{"id":969,"date":"2013-10-10T19:05:05","date_gmt":"2013-10-10T19:05:05","guid":{"rendered":"http:\/\/research.unl.edu\/annualreport\/2013\/?p=969"},"modified":"2014-05-02T14:21:14","modified_gmt":"2014-05-02T14:21:14","slug":"seeking-salt-tolerant-rice-genes","status":"publish","type":"post","link":"https:\/\/research.unl.edu\/annualreport\/2013\/seeking-salt-tolerant-rice-genes\/","title":{"rendered":"

Seeking<\/h2>

Salt-tolerant Rice Genes<\/h1>"},"content":{"rendered":"

Rice is the foundation for half the world population\u2019s diet. But rice yields are declining in an increasingly saline environment, costing the industry more than $12 billion annually.<\/p>\n

UNL plant molecular physiologist Harkamal Walia and collaborators are using powerful new tools to study rice varieties to discover new sources of salt tolerance.<\/p>\n

Most rice production is irrigated. After plants use the water or it evaporates, salt remains in the soil, builds up over time and hinders plant growth and productivity.<\/p>\n

\u201cIt\u2019s already a huge problem, and it\u2019s going to become a bigger problem, especially with climate change. There\u2019s reason to believe that farmers\u2019 incomes will go down,\u201d Walia said, adding that the situation is particularly critical for smallholder farmers in Asia surviving on $2 a day.<\/p>\n

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\"130723_Walia_048\"<\/p>\n

\u201cThere will be tons of data that need to be analyzed and computational models developed for understanding salinity response at the whole genome level. That requires a level of expertise that would be very hard to find in a single lab.\u201d
\n— Harkamal Walia<\/p><\/blockquote>\n<\/div>\n

With a $2 million grant from the National Science Foundation, Walia and his team are looking for salt-tolerant rice genes. First, the team uses a sophisticated image-based phenotyping system that takes pictures of rice plants growing in saline conditions over days. Then software scans the images to detect differences among varieties that are impossible to quantify with the naked eye. Matching slight visual variations with differences in each plant\u2019s genetic makeup will help the team find those genes responsible for salt tolerance. Breeders can use the information to develop salt-tolerant varieties.<\/p>\n

\u201cThere will be tons of data that need to be analyzed and computational models developed for understanding salinity response at the whole genome level,\u201d Walia said. \u201cThat requires a level of expertise that would be very hard to find in a single lab.\u201d<\/p>\n