2021
DOI: 10.1007/s11250-021-02640-3
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Feed intake, digestibility, and energy contents in growing bull fed pineapple crop waste silage in different planes of nutrition

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Cited by 7 publications
(5 citation statements)
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“…This could be attributed to the addition of lactic acid bacteria and yeast to the pineapple residue during fermentation, which may have improved the digestibility of feed and energy efficiency in rumen (Niba et al, 2009 ; Kaewpila et al, 2021 ; So et al, 2021 ), cause the organic acids produced during fermentation contributed on structural carbohydrate hydrolysis (Wang et al, 2018 ). The addition of FPR had no adverse effects on the slaughter performance and beef sensory quality, which is similar to the findings of Hattakum et al ( 2019 ), Liu et al ( 2020 ), and Mello et al ( 2021 ). Intramuscular fat deposition is influenced by numerous factors, such as breed, genotype, age, and nutrition (Jeong et al, 2013 ).…”
Section: Discussionsupporting
confidence: 90%
“…This could be attributed to the addition of lactic acid bacteria and yeast to the pineapple residue during fermentation, which may have improved the digestibility of feed and energy efficiency in rumen (Niba et al, 2009 ; Kaewpila et al, 2021 ; So et al, 2021 ), cause the organic acids produced during fermentation contributed on structural carbohydrate hydrolysis (Wang et al, 2018 ). The addition of FPR had no adverse effects on the slaughter performance and beef sensory quality, which is similar to the findings of Hattakum et al ( 2019 ), Liu et al ( 2020 ), and Mello et al ( 2021 ). Intramuscular fat deposition is influenced by numerous factors, such as breed, genotype, age, and nutrition (Jeong et al, 2013 ).…”
Section: Discussionsupporting
confidence: 90%
“…Meanwhile, the silage produced from pineapple fruit residue (PFR) can promote milk production in dairy ruminants (Gowda et al, 2015). The pineapple crop waste silage is a suitable alternative for cattle (Mello et al, 2021) and sheep diets (Cordeiro et al, 2022). Table 1 describes other utilisation of pineapple waste and the study outcomes.…”
Section: Source Forms and Types Of Pineapple Wastementioning
confidence: 99%
“…In most cases, farmers do not know how to utilize sillage to increase livestock productivity (Chiambiro et al, 2022). Mello et al (2021) found that sillage of plant waste could become an alternative to good forages for feed, particularly during forage shortages. The fermented feed can increase crude fiber digestibility with potential beneficial effects on intake and livestock production (Humer & Zebeli, 2017).…”
Section: Managerial Implicationmentioning
confidence: 99%