Search Results (1,763)

Heat stress (HS) is among the most economically consequential environmental challenges to global dairy production, causing progressive declines in milk yield, compositional quality, and mammary cellular integrity. The temperature–humidity index (THI) is the primary thermal load metric, with performance-impairment thresholds typically beginning at THI 68 in Holstein cattle, with severe impacts manifesting beyond THI 72; breed-specific thresholds for Jersey, Brown Swiss, and Simmental cows differ owing to their lower metabolic heat load and greater inherent thermotolerance. At the molecular level, HS activates heat shock protein networks—notably HSPA1A, HSP90B1, and HSPH1—through HSF1/HSF4 transcriptional activation, while simultaneously suppressing casein genes (CSN1S1, CSN2, CSN3), lipogenic genes (FASN, SCD, CD36), amino acid transporters (SLC7A5, SLC38A2), and mTOR-AKT-STAT5 translational machinery, collectively impairing milk biosynthetic capacity. Pro-apoptotic signaling (BAX, CASP3 upregulation; BCL2 downregulation) and mitochondrial dysfunction further compromise mammary epithelial viability. Post-transcriptional regulation through miRNA, circRNA, and lncRNA competing endogenous RNA networks, alongside epitranscriptomic m6A modifications, adds further regulatory complexity. Genome-wide association studies have identified SNPs in HSP70A1A, HSPA4, TLR4, and PRLR as thermotolerance candidates compatible with sustained milk production. Nutritional supplementation with methionine, arginine, and taurine partially restores cellular synthetic capacity. Integrating multi-trait genomic selection with Bos indicus introgression, precision cooling, and targeted nutrition offers the most viable path toward climate-resilient, high-producing dairy cattle. Full article

This study investigated the effects of red grape pomace powder (GPP) on spontaneously fermented salamis produced from the meat of retired cows and young bulls of the Cinisara dairy breed. The use of GPP and meat from these animal categories was motivated by the valorization of low-commercial-value agri-food resources and the enhancement of sustainable local production chains. Plate count analyses showed typical fermentation dynamics, with lactic acid bacteria (LAB), coagulase-negative staphylococci, and yeasts reaching approximately 7 log CFU/g, and confirmed the absence of major foodborne pathogens. Illumina sequencing further characterized the bacterial community, identifying Latilactobacillus as the dominant genus at the end of ripening, with relative abundance (RA) of up to 65% in GPP-enriched trials. Physicochemical analyses showed progressive changes during ripening, including weight loss, pH decrease, color development, and increased proteolysis. GPP supplementation contributed to the stabilization of a*, chroma, and hue values, while reducing lightness during ripening. Oxidative stability measurements showed that GPP derived polyphenols effectively limited oxidative reactions, especially secondary lipid oxidation. GPP also modulated the volatile profile by increasing ester formation and introducing plant-derived compounds. Sensory evaluation revealed higher color intensity and aroma in enriched salamis, along with higher bitterness and lower structural homogeneity, especially in those produced from retired cows. Consumer surveys conducted in two retail settings indicated strong interest in this innovation, with over 80% of respondents willing to pay a 10–20% price premium. Overall, GPP emerges as a promising functional ingredient for enhancing, diversifying, and valorizing fermented salamis produced from dairy cattle meat, supporting both product innovation and sustainability-oriented strategies. Full article

Bovine mastitis is a major infectious disease in dairy cattle, causing significant economic losses and compromising animal health and milk quality worldwide. Among its etiological agents, Staphylococcus aureus is a key contagious pathogen due to its ability to establish persistent intramammary infections and evade host immune responses and antimicrobial therapy. This review summarizes current knowledge on the epidemiology, pathogenesis, clinical presentation, diagnosis, and control of S. aureus in bovine mastitis. Particular emphasis is placed on virulence mechanisms, including adhesion, intracellular persistence, biofilm formation, and immune evasion, which contribute to chronic and recurrent infections. The increasing prevalence of antimicrobial resistance, including methicillin-resistant and multidrug-resistant strains, is highlighted as a major challenge limiting treatment efficacy and posing risks within a One Health context. The review also discusses emerging alternative therapies and innovative control strategies, such as anti-biofilm approaches, immunomodulation, and improved diagnostics, aimed at reducing antimicrobial use. Advances in molecular and point-of-care diagnostic tools are considered for their role in early detection and targeted interventions. Overall, effective control of S. aureus mastitis requires integrated strategies combining prudent antimicrobial use, alternative therapies, improved hygiene, and a multidisciplinary One Health approach. Full article

This narrative review summarizes evidence on the bovine β-casein (CSN2) A1/A2 polymorphism as a case study of how intensive dairy selection and global gene flow can reshape allele frequencies in ways that matter for consumers, processing and agroecological resilience. We draw together evidence from (i) population-genetic surveys of CSN2 in contrasting cattle populations, including a descriptive summary of published genotype-frequency studies; (ii) controlled human studies that separate A1-containing from A2-only dairy exposure; and (iii) dairy technology and the authenticity literature relevant to identity-preserved A2 value chains. Across intensively selected Holstein-Friesian populations, A1 was consistently present at substantial frequency (approximately one-third), whereas indigenous, beef and zebu-adjacent populations were typically A2-enriched, highlighting the role of historical breed formation and modern introgression in shaping apparent geographic and climatic patterns. Human intervention studies most consistently support improved short-term gastrointestinal tolerance with A2-only milk in susceptible individuals, while evidence for longer-horizon systemic outcomes remains mixed and insufficient for causal disease claims. Processing and analytical studies suggest that β-casein genotype can modestly affect coagulation and product behavior in a context-dependent manner and that validated proteoform quantification coupled with traceability is essential for credible A2 labeling at scale. We discuss implications for breeding programs, including staged A2 selection that avoids performance trade-offs, and emphasize governance of artificial insemination and supply-chain segregation as levers to limit inadvertent allele diffusion while supporting climate-relevant genetic resources in locally adapted breeds. Collectively, the reviewed evidence suggests that A1/A2 β-casein can be usefully interpreted within a One Health framework spanning animal genetics, dairy systems and human tolerance research. Full article

Dairy farms are complex environments where cattle, workers, and the farm environment interact, creating opportunities for infectious disease transmission across animal, human, and environmental interfaces. During the COVID-19 pandemic, little was known about dairy farmers’ knowledge, attitudes, and practices (KAP) regarding integrated livestock biosecurity and worker biosafety. This study aimed to develop and demonstrate the application of an integrated biosecurity–biosafety KAP questionnaire and pilot test for dairy farms. A novel English and Spanish version of the questionnaire was developed using published biosecurity literature, zoonosis-related studies, expert input, and existing dairy biosecurity tools. From June 2020 to August 2021, 18 Front Range Colorado dairy farms were contacted, and 6 farms enrolled. Data were collected from 50 participants, analyzed descriptively; selected associations were examined using Chi-square or Fisher’s exact tests, odds ratios, and 95% confidence intervals. The final questionnaire captured integrated KAP on livestock biosecurity, zoonoses, biosafety, and COVID-19. Important knowledge gaps were identified, particularly regarding human-to-animal disease transmission and zoonoses training. Supervisors generally demonstrated broader knowledge than workers and organic farms showed higher knowledge levels than conventional farms. Veterinarians were highly trusted information sources. Training was associated with improved zoonosis-related knowledge, and several animal-focused and human-focused preventive practices were significant. This study demonstrates the feasibility and value of an integrated dairy farm biosecurity–biosafety KAP tool and highlights the need for tailored, bilingual, One Health-oriented training. Full article

Due to the substantial secretory burden, bovine mammary epithelial cells (BMECs) are highly susceptible to endoplasmic reticulum (ER) stress caused by the accumulation of misfolded proteins when protein-folding capacity is overwhelmed. However, how ATF3 regulates ER stress-induced impairment of milk synthesis and apoptosis in BMECs, particularly through its direct transcriptional targets, remains poorly understood. In this study, we investigated the protective role of activating transcription factor 3 (ATF3) against ER stress-induced impairment of milk synthesis in BMECs. Using a tunicamycin-induced ER stress model, we overexpressed ATF3 in BMECs and performed integrated RNA-seq and ChIP-seq analyses to elucidate the underlying molecular mechanisms. Our results indicated that ER stress disrupted milk protein and fat synthesis in BMECs by suppressing the expression of CSN2, FASN, FABP3 and promoting apoptosis via upregulation of BAX and CASP3. ATF3 overexpression effectively attenuated these effects, reducing apoptosis and restoring the expression of milk fat-related genes. Transcriptomics demonstrated that ATF3 activated MAPK and PI3K-Akt signaling and lipid metabolism pathways, significantly upregulating key genes involved in fatty acid uptake, transport, and metabolism (CD36, SLC27A1, ACSL1, PLIN1). Integrated RNA-seq and ChIP-seq analyses identified 81 overlapping genes, with RASGRP2, PRKACB, MAP3K5, and DUSP10 confirmed as direct transcriptional targets of ATF3, mediating its regulation of the MAPK pathway. Collectively, these findings elucidate the protective role of ATF3 against ER stress-induced lactation disruption and offer potential molecular targets for enhancing lactation resilience in dairy cattle under stress. Full article

Toxoplasma gondii and Neospora caninum are apicomplexan parasites infecting cattle, with implications for public health and livestock productivity, respectively. Since effective vaccines against these parasites are not currently available, identifying epidemiological factors associated with infection is important for improving control strategies. This study aimed to estimate the seroprevalence of both parasites and to identify factors associated with seropositivity in intensive dairy cattle in central Chile. A cross-sectional study was conducted using serum samples from 567 cattle, analyzed by ELISA. Epidemiological data were collected through semi-structured surveys, and associations with seropositivity were evaluated using multivariable logistic regression models, including mixed-effects models to account for farm-level clustering. Seroprevalence was 7.6% for T. gondii and 22.4% for N. caninum. For T. gondii, factors associated with seropositivity included older age categories (OR = 7.09; 11.25) and the presence of dogs in pens (OR = 6.07). For N. caninum, straw bedding use (OR = 5.13) and cat presence (OR = 6.32) were associated with higher odds of seropositivity. An additional association with lower N. caninum seropositivity was observed for BCG vaccination (OR = 0.24). These findings provide updated epidemiological data for dairy cattle in Chile. The association observed with BCG vaccination should be interpreted cautiously, as the study design does not permit causal inference. Full article

Tail alterations represent an animal welfare concern in dairy cows. The objective of the present study was to identify the risk factors associated with the presence of deviated and shortened tails on 765 German dairy farms. Farm visits, questionnaires, and analyses of milk yield records were conducted, and regression analyses were performed at the animal- and farm-level. At the farm level, a higher percentage of deviated tails in farms was associated with deep cubicles, a higher average oblique rump length of the five largest cows in tie stalls, a higher care ratio, and German Holstein as the predominant breed. At the animal level, lameness in loose housing and higher parity were associated with a higher percentage of deviated tails. The presence of shortened tails was associated with the percentage of deviated tails, as well as with the presence of manure scrapers in loose housing at the farm level, as well as with the higher fat-to-protein ratio in milk at the animal level. The occurrence of tail deviations was associated with health and management factors, while shortened tails were associated with acute injuries or metabolic disorders. Performing longitudinal studies would improve the understanding of the pathogenesis of tail alterations. Full article

The Moon is at the centre of many popular beliefs, including the notion that the number of parturitions increases during Full Moon days, a belief widely held among breeders to anticipate calving periods. However, this association has been rarely explored in dairy cattle farming. This retrospective study was conducted to evaluate the association between the lunar cycles and calving distribution, with particular focus on a potential increase during full-moon nights. Data from 383,926 calvings of Montbéliard breed, recorded between March 2022 and January 2025, mostly in Franche-Comté (98.2%), France, were analyzed using a Generalized Linear Model (GLM). Results revealed a significant association between the lunar cycle and calving distribution. Model-adjusted means were significantly higher than the overall mean during the New Moon and the Last Quarter phases (+2.6%, p < 0.05), and significantly lower during the Full Moon phase (−3.1%, p < 0.01). At the synodic day level, days 21 and 29 presented the highest model-adjusted means (+23.2% and +23.4% above the overall mean, respectively; p < 0.001), while days 4 and 15 presented the lowest (−35.2% and −31.1%, respectively; p < 0.001). Across all seasons, a consistent trend toward increased calving frequency was observed during the New Moon phase, reaching statistical significance only in Spring (+5.7%, p < 0.05). These findings may offer potential implications for veterinarians and breeders, particularly when considering approaches to ensure adequate colostrum intake, which may contribute to improving management of parturition periods. Full article

In recent years, brushes have been increasingly implemented on dairy farms to improve animal welfare, health, and productivity. This study presents a narrative review of scientific studies published over the past decade, selected based on their evaluation of brushing effects on behavioral, physiological, and production parameters in dairy cattle. The evidence consistently indicates that access to brushes increases grooming behavior and is associated with reductions in stress-related indicators, supporting improved animal welfare. In addition, brush use has been linked to improved hygiene and may serve as a non-invasive behavioral indicator of health status, as reduced usage has been associated with conditions such as metritis and lameness. In contrast, evidence regarding productive responses remains more variable. Some studies report increases in milk yield and changes in milk composition; however, these effects are not consistently observed and appear to depend on factors such as animal characteristics, management conditions, brush accessibility, and study design. Overall, brushing appears to be a promising enrichment strategy, but further standardized and long-term research is required to better establish its effects on production and reproductive performance. Full article

The demand for functional dairy products is increasing, in response to the adverse correlation between high saturated fat consumption and cardiovascular health problems. The present study investigated the physicochemical and sensory features of a prototype of functional reduced-fat Mozzarella cheese fortified with inulin made from milk obtained by integrating the cattle diet with laurel essential oil (LEO). Two samples were compared over a 10-day storage period: a whole-milk Mozzarella cheese (MC), and a reduced-fat Mozzarella cheese fortified with 10% (w/v) of inulin (MI). The results show that incorporating inulin during the stretching phase required more time (2.55 min longer) to obtain the final product. However, in addition to a 5% fat decrease, the MI cheese achieved an inulin content of 3.31%, satisfying the European Regulation No 1924/2006, for the “Source of Fiber” claim. On the other hand, from a nutritional perspective, the dietary LEO integration significantly modulated the lipid fraction of the sample, resulting in a 40% increase in monounsaturated fatty acids (MUFAs) and a marked enrichment in polyunsaturated fatty acids (PUFAs). Considering the texture attributes, the incorporation of inulin during the stretching phase led to the formation of a micro-gel that acted as a functional filler, resulting in significantly higher hardness (33.41 N for MI and 16.10 N for MC), throughout the 10-day storage period. Temporal Check-All-That-Apply (TCATA) analysis confirmed that while the MI sample introduced vegetable and cooked milk notes, MI maintained major textural integrity throughout the shelf-life. These findings demonstrate that the synergy between inulin fortification and dietary laurel essential oil supplementation represents a highly effective strategy for producing reduced-fat pasta filata cheeses. This dual approach not only preserves sensory and textural integrity but also yields a high-value functional product characterized by an optimized fatty acid profile and a significant fiber intake. Full article

Background/Objectives: Antimicrobial resistance (AMR) is a global health threat, with raw milk serving as a potential reservoir for antimicrobial resistance genes (ARGs) and mobile genetic elements (MGEs). This study characterized the resistome and mobilome of raw milk from cows (Bos taurus) and water buffalo (Bubalus bubalis) in the Brazilian Amazon, a region where unpasteurized dairy consumption is culturally ingrained. Methods: Using shotgun metagenomic sequencing, we analyzed 32 pooled milk samples from extensive and semi-intensive farms in the Manaus Metropolitan Region. Results: Sequencing yielded over 3.1 million contigs. While cow milk showed a higher prevalence of positive samples (80%), buffalo milk exhibited a significantly higher abundance and diversity of ARG-associated contigs (301 contigs vs. 85 in cows). Clinically relevant genes were identified, including AbaQ, ArnT, and KpnF, alongside complex multi-AMR cassettes co-occurring with plasmids and widespread viral sequences (dominated by Caudoviricetes). Integrons were ubiquitous in cattle and highly prevalent in buffalo samples. Conclusions: These findings indicate that raw milk in the Amazon harbors a rich reservoir of resistance determinants and MGEs, likely driven by farm-level antibiotic usage. This underscores a critical food safety risk and highlights the need for One Health-based surveillance in the region. Full article

Nowadays, it is central to generate innovations that convert agricultural by-products and food waste into valuable animal products while promoting the long-term resilience and sustainability of vulnerable animal production systems. Nutraceuticals (i.e., ‘nutrition + pharmaceutical’) are derived from foods that offer health benefits. In animal production, nutraceutical supplementation with Withania somnifera and Lepidium meyenii has shown positive effects on the endocrine, cardiopulmonary, and central nervous systems. We aimed to evaluate the possible impact of nutraceutical supplementation on rams fed a diet based on surplus feed from a highly industrialized Holstein cow production system, on corporal (live weight [LW], kg; body condition score [BCS], units), metabolic (blood glucose [GLU], mg dL⁻¹; serum protein [PRO], g 100 mL⁻¹), and sexual–testicular variables [sexual odor (ODOR, units); scrotal circumference (SC, cm); testicular volumes (TVOL, cm³); and estimated daily sperm production (EDSP, millions)]. Black Belly rams (n = 12; LW = 70.36 ± 1.2 kg; BCS = 2.96 ± 0.03 units; age = 3.8 ± 0.2 years; 25° N) were divided into 3 experimental groups: (1) WITH, supplemented with Withania somnifera (400 mg kg⁻¹ LW d⁻¹); (2) LEPI, supplemented with Lepidium meyenii (400 mg kg⁻¹ LW d⁻¹); and (3) CONT, not supplemented. The variables LW, BCS, GLU, PRO, and SC, as well as some components of TVOL, did not differ (p > 0.05) among the main effects of treatment or time; only ODOR, right transverse testicular diameter, and total testicular volume differed among treatments, generally favoring the WITH group. Furthermore, the TRT × T interaction demonstrated superior performance (p < 0.05) in the WITH group, with the largest values for LW, GLU, PRO, ODOR, SC, width of the right testicle, volume of the right testicle, total testicular volume, and EDSP. From a productive–reproductive perspective, the Robin Hood Effect—through the use of rejected dairy cattle rations as the base diet for rams—and supplemented with nutraceuticals (WITH and LEPI), emerges as a viable alternative to improve not only the productive–reproductive performance of Black Belly rams, but also other productive and socioeconomic outcomes; the latter contributing to the strengthening of producer and family well-being. Full article

This study was conducted in Northwest Ethiopia in 2025 to estimate genetic parameters for dairy cattle hybrids under a group-based mass selection scheme. The objective was to investigate lactation milk yield (MY), lactation length (LL), and key fitness traits across varying breed compositions, aligned with suitable agro-ecological zones and milkshed systems. The findings may then serve as a framework to develop economically efficient and sustainable dairy genotypes tailored to the region. Data were collected from 355 dairy households using semi-structured questionnaires and monthly monitoring of MY. A mass selection scheme was applied to evaluate the productive and reproductive performance of Holstein-Friesian (HF) and Jersey hybrids across varying levels of exotic breed compositions. To identify superior genotypes, a total merit index (TMI) was developed, utilizing economic weights of +0.20 for production traits and −0.12 for reproductive traits. General liner model (GLM) analyses were performed to evaluate the performance of different breeds and exotic breed composition. Realized genetic parameters including genetic correlations (rg) as an indicator of pleiotropy, genetic gain (GG) per trait, and aggregate genetic response (AGG) were estimated for each group using specialized procedures in R software. Breed type (stratified by exotic breed composition), agro-ecology zone, and milkshed system were defined as the main and sub-fixed effects. The genetic contribution to the performance of hybrids indicated that the Holstein-Friesian (HF) hybrid baseline scheme achieved significantly higher efficiency, with an aggregate genetic gain) (AGG) of 155.50, compared with 136.03 for the Jersey hybrid schemes. Specifically, the >75% HF hybrid group exhibited the highest predicted AGG (183.00), a result primarily underpinned by significant gains in MY (182.53 L) and extended LL (0.28 months). This indicated that higher exotic breed composition in HF crosses maximizes the genetic gain when selection is weighted toward productivity. Conversely, the 62.5% Jersey hybrid exhibited the lowest AGG (110.38) and GG for MY (109.86 L), indicating that intermediate Jersey breed compositions may be suboptimal under the studied conditions. Analysis of interaction effects revealed environment-specific superiorities: in the Bahir Dar midland milkshed, the >75% HF hybrids achieved the highest genetic gains in MY (182.53 L) and a superior AGG (181.34). In contrast, within the Gondar midland milkshed, >75% Jersey hybrids reached the highest overall AGG (177.11), with a corresponding GG for MY of 178.75 L per lactation. The observed variance in MY (δ² = 362.44) indicated significant potential for genetic improvement through group-based selection. Pleiotropy was identified between MY and LL (r_g = 0.14), whereas an antagonistic trade-off was observed between maturity and conception efficiency (r_g = −0.34). The consistent upward trend in the performance of hybrids as breed composition increased from 50% to >75% across both main and sub-effects suggests that these genotypes are suited to the environment. In conclusion, single- and multiple-trait predictions based solely on breed and breed comparisons were suboptimal; instead, selection strategies incorporating genotype-by-environment (G × E) interactions offered the most effective alternative for regional dairy selection alternatives. Full article

Livestock farming represents a key economic activity in the Tataouine Governorate of southern Tunisia, where cattle and dromedary camels coexist. Varicellovirus bovinealpha1 (BoAHV-1), the etiological agent of infectious bovine rhinotracheitis (IBR), primarily affects cattle, while its circulation in camelids remains poorly understood. Following recent European Union regulations requiring BoAHV-1 surveillance in multiple animal species, this short communication reports serological findings from dairy cattle and dromedary herds in southern Tunisia. In March 2024, serum samples were collected from four non-vaccinated farms, including two intensive Friesian dairy cattle herds and two extensive dromedary herds (50 animals each). Serum samples from all animals were tested for BoAHV-1 antibodies using competitive commercial gB- and gE-based enzyme-linked immunosorbent assays (c-ELISA) and confirmed by virus neutralization test (VNT). Antibodies against BoAHV-1 were detected in cattle from both dairy farms, with low seroprevalence and neutralizing antibody titers, indicating past or ongoing exposure. In contrast, all dromedary samples tested seronegative by both c-ELISA and VNT. These findings confirm BoAHV-1 circulation in cattle in the Tataouine region and its absence in dromedaries at sampling. Further studies involving larger sample sizes and molecular investigations are required to clarify the potential role of camelids in BoAHV-1 epidemiology in southern Tunisia. Full article