A principal component analysis required in technical assistance guidance for chilled raw milk producers

Leal, Dyhogo Henrique Veloso; Azevedo, Alcinei Místico; Almeida, Anna Christina de; Neto, Otaviano de Souza Pires; Duarte, Eduardo Robson; Raidan, Fernanda Santos Silva

doi:10.4025/actascianimsci.v44i1.55570

Acta Sci. Anim. Sci.

2022

DOI: 10.4025/actascianimsci.v44i1.55570

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A principal component analysis required in technical assistance guidance for chilled raw milk producers

Dyhogo Henrique Veloso Leal

Alcinei Místico Azevedo

Anna Christina de Almeida

et al.

Abstract: The purpose of the present study was to evaluate the principal component analysis (PCA) to guide technical assistance regarding several dairy farms’ issues, which includes improving microbiological quality and physical-chemical composition of raw refrigerated milk. Data of monthly analysis of fat, protein, lactose, dry defatted stratum, somatic cell count, total bacterial count, milk temperature of 8,101 samples of milk from expansion tanks and production of 78 farms located in the northern region of Minas Ger… Show more

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2024

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Cited by 2 publications

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Selenium in Acmella Oleracea (l.) R. K. Jansen Grown in Hydroponics: Thresholds Between Biofortification and Toxicity

De Oliveira,

Silva Junior

et al. 2024

RGSA

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Objective: With the possibility of using non-conventional food plants to minimise the impact of nutritional deficiencies in selenium, this research sought to determine the levels of maximum absorption efficiency and tolerance of Acmella Oleracea to the element. Theoretical background: Almost 1 billion people in the world are deficient in selenium (Se). As it is a fundamental element for human health, vegetable biophotification programmes, as a form of nutritional supplementation, have covered a range of plants such as lettuce, basil, rice, corn, among others. Method: In a completely randomised experiment, 60 plants were grown in hydroponics, supplemented with Se at doses of 5, 10 and 20 mg.L-1, plus a control. Biometric and physiological variables and Se content in Acmella Oleracea were measured. Factor analysis was used to measure the effects of Se and the plant's dose/response relationship. Results and conclusion: Acmella Oleracea grew and assimilated 818.72±58.59 µg.kg-1 in the aerial part when exposed to a dose of 5 mg.L-1 for 28 days, differing positively from the control plants. The maximum dose that the plant tolerated, already showing signs of toxicity, was 10 mg.L-1 for 28 days. Research implications: This research has implications for the way Acmella Oleracea is managed and can be used as a guide in the breeding process, making this plant an alternative for mitigating Se malnutrition in various parts of the world, especially in the Amazon. Originality/value: This research is original and in line with the objectives of sustainable development and socio-environmental management, as it shows that the use of unconventional vegetables that are often adapted to various regions of the planet can be a viable alternative to mitigate the various forms of malnutrition and food insecurity.

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Selenium in Acmella Oleracea (l.) R. K. Jansen Grown in Hydroponics: Thresholds Between Biofortification and Toxicity

De Oliveira,

Silva Junior

et al. 2024

RGSA

View full text Add to dashboard Cite

show abstract

Influence of metal ions on the oxidative stability of heated milk: study by ATR-FTIR spectroscopy and chemometrics

BYTYÇI,

GASHI,

KREBS De SOUZA

et al. 2024

Rev.Roum.Chim.

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The present study demonstrates the effect of metal ions (stainless steel, Cu2+, and Fe2+), and their catalytic activity in the lipid oxidation of the milk samples. Milk fat is one of the complex fats and highly sensitive to auto-oxidation. To amplify the effect of metal ions, milk is subjected to temperature treatment, leading to various chemical and biochemical changes in the lipid fraction of the heated milk. Metal release were monitored by HG-AAS for the metal determination in milk samples. In this current investigation, the effect of metals ions on heated milk was determined using Ekomilk Scan for physicochemical analysis and ATR-FTIR Spectroscopy for the determination of lipid oxidative status, in combination with the chemometric PCA (Principal Component Analysis), which was not reported in earlier investigations. The heating process resulted in decreases in the areas of intensity ratios of 1746/2923 and 1737/2923 cm-1. Principal component analysis and hierarchical cluster analysis confirmed that stainless steel has a higher effect on lipid oxidation than copper and iron. These results demonstrate that the metal in milk solution and their ions impact lipid oxidation during the heating. This research also indicateds that oil oxidation could be easily and rapidly monitored by ATR-FTIR spectroscopy.

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A principal component analysis required in technical assistance guidance for chilled raw milk producers

Cited by 2 publications

References 25 publications

Selenium in Acmella Oleracea (l.) R. K. Jansen Grown in Hydroponics: Thresholds Between Biofortification and Toxicity

Selenium in Acmella Oleracea (l.) R. K. Jansen Grown in Hydroponics: Thresholds Between Biofortification and Toxicity

Influence of metal ions on the oxidative stability of heated milk: study by ATR-FTIR spectroscopy and chemometrics

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