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Quality of Chopped Maize Can Be Improved by Processing

Author

Listed:
  • Filip Jančík

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Petra Kubelková

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Dana Kumprechtová

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Radko Loučka

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Petr Homolka

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Veronika Koukolová

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Yvona Tyrolová

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

  • Alena Výborná

    (Department of Nutrition and Feeding of Farm Animals, Institute of Animal Science, 10400 Praha, Czech Republic)

Abstract

The aim of this study was to assess the effect of different maize processing technologies, comparing treatments with conventional rollers (control), MCC MAX rollers and a Shredlage crop processor on the quality of chopped maize. All the three types of chopped maize were harvested on the same day from the same field where the same maize hybrid was grown. The chemical composition of chopped maize, degree of grain processing and particle size fractions, and the effect of the treatments on rumen disappearance of dry matter, organic matter, NDF and starch were assessed. The highest degree of grain processing was achieved with the Shredlage processor (79.2%), and at the same time this processing method had a tendency to produce the highest proportion of physically effective fibre (37.2%). Compared to the conventional rollers (control), the chopped maize produced using the Shredlage processor had higher disappearance of dry matter, organic matter and NDF after 48 h of rumen incubation and of starch after 24 h of incubation. The MCC MAX rollers provided higher disappearance of all nutrients compared to the control treatment after both 24 and 48 h of incubation.

Suggested Citation

  • Filip Jančík & Petra Kubelková & Dana Kumprechtová & Radko Loučka & Petr Homolka & Veronika Koukolová & Yvona Tyrolová & Alena Výborná, 2021. "Quality of Chopped Maize Can Be Improved by Processing," Agriculture, MDPI, vol. 11(12), pages 1-6, December.
  • Handle: RePEc:gam:jagris:v:11:y:2021:i:12:p:1226-:d:695581
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    References listed on IDEAS

    as
    1. Benjamin A. Saylor & Cody L. McCary & E. Cole Diepersloot & Celso Heinzen & Matheus R. Pupo & Jéssica O. Gusmão & Lucas G. Ghizzi & Halima Sultana & Luiz F. Ferraretto, 2021. "Effect of Forage Processor Roll Gap Width and Storage Length on Fermentation Profile, Nutrient Composition, Kernel Processing Score, and Starch Disappearance of Whole-Plant Maize Silage Harvested at T," Agriculture, MDPI, vol. 11(7), pages 1-22, June.
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    Citations

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    Cited by:

    1. David A. Pintens & Kevin J. Shinners & Joshua C. Friede & Matthew F. Digman & Kenneth F. Kalscheur, 2023. "Impact—Shredding Processing of Whole-Plant Corn: Machine Performance, Physical Properties, and In Situ Ruminant Digestion," Agriculture, MDPI, vol. 13(1), pages 1-17, January.

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