Septoria and Stagonospora Diseases of Cereals - CIMMYT ...
Septoria and Stagonospora Diseases of Cereals - CIMMYT ...
Septoria and Stagonospora Diseases of Cereals - CIMMYT ...
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Blechl, A.E., B.S.B. Altenbach, H.Q.<br />
Le, P.W. Gras, F. Bekes <strong>and</strong> O. D.<br />
Anderson. 1998. Genetic<br />
transformation can be used to<br />
either increase or decrease levels <strong>of</strong><br />
wheat HMW-glutenin subunits.<br />
Abstracts <strong>of</strong> 21 st HRWWWW, Jan.<br />
28-30, Denver, CO. USDA-ARS,<br />
University <strong>of</strong> Nebraska, Lincoln,<br />
NE.<br />
Borlaug, N.E. 1995. Wheat Breeding<br />
at <strong>CIMMYT</strong>. Commemorating 50<br />
years <strong>of</strong> research in Mexico for<br />
global wheat improvement. Wheat<br />
Special Report No 29. pp. 4-6.<br />
Borlaug, N.E. 1966. Basic concepts<br />
which influence the choice <strong>of</strong><br />
methods for use in breeding for<br />
diverse resistance in cross<br />
pollinated <strong>and</strong> self pollinated crop<br />
plants. In: H.D. Gerold et al., eds.,<br />
Breeding Pest Resistant Trees.<br />
Pergamon Press, Oxford.<br />
Bramel-Cox, P.J., T. Barker, F. Zavala-<br />
Garcia, <strong>and</strong> J.D. Eastin. 1991.<br />
Selection <strong>and</strong> testing environments<br />
for improved performance under<br />
reduced-input conditions. In Plant<br />
breeding <strong>and</strong> sustainable<br />
agriculture: Considerations for<br />
objectives <strong>and</strong> methods. CSSA<br />
Special Publication No. 18. CSSA<br />
<strong>and</strong> ASA, Madison, USA.<br />
Braun, H.-J., W.H. Pfeiffer, <strong>and</strong> W.G.<br />
Pollmer. 1992. Environments for<br />
selecting widely adapted spring<br />
wheat. Crop Sci. 32 (6): 1420-1427.<br />
Braun, H.-J., S. Rajaram. <strong>and</strong> M. van<br />
Ginkel. 1996. <strong>CIMMYT</strong>’s approach<br />
to breeding for wide adaptation.<br />
Euphytica 92: 147-153.<br />
Braun, H.-J., H. Ekiz, V. Eser, M.<br />
Keser, H. Ketata, G. Marcucci, A.I.<br />
Morgounov, <strong>and</strong> N. Zencirci. 1998.<br />
Breeding priorities <strong>of</strong> winter wheat<br />
programs. In H.-J. Braun, F. Altay,<br />
W.E. Kronstad, S.P.S. Beniwal, <strong>and</strong><br />
A. McNab (eds.). Wheat: Prospects<br />
for Global Improvement. Proc. <strong>of</strong><br />
the 5 th Int. Wheat Conf., Ankara,<br />
Turkey. Developments in Plant<br />
Breeding, v. 6. Kluwer Academic<br />
Publishers. Dordrecht. p. 553-560.<br />
Brown, L.R. 1997. Can we raise grain<br />
yields fast enough? World Watch<br />
Jul/Aug 1997: 8-18.<br />
Bruns, R., <strong>and</strong> C.J. Peterson. 1998.<br />
Yield <strong>and</strong> stability factors<br />
associated with hybrid wheat.<br />
Euphytica 100: 1-5.<br />
Historical Aspects <strong>and</strong> Future Challenges <strong>of</strong> an International Wheat Program 15<br />
Bull, J.K., M. Cooper, <strong>and</strong> K.E.<br />
Basford. 1994. A procedure for<br />
investigating the number <strong>of</strong><br />
genotypes required to provide a<br />
stable classification <strong>of</strong><br />
environments. Field Crops Res. 38:<br />
47-56.<br />
Byerlee, D., <strong>and</strong> P. Moya. 1993.<br />
Impacts <strong>of</strong> international wheat<br />
breeding research in the<br />
developing world, 1969-90.<br />
Mexico, D.F.: <strong>CIMMYT</strong>. 135pp.<br />
Caldwell, R.M., 1968. Breeding for<br />
general <strong>and</strong>/or specific plant<br />
disease resistance. In Proc. 3rd Int.<br />
Wheat Genetics Symp. Canberra,<br />
Australia.<br />
Calhoun, D.S., G. Gebeyehu, A.<br />
Mir<strong>and</strong>a, S. Rajaram, <strong>and</strong> M. van<br />
Ginkel. 1994. Choosing evaluation<br />
environments to increase wheat<br />
grain yield under drought<br />
conditions. Crop Sci. 34:673-678.<br />
Ceccarelli, S., M.M. Nachit, G.O.<br />
Ferrara, M.S.Mekni, M.Tahir, J.Van<br />
Leur, <strong>and</strong> J.P. Srivastava. 1987.<br />
Breeding strategies for improving<br />
cereal yield <strong>and</strong> stability under<br />
drought. In J.P. Srivastava, E.<br />
Porceddu, E. Acevedo, <strong>and</strong> S.<br />
Varma (eds.). Drought tolerance in<br />
winter cereals. John Wiley & Sons.<br />
New York. Pp. 101-114.<br />
Ceccarelli, S. 1989. Wide adaptation:<br />
How wide? Euphytica 40: 197-205.<br />
Cheng, M., J.E. Fry, S. Pang, H. Zhou,<br />
C.M. Hironaka, D.R. Duncan, T.W.<br />
Conner, <strong>and</strong> Y. Wan. 1997. Genetic<br />
transformation <strong>of</strong> wheat mediated<br />
by Agrobacterium tumefaciens. Plant<br />
Physiology 115: 971-980.<br />
<strong>CIMMYT</strong>. 1996. <strong>CIMMYT</strong> 1995/96<br />
World Wheat Facts <strong>and</strong> Trends.<br />
Mexico, D.F.<br />
Cooper, M., D.E. Byth, <strong>and</strong> D.R.<br />
Woodruff. 1994. An investigation<br />
<strong>of</strong> the grain yield adaptation <strong>of</strong><br />
<strong>CIMMYT</strong> wheat lines to water<br />
stress environments in<br />
Queensl<strong>and</strong>. II. Classification<br />
analysis. Agric. Res. 45:985-1002.<br />
Cox, T.S., R.K. Bequette, R.L. Bowden,<br />
<strong>and</strong> R.G. Sears. 1997. Grain yield<br />
<strong>and</strong> bread making quality <strong>of</strong><br />
wheat lines with the leaf rust<br />
resistance gene Lr41. Crop Science<br />
37: 154-161.<br />
Devos, K.M., <strong>and</strong> M.D. Gale. 1997.<br />
Comparative genetics in the<br />
grasses. Plant Molecular Biology<br />
35: 3-15.<br />
Duvick, D.N. 1990. Ideotype<br />
evolution <strong>of</strong> hybrid maize in the<br />
USA, 1930-1990. In ATTI<br />
Proceedings, Vol. II, II National<br />
maize conference; research,<br />
economy, environment. Grado<br />
(GO)- Italy September 19-20-21,<br />
1990. centro regionale per la<br />
sperimentazione agraria, pozzuolo<br />
del friuli edagrocole s.p.a.,<br />
Bologna, Italy. Pp. 557-570.<br />
Duvick, D.N. 1992. Genetic<br />
contributions to advances in yield<br />
<strong>of</strong> U.S. maize, Maydica 37:69-79.<br />
Duvick, D.N. 1996. Plant breeding, an<br />
evolutionary concept. Crop<br />
Science 36: 539-548.<br />
Eavis, R.M., S.E. Batchelor, F. Murray,<br />
<strong>and</strong> K.C. Walker. 1996. Hybrid<br />
breeding <strong>of</strong> wheat, barley <strong>and</strong> rye:<br />
Development to date <strong>and</strong> future<br />
prospects. Res. Rev. no. 35. Home-<br />
Grown <strong>Cereals</strong> Authority, London.<br />
Edmeades, G.O., J. Bolanos, H.R.<br />
Lafitte, S. Rajaram, W. Pfeiffer, <strong>and</strong><br />
R.A. Fischer. 1989. Traditional<br />
approaches to breeding for<br />
drought resistance in cereals. In:<br />
F.W.G. Baker (ed.) Drought<br />
resistance in cereals. ICSU, Paris,<br />
<strong>and</strong> CABI Publishing, Wallingford,<br />
UK. Pp. 27-52.<br />
Ehdaie, B., J.G. Waines, <strong>and</strong> A.E. Hall.<br />
1988. Differential responses <strong>of</strong><br />
l<strong>and</strong>race <strong>and</strong> improved spring<br />
wheat genotypes to stress<br />
environments. Crop Sci. 28:838-<br />
842.<br />
Fischer, R.A., D. Rees, K.D. Sayre, Z.<br />
Lu, A.G. Condon, A. Larque-<br />
Saavedra, <strong>and</strong> E. Zeiger. 1998.<br />
Wheat yield progress associated<br />
with higher stomatal conductance<br />
<strong>and</strong> higher photosynthetic rate,<br />
<strong>and</strong> cooler canopies. Crop Science<br />
38(6):1467-1475.<br />
Fritz, A.K., T.S. Cox, B.S. Gill, <strong>and</strong><br />
R.G. Sears. 1995. Molecular<br />
marker-facilitated analysis <strong>of</strong><br />
introgression in winter wheat x<br />
Triticum tauschii populations. Crop<br />
Science 35: 1691-1695.<br />
Gallais, A. 1989. Lines versus hybrids<br />
– The choice for the optimum type<br />
<strong>of</strong> variety. Vorträge f. Pflanzenz.<br />
16: 69-80. Paul Parey, Berlin.<br />
Hewstone M., C. 1997. Los cambios<br />
geneticos y agronomicos que<br />
incrementaron el rendimiento de<br />
trigo en Chile. Explor<strong>and</strong>o altos