Debunking Evolution: Problems Between the Theory and Reality; the False Science of Evolution
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History and Philosophy of Systematic Biology
History and Philosophy of Systematic Biology Bock, W. J. (1973) Philosophical foundations of classical evolutionary classification Systematic Zoology 22: 375-392 Part of a general symposium on "Contemporary Systematic Philosophies," there are some other interesting papers here. Brower, A. V. Z. (2000) Evolution Is Not a Necessary Assumption of Cladistics Cladistics 16: 143- 154 Dayrat, Benoit (2005) Ancestor-descendant relationships and the reconstruction of the Tree of Lif Paleobiology 31: 347-353 Donoghue, M.J. and J.W. Kadereit (1992) Walter Zimmermann and the growth of phylogenetic theory Systematic Biology 41: 74-84 Faith, D. P. and J. W. H. Trueman (2001) Towards an inclusive philosophy for phylogenetic inference Systematic Biology 50: 331-350 Gaffney, E. S. (1979) An introduction to the logic of phylogeny reconstruction, pp. 79-111 in Cracraft, J. and N. Eldredge (eds.) Phylogenetic Analysis and Paleontology Columbia University Press, New York. Gilmour, J. S. L. (1940) Taxonomy and philosophy, pp. 461-474 in J. Huxley (ed.) The New Systematics Oxford Hull, D. L. (1978) A matter of individuality Phil. of Science 45: 335-360 Hull, D. L. (1978) The principles of biological classification: the use and abuse of philosophy Hull, D. L. (1984) Cladistic theory: hypotheses that blur and grow, pp. 5-23 in T. Duncan and T. F. Stuessy (eds.) Cladistics: Perspectives on the Reconstruction of Evolutionary History Columbia University Press, New York * Hull, D. L. (1988) Science as a process: an evolutionary account of the social and conceptual development of science University of Chicago Press. An already classic work on the recent, violent history of systematics; used as data for Hull's general theories about scientific change. -
1. Adaptation and the Evolution of Physiological Characters
Bennett, A. F. 1997. Adaptation and the evolution of physiological characters, pp. 3-16. In: Handbook of Physiology, Sect. 13: Comparative Physiology. W. H. Dantzler, ed. Oxford Univ. Press, New York. 1. Adaptation and the evolution of physiological characters Department of Ecology and Evolutionary Biology, University of California, ALBERT F. BENNETT 1 Irvine, California among the biological sciences (for example, behavioral CHAPTER CONTENTS science [I241). The Many meanings of "Adaptationn In general, comparative physiologists have been Criticisms of Adaptive Interpretations much more successful in, and have devoted much more Alternatives to Adaptive Explanations energy to, pursuing the former rather than the latter Historical inheritance goal (37). Most of this Handbook is devoted to an Developmentai pattern and constraint Physical and biomechanical correlation examination of mechanism-how various physiologi- Phenotypic size correlation cal systems function in various animals. Such compara- Genetic correlations tive studies are usually interpreted within a specific Chance fixation evolutionary context, that of adaptation. That is, or- Studying the Evolution of Physiological Characters ganisms are asserted to be designed in the ways they Macroevolutionary studies Microevolutionary studies are and to function in the ways they do because of Incorporating an Evolutionary Perspective into Physiological Studies natural selection which results in evolutionary change. The principal textbooks in the field (for example, refs. 33, 52, 102, 115) make explicit reference in their titles to the importance of adaptation to comparative COMPARATIVE PHYSIOLOGISTS HAVE TWO GOALS. The physiology, as did the last comparative section of this first is to explain mechanism, the study of how organ- Handbook (32). Adaptive evolutionary explanations isms are built functionally, "how animals work" (113). -
Framing Major Prebiotic Transitions As Stages of Protocell Development: Three Challenges for Origins-Of-Life Research
Framing major prebiotic transitions as stages of protocell development: three challenges for origins-of-life research Ben Shirt-Ediss1, Sara Murillo-Sánchez2,3 and Kepa Ruiz-Mirazo*2,3 Commentary Open Access Address: Beilstein J. Org. Chem. 2017, 13, 1388–1395. 1Interdisciplinary Computing and Complex BioSystems Group, doi:10.3762/bjoc.13.135 University of Newcastle, UK, 2Dept. Logic and Philosophy of Science, University of the Basque Country, Spain and 3Biofisika Institute Received: 16 February 2017 (CSIC, UPV-EHU), Spain Accepted: 27 June 2017 Published: 13 July 2017 Email: Kepa Ruiz-Mirazo* - [email protected] This article is part of the Thematic Series "From prebiotic chemistry to molecular evolution". * Corresponding author Guest Editor: L. Cronin Keywords: functional integration; origins of life; prebiotic evolution; protocells © 2017 Shirt-Ediss et al.; licensee Beilstein-Institut. License and terms: see end of document. Abstract Conceiving the process of biogenesis as the evolutionary development of highly dynamic and integrated protocell populations provides the most appropriate framework to address the difficult problem of how prebiotic chemistry bridged the gap to full-fledged living organisms on the early Earth. In this contribution we briefly discuss the implications of taking dynamic, functionally inte- grated protocell systems (rather than complex reaction networks in bulk solution, sets of artificially evolvable replicating molecules, or even these same replicating molecules encapsulated in passive compartments) -
Science Georgia Standards of Excellence SCIENCE - Zoology
Science Georgia Standards of Excellence SCIENCE - Zoology The Science Georgia Standards of Excellence are designed to provide foundational knowledge and skills for all students to develop proficiency in science. The Project 2061’s Benchmarks for Science Literacy and the follow up work, A Framework for K-12 Science Education were used as the core of the standards to determine appropriate content and process skills for students. The Science Georgia Standards of Excellence focus on a limited number of core disciplinary ideas and crosscutting concepts which build from Kindergarten to high school. The standards are written with the core knowledge to be mastered integrated with the science and engineering practices needed to engage in scientific inquiry and engineering design. Crosscutting concepts are used to make connections across different science disciplines. The Science Georgia Standards of Excellence drive instruction. Hands-on, student-centered, and inquiry-based approaches should be the emphasis of instruction. The standards are a required minimum set of expectations that show proficiency in science. However, instruction can extend beyond these minimum expectations to meet student needs. Science consists of a way of thinking and investigating, as well a growing body of knowledge about the natural world. To become literate in science, students need to possess sufficient understanding of fundamental science content knowledge, the ability to engage in the science and engineering practices, and to use scientific and technological information correctly. Technology should be infused into the curriculum and the safety of the student should always be foremost in instruction. In this course, students will recognize key features of the major body plans that have evolved in animals and how those body plans have changed over time resulting in the diversity of animals that are evident today. -
Auditory Experience Controls the Maturation of Song Discrimination and Sexual Response in Drosophila Xiaodong Li, Hiroshi Ishimoto, Azusa Kamikouchi*
RESEARCH ARTICLE Auditory experience controls the maturation of song discrimination and sexual response in Drosophila Xiaodong Li, Hiroshi Ishimoto, Azusa Kamikouchi* Graduate School of Science, Nagoya University, Nagoya, Japan Abstract In birds and higher mammals, auditory experience during development is critical to discriminate sound patterns in adulthood. However, the neural and molecular nature of this acquired ability remains elusive. In fruit flies, acoustic perception has been thought to be innate. Here we report, surprisingly, that auditory experience of a species-specific courtship song in developing Drosophila shapes adult song perception and resultant sexual behavior. Preferences in the song-response behaviors of both males and females were tuned by social acoustic exposure during development. We examined the molecular and cellular determinants of this social acoustic learning and found that GABA signaling acting on the GABAA receptor Rdl in the pC1 neurons, the integration node for courtship stimuli, regulated auditory tuning and sexual behavior. These findings demonstrate that maturation of auditory perception in flies is unexpectedly plastic and is acquired socially, providing a model to investigate how song learning regulates mating preference in insects. DOI: https://doi.org/10.7554/eLife.34348.001 Introduction Vocal learning in infants or juvenile birds relies heavily on the early experience of the adult conspe- cific sounds. In humans, early language input is necessary to form the ability of phonetic distinction *For correspondence: and pattern detection in the phase of auditory learning (Doupe and Kuhl, 1999; Kuhl, 2004). [email protected] Because of the strong parallels between speech acquisition of humans and song learning of song- Competing interests: The birds, and the difficulties to investigate the neural mechanisms of human early auditory memory at authors declare that no cellular resolution, songbirds have been used as a predominant model in studying memory formation competing interests exist. -
Rowan C. Martindale Curriculum Vitae Associate Professor (Invertebrate Paleontology) at the University of Texas at Austin
ROWAN C. MARTINDALE CURRICULUM VITAE ASSOCIATE PROFESSOR (INVERTEBRATE PALEONTOLOGY) AT THE UNIVERSITY OF TEXAS AT AUSTIN Department of Geological Sciences E-mail: [email protected] Jackson School of Geosciences Website: www.jsg.utexas.edu/martindale/ 2275 Speedway Stop C9000 Orchid ID: 0000-0003-2681-083X Austin, TX 78712-1722 Phone: 512-475-6439 Office: JSG 3.216A RESEARCH INTERESTS The overarching theme of my work is the connection between Earth and life through time, more precisely, understanding ancient (Mesozoic and Cenozoic) ocean ecosystems and the evolutionary and environmental events that shaped them. My research is interdisciplinary, (paleontology, sedimentology, biology, geochemistry, and oceanography) and focuses on: extinctions and carbon cycle perturbation events (e.g., Oceanic Anoxic Events, acidification events); marine (paleo)ecology and reef systems; the evolution of reef builders (e.g., coral photosymbiosis); and exceptionally preserved fossil deposits (Lagerstätten). ACADEMIC APPOINTMENTS Associate Professor, University of Texas at Austin September 2020 to Present Assistant Professor, University of Texas at Austin August 2014 to August 2020 Postdoctoral Researcher, Harvard University August 2012 to July 2014 Department of Organismic and Evolutionary Biology; Mentor: Dr. Andrew H. Knoll. EDUCATION Doctorate, University of Southern California 2007 to 2012 Dissertation: “Paleoecology of Upper Triassic reef ecosystems and their demise at the Triassic-Jurassic extinction, a potential ocean acidification event”. Advisor: Dr. David J. Bottjer, degree conferred August 7th, 2012. Bachelor of Science Honors Degree, Queen’s University 2003 to 2007 Geology major with a general concentration in Biology (Geological Sciences Medal Winner). AWARDS AND RECOGNITION Awards During Tenure at UT Austin • 2019 National Science Foundation CAREER Award: Awarded to candidates who are judged to have the potential to serve as academic role models in research and education. -
Evolution, Politics and Law
Valparaiso University Law Review Volume 38 Number 4 Summer 2004 pp.1129-1248 Summer 2004 Evolution, Politics and Law Bailey Kuklin Follow this and additional works at: https://scholar.valpo.edu/vulr Part of the Law Commons Recommended Citation Bailey Kuklin, Evolution, Politics and Law, 38 Val. U. L. Rev. 1129 (2004). Available at: https://scholar.valpo.edu/vulr/vol38/iss4/1 This Article is brought to you for free and open access by the Valparaiso University Law School at ValpoScholar. It has been accepted for inclusion in Valparaiso University Law Review by an authorized administrator of ValpoScholar. For more information, please contact a ValpoScholar staff member at [email protected]. Kuklin: Evolution, Politics and Law VALPARAISO UNIVERSITY LAW REVIEW VOLUME 38 SUMMER 2004 NUMBER 4 Article EVOLUTION, POLITICS AND LAW Bailey Kuklin* I. Introduction ............................................... 1129 II. Evolutionary Theory ................................. 1134 III. The Normative Implications of Biological Dispositions ......................... 1140 A . Fact and Value .................................... 1141 B. Biological Determinism ..................... 1163 C. Future Fitness ..................................... 1183 D. Cultural N orm s .................................. 1188 IV. The Politics of Sociobiology ..................... 1196 A. Political Orientations ......................... 1205 B. Political Tactics ................................... 1232 V . C onclusion ................................................. 1248 I. INTRODUCTION -
Some Philosophical Questions About Paleontology and Their Practica1 Consequences
ACTA GEOLOGICA HISPANICA. Concept and method in Paleontology. 16 (1981) nos 1-2, pags. 7-23 Some philosophical questions about paleontology and their practica1 consequences by Miquel DE RENZI Depto. de Geología, Facultad de Ciencias Biológicas, Universidad de Valencia. Burjassot (Valencia). This papcr attempts to objectively discuss the actual state ofpaleontology. The En aquest treball s'ha intentat fer un balanc d'alguns aspectes de I'estat de la progress of this science stood still somewhat during the latter part of the last paleontologia. La historia de la paleontologia mostra un estancarnent a les century which caused it to develop apart from the biological sciences. an area to darreries del segle passac aquest estancament va Fer que la nostra ciencia s'anes which it is naturally tied. As aconsequence, this bruought a long-term stagnation, allunyant cada cop mes de I'area de les ciencies bii~logiques,amb les qualsestava because biology, dunng this century, has made great progress and paleontology lligada naturalment AixO va portar, com a conseqüencia, un important has not During the last 20 years paleontology as a science hasrecuperatedsome endarreriment, car la biologia, durant aquest segle, ha donat un gran pas of this loss, but we as scientists need to be careful in various aspects of its endavant, mentre que aquest no ha estat el cas de lapaleontologia Al nostre pais development -i possiblement a molts d'altres- la paleontologia es, fonamentalment, un estn per datar estrats. Tanmateix, un mal estri, car la datació es basadaen les especies fossils i la seva determinació es fonamenta en el ccncepte d'especie biolbgica; els fossils pero en moltes ocasions, són utilitzats mes aviat com si fossin segells o monedes. -
Two Polymorphic Cholesterol Monohydrate Crystal Structures Form in Macrophage Culture Models of Atherosclerosis
Two polymorphic cholesterol monohydrate crystal INAUGURAL ARTICLE structures form in macrophage culture models of atherosclerosis Neta Varsanoa, Fabio Beghib, Nadav Eladc, Eva Pereirod, Tali Dadoshc, Iddo Pinkasc, Ana J. Perez-Bernad, Xueting Jine, Howard S. Kruthe, Leslie Leiserowitzf, and Lia Addadia,1 aDepartment of Structural Biology, Weizmann Institute of Science, 76100 Rehovot, Israel; bDepartment of Chemistry, Università Degli Studi Di Milano, I-20122 Milano, Italy; cDepartment of Chemical Research Support, Weizmann Institute of Science, 76100 Rehovot, Israel; dMISTRAL Beamline−Experiments Division, ALBA Synchrotron Light Source, Cerdanyola del Valles, 08290 Barcelona, Spain; eExperimental Atherosclerosis Section, National Heart, Lung, and Blood Institute, National Institutes of Health, Bethesda, MD 20892-1422; and fDepartment of Materials and Interfaces, Weizmann Institute of Science, 76100 Rehovot, Israel This contribution is part of the special series of Inaugural Articles by members of the National Academy of Sciences elected in 2017. Contributed by Lia Addadi, June 12, 2018 (sent for review February 20, 2018; reviewed by Bart Kahr and Samuel I. Stupp) The formation of atherosclerotic plaques in the blood vessel walls levels increase in the macrophage cell, they become “foam cells,” is the result of LDL particle uptake, and consequently of choles- and initiate formation of atherosclerotic plaques (8–11). Sub- terol accumulation in macrophage cells. Excess cholesterol accu- sequently, unesterified cholesterol supersaturation in the cells may mulation eventually results in cholesterol crystal deposition, the lead to crystal precipitation, before and/or after cell death (12– hallmark of mature atheromas. We followed the formation of 14). Crystalline cholesterol is not easily dissolved or removed from cholesterol crystals in J774A.1 macrophage cells with time, during the plaques (6). -
Durrell D. Kapan
Durrell D. Kapan Biographical United States Citizen details Born 7 August 1965, San Francisco, California Married, spouse: Shannon N. Bennett, one child Anika Ku’ulei Kapan Current Assistant Researcher, Center for Conservation and Research Training, Pacific position Biosciences Research Center, University of Hawaii, Manoa Present address: Honolulu, HI 96822 Email: Center for Conservation Research and Training durrell AT hawaii DOT edu 3050 Maile Way, Gilmore 406 Ph.D. Thesis “Divergent natural selection and Müllerian mimicry in polymorphic Education Heliconius cydno (Lepidoptera: Nymphalidae).” Supervised by Prof. Dolph Schluter, Department of Zoology, University of British Columbia, Vancouver, BC, Canada. April 1998. B.A. Zoology. Department of Zoology, University of California, Berkeley, California, U.S.A. May 1988. Career May 2006 – present. Assistant Researcher. Center for Conservation and Research Training, Pacific Biosciences Research Center, University of Hawaii, Manoa under Director Dr. Ken Kaneshiro. Currently investigating Evolutionary genetics and gene-expression of local adaptation in rare Hawaiian Drosophila in collaboration with Cam Muir from UH Hilo (UH NSF EPSCoR REAP award) and working to develop projects on the evolutionary ecology of infectious disease (Dengue virus, Leptospirosis) with researchers Dr. Shannon Bennett and Dr. Bruce Wilcox of the Asia Pacific Institute of Tropical Medicine and Infectious Disease, University of Hawaii, School of Medicine. May 2006 – present. IGERT: Integrative Training in Ecology, Conservation and Pathogen Biology Core Curriculum Team Leader. Pacific Biosciences Research Center & Asia Pacific Institute of Emerging Infectious Diseases University of Hawaii, Manoa. I am presently teaching the core-curriculum I designed for the recently awarded Integrative Training in Ecology, Conservation and Pathogen Biology program (NSF-IGERT # 0549514). -
Arteriosclerosis, Thrombosis and Vascular Biology I Peripheral Vascular Disease
Cardiovascular diseases afflict people of all races, ethnicities, genders, religions, ages, sexual orientations, national origins and disabilities. The American Heart Association is committed to ensuring that our workforce and volunteers reflect the world’s diverse population. We know that such diversity will enrich us with the talent, energy, perspective and inspiration we need to achieve our mission: building healthier lives, free of cardiovascular diseases and stroke. Arteriosclerosis, Thrombosis and Vascular Biology I For information on upcoming Peripheral Vascular Disease American Heart Association Scientific Sessions 2015 Scientific Conferences, Final Program and Abstracts visit my.americanheart.org May 7-9, 2015 | Hilton San Francisco Union Square Hotel | San Francisco, California National Center 7272 Greenville Avenue Dallas, Texas 75231-4596 In Collaboration with the Council on Functional Genomics and Translational Biology and the Society of ©2015, American Heart Association, Inc. Vascular Surgery’s Vascular Research Initiatives Conference. All rights reserved. Unauthorized use prohibited. 4/15JN0222 my.americanheart.org Program at a Glance Wednesday Thursday Friday Saturday May 6, 2015 May 7, 2015 May 8, 2015 May 9, 2015 7:00 AM Registration, Early Registration, Early Continental Career Continental Career Separate registration may be required Breakfast, Training Breakfast, Training for the meetings listed below. Exhbits Session Exhibits Session PROFESSIONAL MEMBERSHIP 7:30 AM 8:00–10:00 8:00–9:30 Registration my.americanheart.org Conference Opening and Plenary Session III 8:00 AM 8:00–6:00 Plenary Session I Highlights from the ATVB VRIC 8:30 AM Functional Genomics: Journal 8:30–10:30 2015 Enhancer Biology and Poster Session and I’m a Member. -
Effect of Irradiation of the PEM of 1.531211SMJ29 Jeewanu with Clinical Mercury Lamp and Sunlight on the Morphological Features of the Silicon Molybdenum Jeewanu
International Journal of Engineering Research and General Science Volume 4, Issue 4, July-August, 2016 ISSN 2091-2730 Effect of Irradiation of the PEM of 1.531211SMJ29 Jeewanu with Clinical Mercury Lamp and Sunlight on the Morphological Features of the Silicon Molybdenum Jeewanu Deepa Srivastava Department of Chemistry, S.S.Khanna Girls‘ Degree College, Constituent College of Allahabad University, Allahabad, Uttar Pradesh, India E- Mail – [email protected] Abstract— Sterilized aqueous mixture of ammonium molybdate, diammonium hydrogen phosphate, mineral solution and formaldehyde on exposure to sunlight results in the formation of self-sustaining coacervates which were coined as Jeewanu, the autopoetic eukaryote by Bahadur and Ranganayaki. Jeewanu have been analyzed to contain a number of compounds of biological interest. The presence of various enzyme like activities viz., phosphatase, ATP-ase, esterase, nitrogenase have been also been detected in Jeewanu mixture. Gáinti (2003) discussed that Jeewanu possesses a promising configuration similar to protocell-like model. Keywords— Autopoetic, eukaryote, Jeewanu, PEM, sunlight, mercury lamp, morphology, 1.531211SMJ29 INTRODUCTION Sterilized aqueous mixture of ammonium molybdate, diammonium hydrogen phosphate, mineral solution and formaldehyde on exposure to sunlight results in the formation of self-sustaining coacervates which were coined as Jeewanu, the autopoetic eukaryote by Bahadur, K and Ranganayaki, S. in 1970. [1] The photochemical, formation of protocell-like microstructures ―Jeewanu‖ in a laboratory simulated prebiotic atmosphere capable of showing multiplication by budding, growth from within by actual synthesis of material and various metabolic activities has been reported by Bahadur et al. [1, 2, 3, 4, 5, 7, 8] Jeewanu have been analyzed to contain a number of compounds of biological interest viz.