Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls

Ana Paula A.A. Salim; Loíse C.S. Lima; Micheli S. Ferreira; Fábio J.G. Vasconcellos; Carlos A. Conte-Junior; Tatiana Saldanha; Ranjith Ramanathan; Surendranath P. Suman; Gregg Rentfrow; Sérgio B. Mano

doi:10.1021/acsfoodscitech.4c00650

Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls

Ana Paula A.A. Salim, Loíse C.S. Lima, Micheli S. Ferreira, Fábio J.G. Vasconcellos, Carlos A. Conte-Junior, Tatiana Saldanha, Ranjith Ramanathan, Surendranath P. Suman, Gregg Rentfrow, Sérgio B. Mano

Research output: Contribution to journal › Article › peer-review

Abstract

We aimed to evaluate the influence of muscle source [longissimus lumborum (LL) and psoas major (PM)], diet (grain-finished and pasture-finished), and days of refrigerated storage (0, 5, and 9) on instrumental color and oxidative stability of extended-aged (60 days) beef from Nellore bulls employing structural equation modeling (SEM). The SEM considers different mathematical models to demonstrate the effect and the causal relationships among the parameters analyzed. When the effect of muscle (LL and PM) was combined, the beef from both feeding systems (grain-finished and pasture-finished) exhibited similar color parameters. However, beef from pasture-finished animals exhibited a negative relationship with metmyoglobin-reducing activity (MRA), indicating a decrease in the color stability. When combining the effect of diet, the LL muscle exhibited an oxidative pattern (similar to that of PM muscles), which may be attributed to pasture feeding. During refrigerated storage, muscles from both grain-finished and pasture-finished animals decreased the color stability. The findings of the SEM approach indicated that diet plays an important role in post-mortem muscle metabolism and influences the color and oxidative stability of beef from Nellore bulls.

Original language	English
Pages (from-to)	118-126
Number of pages	9
Journal	ACS Food Science and Technology
Volume	5
Issue number	1
DOIs	https://doi.org/10.1021/acsfoodscitech.4c00650
State	Published - Jan 17 2025

Bibliographical note

Publisher Copyright:
© 2024 American Chemical Society.

Keywords

Nellore bulls
feeding system
fresh beef color
muscle source

ASJC Scopus subject areas

Analytical Chemistry
Food Science
Chemistry (miscellaneous)
Organic Chemistry

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10.1021/acsfoodscitech.4c00650

Cite this

Salim, A. P. A. A., Lima, L. C. S., Ferreira, M. S., Vasconcellos, F. J. G., Conte-Junior, C. A., Saldanha, T., Ramanathan, R., Suman, S. P., Rentfrow, G., & Mano, S. B. (2025). Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls. ACS Food Science and Technology, 5(1), 118-126. https://doi.org/10.1021/acsfoodscitech.4c00650

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title = "Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls",

abstract = "We aimed to evaluate the influence of muscle source [longissimus lumborum (LL) and psoas major (PM)], diet (grain-finished and pasture-finished), and days of refrigerated storage (0, 5, and 9) on instrumental color and oxidative stability of extended-aged (60 days) beef from Nellore bulls employing structural equation modeling (SEM). The SEM considers different mathematical models to demonstrate the effect and the causal relationships among the parameters analyzed. When the effect of muscle (LL and PM) was combined, the beef from both feeding systems (grain-finished and pasture-finished) exhibited similar color parameters. However, beef from pasture-finished animals exhibited a negative relationship with metmyoglobin-reducing activity (MRA), indicating a decrease in the color stability. When combining the effect of diet, the LL muscle exhibited an oxidative pattern (similar to that of PM muscles), which may be attributed to pasture feeding. During refrigerated storage, muscles from both grain-finished and pasture-finished animals decreased the color stability. The findings of the SEM approach indicated that diet plays an important role in post-mortem muscle metabolism and influences the color and oxidative stability of beef from Nellore bulls.",

keywords = "Nellore bulls, feeding system, fresh beef color, muscle source",

author = "Salim, {Ana Paula A.A.} and Lima, {Lo{\'i}se C.S.} and Ferreira, {Micheli S.} and Vasconcellos, {F{\'a}bio J.G.} and Conte-Junior, {Carlos A.} and Tatiana Saldanha and Ranjith Ramanathan and Suman, {Surendranath P.} and Gregg Rentfrow and Mano, {S{\'e}rgio B.}",

note = "Publisher Copyright: {\textcopyright} 2024 American Chemical Society.",

year = "2025",

month = jan,

day = "17",

doi = "10.1021/acsfoodscitech.4c00650",

language = "English",

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Salim, APAA, Lima, LCS, Ferreira, MS, Vasconcellos, FJG, Conte-Junior, CA, Saldanha, T, Ramanathan, R, Suman, SP , Rentfrow, G & Mano, SB 2025, 'Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls', ACS Food Science and Technology, vol. 5, no. 1, pp. 118-126. https://doi.org/10.1021/acsfoodscitech.4c00650

Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls. / Salim, Ana Paula A.A.; Lima, Loíse C.S.; Ferreira, Micheli S. et al.
In: ACS Food Science and Technology, Vol. 5, No. 1, 17.01.2025, p. 118-126.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls

AU - Salim, Ana Paula A.A.

AU - Lima, Loíse C.S.

AU - Ferreira, Micheli S.

AU - Vasconcellos, Fábio J.G.

AU - Conte-Junior, Carlos A.

AU - Saldanha, Tatiana

AU - Ramanathan, Ranjith

AU - Suman, Surendranath P.

AU - Rentfrow, Gregg

AU - Mano, Sérgio B.

PY - 2025/1/17

Y1 - 2025/1/17

N2 - We aimed to evaluate the influence of muscle source [longissimus lumborum (LL) and psoas major (PM)], diet (grain-finished and pasture-finished), and days of refrigerated storage (0, 5, and 9) on instrumental color and oxidative stability of extended-aged (60 days) beef from Nellore bulls employing structural equation modeling (SEM). The SEM considers different mathematical models to demonstrate the effect and the causal relationships among the parameters analyzed. When the effect of muscle (LL and PM) was combined, the beef from both feeding systems (grain-finished and pasture-finished) exhibited similar color parameters. However, beef from pasture-finished animals exhibited a negative relationship with metmyoglobin-reducing activity (MRA), indicating a decrease in the color stability. When combining the effect of diet, the LL muscle exhibited an oxidative pattern (similar to that of PM muscles), which may be attributed to pasture feeding. During refrigerated storage, muscles from both grain-finished and pasture-finished animals decreased the color stability. The findings of the SEM approach indicated that diet plays an important role in post-mortem muscle metabolism and influences the color and oxidative stability of beef from Nellore bulls.

AB - We aimed to evaluate the influence of muscle source [longissimus lumborum (LL) and psoas major (PM)], diet (grain-finished and pasture-finished), and days of refrigerated storage (0, 5, and 9) on instrumental color and oxidative stability of extended-aged (60 days) beef from Nellore bulls employing structural equation modeling (SEM). The SEM considers different mathematical models to demonstrate the effect and the causal relationships among the parameters analyzed. When the effect of muscle (LL and PM) was combined, the beef from both feeding systems (grain-finished and pasture-finished) exhibited similar color parameters. However, beef from pasture-finished animals exhibited a negative relationship with metmyoglobin-reducing activity (MRA), indicating a decrease in the color stability. When combining the effect of diet, the LL muscle exhibited an oxidative pattern (similar to that of PM muscles), which may be attributed to pasture feeding. During refrigerated storage, muscles from both grain-finished and pasture-finished animals decreased the color stability. The findings of the SEM approach indicated that diet plays an important role in post-mortem muscle metabolism and influences the color and oxidative stability of beef from Nellore bulls.

KW - Nellore bulls

KW - feeding system

KW - fresh beef color

KW - muscle source

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Structural Equation Modeling for Interpreting the Influence of Diet on Muscle-Specific Color and Oxidative Stabilities in Extended-Aged Beef from Nellore Bulls

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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