The Kudos Awards recognise eight categories of science excellence for 2020.
These apply broadly to all science disciplines and sectors including primary industries, medical, engineering, environmental and education.
The Improving Dairy Fertility Genetics project used a genetics approach to help achieve herd reproduction targets by increasing the fertility breeding value's (BV) accuracy.
BV is used to breed dairy cows with superior fertility.
The project aimed to improve genetic improvement, by identifying a new range of dairy cow attributes that can be measured earlier. This may significantly accelerate the rate of genetic gain in cow fertility.
"The first phase of the research was an in-depth study where we bred 550 heifers with high and low fertility BV," Meier said.
"We worked to understand how they're different and what is unique to each of them – why are some fertile and some not so fertile, and through this process identified new attributes that have potential for use by the industry."
"We found the high fertility BV heifers reached puberty earlier and lighter than low fertility BV heifers. High fertility BV cows also had a greater ability to resume oestrous cycles post-calving, leading to substantially better submission and 6-week In-Calf rates."
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"This meant that the high fertility cows recovered from calving very quickly and were receptive to getting in-calf again quickly."
Once validated on a larger scale, these new reproductive traits can be used by farmers in the future.
The next phase of the research underway now is to seek validation of the traits at a large scale. This involved working with 5000 dairy cows across 54 herds as they go through their first lactation.
The work aimed to measure the new attributes of puberty and timing of cycling after calving to confirm the conclusions from the first phase of the research. The project was halfway through the validation work.
"When we get that validation, we can recommend the industry use the puberty trait and other novel measures for better fertility. This is exciting work that could make a big difference in herd reproductive performance," project co-leader Dr Chris Burke said.
The project's research findings were driving industry change and an increasing appreciation of the value of genetics for improving herd reproduction, Burke said.
The project was also generating peer-reviewed journal and conference papers, with over 30 published to date.
The work is part of DairyNZ's Pillars of a New Dairy System research, which has funding from both DairyNZ and the Ministry of Business, Innovation and Employment. Additional support is received from AgResearch, LIC, CRV Ambreed and AbacusBio.
The Pillars research is an eight-year research programme that aims to provide management and genetic solutions to improve cow health, fertility, and longevity.
For more information on the Pillars research: dairynz.co.nz/pillars