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https://hdl.handle.net/1959.11/29199
Title: | Dietary nitrate and presence of protozoa increase nitrate and nitrite reduction in the rumen of sheep | Contributor(s): | Villar, Maria Laura (author); Hegarty, Roger Stephen (author); Clay, Jonathon William (author) ; Smith, Katherine Anne (author); Godwin, Ian Robert (author); Nolan, John Vivian (author) | Publication Date: | 2020-09 | Early Online Version: | 2020-04-25 | DOI: | 10.1111/jpn.13365 | Handle Link: | https://hdl.handle.net/1959.11/29199 | Abstract: | Nitrate (NO3–) supplementation is an effective methane (CH4) mitigation strategy for ruminants but may produce nitrite (NO2–) toxicity. It has been reported that rumen protozoa have greater ability for NO3– and NO2– reduction than bacteria. It was hypothesised that the absence of ruminal protozoa in sheep may lead to higher NO2– accumulation in the rumen and a higher blood methaemoglobin (MetHb) concentration. An in vivo experiment was conducted with defaunated (DEF) and faunated (FAU) sheep supplemented with 1.8% NO3– in DM. The effects of rumen protozoa on concentrations of plasma and ruminal NO3– and NO2–, blood MetHb, ruminal volatile fatty acid (VFA) and ruminal ammonia (NH3) were investigated. Subsequently, two in vitro experiments were conducted to determine the contribution of protozoa to NO3– and NO2– reduction rates in DEF and FAU whole rumen digesta (WRD) and its liquid (LIQ) and solid (SOL) fractions, incubated alone (CON), with the addition of NO3– or with the addition of NO2–. The results from the in vivo experiment showed no differences in total VFA concentrations, although ruminal NH3 was greater (p < .01) in FAU sheep. Ruminal NO3–, NO2– and plasma NO2– concentrations tended to increase (p < .10) 1.5 hr after feeding in FAU relative to DEF sheep. In vitro results showed that NO3– reduction to NH3 was stimulated (p < .01) by incoming NO3– in both DEF and FAU relative to CON digesta. However, adding NO3– increased (p < .05) the rate of NO2– accumulation in the SOL fraction of DEF relative to both fractions of FAU digesta. Results observed in vivo and in vitro suggest that NO3– and NO2– are more rapidly metabolised in the presence of rumen protozoa. Defaunated sheep may have an increased risk of NO2– poisoning due to NO2– accumulation in the rumen. | Publication Type: | Journal Article | Source of Publication: | Journal of Animal Physiology and Animal Nutrition, 104(5), p. 1242-1255 | Publisher: | Wiley-Blackwell Verlag GmbH | Place of Publication: | Germany | ISSN: | 1439-0396 0931-2439 |
Fields of Research (FoR) 2008: | 060602 Animal Physiology - Cell 060101 Analytical Biochemistry 060107 Enzymes |
Fields of Research (FoR) 2020: | 310909 Animal physiology - cell 310101 Analytical biochemistry 310106 Enzymes |
Socio-Economic Objective (SEO) 2008: | 839802 Management of Greenhouse Gas Emissions from Animal Production 830310 Sheep - Meat 830301 Beef Cattle |
Socio-Economic Objective (SEO) 2020: | 190302 Management of greenhouse gas emissions from animal production 100412 Sheep for meat 100401 Beef cattle |
Peer Reviewed: | Yes | HERDC Category Description: | C1 Refereed Article in a Scholarly Journal |
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Appears in Collections: | Journal Article School of Environmental and Rural Science School of Science and Technology |
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