Posts Tagged ‘yield’

New Publications: Identifying common genetic bases for yield, biomass and radiation use efficiency in spring wheat

This article was originally published on the website of the International Maize and Wheat Improvement Center on March 7, 2019.

For plant scientists, increasing wheat yield potential is one of the most prevalent challenges of their work. One key strategy for increasing yield is to improve the plant’s ability to produce biomass through optimizing the conversion of solar radiation into plant structures and grain, called radiation use efficiency (RUE). Currently, the process is 30-50% less efficient in wheat than in maize.

International Maize and Wheat Improvement Center (CIMMYT) wheat physiologist Gemma Molero, in collaboration with Ryan Joynson and Anthony Hall of the Earlham Institute, has been studying the association of RUE related traits with molecular markers to identify specific genes associated with this trait.

In December 2018, her team published their results in the article “Elucidating the genetic basis of biomass accumulation and radiation use efficiency in spring wheat and its role in yield potential,” shedding light on some of the genetic bases of biomass accumulation and RUE in a specially designed panel of lines that included material with diverse expression of RUE over the wheat crop cycle.

Over the course of two years, Molero and fellow researchers evaluated a panel of 150 elite spring wheat genotypes for 31 traits, looking for marker traits associated with yield and other “sink”-related traits, such as, grain number, grain weight and harvest index, along with ‘’source’’-related traits, such as RUE and biomass at various growth stages. Many of the elite wheat lines that were tested encompass “exotic” material in their pedigree such as ancient wheat landraces and wheat wild relatives.

The scientists found that increases in both net rate of photosynthesis and RUE have the potential to make a large impact on wheat biomass, demonstrating that the use of exotic material is a valuable resource to help increase yield potential. This is the first time that a panel of elite wheat lines has been assembled using different sources of yield potential traits, and an important output from a large global endeavor to increase wheat yield, the International Wheat Yield Partnership (IWYP).

“We identified common genetic bases for yield, biomass and RUE for the first time. This has important implications for wheat researchers, breeders, geneticists, plant scientists and biologists,” says Molero.

The identification of molecular markers associated with the studied traits is a valuable tool for wheat improvement. Broadly speaking, the study opens the door for a series of important biological questions about the role of RUE in yield potential and in the ability to increase grain biomass.

In order to accommodate worldwide population increases and shifts in diet, wheat yield needs to double by 2050 — and genetic gains in wheat, specifically, must increase at a rate of 2.4 percent annually. Increasing biomass through the optimization of RUE along the wheat crop cycle can be an important piece in the puzzle to help meet this demand.

Read the full study here.

Now available: 2016-17 Annual Report of the International Wheat Yield Partnership

Wheat breeding lines from the IWYP Hub at CIMMYT are out-yielding local checks in tests, validating the strategy of combining high biomass individuals with those that feature better grain filling attributes. The lines are being sent to public and private breeding programs worldwide. Read more about this and other exciting IWYP activities and outputs:

Annual Report

International partnership seeking to increase wheat yields finds research hub in “Mecca of wheat”

By Katie Lutz/CIMMYT

CIUDAD OBREGON, Mexico (March 11, 2016)- An agreement formalizing an international partnership to increase wheat yields by 50 percent by 2034 was signed 1 January 2016. The agreement states that after years of planning and collaboration, the International Wheat Yield Partnership (IWYP) research will be hosted at The Norman E. Borlaug Experimental Station (CENEB) in Obregon, Mexico for an indefinite period of time.

Originally announced at The Borlaug Summit in March 2014, IWYP will address issues concerning the widespread demand for wheat.

$20 million in grants for research to boost wheat yield potential

Wheat Remote Sensing-flip

Photo: Alfredo Saénz/CIMMYT

By Mike Listman/CIMMYT

COLLEGE STATION, Texas (October 30, 2015)- The International Wheat Yield Partnership (IWYP) will recommend around US $20 million in grants awards from its funders for a selection of 8 research projects by leading institutes to increase wheat’s photosynthetic and energy-use efficiency and harness the genetics behind key components of yield.

Resulting from a January 2015 call for competitive research proposals, the projects fit the IWYP goal of raising the genetic yield potential of wheat by up to 50% in the coming 20 years.

To read more about the projects, IWYP, and the Initiative’s funders, click here.