Artículos de revistas
Long-term and carryover effects of supplementation with whole oilseeds on methane emission, milk production and milk fatty acid profile of grazing dairy cows
Date
2021Registration in:
Animals 2021, 11, 2978
10.3390/ani11102978
Author
Muñoz, Camila
Villalobos, Rodrigo
Peralta, Alejandra María Teresa
Morales, Rodrigo
Urrutia, Natalie Louise
Ungerfeld, Emilio Mauricio
Institutions
Abstract
Research is ongoing to find nutritional methane (CH4
) mitigation strategies with persistent
effects that can be applied to grazing ruminants. Lipid addition to dairy cow diets has shown
potential as means to decrease CH4 emissions. This study evaluated the effects of oilseeds on CH4
emission and production performance of grazing lactating dairy cows. Sixty Holstein Friesian
cows grazing pasture were randomly allocated to 1 of 4 treatments (n = 15): supplemented with
concentrate without oilseeds (CON), with whole cottonseed (CTS), rapeseed (RPS) or linseed (LNS).
Oilseeds were supplemented during weeks 1–16 (spring period) and 17–22 (summer period), and the
autumn period (wk 23–27) was used to evaluate treatment carryover effects. Cows fed CTS decreased
CH4 yield by 14% compared to CON in spring, but these effects did not persist after 19 weeks of
supplementation (summer). Compared to CON, RPS decreased milk yield and CTS increased milk fat
concentration in both spring and summer. In summer, CTS also increased milk protein concentration
but decreased milk yield, compared to CON. In spring, compared to CON, CTS decreased most milk
medium-chain fatty acids (FA; 8:0, 12:0, 14:0 and 15:0) and increased stearic, linoleic and rumenic FA,
and LNS increased CLA FA. There were no carry-over effects into the autumn period. In conclusion,
supplementation of grazing dairy cows with whole oilseeds resulted in mild effects on methane
emissions and animal performance. In particular, supplementing with CTS can decrease CH4 yield
without affecting milk production, albeit with a mild and transient CH4 decrease effect. Long term
studies conducted under grazing conditions are important to provide a comprehensive overview of
how proposed nutritional CH4 mitigation strategies affect productivity, sustainability and consumer
health aspects.