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• Herd-level occurrence and risk factors associated with respiratory and enteric pathogens from dairy calves in Ontario: A cross-sectional study

  Umaña Sedó, S.G.; Winder, C.B.; Perry, K.V.; Caswell, J.L.; Mee, J.F.; MacNicol, J.; Renaud, D.L.; Ontario Ministry of Agriculture, Food and Rural Affairs (American Dairy Science Association, 2025-01)

  This cross-sectional herd-level study aimed to determine the occurrence of and risk factors for pathogens associated with neonatal calf diarrhea (NCD) and bovine respiratory disease (BRD) on Ontario dairy farms. From April to August 2022, a convenience sample of 100 dairy farms was visited once. A questionnaire covering farm biosecurity, calving and colostrum management, preweaning nutrition, and housing was administered on-farm. At each farm visit, approximately 5 calves between 2 and 35 d old were randomly selected for fecal sampling. Furthermore, approximately 5 calves between 21 to 122 d old were randomly selected for nasopharyngeal sampling. In total, 363 fecal samples (from 83 dairy farms) and 390 nasopharyngeal swab samples (from 80 dairy farms) were collected. Fecal samples were analyzed individually using a multiplex PCR to identify bacterial and parasitic enteric pathogens. Nasopharyngeal swabs were analyzed as one pooled sample per farm using bacterial culture and real-time PCR. The most common enteric pathogens detected at herd-level were Cryptosporidium parvum (67.4%) and Escherichia coli K99+ (13.2%). The most common respiratory pathogens detected at herd-level were Pasteurella multocida (62.5%), bovine coronavirus (42.5%), and Mycoplasma bovis (21.2%). Multivariable logistic models were built to explore associations between the most common pathogens and herd-level predictors selected from the questionnaire. Herd positivity for C. parvum was positively associated with having more than 61 preweaning calves per year and feeding mainly whole milk to calves. The presence of M. bovis was positively associated with herds that combined manual and automatic milk-feeding systems, and the presence of bovine coronavirus was positively associated with having more than 98 preweaning calves during the year. Univariable Poisson regression models were built to explore the association between the most common pathogens and preweaning calf mortality. Herds that were positive for C. parvum, M. bovis, or bovine coronavirus had a greater risk of preweaning calf mortality. These results provide insights for future research on pathogens associated with NCD and BRD and offer guidance for veterinarians and dairy farmers in implementing disease control measures in dairy calf herds
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  Antimicrobial use in pig herds in Ireland: analysis of a national database (2019–2023)

  Bolton, Julie; O’Neill, Lorcan; Garvan, Caroline; Byrne, Andrew W. (2025-05-02)

  Abstract Background Antimicrobial resistance (AMR) in human and animal pathogens remains a global One-Health threat. The associations between antimicrobial use (AMU) and the evolution and dissemination of AMR bacteria, and their resistance genes, highlight the importance of monitoring and regulating AMU. Here, we present an analysis of national monitoring data of AMU in pig facilities in Ireland from 2019 to 2023 via the recently established National AMU Database. AMU was measured using two metrics (mg per corrected population units (mg/PCU) and defined daily dose (DDDvet/PCU)). Temporal trend models were fit using regression models with population average effects given there were multiple observations per herd, while controlling for herd type and size. Results Linear spline models revealed no significant change in overall usage from Q1-2019 until mid-2020, followed by a significant decrease in usage until mid-2022. There was evidence of increases in usage from mid-2022 until the end of the time series; the exact timing of the changes in trends varied by the AMU metric. A multinomial logit regression model suggested that there was a significantly decreased probability of premix use relative to oral administration from Q3-2021 through Q4-2023 (OR: 0.70 − 0.58; P < 0.03). The predicted probability that a high priority critically important antimicrobial (HPCIA) was used in a herd during a year-quarter declined by an average of 9% per quarter (OR: 0.91; 95% CI: 0.90–0.92; p < 0.001) over the study period. The mean decline in use of cephalosporin (3rd /4th generation), fluoroquinolone and macrolide (a former HPCIA) per quarter were estimated to be -12% (95% CI: -8– -15%), -9% (95% CI: -8– -10%) and − 4% (95% CI: -2– -4%), respectively. Conclusions This exploration of AMU in pigs in Ireland revealed significant changes in overall usage, with both decreases and increases. There were declines in usage of HPCIA agents. Additionally, there was evidence of a significant decline in the use of oral premixes, coinciding with policy change. Further monitoring of AMU is essential to understand how the pig farming sector is responding to policy changes (e.g., increasing AMU in response to zinc oxide bans).
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  Understanding the barriers and enablers to agroforestry adoption in Ireland through an innovation systems approach

  Irwin, Rachel; Short, Ian; Ní Dhubháin, Áine (Elsevier, 2025-07)

  The innovation of agroforestry is relatively new in Ireland, with uptake lagging behind targets. This study aimed to identify the reasoning behind this and identify the main barriers to the uptake of agroforestry. The Innovation Systems Approach was used as the analytical framework to the study whereby a structural-functional analysis was used to identify the main barriers/blocking mechanisms. Thirty-three interviews across all four domains of the innovation system (research, intermediary, enterprise and influencing) were undertaken with actors from the wider agricultural and forestry sectors networks. The results demonstrate the following key failures of the current Irish Agroforestry Innovation system: a low level of knowledge of agroforestry; a lack of research undertaken and capacity; a lack of interaction between actors; policy issues; and a lack of goals within actor organisations in supporting and promoting agroforestry. The paper provides a number of recommendations aimed at reducing the identified failures laid out as a set of goals.
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  Mixed species broadleaved and broadleaved/conifer stands in Great Britain for timber production

  Leslie, Andrew; Short, Ian (Royal Forestry Society, 2025-04)

  Using mixed species stands of broadleaves and of broadleaves and conifers, where broadleaves are the final crop, can be a desirable management option. This can increase overall yield, financial return, improve the quality of timber and increase resilience to damaging abiotic and biotic agents. There are few formal trials of such stands, but there is knowledge of how these can be established and managed, developed through the experiences of forest managers and landowners. This article presents a literature review of mixed stands containing broadleaves, focusing on practice in Great Britain.
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  Semi-dynamic in vitro digestion of honey chlorella vulgaris reveals biochemical and structural insights during gastro-intestinal transit

  Feng, Siyi; Hernández-Olivas, Ever; Sahin, Aylin W.; Giblin, Linda; Brodkorb, André; European Union's Horizon 2020; Teagasc Walsh Scholarship; Science Foundation Ireland; 101059632; 16/RC/3835-VistaMilk (Elsevier BV, 2025-05)

  Concerns about current food systems have prompted increased exploration of sustainable alternative protein sources, such as microalgae. This study investigated honey Chlorella vulgaris, a chlorophyll-deficient mutant, distinguished by its consumer-friendly honey colour, milder flavour and improved texture. To facilitate the nutritional transition towards this source, a standardised in vitro semi-dynamic INFOGEST digestion model was employed to analyse the digestive behaviour of C. vulgaris, focusing on the biochemical and structural changes during in vitro digestion. Gastric digestion was conducted over 67.5 min with dynamic fluid addition and gastric emptying. Results indicated slow gastric digestion of C. vulgaris due to the initially low pepsin activity and low protein solubility. Significant protein breakdown commenced when the pH dropped to 3.5. By the end of the gastric phase, 11.8 % of the protein and 3.0 % of free amine groups were released, generating new peptides of 0.3–1 kDa. Followed by 2 h static intestinal digestion, some cell structures remained intact, indicating a barrier to nutrient release. Pancreatic enzymes caused substantial protein hydrolysis, generating a higher fraction of 0.1–0.3 kDa peptides, with a notable release of essential amino acids as well as phenolic compounds. This study highlighted that protein insolubility and the cell wall structure of C. vulgaris may impede enzyme effectiveness, leading to a reduced protein breakdown. Furthermore, introduction of processing steps may enhance bioaccessibility in microalgae-derived foods, thereby contributing to the development of nutritional and sustainable food productions.

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