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Maize diversity discoveries may help ease world's hunger pangs

Date:
June 3, 2012
Source:
University of California - Davis
Summary:
Researchers report that ancient farmers had a stronger impact on the evolution of maize, or corn, than modern plant breeders have had on the grain -- now one of the world's top production crops. The findings, together with a companion study on maize diversity, will help plant breeders increase corn yield as they prepare for the challenges of global population growth and climate change.

Researchers at the University of California, Davis, report that ancient farmers had a stronger impact on the evolution of maize, or corn, than modern plant breeders have had on the grain -- now one of the world's top production crops.

The findings, together with a companion study on maize diversity, appear in the online edition of the journal Nature Genetics. The research was funded by the National Science Foundation and conducted by scientists from 17 international institutions, including BGI, the world's largest genomics organization. It will serve as the basis for future research in crop evolution.

"These two studies provide a new and more comprehensive understanding of genomic variation in maize, which will be critically important to plant breeders as they work to increase corn yield in the face of global population growth and climate change," said plant geneticist Jeffrey Ross-Ibarra, the lead researcher on the UC Davis-directed study.

Professor Bart Weimer, co-director of BGI@UCDavis, a research partnership established last year between UC Davis and BGI, noted that the studies are excellent examples of the critically important work that can be accomplished through multi-institution partnerships, particularly with the sequencing capabilities contributed by BGI.

"UC Davis values our longstanding relationship with BGI China, and we are moving quickly to expand this collaboration with BGI@UCDavis," Weimer said.

The world's population is expected to climb from 7 billion people this year to an estimated 9 billion by 2050. The Food and Agriculture Organization of the United Nations predicts that food production will need to increase by 70 percent over the next four decades to meet anticipated demand. Globally, 90 percent of these production increases will need to come from increasing crop yield on existing farmland rather than by bringing new land into agricultural production.

The new UC Davis-led study analyzed the evolution of maize during the period when it was domesticated 10,000 years ago, as well as during subsequent breeding. The study was based on the resequencing of 75 genomes of maize and its relatives, including wild strains, traditional cultivated varieties and improved modern inbred lines. (The first sequencing of the reference maize genome was announced by a U.S.-based consortium of researchers in 2009.)

The new maize genome study showed that:

• Though a substantial amount of diversity was lost during domestication, new diversity has arisen since domestication in the form of novel mutations;

• Hundreds of identified genes appear to have played a role in domestication of maize from the wild, and many of these genes also appear to have been important for modern breeding;

• Selection applied during initial domestication appears to have been much stronger than selection applied more recently during maize breeding; and

• Modern strategies of breeding for hybrid vigor have been accompanied by marked changes in gene expression in maize.

The companion study was led by Doreen Ware, a U.S. Department of Agriculture-Agricultural Research Service computational biologist at Cold Spring Harbor Laboratory, New York. That study used a sophisticated population genetics-based scoring model to untangle the complexity of the maize genome. Through the study, the researchers:

• Identified more than 55 million genetic markers in the maize genome and demonstrated that the genome is continuously changing;

• Discovered that it is common for genes to be present or absent -- or to occur in varying numbers -- in both wild and domesticated maize, and these variations are associated with important agricultural traits; and

• Found that there is substantial continuity of gene content between maize relatives, suggesting that environmental adaptations such as perennialism, and frost and drought tolerance might be transferred from wild relatives into domesticated maize.

The international collaboration that produced the two studies was coordinated by Edward Buckler, a U.S. Department of Agriculture-Agricultural Research Service research geneticist at Cornell University.


Story Source:

The above story is based on materials provided by University of California - Davis. Note: Materials may be edited for content and length.


Journal References:

  1. Matthew B Hufford, Xun Xu, Joost van Heerwaarden, Tanja Pyhäjärvi, Jer-Ming Chia, Reed A Cartwright, Robert J Elshire, Jeffrey C Glaubitz, Kate E Guill, Shawn M Kaeppler, Jinsheng Lai, Peter L Morrell, Laura M Shannon, Chi Song, Nathan M Springer, Ruth A Swanson-Wagner, Peter Tiffin, Jun Wang, Gengyun Zhang, John Doebley, Michael D McMullen, Doreen Ware, Edward S Buckler, Shuang Yang, Jeffrey Ross-Ibarra. Comparative population genomics of maize domestication and improvement. Nature Genetics, 2012; DOI: 10.1038/ng.2309
  2. Jer-Ming Chia, Chi Song, Peter J Bradbury, Denise Costich, Natalia de Leon, John Doebley, Robert J Elshire, Brandon Gaut, Laura Geller, Jeffrey C Glaubitz, Michael Gore, Kate E Guill, Jim Holland, Matthew B Hufford, Jinsheng Lai, Meng Li, Xin Liu, Yanli Lu, Richard McCombie, Rebecca Nelson, Jesse Poland, Boddupalli M Prasanna, Tanja Pyhäjärvi, Tingzhao Rong, Rajandeep S Sekhon, Qi Sun, Maud I Tenaillon, Feng Tian, Jun Wang, Xun Xu, Zhiwu Zhang, Shawn M Kaeppler, Jeffrey Ross-Ibarra, Michael D McMullen, Edward S Buckler, Gengyun Zhang, Yunbi Xu, Doreen Ware. Maize HapMap2 identifies extant variation from a genome in flux. Nature Genetics, 2012; DOI: 10.1038/ng.2313

Cite This Page:

University of California - Davis. "Maize diversity discoveries may help ease world's hunger pangs." ScienceDaily. ScienceDaily, 3 June 2012. <www.sciencedaily.com/releases/2012/06/120603191712.htm>.
University of California - Davis. (2012, June 3). Maize diversity discoveries may help ease world's hunger pangs. ScienceDaily. Retrieved July 28, 2014 from www.sciencedaily.com/releases/2012/06/120603191712.htm
University of California - Davis. "Maize diversity discoveries may help ease world's hunger pangs." ScienceDaily. www.sciencedaily.com/releases/2012/06/120603191712.htm (accessed July 28, 2014).

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