3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets

3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets

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Methane is a potent but short-lived greenhouse gas targeted for short-term amelioration of climate change, with enteric methane emitted by ruminants being the most important anthropogenic source of methane. Ruminant production also releases nitrogen to the environment, resulting in groundwater pollution and emissions of greenhouse gas nitrous oxide. We hypothesized that inhibiting rumen methanogenesis in dairy cows with chemical inhibitor 3-nitrooxypropanol (3-NOP) would redirect metabolic hydrogen towards synthesis of microbial amino acids. Our objective was to investigate the effects of 3-NOP on methane emissions, rumen fermentation and nitrogen metabolism of dairy cows fed true protein or urea as nitrogen sources. Eight ruminally-cannulated cows were fed a plant protein or a urea-containing diet during a Control experimental period followed by a methanogenesis inhibition period with 3-NOP supplementation. All diets were unintentionally deficient in nitrogen, and diets supplemented with 3-NOP had higher fiber than diets fed in the Control period. Higher dietary fiber content in the 3-NOP period would be expected to cause higher methane emissions; however, methane emissions adjusted by dry matter and digested organic matter intake were 54% lower with 3-NOP supplementation. Also, despite of the more fibrous diet, 3-NOP shifted rumen fermentation from acetate to propionate. The post-feeding rumen ammonium peak was substantially lower in the 3-NOP period, although that did not translate into greater rumen microbial protein production nor lesser nitrogen excretion in urine. Presumably, because all diets resulted in low rumen ammonium, and intake of digestible organic matter was lower in the 3-NOP period compared to the Control period, the synthesis of microbial amino acids was limited by nitrogen and energy, precluding the evaluation of our hypothesis. Supplementation with 3-NOP was highly effective at decreasing methane emissions with a lower quality diet, both with true protein and urea as nitrogen sources.

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Main Authors: García, Florencia, Muñoz, Camila, Martínez Ferrer, Jorge, Urrutia, Natalie L., Martínez, Emilio D., Saldivia, Marcelo, Immig, Irmgard, Kindermann, Maik, Walker, Nicola, Ungerfeld, Emilio M.
Format: Journal Article biblioteca
Language:English
Published: Elsevier 2022-06
Subjects:methane, greenhouse gas, climate change, ruminants, anthropogenic factors, environment, pollution, groundwater, dairy cows, nitrogen, diet,
Online Access:https://hdl.handle.net/10568/125212
https://doi.org/10.1016/j.heliyon.2022.e09738
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spelling dig-cgspace-10568-1252122023-12-08T19:36:04Z 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets García, Florencia Muñoz, Camila Martínez Ferrer, Jorge Urrutia, Natalie L. Martínez, Emilio D. Saldivia, Marcelo Immig, Irmgard Kindermann, Maik Walker, Nicola Ungerfeld, Emilio M. methane greenhouse gas climate change ruminants anthropogenic factors environment pollution groundwater dairy cows nitrogen diet Methane is a potent but short-lived greenhouse gas targeted for short-term amelioration of climate change, with enteric methane emitted by ruminants being the most important anthropogenic source of methane. Ruminant production also releases nitrogen to the environment, resulting in groundwater pollution and emissions of greenhouse gas nitrous oxide. We hypothesized that inhibiting rumen methanogenesis in dairy cows with chemical inhibitor 3-nitrooxypropanol (3-NOP) would redirect metabolic hydrogen towards synthesis of microbial amino acids. Our objective was to investigate the effects of 3-NOP on methane emissions, rumen fermentation and nitrogen metabolism of dairy cows fed true protein or urea as nitrogen sources. Eight ruminally-cannulated cows were fed a plant protein or a urea-containing diet during a Control experimental period followed by a methanogenesis inhibition period with 3-NOP supplementation. All diets were unintentionally deficient in nitrogen, and diets supplemented with 3-NOP had higher fiber than diets fed in the Control period. Higher dietary fiber content in the 3-NOP period would be expected to cause higher methane emissions; however, methane emissions adjusted by dry matter and digested organic matter intake were 54% lower with 3-NOP supplementation. Also, despite of the more fibrous diet, 3-NOP shifted rumen fermentation from acetate to propionate. The post-feeding rumen ammonium peak was substantially lower in the 3-NOP period, although that did not translate into greater rumen microbial protein production nor lesser nitrogen excretion in urine. Presumably, because all diets resulted in low rumen ammonium, and intake of digestible organic matter was lower in the 3-NOP period compared to the Control period, the synthesis of microbial amino acids was limited by nitrogen and energy, precluding the evaluation of our hypothesis. Supplementation with 3-NOP was highly effective at decreasing methane emissions with a lower quality diet, both with true protein and urea as nitrogen sources. 2022-06 2022-10-28T13:55:19Z 2022-10-28T13:55:19Z Journal Article Garcia, Florencia; Munoz, Camila; Martínez-Ferrer, Jorge; Urrutia, Natalie L.; Martinez, Emilio D.; Saldivia, Marcelo; Immig, Irmgard; Kindermann, Maik; Walker, Nicola; and Ungerfeld, Emilio M. 2022. 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets. Heliyon 8(6): e09738. https://doi.org/10.1016/j.heliyon.2022.e09738 2405-8440 https://hdl.handle.net/10568/125212 https://doi.org/10.1016/j.heliyon.2022.e09738 en CC-BY-4.0 Open Access application/pdf Elsevier Heliyon
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic methane
greenhouse gas
climate change
ruminants
anthropogenic factors
environment
pollution
groundwater
dairy cows
nitrogen
diet
methane
greenhouse gas
climate change
ruminants
anthropogenic factors
environment
pollution
groundwater
dairy cows
nitrogen
diet
spellingShingle methane
greenhouse gas
climate change
ruminants
anthropogenic factors
environment
pollution
groundwater
dairy cows
nitrogen
diet
methane
greenhouse gas
climate change
ruminants
anthropogenic factors
environment
pollution
groundwater
dairy cows
nitrogen
diet
García, Florencia
Muñoz, Camila
Martínez Ferrer, Jorge
Urrutia, Natalie L.
Martínez, Emilio D.
Saldivia, Marcelo
Immig, Irmgard
Kindermann, Maik
Walker, Nicola
Ungerfeld, Emilio M.
3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
description Methane is a potent but short-lived greenhouse gas targeted for short-term amelioration of climate change, with enteric methane emitted by ruminants being the most important anthropogenic source of methane. Ruminant production also releases nitrogen to the environment, resulting in groundwater pollution and emissions of greenhouse gas nitrous oxide. We hypothesized that inhibiting rumen methanogenesis in dairy cows with chemical inhibitor 3-nitrooxypropanol (3-NOP) would redirect metabolic hydrogen towards synthesis of microbial amino acids. Our objective was to investigate the effects of 3-NOP on methane emissions, rumen fermentation and nitrogen metabolism of dairy cows fed true protein or urea as nitrogen sources. Eight ruminally-cannulated cows were fed a plant protein or a urea-containing diet during a Control experimental period followed by a methanogenesis inhibition period with 3-NOP supplementation. All diets were unintentionally deficient in nitrogen, and diets supplemented with 3-NOP had higher fiber than diets fed in the Control period. Higher dietary fiber content in the 3-NOP period would be expected to cause higher methane emissions; however, methane emissions adjusted by dry matter and digested organic matter intake were 54% lower with 3-NOP supplementation. Also, despite of the more fibrous diet, 3-NOP shifted rumen fermentation from acetate to propionate. The post-feeding rumen ammonium peak was substantially lower in the 3-NOP period, although that did not translate into greater rumen microbial protein production nor lesser nitrogen excretion in urine. Presumably, because all diets resulted in low rumen ammonium, and intake of digestible organic matter was lower in the 3-NOP period compared to the Control period, the synthesis of microbial amino acids was limited by nitrogen and energy, precluding the evaluation of our hypothesis. Supplementation with 3-NOP was highly effective at decreasing methane emissions with a lower quality diet, both with true protein and urea as nitrogen sources.
format Journal Article
topic_facet methane
greenhouse gas
climate change
ruminants
anthropogenic factors
environment
pollution
groundwater
dairy cows
nitrogen
diet
author García, Florencia
Muñoz, Camila
Martínez Ferrer, Jorge
Urrutia, Natalie L.
Martínez, Emilio D.
Saldivia, Marcelo
Immig, Irmgard
Kindermann, Maik
Walker, Nicola
Ungerfeld, Emilio M.
author_facet García, Florencia
Muñoz, Camila
Martínez Ferrer, Jorge
Urrutia, Natalie L.
Martínez, Emilio D.
Saldivia, Marcelo
Immig, Irmgard
Kindermann, Maik
Walker, Nicola
Ungerfeld, Emilio M.
author_sort García, Florencia
title 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
title_short 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
title_full 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
title_fullStr 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
title_full_unstemmed 3-Nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
title_sort 3-nitrooxypropanol substantially decreased enteric methane emissions of dairy cows fed true protein- or urea-containing diets
publisher Elsevier
publishDate 2022-06
url https://hdl.handle.net/10568/125212
https://doi.org/10.1016/j.heliyon.2022.e09738
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