Classifying the fertility of dairy cows using milk mid-infrared spectroscopy

Ho, Phuong; Bonfatti, V.; Luke, T.D.W.; Pryce, J.E.

doi:10.3168/jds.2019-16412

Cited by 29 publications

(31 citation statements)

References 59 publications

(79 reference statements)

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“…The authors concluded that pregnant versus open cows post insemination could be discriminated with promising accuracy using milk spectra, parity, and days in milk. Ho et al (2019) reported that milk spectra from early lactation cow together with other on-farm data (e.g., days in milk, days from calving to insemination, calving age, milk yield, genotypes, among others) could be used to classify cows that conceived at first insemination or did not conceive within the breading season with reasonable accuracy, based on the area under the curve (0.75), in herd-by-herd external validation. Delhez et al (2020) observed that milk spectra recorded after 150 days of pregnancy was promising to predict the pregnancy status in Holstein, with the area under the curve around 0.76 in cowindependent external validation.…”

Section: Fertilitymentioning

confidence: 99%

Infrared Spectrometry as a High-Throughput Phenotyping Technology to Predict Complex Traits in Livestock Systems

Bresolin

Dórea

2020

Front. Genet.

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High-throughput phenotyping technologies are growing in importance in livestock systems due to their ability to generate real-time, non-invasive, and accurate animal-level information. Collecting such individual-level information can generate novel traits and potentially improve animal selection and management decisions in livestock operations. One of the most relevant tools used in the dairy and beef industry to predict complex traits is infrared spectrometry, which is based on the analysis of the interaction between electromagnetic radiation and matter. The infrared electromagnetic radiation spans an enormous range of wavelengths and frequencies known as the electromagnetic spectrum. The spectrum is divided into different regions, with near-and mid-infrared regions being the main spectral regions used in livestock applications. The advantage of using infrared spectrometry includes speed, non-destructive measurement, and great potential for on-line analysis. This paper aims to review the use of mid-and near-infrared spectrometry techniques as tools to predict complex dairy and beef phenotypes, such as milk composition, feed efficiency, methane emission, fertility, energy balance, health status, and meat quality traits. Although several research studies have used these technologies to predict a wide range of phenotypes, most of them are based on Partial Least Squares (PLS) and did not considered other machine learning (ML) techniques to improve prediction quality. Therefore, we will discuss the role of analytical methods employed on spectral data to improve the predictive ability for complex traits in livestock operations. Furthermore, we will discuss different approaches to reduce data dimensionality and the impact of validation strategies on predictive quality.

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Section: Fertilitymentioning

confidence: 99%

Infrared Spectrometry as a High-Throughput Phenotyping Technology to Predict Complex Traits in Livestock Systems

Bresolin

Dórea

2020

Front. Genet.

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“…We followed the same approach as Ho et al (2019), but applied to additional data that were added to the data set used by Ho et al (2019) specifically to address the question of whether the model could be validated in a commercial setting where the outcome of mating is unknown. Between 2016 and 2018 inclusive, commercial farmer records, collected by several milk recording organizations, of insemination date, calving date, DIM at herd-test, DAI, age at calving (i.e., interval between birth date and calving date), herd-test day milk yield (MY), fat, protein, and lactose percentages, SCC, calving season (i.e., spring, summer, autumn, and winter), and MIR spectroscopy were obtained from DataGene (https: / / www .datagene .com .au/ ) for 9,850 lactating cows (33,483 records) from 29 commercial dairy herds located in Victoria, Tasmania, and New South Wales of Australia.…”

Section: Animal Datamentioning

confidence: 99%

“…The models currently available for predicting fertility of dairy cows use data from different sources, ranging from comparatively difficult to measure (e.g., BW and BCS), to moderately easy to measure (e.g., milk progesterone) or easy to measure [e.g., milk production, milk composition, and milk mid-infrared (MIR) spectroscopy] (Shahinfar et al, 2014;Hempstalk et al, 2015;Cook and Green, 2016;Blavy et al, 2018;Ho et al, 2019). Among these models, some use early-lactation milk-recording data (e.g., milk production, milk composition, and MIR spectroscopy), which is a pragmatic approach because this information is readily accessible for most dairy farms, and therefore, it would not add too much cost.…”

Section: Introductionmentioning

confidence: 99%

“…The objective of this study was to extend the concept of Ho et al (2019) to develop a tool that can be used to identify cows with either a high or low likelihood of conception to first insemination, using data from commercial dairy herds in Australia. The tool could be used to provide farmers with a list of animals that might be inseminated with premium semen (i.e., if predicted to have a good likelihood of conception-fertile animals) or those that potentially need specific breeding or management (i.e., if predicted to have a poor likelihood of conception-subfertile animals).…”

Section: Introductionmentioning

confidence: 99%

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Predicting the likelihood of conception to first insemination of dairy cows using milk mid-infrared spectroscopy

Pryce

2020

Journal of Dairy Science

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The objective of this study was to examine the ability of milk mid-infrared (MIR) spectroscopy and other onfarm data, such as milk yield, milk composition, stage of lactation, calving age, days in milk at insemination, and somatic cell count, to identify cows that were most or least likely to conceive to first insemination. A total of 16,628 spectral and milk production records of 7,040 cows from 29 commercial dairy herds across 3 Australian states were used. Three models, comprising different explanatory variables, were tested. Model 1 included features that are readily available on farms participating in milk recording, such as milk yield, milk composition, somatic cell count, days from calving to insemination, and calving season. Days in milk and age at calving were incorporated into model 1 to form model 2. In model 3, MIR was added to model 2, but to avoid double counting, milk composition traits of model 2 were removed. The models were first trained on extreme data [i.e., including cows that (1) conceived to first insemination and (2) cows with no conception event recorded and with only 1 insemination]. Then, the models were validated in a fresh data set with all cows regardless of conception outcomes present to test for their ability to identify cows that conceived or did not conceive to first insemination. To do this, we ranked the predicted probability of all cows in the validation set and then selected the top and bottom records in varying proportions from 5 to 40% (i.e., where the model predicted the highest versus lowest likelihood of conception to first insemination, respectively) and compared with the actual values. The model's performance was evaluated through herd-year by herd-year external validation and measured as the proportion of selected records being correct. The results show that when more cows are selected (i.e., descending confidence), the accuracy of the models was reduced, and selecting the 10% of cows with the highest confidence of predictions produces optimal accuracy. Irrespective of the proportions, none of the models could predict cows that conceived to first insemination, with an accuracy around 0.48. When attempting to predict the bottom 10% of cows, which had the least likelihood of conception to first insemination, model 1 had prediction accuracy around 0.64. Compared with model 1, the addition of days in milk and calving age (model 2) resulted in a negligible improvement in prediction accuracy (0.01 to 0.03). Model 3 had the highest prediction accuracy (0.76), which implies that in the models tested, MIR is of primary importance in the prediction of fertility of dairy cows. In conclusion, this study indicates that MIR and other milk recording data could be used to identify cows with potential difficulty in getting pregnant to first insemination with promising accuracy.

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“…55,56,60 More recently, mid-infrared (MIR) spectroscopy of milk has shown promise for assessing more complex animal health traits. 27,[61][62][63] It is established that MIR spectral data can be used to screen for subclinical ketosis through identification of ketone bodies in milk 64 and to estimate energy balance in early lactation. 65…”

Section: Evaluation Of Hypocalcemiamentioning

confidence: 99%

Relationship Between Blood Metabolic Profiles and Milk Yield Associated With Parity and Stage of Lactation in Crossbred Dairy Cows in Bangladesh

Naher¹,

Samad²,

Siddiki³

et al. 2019

JVMOHR

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Background: Cattle cross-breeding program has been launched throughout Bangladesh but this program has still focused mainly on biological rather than economic evaluation. Currently, 30000 dairy farms with mainly cross-bred cows are in operation throughout the country and this intensive dairy farming system with high milk yielding dairy cows is supposed to be associated with high incidence of sub-clinical nutritional and metabolic diseases. Objectives: The objective of this study was to detect the relationship between major blood metabolic profiles and milk yield associated with parity and stage of lactation in cross-bred dairy cows. Materials and Methods: Blood samples of 220 apparently healthy lactating cross-bred dairy cows (HF x L, n = 190; SH x L, n = 20 and JS x L, n = 10) of 10 dairy herds were collected for metabolic profile test (MPT) in Bangladesh during the period from July to November 2016. The major metabolic profiles which are associated with milk fever (calcium, phosphorus & magnesium) and ketosis (glucose) were considered in this study. These biochemical parameters were estimated to detect the influence of risk factors including herds, breeds, parities and lactation age of cross-bred lactating dairy cows by using the commercial kits in spectrophotometer method. Results: The evaluation of the biochemical constituents of 220 cross-bred lactating dairy cows revealed that 30% (n = 66) had hypocalcaemia and 20.45% (n = 45) had hypoglycemia. Significantly lower levels of average calcium (7.93 ± 0.36 mg/dl; p < 0.024) and glucose (43.44 ± 3.63 mg/dl; p < 0.0001) values were recorded in HF x L cross-bred dairy herd of BAUDF, Mymensingh in comparison to other investigated nine dairy herds. The highest milk yield was recorded at 7th parity (16 +- 0.91 liter / day) and 1st week of lactation (17.33 +- 1.09 liter / day) were associated with low mean calcium (8.09 +- 0.85 mg / dl; 6.68 +- 0.13 mg/dl) and glucose (36.45 +- 7.67 mg/dl; 32.31 +- 3.90 mg / dl) levels in comparison to the respective values of different parity and lactation weeks. Conclusions: A relationship between blood metabolic profiles and milk yield associated with herd, breed, parity and lactation stages was recorded in lactating crossbred dairy cows. The evaluation of blood metabolites at different stages of lactation cycle especially at transition period is required to detect the nutritional and metabolic health for optimum milk production and to achieve maximum reproductive potential of high yielding dairy cattle. The readily available milk samples could be used as a biological fluid to monitor the health and nutritional status of dairy cows by using mid-infrared (MIR) spectroscopy method to prevent sub-clinical metabolic disorders. Therefore, well developed laboratories with necessary equipment, test kits and reagent should be provided to perform MPT in both the blood and milk samples for practical uses. Keywords: Compton metabolic profile test, Metabolic profile, Lactating cross-bred cows, Calcium, Phosphorus, Magnesium, Glucose, Parity, Lactation stages

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Classifying the fertility of dairy cows using milk mid-infrared spectroscopy

Cited by 29 publications

References 59 publications

Infrared Spectrometry as a High-Throughput Phenotyping Technology to Predict Complex Traits in Livestock Systems

Infrared Spectrometry as a High-Throughput Phenotyping Technology to Predict Complex Traits in Livestock Systems

Predicting the likelihood of conception to first insemination of dairy cows using milk mid-infrared spectroscopy

Relationship Between Blood Metabolic Profiles and Milk Yield Associated With Parity and Stage of Lactation in Crossbred Dairy Cows in Bangladesh

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