In vitro assessment of enteric methane emission potential of whole-plant barley, oat, triticale and wheat

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DOI

https://doi.org/https://doi.org/10.3390/ani11020450

Language of the publication
English
Date
2021-02-09
Type
Article
Author(s)
  • Aboagye, Isaac A.
  • Rosser, Christine L.
  • Baron, Vern S.
  • Beauchemin, Karen A.

Abstract

The study determined in vitro enteric methane (CH4) emission potential of whole-plant cereal (WPC) forages in relationship to nutrient composition, degradability, and rumen fermentation. Two varieties of each WPC (barley, oat, triticale, and wheat) were harvested from two field replications in each of two locations in central Alberta, Canada, and an in vitro batch culture technique was used to characterize gas production (GP), fermentation, and degradability. Starch concentration (g/kg dry matter (DM)) was least (p < 0.001) for oat (147), greatest for wheat (274) and barley (229), and intermediate for triticale (194). The aNDF concentration was greater for oat versus the other cereals (531 vs. 421 g/kg DM, p < 0.01). The 48 h DM and aNDF degradabilities (DMD and aNDFD) differed (p < 0.001) among the WPCs. The DMD was greatest for barley, intermediate for wheat and triticale, and least for oat (719, 677, 663, and 566 g/kg DM, respectively). Cumulative CH4 production (MP; mL) from 12 h to 48 h of incubation was less (p < 0.001) for oat than the other cereals, reflecting its lower DMD. However, CH4 yield (MY; mg of CH4/g DM degraded) of barley and oat grown at one location was less than that of wheat and triticale (28 vs. 31 mg CH4/g DM degraded). Chemical composition failed to explain variation in MY (p = 0.35), but it explained 45% of the variation in MP (p = 0.02). Variation in the CH4 emission potential of WPC was attributed to differences in DMD, aNDFD, and fermentation end-products (R2 ≥ 0.88; p < 001). The results indicate that feeding whole-plant oat forage to ruminants may decrease CH4 emissions, but animal performance may also be negatively affected due to lower degradability, whereas barley forage may ameliorate emissions without negative effects on animal performance.

Plain language summary

There is an increasing interest in finding effective but economical strategies for mitigating enteric methane (CH4) emissions from ruminants. Small-grain cereal forages including barley, oat, triticale, and wheat, unlike maize, are widely grown in temperate locations and may be economical to use for ruminant production. However, the starch and fiber composition and concentrations of whole-plant cereal forages affect rumen degradability, and hence may cause differences in the CH4 production potential among these forages. Therefore, the objective of this study was to determine the enteric CH4 emission potential of various whole-plant cereals and evaluate whether the variability in emissions could be explained by variations in nutrient profiles, degradability, and rumen fermentation characteristics. The results indicate that feeding whole-plant oat forage to ruminants may decrease CH4 emissions but adversely affect animal performance due to lower degradability, whereas barley forage may ameliorate emissions without negative effects on animal performance.

Subject

  • Agriculture

Keywords

  • barley,
  • oats,
  • wheat,
  • triticale,
  • nutrient degradability,
  • methane emission

Rights

Peer review

Yes

Open access level

Gold

Identifiers

ISSN
2076-2615

Article

Journal title
Animals
Journal volume
11
Journal issue
2
Article number
450
Accepted date
2021-02-07
Submitted date
2021-01-12

Citation(s)

Aboagye, I. A., Rosser, C. L., Baron, V. S., & Beauchemin, K. A. (2021). In vitro assessment of enteric methane emission potential of whole-plant barley, oat, triticale and wheat. Animals, 11(2), 450. https://doi.org/10.3390/ani11020450

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Animals and insects

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