This is a test of the Zotpress plugin for Ronin publications
4369499
VKIYPQRU
items
1
24
dateAdded
desc
itemtype
1
1
title
5694
https://ronininstitute.org/wp-content/plugins/zotpress/
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Saleem, Sahar, Raffaella Bianucci, Francesco M. Galassi, and Andreas G. Nerlich. 2023. "Editorial: Ancient diseases and medical care: Paleopathological insights." Frontiers in Medicine 10: 1140974. (March 10, 2024). Cite
Dogra, Ayush. 2023. "TPC Members." In 2023 International Conference on Information Technology and Computing (ICITCOM), IEEE, vii–ix. (March 4, 2024). Cite
Sullivan, Kathryn, Jorrit H. Poelen, Katja C. Seltmann, and Jennifer Zaspel. 2021. "Making Parasite-Host Associations Visible using Global Biotic Interactions." Zenodo. Cite
Seltmann, Katja, Jorrit Poelen, Kathryn Sullivan, and Jennifer Zaspel. 2020. "Making Parasite-Host Associations Visible using Global Biotic Interactions." In Biodiversity Information Science and Standards, , e58985. (March 2, 2024). Cite
Stona De Almeida, Thaicia. 2024. "Transcript of talk: Automated mycelium microstructural characterization with image processing artifact prediction." (March 1, 2024). Cite
Gagrani, Praful, Victor Blanco, Eric Smith, and David Baum. 2024. "Polyhedral geometry and combinatorics of an autocatalytic ecosystem." Journal of Mathematical Chemistry. (March 1, 2024). Cite
Georgiou, Katerina et al. 2024. "Emergent temperature sensitivity of soil organic carbon driven by mineral associations." Nature Geoscience. (February 23, 2024). Cite
Botke, John. 2024. "The Cosmic Dipole's Troublesome Factor of 2." ResearchGate. Cite
Parsons, Mark A., Ruth E. Duerr, and Matthew B. Jones. 2019. "The History and Future of Data Citation in Practice." Data Science Journal 18: 52. (February 22, 2024). Cite
Li, Boling, Xiaokai Zhang, Boris Tefsen, and Mona Wells. 2022. "From Speciation to Toxicity: Using a 'Two-in-One' Whole-Cell Bioreporter Approach to Assess Harmful Effects of Cd and Pb." Water Research 217: 118384. (February 21, 2024). Cite
Youn, Hyejin et al. 2016. "On the universal structure of human lexical semantics." Proceedings of the National Academy of Sciences 113(7): 1766–71. (February 20, 2024). Cite
Buckholtz, Thomas J. 2024. "Elementary particles, dark matter, dark energy, and observable properties." Presented at the American Physical Society April Meeting 2024, SAFE Credit Union Convention Center Room: Exhibit Hall A, Floor 1, Sacramento. Cite
Maeder, Andre, and Vesselin G. Gueorguiev. 2024. "Explaining the Dark Energy and Dark Matter phenomena within the Scale Invariant Vacuum (SIV) Paradigm." Presented at the American Physical Society April Meeting 2024, SAFE Credit Union Convention Center Room: Virtual Room 03, Sacramento. Cite
Goldfain, Ervin. 2024. "Complex Dynamics & the Age of the Universe." Prespacetime Journal 15(1). Cite
Goldfain, Ervin. 2024. "Potential Evidence for Dark Matter as Dimensional Condensate." Prespacetime Journal 15(1): 35–36. Cite
Goldfain, Ervin. 2024. "Primordial Cosmology from Self-Organized Criticality." Prespacetime Journal 15(1): 50–55. Cite
Zha, Lei et al. 2022. "Clinical management of infections caused by carbapenem-resistant Klebsiella pneumoniae in critically ill patients: A nationwide survey of tertiary hospitals in mainland China." Journal of Infection 84(6): e108–10. (February 18, 2024). Cite
Zhang, Xiaokai et al. 2023. "We need to plan streamlined environmental impact assessment for the future X-Press Pearl disasters." Marine Pollution Bulletin 188: 114705. (February 18, 2024). Cite
Paul Vincent, Maria T., and William E. Donald. 2024. "The unheard voices of academia: overcoming systemic barriers and fostering inclusive spaces for knowledge exchange." Disability & Society: 1–6. (February 17, 2024). Cite
Whitman, George et al. 2024. "Forensic geochemistry identifies the illegal introduction of Walleye into Lake Cascade, Idaho." North American Journal of Fisheries Management: nafm.10985. (February 16, 2024). Cite
Gupta, Brij B., Akshat Gaurav, and Varsha Arya. 2024. "Navigating the security landscape of large language models in enterprise information systems." Enterprise Information Systems: 2310846. (February 10, 2024). Cite
Gupta, Brij B., Akshat Gaurav, Varsha Arya, and Wadee Alhalabi. 2024. "The evolution of intellectual property rights in metaverse based Industry 4.0 paradigms." International Entrepreneurship and Management Journal. (February 8, 2024). Cite
M, Nimmi P., George Joseph, and William E. Donald. 2022. "Is it all about perception? A sustainability viewpoint on psychological capital and life well-being of management graduates." Higher Education, Skills and Work-Based Learning 12(2): 384–98. (February 6, 2024). Cite
Botke, John. 2024. "The Reality of Baryonic Acoustic Oscillations." ResearchGate+ Preprint. Cite
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Gueorguiev, Vesselin G., and Andre Maeder. 2022. "The Scale Invariant Vacuum Paradigm: main results and current progress." arXiv+ Preprint+ 2202.08412 [astro-ph, physics:gr-qc]. (February 22, 2022). Cite
Abrahams, Lianne. 2022. "Antiporphyrics, antithrombotics and erythropoiesis stimulating agents to treat Covid-19: A living systematic review and meta-analysis." OSF Preprints+ Preprint+ osf. io/nq9xf. (September 8, 2022). Cite
Maeder, Andre, and Vesselin Gueorguiev. 2022. "Local Dynamical Effects of Scale Invariance: the Lunar Recession." arXiv+ Preprint+ arXiv:2204.13560. (May 21, 2022). Cite
Buckholtz, Thomas J. 2022. "Models That Link and Suggest Data about Elementary Particles, Dark Matter, and the Cosmos." Preprints.org+ Preprint+ 2021110491. (May 21, 2022). Cite
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Gueorguiev, Vesselin G., and Andre Maeder. 2022. "The Scale Invariant Vacuum Paradigm: main results and current progress." Preprint. Internet: arXiv. Cite
Abrahams, Lianne. 2022. "Antiporphyrics, antithrombotics and erythropoiesis stimulating agents to treat Covid-19: A living systematic review and meta-analysis." Preprint. OSF Preprints. https://doi.org/10.31219/osf.io/nq9xf. Cite
Maeder, Andre, and Vesselin Gueorguiev. 2022. "Local Dynamical Effects of Scale Invariance: the Lunar Recession." Preprint. arXiv. https://doi.org/10.48550/arXiv.2204.13560. Cite
Buckholtz, Thomas J. 2022. "Models That Link and Suggest Data about Elementary Particles, Dark Matter, and the Cosmos." Preprint. Preprints.org. https://doi.org/10.20944/preprints202111.0491.v5. Cite
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Gueorguiev, Vesselin G., and Andre Maeder. The Scale Invariant Vacuum Paradigm: main results and current progress. 2202.08412 [astro-ph, physics:gr-qc], arXiv, 16 Feb. 2022, Cite
Abrahams, Lianne. Antiporphyrics, antithrombotics and erythropoiesis stimulating agents to treat Covid-19: A living systematic review and meta-analysis. osf. io/nq9xf, OSF Preprints, 7 Sept. 2022, https://doi.org/10.31219/osf.io/nq9xf. Cite
Maeder, Andre, and Vesselin Gueorguiev. Local Dynamical Effects of Scale Invariance: the Lunar Recession. arXiv:2204.13560, arXiv, 28 Apr. 2022, https://doi.org/10.48550/arXiv.2204.13560. Cite
Buckholtz, Thomas J. Models That Link and Suggest Data about Elementary Particles, Dark Matter, and the Cosmos. 2021110491, Preprints.org, 28 Feb. 2022, https://doi.org/10.20944/preprints202111.0491.v5. Cite
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Gueorguiev, Vesselin G., and Andre Maeder. 2022. "The Scale Invariant Vacuum Paradigm: main results and current progress." (February 22, 2022). Cite
Abrahams, Lianne. 2022. "Antiporphyrics, antithrombotics and erythropoiesis stimulating agents to treat Covid-19: A living systematic review and meta-analysis." (September 8, 2022). Cite
Maeder, Andre, and Vesselin Gueorguiev. 2022. "Local Dynamical Effects of Scale Invariance: the Lunar Recession." (May 21, 2022). Cite
Buckholtz, Thomas J. 2022. "Models That Link and Suggest Data about Elementary Particles, Dark Matter, and the Cosmos." (May 21, 2022). Cite
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Maeder, Andre, and Vesselin G. Gueorguiev. 2024. “Explaining the Dark Energy and Dark Matter Phenomena within the Scale Invariant Vacuum (SIV) Paradigm.” Presented at the American Physical Society April Meeting 2024, SAFE Credit Union Convention Center Room: Virtual Room 03, Sacramento. https://meetings.aps.org/Meeting/APR24/Session/KK03.6.
Buckholtz, Thomas J. 2024. “Elementary Particles, Dark Matter, Dark Energy, and Observable Properties.” Presented at the American Physical Society April Meeting 2024, SAFE Credit Union Convention Center Room: Exhibit Hall A, Floor 1, Sacramento. https://meetings.aps.org/Meeting/APR24/Session/E00.19.
Bibliography limited to most recent 2 publications, citeable links
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Maeder, Andre, and Vesselin G. Gueorguiev. 2024. “Explaining the Dark Energy and Dark Matter Phenomena within the Scale Invariant Vacuum (SIV) Paradigm.” Presented at the American Physical Society April Meeting 2024, SAFE Credit Union Convention Center Room: Virtual Room 03, Sacramento. https://meetings.aps.org/Meeting/APR24/Session/KK03.6. Cite
Buckholtz, Thomas J. 2024. “Elementary Particles, Dark Matter, Dark Energy, and Observable Properties.” Presented at the American Physical Society April Meeting 2024, SAFE Credit Union Convention Center Room: Exhibit Hall A, Floor 1, Sacramento. https://meetings.aps.org/Meeting/APR24/Session/E00.19. Cite
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