Effects of ensiling density on nutritive value of maize and sorghum silages

Sucu, Ekin; Kalkan, Hatice; Canbolat, Önder; Filya, İsmail

doi:10.1590/s1806-92902016001000003

Cited by 36 publications

(27 citation statements)

References 16 publications

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“…Potentially, a difference in silage density is an important distinction between bales and can affect silage fermentation profile, dry matter loss and microbial activity (Sucu et al, 2016). In our experiment, initial bale characteristics, such as mean bale diameter, height, volume, weight and density were 1.28 and 1.24 m, 1.59 m 3 , 877 kg and 170 kg m 3 DM, respectively.…”

Section: Chemical Composition Fermentation Pattern and Microbial Promentioning

confidence: 65%

Variations in fermentation, bacterial population and aerobic stability in maize silage

Jatkauskas

Vrotniakiene

Stoškus

2018

Zemdirbyste-Agriculture

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Whole crop maize in dough stage physiological maturity of grain (387 g kg-1 dry matter) was ensiled in big (1.2 m diameter × 1.2 m height) bales and in 3-litre mini silos with either viable lactic acid bacteria (LAB) inoculant Lactococcus lactis and Lactobacillus buchneri or without any additives. Silos were opened after 120 days, silage was sampled and the nutrient composition, fermentation products and microbial colony counts were determined. Big bale and laboratory silage was exposed to air, and aerobic stability was determined. Significant variation was observed between inoculant treated and untreated big bales, and inoculant treated and untreated laboratory silage. Viable LAB caused reduction in acidity (pH) value, a decrease in dry matter (DM) loss, concentrations of butyrate, ammonia nitrogen (NH 3-N) and alcohols, and an increase in the concentrations of lactic and acetic acids in both big bale and laboratory silage. Inoculated silage had lower counts of yeasts and moulds after ensiling and after air exposure, which improved their aerobic stability relative to the untreated silage. The untreated silage had a relatively large proportion of visibly spoiled silage at the surface of the big bales. The similarities observed between the big bale and laboratory silage showed that small scale silage can serve as a model for big bale silage and can be used to test the efficacy of silage additives in laboratory conditions.

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Section: Chemical Composition Fermentation Pattern and Microbial Promentioning

confidence: 65%

Variations in fermentation, bacterial population and aerobic stability in maize silage

Jatkauskas

Vrotniakiene

Stoškus

2018

Zemdirbyste-Agriculture

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“…In this way, the amount of air that penetrates the silo is minimized and undesirable aerobic micro‐organisms that lead to deterioration and quality losses during storage and feed‐out are inhibited (Johnson et al., ). In a study of Sucu, Kalkan, Canbolat, and Filya (), increased packing density resulted in silages with lower acetate, ammonia‐N and fermentation losses. Tightly packed silages remained stable upon exposure to air, showed increased nutrient digestibility and had higher energy contents than loosely packed silages.…”

Section: Introductionmentioning

confidence: 99%

Effect of compaction, delayed sealing and aerobic exposure on forage choice and short‐term intake of maize silage by goats

Brüning

Gerlach

Weiß

et al. 2017

Grass and Forage Science

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Forage choice and intake by ruminants depend on various factors. This study aimed to determine the effects of compaction, delayed sealing and aerobic exposure on forage choice and short‐term dry‐matter intake (DMI) of maize silage by goats. Whole‐crop maize (277 g/kg dry matter [DM]) in 120‐L silos was compacted at either low (194 kg DM/m3) or high (234 kg DM/m3) density, and sealed immediately at day 0 or with a delay at day 2 or day 4 post‐filling, making a total of six treatments. After ensiling for at least 175 days, silages were exposed to air for 6 days. In 2‐day intervals, silages were sampled for chemical analyses and were vacuum‐stored for use in preference trials. During the experimental phase, each possible two‐way combination of the aerobically exposed silages (days 0, 2, 4 and 6 post‐opening) of the treatments and lucerne hay was offered as free choice to goats (n = 5) for 3 hr. Exposing silages to air for >4 days post‐opening caused strong avoidance and lowest intakes. Under the conditions of the study, aerobic exposure after ensiling had a more pronounced effect on silage preference and short‐time DMI than compaction and delayed sealing. Increasing fibre fractions, a deteriorating microbial status and poor silage sensory properties, probably caused by a combination of different fermentation products, can be considered for decrease in preference.

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“…The pH and the ammonia nitrogen are parameters that help to define a good silage fermentation, because are related to the acceptability of silage by the animals (Pahlow et al, 2003). Sucu et al (2016) in a study with sorghum silage with two densities (132 and 178 kg · m −3 of DM) after 60 days of ensiling observed that the silage with higher density showed higher WSC and CP contents and, consequently, lower DM losses (although no difference observed in the pH level). The pH values from 3.8 to 4.2 are expected in a well-preserved silage.…”

Section: Discussionmentioning

confidence: 97%

“…The proper density provide an anaerobic environment that is conducive to the LAB development resulting in increased lactic acid production and, consequently, lower pH (Pahlow et al, 2003;Sucu et al, 2016). The pH and the ammonia nitrogen are parameters that help to define a good silage fermentation, because are related to the acceptability of silage by the animals (Pahlow et al, 2003).…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Effects of ensiling density on chemical and microbiological characteristics of sorghum silage

Anésio¹,

Santos²,

Silva³

et al. 2017

J. Anim. Feed Sci.

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Effects of ensiling density on nutritive value of maize and sorghum silages

Cited by 36 publications

References 16 publications

Variations in fermentation, bacterial population and aerobic stability in maize silage

Variations in fermentation, bacterial population and aerobic stability in maize silage

Effect of compaction, delayed sealing and aerobic exposure on forage choice and short‐term intake of maize silage by goats

Effects of ensiling density on chemical and microbiological characteristics of sorghum silage

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