TY  - JA
AU  - Yu Li
AU  - Baocheng Sun
AU  - Bhardwaj,H.
AU  - Bubeck,D.
AU  - Carlone,M.
AU  - Cheng Liu
AU  - Jones,E.
AU  - Niebur,W.
AU  - Shuku Sun
AU  - Smith,S.
AU  - Tianyu Wang
AU  - Whitaker,D.
AU  - Wilson,W.
AU  - Wright,K.
AU  - Xinglin Ma
AU  - Yanchun Song
AU  - Yongxiao Li
AU  - Yunsu Shi
AU  - Zhizhai Liu
TI  - Increasing maize productivity in China by planting hybrids with  germplasm that responds favorably to higher planting densities
SN  - 1435-0653
PY  - 2011///
KW  - single nucleotide polymorphism
KW  - SNP
KW  - AIC
KW  - Akaike's information criteria
KW  - Residual sum of squares
KW  - RSS
N1  - Peer-review: Yes - Open Access: Yes|http://science.thomsonreuters.com/cgi-bin/jrnlst/jlresults.cgi?PC=MASTER&ISSN=0011-183X
N2  - We compared yield, genetic gain, and morphology for two sets of maize (Zea mays L.) hybrids using yield test plots grown in China at different planting densities. One set comprised 29 Chinese maize hybrids that were individually widely grown in China during 1964 through 2001. A second set comprised U.S. hybrids that were used either during the 1960s or during the 2000s. The U.S. hybrids had higher yields for both 1960s and 2000s comparisons. United States hybrids showed highest genetic gain (81 kg ha-1) at the highest planting density (67,550 plants ha-1) whereas the highest rate of gain for Chinese hybrids was 62 kg ha-1 at the medium planting density (52,500 plants ha-1). Unlike the Chinese hybrids, U.S. hybrids showed significant interaction with planting density. Chronologically, all hybrids showed morphological changes for many characteristics, often at different rates, and occasionally in different directions. Pedigree and molecular marker data showed U.S. and Chinese hybrids to be very different germplasm with decades-old U.S. germplasm contributing even to recently developed and widely used Chinese hybrids. Chinese maize agricultural production can rapidly and significantly benefit from adopting breeding and agronomic strategies that allow for improved yield under higher planting densities
T2  - Crop Science
DO  - https://doi.org/10.2135/cropsci2011.03.0148
ER  -