Your search keyword '"Kavanagh V"' showing total 11 results

1. Plant Growth Substances.

Author

Robbins, W J and Kavanagh, V

Published

1941

2. Computing Tops Big Spenders

Author

Kavanagh, V.

Subjects

Research and Development, Computer Industry, United States, Survey, Electronic Industry, Japanese Competition, Cost

Published

1985

3. UK Car Makers Fear US Weight

Author

Kavanagh, V.

Subjects

Networks, Automobile Industry, United Kingdom, Contracts, Purchasing Systems, Monopolies, Billing/Invoicing, GE Information Services Inc. -- Contracts

Published

1985

4. Data set showing the development of a hyperspectral imaging technique using LA-ICP-MS to determine the spatial distribution of nutrients in soil cores.

Author

Zaeem M, Nadeem M, Pham TH, Ashiq W, Ali W, Gillani SSM, Moise ERD, Leier H, Kavanagh V, Galagedara L, Cheema M, and Thomas R

Abstract

This data in brief article represents the data set associated with a research article published in Geoderma [1]. The data set represents figures showing the spatial distribution of selected macro and micronutrients, and their quantification in different crop or nutrient management systems practiced in the boreal ecosystem. Spatial distribution of nutrients was measured by laser ablation inductively coupled plasma mass spectrometry (LA‒ICP‒MS), using the new techniques we developed to visualize nutrient distribution in intact soil cores representative of the root rhizosphere. This data article supports the findings published in the main article [1]. This work also demonstrates that LA-ICP-MS is a valuable technique to image the spatial distribution of macro and micronutrients in intact soil cores as affected by different crop management practices., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships which have or could be perceived to have influenced the work reported in this article., (© 2021 Published by Elsevier Inc.)

Published

2021

5. Mass food challenges in a vacant COVID-19 stepdown facility: Exceptional opportunity provides a model for the future.

Author

Byrne AM, Trujillo J, Fitzsimons J, Mohammed T, Ghent R, O'Carroll C, Coghlan D, Hourihane JO, Alsalemi A, Cassidy A, Corbet E, Creighton R, d'Art Y, Farren L, Flanagan R, Flynn N, Franklin R, Gray C, Harding P, Hendrick C, Heraghty F, Hurley S, Kavanagh V, Lad D, Leddy K, Lewis S, McGlynn T, O'Connor D, O'Neill P, O'Shea O, O'Toole A, Quinn R, Reid A, Russell A, Ruth E, Rynne A, Sanneerappa PB, Sheehan M, Thompson C, Tobin C, Trayer J, Wallace A, Walsh N, and Wilson F

Subjects

Allergens, Allergists, Child, Humans, SARS-CoV-2, COVID-19, Pandemics

Abstract

Background: Internationally, the COVID-19 pandemic severely curtailed access to hospital facilities for those awaiting elective/semi-elective procedures. For allergic children in Ireland, already waiting up to 4 years for an elective oral food challenge (OFC), the restrictions signified indefinite delay. At the time of the initiative, there were approx 900 children on the Children's Health Ireland (CHI) waiting list. In July 2020, a project was facilitated by short-term (6 weeks) access to an empty COVID stepdown facility built, in a hotel conference centre, commandeered by the Health Service Executive (HSE), Ireland. The aim of this study was to achieve the rapid roll-out of an offsite OFC service, delivering high throughput of long waiting patients, while aligning with existing hospital policies and quality standards, international allergy guidelines and national social distancing standards., Methods: The working group engaged key stakeholders to rapidly develop an offsite OFC facility. Consultant paediatric allergists, consultant paediatricians, trainees and allergy clinical nurse specialists were seconded from other duties. The facility was already equipped with hospital beds, bedside monitors (BP, pulse and oxygen saturation) and bedside oxygen. All medication and supplies had to be brought from the base hospital. Daily onsite consultant anaesthetic cover was resourced and a resuscitation room equipped. Standardized food challenge protocols were created. Access to the onsite hotel chef facilitated food preparation. A risk register was established., Results: After 6 weeks of planning, the remote centre became operational on 7/9/2020, with the capacity of 27 OFC/day. 474 challenges were commenced: 465 (98%) were completed and 9 (2%) were inconclusive. 135 (29%) OFCs were positive, with 25 (5%) causing anaphylaxis. No child required advanced airway intervention. 8 children were transferred to the base hospital. The CHI allergy waiting list was reduced by almost 60% in only 24 days., Conclusions: Oral food challenges remain a vital tool in the care of allergic children, with their cost saving and quality-of-life benefits negatively affected by a delay in their delivery. This project has shown it is possible to have huge impacts on a waiting list efficiently, effectively and safely with good planning and staff buy-in-even in a pandemic. Adoption of new, flexible and efficient models of service delivery will be important for healthcare delivery in the post-COVID-19 era., (© 2021 The Authors. Pediatric Allergy and Immunology published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published

2021

6. Corn-Soybean Intercropping Improved the Nutritional Quality of Forage Cultivated on Podzols in Boreal Climate.

Author

Zaeem M, Nadeem M, Pham TH, Ashiq W, Ali W, Gillani SSM, Moise E, Elavarthi S, Kavanagh V, Cheema M, Galagedara L, and Thomas R

Abstract

Intercropping systems could be a potential source of nutrient-rich forage production in cool climates on podzolic soils common in boreal ecosystems. In this study, we evaluated the effects of corn-soybean intercropping (IC) on the nutritional quality of forage. Two silage corn varieties were cultivated as monocropping (MC) or were intercropped with three forage soybean varieties using a randomized complete block design. IC significantly increased the crude protein (22%) and decreased the acid detergent (14%) and neutral detergent (6%) fibers. Forage net energy, total digestible nutrients, ash, dry matter intake, digestible dry matter and relative feed value were also significantly increased ( p ≤ 0.05) in the IC treatments compared to corn MC. The macro and micro nutrients were higher in IC than corn MC. Intercropping increased the omega 3 fatty acid (FA) contents (67%) compared to corn MC. IC also increased the active microbial community in the plant root zone, which may contribute to the improvement in forage nutritional quality because the active soil microbial community composition showed significant correlations with soluble sugars, soluble proteins and potassium contents of the forage. These results demonstrate that corn-soybean IC could be a suitable cropping system to increase the nutritional quality of forage cultivated on podzols in boreal climates. The resultant forage has the potential to be a source of high-value animal feed for livestock production in cool climate regions of the world., Competing Interests: The authors declare no conflicts of interest.

Published

2021

7. Biochar amendment mitigates greenhouse gases emission and global warming potential in dairy manure based silage corn in boreal climate.

Author

Ashiq W, Nadeem M, Ali W, Zaeem M, Wu J, Galagedara L, Thomas R, Kavanagh V, and Cheema M

Subjects

Carbon, Carbon Dioxide analysis, Charcoal, Global Warming, Manure, Methane analysis, Nitrous Oxide analysis, Silage, Soil, Zea mays, Greenhouse Gases

Abstract

About 11% of the global anthropogenic greenhouse gases (GHGs) emissions result from agricultural practices. Dairy manure (DM) application to soil is regarded as a best management practice due to C sequestration and improvement of soil physiochemical properties. However, GHGs emissions from the soil following the DM application could offset its advantages. Biochar (BC) is known to affect N transformation and GHGs emissions from soil. There had been considerably less focus on the BC amendment and its effects on GHGs emissions following DM application under field conditions. The objectives of this study were; i) to determine the temporal patterns and cumulative GHGs fluxes following DM and inorganic nitrogen (IN) application and, ii) to investigate BC amendment impact on DMY, GWP, direct N 2 O emission factor (EF d ) and the response of CH 4 emissions (RC) in DM based silage corn. To achieve these objectives a two-year field experiment was conducted with these treatments: 1) DM with high N conc. (DM 1 : 0.37% N); 2) DM with low N conc. (DM 2 : 0.13% N); 3) IN; 4) DM 1 +BC; 5) DM 2 +BC; 6) IN + BC; and 7) Control (N 0 ); and were laid out in randomized complete block design with four replications. BC amendment to DM 1 , DM 2 and IN significantly reduced cumulative CO 2 emission by 16, 25.5 and 26.5%, CH 4 emission by 184, 200 and 293% and N 2 O emission by 95, 86 and 93% respectively. It also reduced area-scaled and yield-scaled GWP, EF d , RC and enhanced DMY. Thus, BC application showed great potential to offset the negative effects of DM application i.e GHGs emissions from the silage corn cropping system. Further research is needed to evaluate soil organic carbon and nitrogen dynamics (substrates for GHG emissions) after DM and BC application on various soil types and cropping systems under field conditions., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2020. Published by Elsevier Ltd. All rights reserved.)

Published

2020

8. Canola produced under boreal climatic conditions in Newfoundland and Labrador have a unique lipid composition and expeller press extraction retained the composition for commercial use.

Author

Sey AA, Pham TH, Kavanagh V, Kaur S, Cheema M, Galagedara L, and Thomas R

Abstract

The average fatty acid (FA) composition of canola oil is made up of 62% oleic acid (C18:1n9), 19% linoleic acid (C18:2n6), 9% linolenic acid (C18:3n3) and 7% saturated FA (SFA). We investigated whether boreal climate (7.5-17.2 °C) favorably altered the FA composition of canola. Results indicate that canola cultivated in boreal climatic conditions had approximately twice the levels of omega-3 FA (17-20%) compared to canola from other growing areas (9%). The presence of monoacetyldiacylglycerol (MAcDG), a unique class of triglyceride, is reported for the first time in canola cultivated in a boreal climate, and has the potential to reduce the risk of obesity and other health related diseases. We further demonstrated that a non-solvent based extraction method retained the novel lipid composition without reducing the quality of oil being produced. Our results contribute significantly to the understanding of lipid accumulation in the world's second most important oil crop when cultivated in a boreal or northern climate., Competing Interests: The authors declare no conflict of interest., (© 2020 Production and hosting by Elsevier B.V. on behalf of Cairo University.)

Published

2020

9. Potential role of root membrane phosphatidic acid in superior agronomic performance of silage-corn cultivated in cool climate cropping systems.

Author

Nadeem M, Pham TH, Thomas R, Galagedara L, Kavanagh V, Zhu X, Ali W, and Cheema M

Subjects

Biomass, Crops, Agricultural genetics, Crops, Agricultural growth & development, Genotype, Plant Leaves growth & development, Silage, Zea mays genetics, Phosphatidic Acids chemistry, Plant Roots chemistry, Zea mays growth & development

Abstract

The literature is replete with information describing the composition of the root lipidome in several plant species grown under various environmental conditions. However, it is unknown to what extent the root membrane lipidome vary between silage-corn genotypes, and how such variation could influence agronomic performances during field cultivation in cool climate. To address this issue, the root membrane lipidome and agronomic performance were assessed for five silage-corn genotypes (Fusion-RR, Yukon-R, A4177G3-RIB, DKC23-17RIB, DKC26-28RIB) cultivated under cool climatic conditions. Leaf area, plant height and biomass production were used as agronomic performance indicators. Varieties DKC26-28RIB and Yukon-R expressed significantly higher leaf area, plant height and biomass production compared to the other genotypes. A strong positive Spearman rank-order correlation (P = 0.001) was observed between biomass production and root phosphatidic acid (PA). The high correlation observed between PA and agronomic performance indicates PA could potentially be used as biomarker to assist in the selection of silage-corn genotypes with superior agronomic performance ideally suited for field cultivations in cool climatic conditions., (© 2018 Scandinavian Plant Physiology Society.)

Published

2019

10. The effects of organic and inorganic phosphorus amendments on the biochemical attributes and active microbial population of agriculture podzols following silage corn cultivation in boreal climate.

Author

Ali W, Nadeem M, Ashiq W, Zaeem M, Gilani SSM, Rajabi-Khamseh S, Pham TH, Kavanagh V, Thomas R, and Cheema M

Subjects

Biological Availability, Cold Climate, Manure, Microbiota, Newfoundland and Labrador, Rhizosphere, Silage, Soil chemistry, Soil Microbiology, Zea mays growth & development, Crop Production methods, Fertilizers, Phosphorus, Zea mays metabolism

Abstract

Phosphorus (P) is the second most important macronutrient that limits the plant growth, development and productivity. Inorganic P fertilization in podzol soils predominantly bound with aluminum and iron, thereby reducing its availability to crop plants. Dairy manure (DM) amendment to agricultural soils can improve physiochemical properties, nutrient cycling through enhanced enzyme and soil microbial activities leading to improved P bioavailability to crops. We hypothesized that DM amendment in podzol soil will improve biochemical attributes and microbial community and abundance in silage corn cropping system under boreal climate. We evaluated the effects of organic and inorganic P amendments on soil biochemical attributes and abundance in podzol soil under boreal climate. Additionally, biochemical attributes and microbial population and abundance under short-term silage corn monocropping system was also investigated. Experimental treatments were [P 0 (control); P 1 : DM with high P 2 O 5 ; P 2 : DM with low P 2 O 5 ; P 3 : inorganic P and five silage-corn genotypes (Fusion RR, Yukon R, A4177G3RIB, DKC 23-17RIB and DKC 26-28RIB) were laid out in a randomized complete block design in factorial settings with three replications. Results showed that P 1 treatment increased acid phosphatase (AP-ase) activity (29% and 44%), and soil available P (SAP) (60% and 39%) compared to control treatment, during 2016 and 2017, respectively. Additionally, P 1 treatments significantly increased total bacterial phospholipids fatty acids (ΣB-PLFA), total phospholipids fatty acids (ΣPLFA), fungi, and eukaryotes compared to control and inorganic P. Yukon R and DKC 26-28RIB genotypes exhibited higher total bacterial PLFA, fungi, and total PLFA in their rhizospheres compared to the other genotypes. Redundancy analyses showed promising association between P 1 and P 2 amendment, biochemical attributes and active microbial population and Yukon R and DKC 26-28RIB genotypes. Pearson correlation also demonstrated significant and positive correlation between AP-ase, SAP and gram negative bacteria (G - ), fungi, ΣB-PLFA, and total PLFA. Study results demonstrated that P1 treatment enhanced biochemical attributes, active microbial community composition and abundance and forage production of silage corn. Results further demonstrated higher active microbial population and abundance in rhizosphere of Yukon R and DKC 26-28RIB genotypes. Therefore, we argue that dairy manure amendment with high P 2 O 5 in podzol soils could be a sustainable nutrient source to enhance soil quality, health and forage production of silage corn. Yukon R and DKC 26-28RIB genotypes showed superior agronomic performance, therefore, could be good fit under boreal climatic conditions.

Published

2019

11. The potential of corn-soybean intercropping to improve the soil health status and biomass production in cool climate boreal ecosystems.

Author

Zaeem M, Nadeem M, Pham TH, Ashiq W, Ali W, Gilani SSM, Elavarthi S, Kavanagh V, Cheema M, Galagedara L, and Thomas R

Subjects

Climate, Cold Temperature, Crop Production methods, Crops, Agricultural metabolism, Hydrogen-Ion Concentration, Phosphorus metabolism, Plant Roots growth & development, Plant Roots metabolism, Reproducibility of Results, Rhizosphere, Soil Microbiology, Glycine max metabolism, Zea mays metabolism, Agriculture methods, Biomass, Crops, Agricultural growth & development, Ecosystem, Soil chemistry, Glycine max growth & development, Zea mays growth & development

Abstract

Intercropping (IC) is a promising approach used to improve soil health and sustainable crop production. However, it is unknown whether IC improve the soil health status and biomass productivity of crops cultivated in podzols under cool climate in boreal ecosystems. Two silage corn and three forage soybean genotypes were cultivated either as inter or monocrop (MC) treatments in a randomized complete block design. IC resulted in 28% increase in total forage production (FP). A reduction in rhizosphere soil pH (RS-pH) was observed in the IC treatments. Conversely, the rhizosphere soil acid phosphatase (RS-APase) activity was significantly higher (26-46%) in the IC treatments and occurred concomitant with a significant increase in available phosphorus (RS-P available ) (26-74%) in the rhizosphere. Furthermore, IC enhanced the active microbial composition and strong positive correlations were observed between RS-P available , RS-APase, microbial biomass and FP; while RS-pH was negatively correlated with FP, RS-APase and RS-P available . These findings suggested silage corn intercropped with forage soybean could be a viable approach to enhance FP through improved active microbial community structure, RS-APase activity and RS-P available when cultivated on podzols in cool climate boreal ecosystem.

Published

2019