A landscape of the heritability of Fourier-transform infrared spectral wavelengths of milk samples by parity and lactation stage in Holstein cows

Rovere, G.; Campos, Gustavo de los; Tempelman, Robert J.; Vázquez, Ana I.; Miglior, F.; Schenkel, F.S.; Cecchinato, Alessio; Bittante, Giovanni; Toledo-Alvarado, Hugo; Fleming, Allison

doi:10.3168/jds.2018-15109

Cited by 19 publications

(16 citation statements)

References 33 publications

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“…The authors have therefore proposed the use of infrared predictions at the population level for the genetic improvement of those traits that are difficult to measure. These findings are supported by the knowledge that many infrared wavelength absorbances of milk are heritable [ 45 , 46 , 47 ]. No information on the genetic background of beef absorbance spectra is available.…”

Section: Resultssupporting

confidence: 53%

Predicting the Content of 20 Minerals in Beef by Different Portable Near-Infrared (NIR) Spectrometers

Patel

Toledo-Alvarado

Cecchinato

et al. 2020

Foods

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The aim of this study was to test the predictability of a detailed mineral profile of beef using different portable near-infrared spectrometers (NIRS). These devices are rapid, chemical waste-free, cheap, nondestructive tools that can be used directly on the meat surface in the work environment without the need to take samples. We compared a transportable Visible-NIRS (weight 5.6 kg; wavelength 350–1830 nm), a portable NIRS (2.0 kg; 950–1650 nm), and a hand-held Micro-NIRS (0.06 kg; 905–1649 nm) to predict the contents of 20 minerals (measured by ICP-OES) in 178 beef samples (Longissimus thoracis muscle) using different mathematical pretreatments of the spectra and partial least square regressions. The externally validated results show that Fe, P, Mg, S, Na, and Pb have some potential for prediction with all instruments (R2VAL: 0.40–0.83). Overall, the prediction performances of the three instruments were similar, although the smallest (Micro-NIRS) exhibited certain advantages.

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Section: Resultssupporting

confidence: 53%

Predicting the Content of 20 Minerals in Beef by Different Portable Near-Infrared (NIR) Spectrometers

Patel

Toledo-Alvarado

Cecchinato

et al. 2020

Foods

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“…Wang and Bovenhuis (2019) estimated CH 4 emissions from milk IR spectra in 1508 dairy cows using cross-validation strategies, obtaining an R 2 cv of 0.49; however, when random block validation was used, the R 2 cv dropped to 0.01, demonstrating the importance of validation. Milk IR spectral wavelengths were confirmed to be heritable in over 200 000 cows (Rovere et al, 2019). This information opens up the possibility of using genetic covariance between informative spectral wavelengths and CH 4 emissions, if estimated.…”

Section: Improving the Selection Accuracy Of Ch 4 Emissionsmentioning

confidence: 74%

Review: Genetic and genomic selection as a methane mitigation strategy in dairy cattle

Lassen¹,

Difford

2020

Animal

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Over the last decade, extensive research effort has been placed on developing methane mitigation strategies in ruminants. Many disciplines on animal science disciplines have been involved, including nutrition and physiology, microbiology and genetic selection. To date, few of the suggested strategies have been implemented because: (1) methane emissions currently have no direct or indirect economic value for farmers, with no financial incentive to change practices and (2) most strategies have limited, or no, long-term effects. Consequently, there is a fundamental need for research on methane mitigation strategies across disciplines. Coordinated international initiatives similar to METHAGENE could represent highly relevant coordination tool of collaboration between countries, facilitating knowledge exchange, sharing concerns and building future collaborations.

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“…We directly estimated the heritability of every wavelength of the milk FTIR spectrum in Brown Swiss cows 48 and obtained values between 5 and 10% for the SWIR IR-B fraction, similar to those found here for the SWIR IR-B fraction of the beef spectrum. In a recent study 30 , we confirmed similar heritability values for the SWIR IR-B fraction of the milk spectrum in Holstein Friesian cows, and found that heritability was affected by parity and, especially, the cow’s lactation stage 29 , found an effect of herd on the absorbance of IR-B radiation (2000–2500 nm) by milk similar to or greater than in the present study, and a large genetic effect, more similar to that recorded for the absorbance of visible radiations by beef.…”

Section: Discussionmentioning

confidence: 93%

“…In using visible-infrared spectra for genetic improvement at the population level, it is clearly implicitly assumed that the absorbance of some wavelengths are heritable and correlated with the trait for selection, as was found for milk at the genetic 29 , 30 and genomic levels 31 . In the case of meat species, to our knowledge, there is no information on the genetics of meat absorbance spectra.…”

Section: Introductionmentioning

confidence: 99%

Phenotypic and genetic variation of ultraviolet–visible-infrared spectral wavelengths of bovine meat

Bittante

Savoia

Cecchinato

et al. 2021

Sci Rep

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Spectroscopic predictions can be used for the genetic improvement of meat quality traits in cattle. No information is however available on the genetics of meat absorbance spectra. This research investigated the phenotypic variation and the heritability of meat absorbance spectra at individual wavelengths in the ultraviolet–visible and near-infrared region (UV–Vis-NIR) obtained with portable spectrometers. Five spectra per instrument were taken on the ribeye surface of 1185 Piemontese young bulls from 93 farms (13,182 Herd-Book pedigree relatives). Linear animal model analyses of 1481 single-wavelengths from UV–Vis-NIRS and 125 from Micro-NIRS were carried out separately. In the overlapping regions, the proportions of phenotypic variance explained by batch/date of slaughter (14 ± 6% and 17 ± 7%,), rearing farm (6 ± 2% and 5 ± 3%), and the residual variances (72 ± 10% and 72 ± 5%) were similar for the UV–Vis-NIRS and Micro-NIRS, but additive genetics (7 ± 2% and 4 ± 2%) and heritability (8.3 ± 2.3% vs 5.1 ± 0.6%) were greater with the Micro-NIRS. Heritability was much greater for the visible fraction (25.2 ± 11.4%), especially the violet, blue and green colors, than for the NIR fraction (5.0 ± 8.0%). These results allow a better understanding of the possibility of using the absorbance of visible and infrared wavelengths correlated with meat quality traits for the genetic improvement in beef cattle.

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A landscape of the heritability of Fourier-transform infrared spectral wavelengths of milk samples by parity and lactation stage in Holstein cows

Cited by 19 publications

References 33 publications

Predicting the Content of 20 Minerals in Beef by Different Portable Near-Infrared (NIR) Spectrometers

Predicting the Content of 20 Minerals in Beef by Different Portable Near-Infrared (NIR) Spectrometers

Review: Genetic and genomic selection as a methane mitigation strategy in dairy cattle

Phenotypic and genetic variation of ultraviolet–visible-infrared spectral wavelengths of bovine meat

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