Tithonia diversifolia as a Supplementary Feed for Dairy Cows

Ribeiro, Rafael S.; Terry, Stephanie A.; Sacramento, J. P.; Silveira, Sylvia Rocha e; Bento, Cláudia Braga Pereira; Silva, Elsa Fernandes da; Mantovani, Hilário Cuquetto; Gama, Marco Antônio Sundfeld da; Pereira, L. G. R.; Tomich, T. R.; Maurício, Rogério Martins; Chaves, A. V.

doi:10.1371/journal.pone.0165751

Cited by 26 publications

(40 citation statements)

References 35 publications

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“…A commercial calorimetry kit (Sigma Diagnostics, St. Louis, MO) was used to analyze milk samples for urea-N. Milk FA composition was determined as described elsewhere (26). The Kjedahl method (AOAC, method 954.01) was used to determine fecal N content and total fecal production was estimated by the insoluble ash technique (27).…”

Section: Methodsmentioning

confidence: 99%

Replacement of Soybean Meal With Soybean Cake Reduces Methane Emissions in Dairy Cows and an Assessment of a Face-Mask Technique for Methane Measurement

et al. 2019

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The objective of this study was to (a) evaluate the effect of replacing soybean meal (SBM) with soybean cake (SBC) on feeding behavior, rumen fermentation, milk production, nutrient digestibility and CH4 emissions and (b) investigate whether a face-mask technique could be used to predict daily methane (CH4) emissions in dairy cattle. The experiment was conducted as a completely randomized design, with 32 crossbred Holstein × Gyr cows (days in milk (DIM): 112 ± 25.1) randomly assigned to the following treatments (n = 8/group) for 75 days: (1) 0% SBC, (2) 6% SBC, (3) 14% SBC, and (4) 23% SBC, in place of SBM on a dry matter (DM) basis. Across the final 4 weeks of the study, CH4 production was estimated using the proposed face-mask technique subsequent to a respiration chamber measurement for an evaluation of treatment efficacy and face-mask accuracy. There was no effect of SBM replacement by SBC on intake, feeding or drinking behavior (P > 0.21). Total VFA concentration, the individual proportions of VFA and blood metabolites were not altered (P > 0.17) by SBC, however there was a tendency for decreased (P = 0.08) lactate and plasma urea nitrogen (P = 0.07) concentration associated with SBC addition. Fat-corrected milk yield (FCM4%) and composition was not affected (P > 0.27) by SBC; however, there was a tendency for decreased total milk solids (P = 0.07) and milk fat (P = 0.08) associated with 23% SBC treatment. There was no treatment × technique interaction (P > 0.05) effect on gas measurements. A maximum reduction (P = 0.01) in CH4 yield (g/kg DM) and intensity (g/kg milk) of 11 and 20%, respectively, was observed for the 14% SBC inclusion. Compared to the week of mask measurements, chambers decreased (P = 0.01) intake (kg/d, %BW) and increased (P = 0.05) FCM4%. The face-mask method over estimated O2 consumption by 5%. The face-mask method accurately predicted daily CH4 emissions when compared to the chamber at the same time-point. However, there was a linear bias of CH4 outputs so further evaluation of the calculation of total CH4 from a spot measurement is required.

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Section: Methodsmentioning

confidence: 99%

Replacement of Soybean Meal With Soybean Cake Reduces Methane Emissions in Dairy Cows and an Assessment of a Face-Mask Technique for Methane Measurement

et al. 2019

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“…An in vivo study was conducted at UFSJ to determine the effects of replacing sugarcane fresh and concentrate (DM basis) with T. Diversifolia fresh fed (0, 6.4, 15.3%) to lactating cross breed dairy cows. 7 The results found by the authors indicated that it is possible to replace sugarcane (20% DM basis) and concentrate (11.2% DM basis) in a total mixed ration diet fed to dairy cows without any change in total intake (18.7kg MS/day), milk yield (22.9kg/day) and composition. In addition, glucose, urea, triglycerides, cholesterol, non-esterified fatty acids and ß-hydroxybutyrate blood parameters were not negatively affected by the inclusion of T. Diversifolia.…”

Section: Feeding Dairy Cows With T Diversifolia -Brazilian Experiencesmentioning

confidence: 98%

Feeding ruminants using Tithonia diversifolia as forage

Maurício¹,

Calsavara²,

Ribeiro³

et al. 2017

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T. Diversifolia can growth in acid soils including high levels of aluminium and low levels of phosphorus. 9 It is important to mention that T. Diversifolia is able to take mobilized phosphorus from the soil to the plant, which is a positive characteristic for most of tropical soils. It requires 800 to 5.000mm of water, 16 to 30°C and can growth from sea level to 2.500m altitude. 9 Usually, T. Diversifolia occurs in marginal area as of roads, around crop fields and hedges or close to farm houses. In Latin America and Caribbean (Colombia, México, Cuba, Panama, Dominican Republic and Brazil) pure stands are growing fast as farmers start to recognize the high biomass production and nutritional value of the plant. Usually, T. Diversifolia is propagated from stem cuttings of 20 to 40cm length, inserted vertically into the soil, 10 to 20cm deep. Seeds can also be used as they germinate under the canopy or even in plastic bags, and then seedlings transplanted to other areas. The main benefit of this method is that the roots will grow deeper in the soils, compared to vegetative method, and the growth is improved. However, the biomass production is influenced by soil quality, planting methods, cutting frequency, stand density and weather. 9,12,13 Although it has been used as a fodder for animal nutrition, 4,7,8,14 there are several uses reported for T. Diversifolia like insect repellent and negative effect against ants, 15 allelopathic effect against other plants, 16,17 source of nectar for bees 18 and sources of nutrients (N, P and K) for degraded soils as the biomass is quickly decomposed and consequently nutrients are easily released to the soil. 2,19 Nutritive value The studies developed by The University of Sao Joao del-Rei-Brazil (UFSJ) and CIPAV (Colombia) showed promising results for the use of T. Diversifolia as forage for ruminant nutrition. The chemical constituents of whole plant, leaves and stem obtained during the booting and pre-flowering stage when plant height reached 0.80-1.0m from the soil are good examples of important elements that could provide positive evidences of the nutritional values of T. Diversifolia. 20 The total dry matter (8.1ton/ha for booting and 5.6t/ha for pre-flowering) and fresh production (41.3ton/ha for booting and 24.7t/ha for pre-flowering) of whole plant were also included (alley crop system). The protein values during the booting (164.7g/kg DM) were higher compared to pre-flowering (149.1g/kg DM) stage. These values are as high as the values observed in some tropical legumes like, Stylosanthesguianensis (162.0g/kg DM), 21 Arachispintoi (180.0g/kg DM) 22 Gliricidia sepium (139.0g/kg DM) 22 and are higher

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“…An in vivo study was conducted at UFSJ to determine the effects of replacing sugarcane fresh and concentrate (DM basis) with T. diversifolia fresh fed (0, 6.4, 15.3%) to lactating cross breed dairy cows [7]. The results found by the authors indicated that it is possible to replace sugarcane (20 % DM basis) and concentrate (11.2 % DM basis) in a total mixed ration diet fed to dairy cows without any change in total intake (18.7 kg MS/ day), milk yield (22.9 kg/day) and composition.…”

Section: Feeding Dairy Cows With T Diversifolia -Brazilian Experiencesmentioning

confidence: 99%

“…Although it has been used as a fodder for animal nutrition [4,7,8,14], there are several uses reported for T. diversifolia like insect repellent and negative effect against ants [15], allelopathic effect against other plants [16,17], source of nectar for bees [18] and sources of nutrients (N, P and K) for degraded soils as the biomass is quickly decomposed and consequently nutrients are easily released to the soil [2,19].…”

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Tithonia diversifolia as a Supplementary Feed for Dairy Cows

Cited by 26 publications

References 35 publications

Replacement of Soybean Meal With Soybean Cake Reduces Methane Emissions in Dairy Cows and an Assessment of a Face-Mask Technique for Methane Measurement

Replacement of Soybean Meal With Soybean Cake Reduces Methane Emissions in Dairy Cows and an Assessment of a Face-Mask Technique for Methane Measurement

Feeding ruminants using Tithonia diversifolia as forage

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