Referencias bibliográficas de introducción al curso de biología

(Ciencias de Joseleg)( Biología)( Introducción y biología celular)(Iniciando el curso de biología) (Introducción)(temas principales del curso de biología)(Niveles de organización de los seres vivos)(Átomos y enlaces)(La importancia del agua)(Introducción a los ácidos y bases)(Introducción a los compuestos orgánicos)(Carbohidratos)(Lípidos y ácidos nucleicos)(Proteínas)(Como se estudian las ciencias de la vida)(La unidad de la vida)(Que es la vida)(Funciones de los seres vivos)(Referencias bibliográficas)(Versión documento word)

Baber, Z. (2016). The Plants of Empire: Botanic Gardens, Colonial Power and Botanical Knowledge. Journal of Contemporary Asia, 46(4), 659–679.

Bahadur, B., & Krishnamurthy, K. V. (2015). Plant Biology: Past, Present and Future. En Plant Biology and Biotechnology (pp. 1–33). Springer.

Bancaud, A., Huet, S., Daigle, N., Mozziconacci, J., Beaudouin, J., & Ellenberg, J. (2009). Molecular crowding affects diffusion and binding of nuclear proteins in heterochromatin and reveals the fractal organization of chromatin. The EMBO journal, 28(24), 3785–3798.

Baratay, E., & Hardouin-Fugier, E. (2003). Zoo: A history of zoological gardens in the West. Reaktion books.

Belk, C., & Maier, V. B. (2013). Biology Science for Life with physiology. (Pearson, Ed.) (4a ed.).

Bermúdez, G. (2015). Los orígenes de la Biología como ciencia. El impacto de las teorías de evolución y las problemáticas asociadas a su enseñanza y aprendizaje.

Brigandt, I. (2015). Evolutionary developmental biology and the limits of philosophical accounts of mechanistic explanation. En Explanation in Biology (pp. 135–173). Springer.

Browne, J. (1992). A science of empire: British biogeography before Darwin. Revue d’histoire des sciences, 453–475.

Cahoone, L. (2013). Physicalism, the Natural Sciences, and Naturalism. Philo, 16(2), 130–144.

Cravens, H. (1987). Sewall Wright and Evolutionary Biology. By William B. Provine.(Chicago: University of Chicago Press, 1986. xvi+ 545 pp. $30.00.). The Journal of American History, 74(2), 544–545.

Domingo, E., & Perales, C. (2014). Virus evolution. eLS.

Du, W., & Elemento, O. (2015). Cancer systems biology: embracing complexity to develop better anticancer therapeutic strategies. Oncogene, 34(25), 3215–3225.

Edwards, D. A., & Wilcox, S. (2011). Unity, Disunity and Pluralism in Science. arXiv preprint arXiv:1110.6545.

Elórtegui Francioli, S. (2015). Historia natural: La discusión. Una revisión del concepto, el conflicto y sus ecos a la educación de las Ciencias Biológicas. Estudios pedagógicos (Valdivia), 41(ESPECIAL), 267–281.

Finnegan, D. A. (2008). “An aid to mental health”: natural history, alienists and therapeutics in Victorian Scotland. Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences, 39(3), 326–337.

Forbes, S. (2008). How botanic gardens changed the world. En Proceedings of the History and Future of Social Innovation Conference. Hawke Research Institute for Sustainable Societies, University of South Australia (pp. 1–6).

Garvey, J. E., & Whiles, M. (2016). Trophic Ecology. CRC Press.

Glick, T. F., Livesey, S., & Wallis, F. (2014). Medieval science, technology, and medicine: an encyclopedia. Routledge.

Hanich, L., Holtzman, S., Druyan, A., Soter, S., Braga, B., Tyson, N. G., … Sagan, C. (2014). Cosmos: A Spacetime Odyssey: When Knowledge Conquered Fear. Usa: Twentieth Century Fox Home Entertainment Ltd.

Harrison, P. (2016). What was historical about natural history? Contingency and explanation in the science of living things. Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences, 58, 8–16.

Hoage, R. J., & Deiss, W. A. (1996). New worlds, new animals: from menagerie to zoological park in the nineteenth century. JHU Press.

Hoefnagels, M. (2015). Biology: concepts and investigations (3a ed.). McGraw-Hill New York.

Koerner, E. F. K., & Asher, R. E. (2014). Concise history of the language sciences: from the Sumerians to the cognitivists. Elsevier.

Kutschera, U., & Niklas, K. J. (2004). The modern theory of biological evolution: an expanded synthesis. Naturwissenschaften, 91(6), 255–276.

Mackean, D. G., & Hayward, D. (2014). Biology (3a ed.). IGCSE Cambridge.

Mader, S. S. (2010). Biology (10a ed.). McGraw-Hill Education.

Mader, S. S., & Windelspecht, M. (2015). Biology (12a ed.). McGraw-Hill Education.

Mader, S. S., & Windelspecht, M. (2018). Essentials of biology (5a ed.). McGraw-Hill Education.

Margulis, L., & Sagan, D. (2000). What is life? Univ of California Press.

Mason, K. A., Losos, J. B., Singer, S. R., & Raven, P. H. (2014). Biology (7a ed.). McGraw-Hill New York.

Merson, J. (2000). Bio-prospecting or bio-piracy: intellectual property rights and biodiversity in a colonial and postcolonial context. Osiris, 15, 282–296.

Milton, K. (2003). Environmentalism: The view from anthropology. Routledge.

Neves-Graça, K. (2006). Politics of environmentalism and ecological knowledge at the intersection of local and global processes. Journal of Ecological Anthropology, 10(1), 19.

Oparin, A. I. (2003). Origin of life. Dover Publications.

Reece, J. B., Urry, L. A., Wasserman, S. A., Cain, M. L., Minorsky, P. V, & Jackson, R. B. (2014). Campbell Biology (10a ed.). Pearson Higher Ed.

Richards, R. J., & Ruse, M. (2016). Debating Darwin. University of Chicago Press.

RILEY, E. D., & ANGELA, G. M. (1992). The evolution of the US environmental movement from 1970 to 1990: An overview. American environmentalism: The US environmental movement, 1970-1990, 1.

Sadava, D., Berenbaum, M., & Hillis, D. (2014). Life the Science of Biology (10a ed.). Sinauer & MacMillian.

Schrodinger, E. (1946). What is life?: the physical aspect of the living cell.

Simon, E., Reece, J., & Dickey, J. (2013). Essential biology with physiology (4a ed.). Pearson.

Solomon, E., Martin, C., Martin, D. W., & Berg, L. R. (2014). Biology (10a ed.). Cengage Learning.

Starr, C., Evers, C., & Starr, L. (2013). Biology: Today and Tomorrow With Physiology (4a ed.). Brooks/Cole.

Strulson, C. A., Boyer, J. A., Whitman, E. E., & Bevilacqua, P. C. (2014). Molecular crowders and cosolutes promote folding cooperativity of RNA under physiological ionic conditions. RNA, 20(3), 331–347.

Trapezov, O. V. (2016). Mendel: Corroboration of the idea of binary trait coding by methods of statistical physics. Russian Journal of Genetics: Applied Research, 6(1), 15–25.

Turner, J. H., & Abrutyn, S. (2016). Returning the “Social” to Evolutionary Sociology: Reconsidering Spencer, Durkheim, and Marx’s Models of “Natural” Selection. Sociological Perspectives, 731121416641936.

Valentinuzzi, M. E., & Kohen, A. J. (2013). The mathematization of biology and medicine: Who, when, how?[Retrospectroscope]. IEEE pulse, 4(1), 50–56.

van Hemmen, J. L. (2007). Biology and mathematics: A fruitful merger of two cultures. Biological cybernetics, 97(1), 1–3.

Weber, B. H. (2010). What is life? Defining life in the context of emergent complexity. Origins of Life and Evolution of Biospheres, 40(2), 221–229.

Wendt, H. (2016). Introduction: Competing scientific cultures and the globalization of knowledge in the Iberian colonial world. En The globalization of knowledge in the Iberian colonial world (pp. 7–27). Edition Open Access.

Yates, F. E. (2012). Self-organizing systems: The emergence of order. Springer Science & Business Media.