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Progress towards delivering high metabolisable energy ryegrass

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posted on 2023-05-10, 07:39 authored by Zac Beechey-GradwellZac Beechey-Gradwell
A method developed at AgResearch to increase leaf fatty acids (FA) and plant growth called ‘High metabolizable energy’ (‘HME’) could elevate the nutritional quality and productivity of perennial ryegrass-based pastures. The industry strategy has been to perform HME ryegrass field trials offshore to test whether the herbage FA, gross energy (GE) and yield enhancing traits observed in containment translate into field swards. To complement the field testing programme, we have also characterised the growth and nutritional profile of HME miniswards under simulated grazing in containment. The results from one such trial are presented. The major changes measured in HME miniswards; increased FA (+0.8–1.4 %DW), increased GE (+0.3–0.5 MJ/kgDM), and generally similar herbage DW production, closely mirror data from field trials with hemizygous HME populations in the Midwest USA. Changes in other HME nutritional components were generally minor, although WSC was reduced late in the diurnal cycle. Secondary effects of HME on photosynthesis appear to be diminished in swards, suggesting that HME yield benefits may be limited to specific environment and management scenarios. The primary benefit of HME technology is thus expected to come from increasing the energy density of pasture, and animal feeding trials using homozygous HME material are now required.

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Rights statement

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. http://creativecommons.org/licenses/by-nc-nd/4.0/

Language

  • English

Does this contain Māori information or data?

  • No

Publisher

NZ Grassland Association Inc.

Journal title

Journal of New Zealand Grasslands

ISSN

2463-2872

Citation

Beechey-Gradwell, Z. (2021). Progress towards delivering high metabolisable energy ryegrass. Journal of New Zealand Grasslands, 83, 99–106. https://doi.org/10.33584/jnzg.2021.83.3493

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