2014
DOI: 10.1071/cp13450
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In vitro fermentation, digestibility and methane production of tropical perennial grass species

Abstract: Abstract. This study characterised 16 tropical perennial grass species in terms of in vitro methane output and related their digestibility and rumen fermentation with methane output. The grass samples were collected, dried in a forced oven, and ground and analysed for nutrient composition. In vitro gas production and organic matter digestibility (IVOMD) were determined using rumen fluid collected, strained and anaerobically prepared. A semi-automated system was used to measure gas production through in vitro i… Show more

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Cited by 20 publications
(19 citation statements)
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“…Our results also showed a strong relationship between CH 4 production per gram DM and NDF concentration. This result agrees with results of Gemeda and Hassen (2014) who studied 16 grass species in the arid region of Kalahari with comparable climatic conditions, but not with those observed by Baccouche et al (2014) who performed in vitro incubations of 83 forages, of which 35 were grasses and legumes, harvested in the Ferlo region as in the present study, or those by Macheboeuf et al (2014) who studied 156 temperate plants, of which only one was grass and 13 were legumes. Our results are especially surprising because CH 4 production from forages depend both on their NDF concentration and on their digestibility, which are the two main drivers of hydrogen production from carbohydrate fermentation (Archimède et al 2011).…”
Section: Changes In Methanogenic Potential Of Forage Diet With Seasonsupporting
confidence: 91%
“…Our results also showed a strong relationship between CH 4 production per gram DM and NDF concentration. This result agrees with results of Gemeda and Hassen (2014) who studied 16 grass species in the arid region of Kalahari with comparable climatic conditions, but not with those observed by Baccouche et al (2014) who performed in vitro incubations of 83 forages, of which 35 were grasses and legumes, harvested in the Ferlo region as in the present study, or those by Macheboeuf et al (2014) who studied 156 temperate plants, of which only one was grass and 13 were legumes. Our results are especially surprising because CH 4 production from forages depend both on their NDF concentration and on their digestibility, which are the two main drivers of hydrogen production from carbohydrate fermentation (Archimède et al 2011).…”
Section: Changes In Methanogenic Potential Of Forage Diet With Seasonsupporting
confidence: 91%
“…We identified differences in nutritive values, fermentability and methanogenic potential amongst selected forages, with some plants producing twice as much CH 4 as others. The nutritive profiles and fermentability in other tropical plants has been reported previously, but this is the first attempt to conduct a systematic and controlled study and examine temporal variations in these parameters.…”
Section: Discussionmentioning
confidence: 95%
“…Several potential CH 4 abatement strategies for ruminants grazing tropical forages have been considered, including variability in plant nutritive value and fermentability features, especially amount of CH 4 produced when digested by rumen microbes (‘methanogenic potential’) . However, such attributes, in particular methanogenic potential, of legumes and grasses in northern Australia are unknown.…”
Section: Introductionmentioning
confidence: 99%
“…The availability of rumen ammonia is often a primary deficit when protein-deficient feedstuffs such as grass hays are fed to ruminants, limiting microbial biomass production, digestibility, and feed intake (Hao Trinh et al, 2009). Enteric methane emissions are dependent on the amount of feed consumed by the animal and the composition of the diet, with lower emission values from concentrate than from roughage-based diets (Mirzaei-Aghsaghali & Meheri-Sis, 2011;Gemeda & Hassen, 2014a). Methane per unit of organic matter degraded could be up to two times higher in tropical forages than in legumes (Widiawati et al, 2007;Gemeda & Hassen, 2014a).…”
Section: Introductionmentioning
confidence: 99%
“…Enteric methane emissions are dependent on the amount of feed consumed by the animal and the composition of the diet, with lower emission values from concentrate than from roughage-based diets (Mirzaei-Aghsaghali & Meheri-Sis, 2011;Gemeda & Hassen, 2014a). Methane per unit of organic matter degraded could be up to two times higher in tropical forages than in legumes (Widiawati et al, 2007;Gemeda & Hassen, 2014a). In the past, many studies have been conducted globally on improving the feeding value of roughages (Wanapat et al, 2009;Shreck, 2013;Gemeda et al, 2014b).…”
Section: Introductionmentioning
confidence: 99%