Institution
Memorial University of Newfoundland
Education•St. John's, Newfoundland and Labrador, Canada•
About: Memorial University of Newfoundland is a education organization based out in St. John's, Newfoundland and Labrador, Canada. It is known for research contribution in the topics: Population & Gadus. The organization has 13818 authors who have published 27785 publications receiving 743594 citations. The organization is also known as: Memorial University & Memorial University of Newfoundland and Labrador.
Topics: Population, Gadus, Health care, Poison control, Atlantic cod
Papers published on a yearly basis
Papers
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University of Salford1, University of Queensland2, University of Western Australia3, Queensland University of Technology4, University of Lausanne5, Wildfowl & Wetlands Trust6, Canadian Parks and Wilderness Society7, University of Évora8, University of Freiburg9, University of Melbourne10, University of Plymouth11, Mississippi State University12, Australian Institute of Marine Science13, Griffith University14, Zurich University of Applied Sciences/ZHAW15, University of British Columbia16, Duke University17, Finnish Environment Institute18, University of Adelaide19, King Fahd University of Petroleum and Minerals20, IFREMER21, University of California, Davis22, Technical University of Madrid23, National Institute of Water and Atmospheric Research24, Memorial University of Newfoundland25, Royal Society for the Protection of Birds26, University of Kansas27, University of California, Merced28, University of the Sunshine Coast29, Nelson Mandela Metropolitan University30, Swedish University of Agricultural Sciences31, University of Grenoble32, Oregon State University33, Gulf of Maine Research Institute34, University of Toronto35, University of Georgia36, Newcastle University37, Parks Canada38, Humboldt University of Berlin39
TL;DR: Of high importance is the identification of a widely applicable set of transferability metrics, with appropriate tools to quantify the sources and impacts of prediction uncertainty under novel conditions.
Abstract: Predictive models are central to many scientific disciplines and vital for informing management in a rapidly changing world However, limited understanding of the accuracy and precision of models transferred to novel conditions (their ‘transferability’) undermines confidence in their predictions Here, 50 experts identified priority knowledge gaps which, if filled, will most improve model transfers These are summarized into six technical and six fundamental challenges, which underlie the combined need to intensify research on the determinants of ecological predictability, including species traits and data quality, and develop best practices for transferring models Of high importance is the identification of a widely applicable set of transferability metrics, with appropriate tools to quantify the sources and impacts of prediction uncertainty under novel conditions
358 citations
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Radcliffe Institute for Advanced Study1, University of St Andrews2, Max Planck Society3, University of Konstanz4, Memorial University of Newfoundland5, King Abdullah University of Science and Technology6, Yale University7, Aarhus University8, University of La Rochelle9, North Carolina State University10, North Carolina Museum of Natural Sciences11, Goethe University Frankfurt12, Boston University13, Radboud University Nijmegen14
TL;DR: Reduced human mobility during the pandemic will reveal critical aspects of the authors' impact on animals, providing important guidance on how best to share space on this crowded planet.
Abstract: Reduced human mobility during the pandemic will reveal critical aspects of our impact on animals, providing important guidance on how best to share space on this crowded planet
357 citations
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TL;DR: Macrocyclic dicopper(II) complexes derived from 2,6-di(R)formylphenols and various linking diamines are surveyed and their magnetic and structural properties assessed.
Abstract: Macrocyclic dicopper(II) complexes derived from 2,6-di(R)formylphenols and various linking diamines are surveyed and their magnetic and structural properties assessed. For those systems with "flat" dinuclear centers and no electronic perturbations associated with electron-withdrawing ligands or ligand groups, the complexes exhibit a "straight-line" relationship between exchange integral and phenoxide bridge angle. Within the angle range 98.8-104.7 degrees, 11 complexes are included with -2J in the range 689-902 cm(-)(1). When electron-withdrawing species are present, either as ligands or as groups bound to the macrocycle itself, considerable suppression of the antiferromagnetic exchange component is observed. Single-crystal X-ray diffraction studies are reported for three complexes. [Cu(2)(L1)(H(2)O)(2)]F(2)(CH(3)OH)(2) (1) crystallized in the triclinic system, space group Po, with a = 8.1878(5) A, b = 9.0346(7) A, c = 10.4048(7) A, alpha = 103.672(6) degrees, beta = 101.163(5) degrees, gamma = 104.017(5) degrees, and Z = 1. [Cu(2)(L2)Cl(2)] [Cu(2)(L2) (H(2)O)(2)]Cl(ClO(4)).5.5H(2)O (2) crystallized in the monoclinic system, space group P2(1)/n, with a = 14.4305(5) A, b = 24.3149(8) A, c = 18.6584(8) A, beta = 111.282(3) degrees, and Z = 4. [Cu(2)(L3)(H(2)O)(2)](BF(4))(2) (3) crystallized in the triclinic system, space group Po, with a = 8.6127(4) A, b = 8.6321(7) A, c = 10.8430(10) A, a = 74.390(10) degrees, beta = 86.050(10) degrees, gamma = 76.350(10) degrees, and Z = 2. Square pyramidal copper ion stereochemistries are observed in all cases, with axially coordinated halogens or water molecules. Strong antiferromagnetic exchange is observed for all complexes (-2J = 784(8) cm(-)(1), Cu-O-Cu 103.65(10) degrees (1); -2J = 801(11) cm(-)(1), Cu-O-Cu 102.4(3), 107.5(3), 102.9(3), 106.1(3) degrees (2); -2J = 689(3) cm(-)(1), Cu-O-Cu 98.8(4) degrees (3)). The presence of electron-withdrawing CN groups on the periphery of the macrocyclic ligand leads to substantially reduced antiferromagnetic exchange.
356 citations
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TL;DR: Results of these studies demonstrated that extracts of chloroform/methanol extracted oils possessed higher antioxidant activities than extracts of their hexane extracted counterparts.
355 citations
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TL;DR: It is suggested that yellowtail larvae require a high level of dietary DHA for maximal growth and survival while diets containing elevated AA exert negative effects on larval pigmentation.
353 citations
Authors
Showing all 13990 results
Name | H-index | Papers | Citations |
---|---|---|---|
Daniel Levy | 212 | 933 | 194778 |
Rakesh K. Jain | 200 | 1467 | 177727 |
Peter W.F. Wilson | 181 | 680 | 139852 |
Martin G. Larson | 171 | 620 | 117708 |
Peter B. Jones | 145 | 1857 | 94641 |
Dafna D. Gladman | 129 | 1036 | 75273 |
Guoyao Wu | 122 | 764 | 56270 |
Fereidoon Shahidi | 119 | 951 | 57796 |
David Harvey | 115 | 738 | 94678 |
Robert C. Haddon | 112 | 577 | 52712 |
Se-Kwon Kim | 102 | 763 | 39344 |
John E. Dowling | 94 | 305 | 28116 |
Mark J. Sarnak | 94 | 393 | 42485 |
William T. Greenough | 93 | 200 | 29230 |
Soottawat Benjakul | 92 | 891 | 34336 |