

    Pearce D.T. , 'The sensitivity of hexaploid and octoploid triticales and their parent species to copper deficiency ' (1979 ) 30 Aust. J. Agric. Res. : 791 -799 .

    • Search Google Scholar

  • Graham, R.D., Ascher, J.S., Ellis, P.A.E., Shepherd, K.W. 1987. Transfer to wheat of the copper efficiency factor carried on rye chromosome arm 5RL. Plant and Soil 99:107–114.

    Shepherd K.W. , 'Transfer to wheat of the copper efficiency factor carried on rye chromosome arm 5RL ' (1987 ) 99 Plant and Soil : 107 -114 .

    • Search Google Scholar

  • Grzesiak, S., Grzesiak, M.T., Filek, W., Stabryla, J. 2003. Evaluation of physiological screening tests for breeding drought resistant triticale (× Triticosecale Wittmack). Acta Physiol. Plant. 25:29–37.

    Stabryla J. , 'Evaluation of physiological screening tests for breeding drought resistant triticale (× Triticosecale Wittmack) ' (2003 ) 25 Acta Physiol. Plant. : 29 -37 .

    • Search Google Scholar

  • Guedes-Pinto, H., Darvey, N., Carnide, V.P. (eds) 1996.Triticale: Today and Tomorrow. Developments in Plant Breeding. Kluwer Academic Publishers, Dordrecht, The Netherlands, 898 pp.

    '', in Triticale: Today and Tomorrow. Developments in Plant Breeding , (1996 ) -.

  • Gustafson, J.P., Bushuck, W., Dera, A.R. 1991. Triticale: Production and utilization. In: Lorenz, K.J., Kulp, K. (eds), Handbook of Cereal Science and Technology. Marcel Dekker, New York, USA, pp. 373–400.

    Dera A.R. , '', in Handbook of Cereal Science and Technology , (1991 ) -.

  • Harry, S.P., Graham, R.D. 1981. Tolerance of triticale, wheat and rye to copper deficiency and low and high soil pH. J. Plant Nutr. 3:721–730.

    Graham R.D. , 'Tolerance of triticale, wheat and rye to copper deficiency and low and high soil pH ' (1981 ) 3 J. Plant Nutr. : 721 -730 .

    • Search Google Scholar

  • Hayes, J.E., Ma, J.F. 2003. Al-induced efflux of organic acid anions is poorly associated with internal organic acid metabolism in triticale roots. J. Exp. Bot. 54:1753–1759.

    Ma J.F. , 'Al-induced efflux of organic acid anions is poorly associated with internal organic acid metabolism in triticale roots ' (2003 ) 54 J. Exp. Bot. : 1753 -1759 .

    • Search Google Scholar

  • Hömmö, L.M. 1994. Hardening of some winter wheat (Triticum aestivum L.), rye (Secale cereale L.), triticale (× Triticosecale Wittmack) and winter barley (Hordeum vulgare L.) cultivars during autumn and the final winter survival in Finland. Plant Breeding 112:285–293.

    Hömmö L.M. , 'Hardening of some winter wheat (Triticum aestivum L.), rye (Secale cereale L.), triticale (× Triticosecale Wittmack) and winter barley (Hordeum vulgare L.) cultivars during autumn and the final winter survival in Finland ' (1994 ) 112 Plant Breeding : 285 -293 .

    • Search Google Scholar

  • Horie, T., Shoji, M., Toshiyuki, T., Kouhei, K., Akihiro, O., Tatsuhiko, S. 2006. Genotypic difference in canopy diffusive conductance measured by a new remote-sensing method and its association with the difference in rice yield potential. Plant Cell Environ. 29:653–660.

    Tatsuhiko S. , 'Genotypic difference in canopy diffusive conductance measured by a new remote-sensing method and its association with the difference in rice yield potential ' (2006 ) 29 Plant Cell Environ. : 653 -660 .

    • Search Google Scholar

  • Isfan, D., Cserni, I., Tabi, M. 1991. Genetic variation of the physiological efficiency index of nitrogen in triticale. J. Plant Nutr. 14:1381–1390.

    Tabi M. , 'Genetic variation of the physiological efficiency index of nitrogen in triticale ' (1991 ) 14 J. Plant Nutr. : 1381 -1390 .

    • Search Google Scholar

  • Jessop, R.S. 1996. Stress tolerance in newer triticales compared to other cereals. In: Guedes-Pinto, H., Darvey N., Carnide, V.P. (eds), Triticale: Today and Tomorrow. Developments in Plant Breeding. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 419–428.

    Jessop R.S. , '', in Triticale: Today and Tomorrow. Developments in Plant Breeding , (1996 ) -.

  • Johnson, J.W., Huang, B. 1996. Responses of triticale and wheat to hypoxia. In: Guedes-Pinto, H., Darvey N., Carnide, V.P. (eds), Triticale: Today and Tomorrow. Developments in Plant Breeding. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 489–495.

    Huang B. , '', in Triticale: Today and Tomorrow. Developments in Plant Breeding , (1996 ) -.

  • Josephides, C.M. 1992. Analysis of adaptation of barley, triticale, durum and bread wheat under Mediterranean conditions. Euphytica 65:1–8.

    Josephides C.M. , 'Analysis of adaptation of barley, triticale, durum and bread wheat under Mediterranean conditions ' (1992 ) 65 Euphytica : 1 -8 .

    • Search Google Scholar

  • Karray-Bouraoui, N., Zid, E., Grignon, C. 2001. K/Na selectivity for secretion into the xylem in triticale (X-Triticosecale Wittmack). Dev. Plant Soil Sci. 92:420–421.

    Grignon C. , 'K/Na selectivity for secretion into the xylem in triticale (X-Triticosecale Wittmack) ' (2001 ) 92 Dev. Plant Soil Sci. : 420 -421 .

    • Search Google Scholar

  • Khu, D.-M., Reyno, R., Brummer, E.C., Monteros, M.J. 2012. Screening methods for Al tolerance in alfalfa. Crop Sci. 52:161–167.

    Monteros M.J. , 'Screening methods for Al tolerance in alfalfa ' (2012 ) 52 Crop Sci. : 161 -167 .

    • Search Google Scholar

  • Kim, B.Y., Baier, A.C., Somers, D.J., Gustafson, J.P. 2002. Aluminum tolerance in triticale, wheat, and rye. In: Maluszynski, M., Kasha, K.J. (eds), Mutations, in Vitro and Molecular Techniques for Environmentally Sustainable Crop Improvement. Springer, New York, USA, pp. 101–111.

    Gustafson J.P. , '', in Mutations, in Vitro and Molecular Techniques for Environmentally Sustainable Crop Improvement , (2002 ) -.

  • Koebner, R., Paul, M., Martin, D.K. 1996. High levels of salt tolerance revealed in triticale. In: Guedes-Pinto, H., Darvey, N., Carnide, V.P. (eds), Triticale: Today and Tomorrow. Developments in Plant Breeding. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 429–436.

    Martin D.K. , '', in Triticale: Today and Tomorrow. Developments in Plant Breeding , (1996 ) -.

  • Limin, A.E., Fowler, D.B. 1984. The effect of cytoplasm on cold hardiness in alloplasmic rye (Secale cereale L.) and triticale. Can. J. Genetics Cytol. 26:405–408.

    Fowler D.B. , 'The effect of cytoplasm on cold hardiness in alloplasmic rye (Secale cereale L.) and triticale ' (1984 ) 26 Can. J. Genetics Cytol. : 405 -408 .

    • Search Google Scholar

  • Limin, A.E., Dvorak, J., Fowler, D.B. 1985. Cold hardiness in hexaploid triticale. Can. J. Plant Sci. 65:487–490.

    Fowler D.B. , 'Cold hardiness in hexaploid triticale ' (1985 ) 65 Can. J. Plant Sci. : 487 -490 .

    • Search Google Scholar

  • Liu, Q., He, L.-S., Wang, Z.-Y., Cheng, X.-Z., Zheng, S.-J. 2007. Differential aluminum resistance and organic acid anions secretion in triticale. Comm. Soil Sci. Plant Anal. 38:1991–2004.

    Zheng S.-J. , 'Differential aluminum resistance and organic acid anions secretion in triticale ' (2007 ) 38 Comm. Soil Sci. Plant Anal. : 1991 -2004 .

    • Search Google Scholar

  • Lu, Z.M., Radin, J.W., Turcotte, E.L., Percy, R., Zeiger, E. 1994. High yields in advanced lines of pima cotton are associated with higher stomatal conductance, reduced leaf area and lower leaf temperature. Physiol. Plant. 92:266–272.

    Zeiger E. , 'High yields in advanced lines of pima cotton are associated with higher stomatal conductance, reduced leaf area and lower leaf temperature ' (1994 ) 92 Physiol. Plant. : 266 -272 .

    • Search Google Scholar

  • Lu, Z.M., Zeiger, E. 1994. Selection for higher yields and heat resistance in pima cotton has caused genetically determined changes in stomatal conductances. Physiol. Plant. 92:273–278.

    Zeiger E. , 'Selection for higher yields and heat resistance in pima cotton has caused genetically determined changes in stomatal conductances ' (1994 ) 92 Physiol. Plant. : 273 -278 .

    • Search Google Scholar

  • Ma, H.-X., Bai, G.-H., Carver, B.F., Zhou, L.-L. 2006. Molecular mapping of a quantitative trait locus for aluminum tolerance in wheat cultivar Atlas 66. Theor. Appl. Genet. 112:51–57.

    Zhou L.-L. , 'Molecular mapping of a quantitative trait locus for aluminum tolerance in wheat cultivar Atlas 66 ' (2006 ) 112 Theor. Appl. Genet. : 51 -57 .

    • Search Google Scholar

  • Ma, J.-F., Taketa, S., Yang, Z.-M. 2000. Aluminum tolerance genes on the short arm of chromosome 3R are linked to organic acid release in triticale. Plant Physiol. 122:687–694.

    Yang Z.-M. , 'Aluminum tolerance genes on the short arm of chromosome 3R are linked to organic acid release in triticale ' (2000 ) 122 Plant Physiol. : 687 -694 .

    • Search Google Scholar

  • Marcar, N.E., Graham, R.D. 1987. Tolerance of wheat, barley, triticale and rye to manganese deficiency during seedling growth. Aust. J. Agric. Res. 38:501–511.

    Graham R.D. , 'Tolerance of wheat, barley, triticale and rye to manganese deficiency during seedling growth ' (1987 ) 38 Aust. J. Agric. Res. : 501 -511 .

    • Search Google Scholar

  • McIntyre, B.L., Chen, T.H.H., Mederick, M.F. 1988. Physiological traits associated with winter survival of winter wheats and winter triticales in Alberta. Can. J. Plant Sci. 68:361–366.

    Mederick M.F. , 'Physiological traits associated with winter survival of winter wheats and winter triticales in Alberta ' (1988 ) 68 Can. J. Plant Sci. : 361 -366 .

    • Search Google Scholar

  • Mergoum, M., Gómez-Macpherson, H. (eds) 2004. Triticale Improvement and Production. FAO Plant Production and Protection Paper no. 179. Food and Agriculture Organization of the United Nations, Rome, Italy, 37 pp.

    '', in Triticale Improvement and Production , (2004 ) -.

  • Morant-Manceau, A., Pradier, E., Tremblin, G. 2004. Osmotic adjustment, gas exchanges and chlorophyll fluorescence of a hexaploid triticale and its parental species under salt stress. J. Plant Physiol. 161:25–33.

    Tremblin G. , 'Osmotic adjustment, gas exchanges and chlorophyll fluorescence of a hexaploid triticale and its parental species under salt stress ' (2004 ) 161 J. Plant Physiol. : 25 -33 .

    • Search Google Scholar

  • Motzo, R., Pruneddu, G., Giunta, F. 2013. The role of stomatal conductance for water and radiation use efficiency of durum wheat and triticale in a Mediterranean environment. Europ. J. Agron. 44: 87–97.

    Giunta F. , 'The role of stomatal conductance for water and radiation use efficiency of durum wheat and triticale in a Mediterranean environment ' (2013 ) 44 Europ. J. Agron. : 87 -97 .

    • Search Google Scholar

  • Navakode, S., Weidner, A., Lohwasser, U., Röder, M.S., Börner, A. 2009. Molecular mapping of quantitative trait loci (QTLs) controlling aluminum tolerance in bread wheat. Euphytica 166:283–290.

    Börner A. , 'Molecular mapping of quantitative trait loci (QTLs) controlling aluminum tolerance in bread wheat ' (2009 ) 166 Euphytica : 283 -290 .

    • Search Google Scholar

  • Niedziela, A., Bednarek, P.T., Cichy, H., Budzianowski, G., Kilian, A., Aniol, A. 2012. Aluminum tolerance association mapping in triticale. BMC Genomics 13:67. doi: 10.1186/1471-2164-13-67

    Aniol A. , 'Aluminum tolerance association mapping in triticale ' (2012 ) 13 BMC Genomics : 67 -.

    • Search Google Scholar

  • Oettler, G., Wiethölter, S., Horst, W.J. 2000. Genetic parameters for agronomic traits of triticale and other small-grain cereals grown on aluminum-toxic soil in southern Brazil. Plant Breeding 119:227–231.

    Horst W.J. , 'Genetic parameters for agronomic traits of triticale and other small-grain cereals grown on aluminum-toxic soil in southern Brazil ' (2000 ) 119 Plant Breeding : 227 -231 .

    • Search Google Scholar

  • Oracka, T., Łapiński, B. 2006. Nitrogen and phosphorus uptake and utilization efficiency in D(R) substitution lines of hexaploid triticale. Plant Breeding 125:221–224.

    Łapiński B. , 'Nitrogen and phosphorus uptake and utilization efficiency in D(R) substitution lines of hexaploid triticale ' (2006 ) 125 Plant Breeding : 221 -224 .

    • Search Google Scholar

  • Osborne, L.D., Rengel, Z. 2002. Screening cereals for genotypic variation in efficiency of phosphorus uptake and utilization. Aust. J. Agric. Res. 53:295–303.

    Rengel Z. , 'Screening cereals for genotypic variation in efficiency of phosphorus uptake and utilization ' (2002 ) 53 Aust. J. Agric. Res. : 295 -303 .

    • Search Google Scholar

  • Pandey, R., Singh, B., Nair, T.V.R. 2005. Impact of arbuscular-mycorrhizal fungi on phosphorus efficiency of wheat, rye, and triticale. J. Plant Nutr. 28:1867–1876.

    Nair T.V.R. , 'Impact of arbuscular-mycorrhizal fungi on phosphorus efficiency of wheat, rye, and triticale ' (2005 ) 28 J. Plant Nutr. : 1867 -1876 .

    • Search Google Scholar

  • Pereira, J.F., Zhou, G., Delhaize, E., Richardson, T., Zhou, M., Ryan, P.R. 2010. Engineering greater aluminum resistance in wheat by over-expressing TaALMT1. Ann. Bot. 106:205–214.

    Ryan P.R. , 'Engineering greater aluminum resistance in wheat by over-expressing TaALMT1 ' (2010 ) 106 Ann. Bot. : 205 -214 .

    • Search Google Scholar

  • Rapacz, M., Sasal, M., Gut, M. 2011. Chlorophyll fluorescence-based studies of frost damage and the tolerance for cold-induced photo inhibition in freezing tolerance analysis of triticale (× Triticosecale Wittmack). J. Agron. Crop Sci. 197:378–389.

    Gut M. , 'Chlorophyll fluorescence-based studies of frost damage and the tolerance for cold-induced photo inhibition in freezing tolerance analysis of triticale (× Triticosecale Wittmack) ' (2011 ) 197 J. Agron. Crop Sci. : 378 -389 .

    • Search Google Scholar

  • Reynolds, M.P., Trethowan, R., Crossa, J., Vargas, M., Sayre, K.D. 2002. Physiological factors associated with genotype by environment interaction in wheat. Field Crops Res. 75:139–160.

    Sayre K.D. , 'Physiological factors associated with genotype by environment interaction in wheat ' (2002 ) 75 Field Crops Res. : 139 -160 .

    • Search Google Scholar

  • Reynolds, M.P., Trethowan, R., Crossa, J., Vargas, M., Sayre, K.D. 2004. Erratum to “Physiological factors associated with genotype by environment interaction in wheat”. Field Crops Res. 85:253–274.

    Sayre K.D. , 'Erratum to “Physiological factors associated with genotype by environment interaction in wheat” ' (2004 ) 85 Field Crops Res. : 253 -274 .

    • Search Google Scholar

  • Reynolds, M.P., Pask, A.J.D., Mullan, D.M. (eds) 2012. Physiological Breeding I: Interdisciplinary Approaches to Improve Crop Adaptation. CIMMYT, Mexico, D.F.

    '', in Physiological Breeding I: Interdisciplinary Approaches to Improve Crop Adaptation , (2012 ) -.

  • Riede, C.R., Anderson, J.A. 1996. Linkage of RFLP markers to an aluminum tolerance gene in wheat. Crop Sci. 36:905–909.

    Anderson J.A. , 'Linkage of RFLP markers to an aluminum tolerance gene in wheat ' (1996 ) 36 Crop Sci. : 905 -909 .

    • Search Google Scholar

  • Royo, C., Rodriguez, A., Romagosa, I. 1993. Differential adaptation of complete and substituted triticale. Plant Breeding 111:113–119.

    Romagosa I. , 'Differential adaptation of complete and substituted triticale ' (1993 ) 111 Plant Breeding : 113 -119 .

    • Search Google Scholar

  • Royo, C., Voltas, J., Romagosa, I. 1999. Remobilization of pre-anthesis assimilates to the grain for grain only and dual-purpose (forage and grain) triticale. Crop Sci. 91:312–316.

    Romagosa I. , 'Remobilization of pre-anthesis assimilates to the grain for grain only and dual-purpose (forage and grain) triticale ' (1999 ) 91 Crop Sci. : 312 -316 .

    • Search Google Scholar

  • Saulescu, N.N., Ittu, G., Ciuca, M., Ittu, M., Serban, G., Mustatea, P. 2011. Transferring useful rye genes to wheat, using triticale as a bridge. Czech J. Genet. Plant Breed. 47:S56–S62.

    Mustatea P. , 'Transferring useful rye genes to wheat, using triticale as a bridge ' (2011 ) 47 Czech J. Genet. Plant Breed. : S56 -S62 .

    • Search Google Scholar

  • Schlegel, R., Ozdemir, A., Tolay, I., Cakmak, I., Saberi, H., Atanasova, M. 1999. Localisation of genes for zinc and manganese efficiency in wheat and rye. In: Gissel-Nielsen, G., Jensen, A. (eds), Proc. Sixth Intern. Symp. Genetics Mol. Biol. Plant Nutr. Springer, New York, USA, pp. 417–424.

    Atanasova M. , '', in Proc. Sixth Intern. Symp. Genetics Mol. Biol. Plant Nutr. , (1999 ) -.

  • Setter, T.L., Waters, I. 2003. Review of prospects for germplasm improvement for waterlogging tolerance in wheat, barley and oats. Plant and Soil 253:1–34.

    Waters I. , 'Review of prospects for germplasm improvement for waterlogging tolerance in wheat, barley and oats ' (2003 ) 253 Plant and Soil : 1 -34 .

    • Search Google Scholar

  • Shalaby, E.E., Epstein, E., Qualset, C.O. 1993. Variation in salt tolerance among some wheat and triticale genotypes. J. Agron. Crop Sci. 171:298–304.

    Qualset C.O. , 'Variation in salt tolerance among some wheat and triticale genotypes ' (1993 ) 171 J. Agron. Crop Sci. : 298 -304 .

    • Search Google Scholar

  • Shimshi, D., Ephrat, J. 1975. Stomatal behaviour of wheat cultivars in relation to their transpiration, photosynthesis and yield. Agron. J. 67:326–331.

    Ephrat J. , 'Stomatal behaviour of wheat cultivars in relation to their transpiration, photosynthesis and yield ' (1975 ) 67 Agron. J. : 326 -331 .

    • Search Google Scholar

  • Singh, B., Singh, B.K. 2001. Ribulose-1,5-bisphosphate carboxylase/oxygenase content and activity in wheat, rye and triticale. Biol. Plant. 44:427–430.

    Singh B.K. , 'Ribulose-1,5-bisphosphate carboxylase/oxygenase content and activity in wheat, rye and triticale ' (2001 ) 44 Biol. Plant. : 427 -430 .

    • Search Google Scholar

  • Skórska, E., Szwarc, W. 2007. Influence of UV-B radiation on young triticale plants with different wax cover. Biol. Plant. 51:189–192.

    Szwarc W. , 'Influence of UV-B radiation on young triticale plants with different wax cover ' (2007 ) 51 Biol. Plant. : 189 -192 .

    • Search Google Scholar

  • Stass, A., Smit, I., Eticha, D., Oettler, G., Horst, W.J. 2008. The significance of organic-anion exudation for the aluminum resistance of primary triticale derived from wheat and rye parents differing in aluminum resistance. J. Plant Nutr. Soil Sci. 171:634–642.

    Horst W.J. , 'The significance of organic-anion exudation for the aluminum resistance of primary triticale derived from wheat and rye parents differing in aluminum resistance ' (2008 ) 171 J. Plant Nutr. Soil Sci. : 634 -642 .

    • Search Google Scholar

  • Thomas, H., Howarth, C.J. 2000. Five ways to stay green. J. Exp. Bot. 51:329–337.

    Howarth C.J. , 'Five ways to stay green ' (2000 ) 51 J. Exp. Bot. : 329 -337 .

  • Thomson, C.J., Colmer, T.D., Watkin, E.L.J., Greenway, H. 1992. Tolerance of wheat (Triticum aestivum cvs Gamenya and Kite) and triticale (Triticosecale cv. Muir) to waterlogging. New Phytol. 120:335–344.

    Greenway H. , 'Tolerance of wheat (Triticum aestivum cvs Gamenya and Kite) and triticale (Triticosecale cv. Muir) to waterlogging ' (1992 ) 120 New Phytol. : 335 -344 .

    • Search Google Scholar

  • Tshewang, S., Birchall, C., Jessop, R. 2010. Evaluation of the frost tolerance of triticale varieties and other winter cereals at flowering. In: Dove, H., Culvenor, R.A. (eds), Food Security from Sustainable Agriculture. Proc. 15th Agron. Conf. 2010, 15–18 November 2010, Lincoln, New Zealand (pages not listed).

    Jessop R. , '', in Food Security from Sustainable Agriculture , (2010 ) -.

  • Tyrka, M., Bednarek, P.T., Kilian, A., Wȩdzony, M., Hura, T., Bauer, E. 2011. Genetic map of triticale compiling DArT, SSR, and AFLP markers. Genome 54:391–401.

    Bauer E. , 'Genetic map of triticale compiling DArT, SSR, and AFLP markers ' (2011 ) 54 Genome : 391 -401 .

    • Search Google Scholar

  • Wagatsuma, T., Ishikawa, S., Uemura, M., Mitsuhashi, W., Kawamura, T., Khan, M.S.H., Tawaraya, K. 2005. Plasma membrane lipids are the powerful components for early stage aluminum tolerance in triticale. Soil Sci. Plant Nutr. 51:701–704.

    Tawaraya K. , 'Plasma membrane lipids are the powerful components for early stage aluminum tolerance in triticale ' (2005 ) 51 Soil Sci. Plant Nutr. : 701 -704 .

    • Search Google Scholar

  • Wang, Y., Noguchi, K., Ono, N., Inoue, S-I., Terashima, I., Kinoshita, T. 2014. Overexpression of plasma membrane H+-ATPase in guard cells promotes light-induced stomatal opening and enhances plant growth. Proc. Nat. Acad. Sci. 111:533–538.

    Kinoshita T. , 'Overexpression of plasma membrane H+-ATPase in guard cells promotes light-induced stomatal opening and enhances plant growth ' (2014 ) 111 Proc. Nat. Acad. Sci. : 533 -538 .

    • Search Google Scholar

  • Winzeler, M., McCullough, D.E., Hunt, L.A. 1989. Leaf gas exchange and plant growth of winter rye, triticale, and wheat under contrasting temperature regimes. Crop Sci. 29:1256–1260.

    Hunt L.A. , 'Leaf gas exchange and plant growth of winter rye, triticale, and wheat under contrasting temperature regimes ' (1989 ) 29 Crop Sci. : 1256 -1260 .

    • Search Google Scholar

  • Yang, J., Zhang, J. 2006. Grain filling of cereals under soil drying. New Phytol. 169:223–236.

    Zhang J. , 'Grain filling of cereals under soil drying ' (2006 ) 169 New Phytol. : 223 -236 .

    • Search Google Scholar

  • Zhang, X.G., Jessop, R.S., Alter, D. 2003. Organic acid exudation associated with aluminum stress tolerance in triticale and wheat. Aust. J. Agric. Res. 54:979–985.

    Alter D. , 'Organic acid exudation associated with aluminum stress tolerance in triticale and wheat ' (2003 ) 54 Aust. J. Agric. Res. : 979 -985 .

    • Search Google Scholar

  • Zhang, X.G., Jessop, R.S., Ellison, F. 1989. Combining ability for aluminum tolerance in triticale. J. Agric. Sci. 133:371–377.

    Ellison F. , 'Combining ability for aluminum tolerance in triticale ' (1989 ) 133 J. Agric. Sci. : 371 -377 .

    • Search Google Scholar

  • Zhang, X.G., Jessop, R.S., Ellison, F. 1999a. Inheritance of root regrowth as an indicator of apparent aluminum tolerance in triticale. Euphytica 108:97–103.

    Ellison F. , 'Inheritance of root regrowth as an indicator of apparent aluminum tolerance in triticale ' (1999 ) 108 Euphytica : 97 -103 .

    • Search Google Scholar

  • Zhang, X.G., Jessop, R.S., Ellison, F. 1999b. Differential genotypic tolerance response to manganese stress in triticale. Comm. Soil Sci. Plant Anal. 30:17–18.

    Ellison F. , 'Differential genotypic tolerance response to manganese stress in triticale ' (1999 ) 30 Comm. Soil Sci. Plant Anal. : 17 -18 .

    • Search Google Scholar

  • Zhang, X.G., Jessop, R.S., Ellison, F. 2002. Differential responses to selection for aluminum stress tolerance in triticale. Aust. J. Agric. Res. 53:1295–1303.

    Ellison F. , 'Differential responses to selection for aluminum stress tolerance in triticale ' (2002 ) 53 Aust. J. Agric. Res. : 1295 -1303 .

    • Search Google Scholar
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Cover Cereal Research Communications
Cereal Research Communications A Quarterly of the Cereal Research Non-Profit Ltd. Company
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Cereal Research Communications
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ISSN 0133-3720 (Print)
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