Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro

Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro

<p>A study was conducted to assess the nutrient composition, in vitro gas production (GP) characteristics and methane (CH<sub>4</sub>) production potential of some common Ethiopian grass and legume forages. Crude protein (CP) concentration was lower in grasses than in legumes, whil...

Full description

Bibliographic Details
Main Authors: Aberra Melesse, Herbert Steingass, Margit Schollenberger, Markus Rodehutscord
Format: Article
Language:English
Published: Centro Internacional de Agricultura Tropical 2017-09-01
Series:Tropical Grasslands-Forrajes Tropicales
Online Access:http://tropicalgrasslands.info/index.php/tgft/article/view/308
id doaj-5889a2b026654931ae892983de93a311
record_format Article
spelling doaj-5889a2b026654931ae892983de93a3112020-11-25T00:55:42ZengCentro Internacional de Agricultura TropicalTropical Grasslands-Forrajes Tropicales2346-37752017-09-015316317510.17138/tgft(5)163-175198Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitroAberra Melesse0Herbert Steingass1Margit Schollenberger2Markus Rodehutscord3Hawassa UniversityHohenheim UniversityHohenheim UniversityHohenheim University<p>A study was conducted to assess the nutrient composition, in vitro gas production (GP) characteristics and methane (CH<sub>4</sub>) production potential of some common Ethiopian grass and legume forages. Crude protein (CP) concentration was lower in grasses than in legumes, while the reverse was observed for neutral detergent fiber (aNDFom) and acid detergent fiber (ADFom) concentrations. Within the 9 grasses tested, <em>Cynodon </em><em>dactylon</em> had the highest CP concentration (187 g/kg DM), while <em>Panicum coloratum </em>and <em>Cenchrus ciliaris</em> had the lowest (70 and 82 g/kg DM, respectively) values. <em>Chloris gayana</em> contained the highest aNDFom (651 g/kg DM) concentration, while <em>Avena sativa</em> had the lowest (484 g/kg DM). Among the 3 legumes tested,<em> Vicia sativa</em> had the highest CP concentration (346 g/kg DM). The aNDFom and ADFom concentrations were highest in <em>V. sativa </em>and lowest in <em>Medicago sativa</em>. In grasses, <em>Brachiaria mutica</em> had the highest calcium, magnesium, iron and manganese concentrations, while in legumes the highest concentrations of phosphorus, potassium and zinc were observed in <em>V. sativa</em>. Methane production was generally higher (P&lt;0.05) in grasses than in legumes. <em>Panicum coloratum</em> produced the lowest (P&lt;0.05) CH<sub>4</sub> levels within the grasses followed by <em>B. mutica, </em>while <em>Desmodium intortum</em> produced the lowest (P&lt;0.05) CH<sub>4 </sub>levels within the legumes. <em>Panicum coloratum</em> and <em>D. intortum</em> appear to have potential as suitable forage species for ruminants, resulting in reduced CH<sub>4 </sub>emissions. Studies with animals are needed to verify these in vitro findings.</p>http://tropicalgrasslands.info/index.php/tgft/article/view/308
collection DOAJ
language English
format Article
sources DOAJ
author Aberra Melesse
Herbert Steingass
Margit Schollenberger
Markus Rodehutscord
spellingShingle Aberra Melesse
Herbert Steingass
Margit Schollenberger
Markus Rodehutscord
Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro
Tropical Grasslands-Forrajes Tropicales
author_facet Aberra Melesse
Herbert Steingass
Margit Schollenberger
Markus Rodehutscord
author_sort Aberra Melesse
title Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro
title_short Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro
title_full Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro
title_fullStr Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro
title_full_unstemmed Screening of common tropical grass and legume forages in Ethiopia for their nutrient composition and methane production profile in vitro
title_sort screening of common tropical grass and legume forages in ethiopia for their nutrient composition and methane production profile in vitro
publisher Centro Internacional de Agricultura Tropical
series Tropical Grasslands-Forrajes Tropicales
issn 2346-3775
publishDate 2017-09-01
description <p>A study was conducted to assess the nutrient composition, in vitro gas production (GP) characteristics and methane (CH<sub>4</sub>) production potential of some common Ethiopian grass and legume forages. Crude protein (CP) concentration was lower in grasses than in legumes, while the reverse was observed for neutral detergent fiber (aNDFom) and acid detergent fiber (ADFom) concentrations. Within the 9 grasses tested, <em>Cynodon </em><em>dactylon</em> had the highest CP concentration (187 g/kg DM), while <em>Panicum coloratum </em>and <em>Cenchrus ciliaris</em> had the lowest (70 and 82 g/kg DM, respectively) values. <em>Chloris gayana</em> contained the highest aNDFom (651 g/kg DM) concentration, while <em>Avena sativa</em> had the lowest (484 g/kg DM). Among the 3 legumes tested,<em> Vicia sativa</em> had the highest CP concentration (346 g/kg DM). The aNDFom and ADFom concentrations were highest in <em>V. sativa </em>and lowest in <em>Medicago sativa</em>. In grasses, <em>Brachiaria mutica</em> had the highest calcium, magnesium, iron and manganese concentrations, while in legumes the highest concentrations of phosphorus, potassium and zinc were observed in <em>V. sativa</em>. Methane production was generally higher (P&lt;0.05) in grasses than in legumes. <em>Panicum coloratum</em> produced the lowest (P&lt;0.05) CH<sub>4</sub> levels within the grasses followed by <em>B. mutica, </em>while <em>Desmodium intortum</em> produced the lowest (P&lt;0.05) CH<sub>4 </sub>levels within the legumes. <em>Panicum coloratum</em> and <em>D. intortum</em> appear to have potential as suitable forage species for ruminants, resulting in reduced CH<sub>4 </sub>emissions. Studies with animals are needed to verify these in vitro findings.</p>
url http://tropicalgrasslands.info/index.php/tgft/article/view/308
work_keys_str_mv AT aberramelesse screeningofcommontropicalgrassandlegumeforagesinethiopiafortheirnutrientcompositionandmethaneproductionprofileinvitro
AT herbertsteingass screeningofcommontropicalgrassandlegumeforagesinethiopiafortheirnutrientcompositionandmethaneproductionprofileinvitro
AT margitschollenberger screeningofcommontropicalgrassandlegumeforagesinethiopiafortheirnutrientcompositionandmethaneproductionprofileinvitro
AT markusrodehutscord screeningofcommontropicalgrassandlegumeforagesinethiopiafortheirnutrientcompositionandmethaneproductionprofileinvitro
_version_ 1725229815672340480

Similar Items