Chemistry Reference
In-Depth Information
3. References
[1]
Duvick DN. The Contribution of Breeding to Yield Advances in maize (Zea mays L.).
Advances in Agronomy 2005; 86 83-145.
[2]
Duvick DN., Smith JSC., Cooper M. Long-term selection in a commercial hybrid maize
breeding program. In: Janick J. (ed.) Plant Breeding Reviews 2004; 24 109-151.
[3]
Duvick DN. What is yield? In: Edmeades GO., Banziger M., Mickelson HR., Peña-
Valdivia CB. (eds.) Developing Drought- and Low N-Tolerant Maize. Proceedings of a
Symposium. March 25-29, 1996 CIMMYT, El Batan, Mexico; 1997. p332-335.
[4]
Cunha Fernandes JS., Franzon JF. Thirty years of genetic progress in maize (Zea mays
L.) in a tropical environment. Maydica 1997; 42 21-27.
[5]
Eyhérabide GH., Damilano AL., Colazo JC. Genetic gain for grain yield of maize in
Argentina. Maydica 1994; 39 207-211.
[6]
Eyhérabide GH., Damilano AL. Comparison of genetic gain for grain yield of
maize
between the 1980s and 1990s in Argentina. Maydica 2001; 46 277-281.
[7]
Lee EA., Tollenaar M. Physiological basis of successful breeding strategies for maize
grain yield. Crop Science 2007; 47(S3) S202-S215.
[8]
Tollenaar M., Lee EA. Strategies for Enhancing Grain Yield in Maize. In: Janick J. (ed)
Plant Breeding Reviews 2011; 34 37-83.
[9]
Echarte L., Andrade FH. Harvest index stability of Argentinean maize hybrids released
between 1965 and 1993. Field Crops Research 2003; 82 1-12.
[10]
Echarte L., Andrade FH., Vega CRC., Tollenaar M. Kernel number determination in
Argentinean maize hybrids released between 1965 and 1993. Crop Science 2004; 44
1654-1661.
[11]
Echarte L. Yield determination in Argentinean maize hybrids released in different
decades. PhD. Thesis. National University of Mar del Plata, Argentina; 2003. In Spanish.
[12]
Tollenaar M., Lee EA. Dissection of physiological processes underlying grain yield in
maize by examining genetic improvement and heterosis. Maydica 2006; 51 399-408.
[13]
Crosbie TM. Changes in physiological traits associated with long-term breeding efforts
to improve grain yield of maize. In: Loden HD., Wilkinson D. (eds.) Proceedings of the
Annual Corn Sorghum Industry Research Conference. 37th. Chicago, IL. December 5-9
1982. American Seed Trade Association Washington, DC; 1982. p206-233.
[14]
Tollenaar M., Muldoon JF., Daynard TB. Differences in rates of leaf appearance among
maize hybrids and phases of development. Plant Science 1984; 642 759-763.
[15]
Tollenaar M., Dwyer LM., Stewart DW. Physiological parameters associated with
differences in kernel set among maize hybrids. In: Westgate MA., Boote KJ. (eds.)
Physiology and modeling kernel set in maize. CSSA Special. Publication 51.
CSSA/ASA/SSSA, Madison, WI. 2000; p115-130.
[16]
Ying J., Lee EA., Tollenaar M. Response of maize leaf photosynthesis to low
temperature during the grain-filling period. Field Crops Research 2000; 68 87-96.
[17]
Echarte L., Rothstein S., Tollenaar M. The Response of Leaf Photosynthesis and Dry
Matter Accumulation to N Supply in an Older and a Newer Maize Hybrid. Crop
Science 2008; 48 656-665.
