Alessandro Minelli

Alessandro Minelli

Minelli in 2008
Born (1948-12-20) December 20, 1948
Treviso, Italy
Residence Padova
Nationality Italy
Fields zoology, evo-devo
Institutions University of Padova
Alma mater University of Padova 1966-70
Known for evo-devo

Alessandro Minelli (born December 20, 1948 in Treviso, Italy) is an Italian biologist and a professor emeritus of Zoology in the Faculty of Mathematical, Physical and Natural Sciences of the University of Padova mainly working on evo-devo subjects.

Biography

Alessandro Minelli studied Natural Sciences at the University of Padova 1966-70 with a master's degree in 1970. In 1983 he took a sabbatical in Munich. From 1987-2012 Minelli was a Full Professor of Zoology at the University of Padova.

Activity in international organisations

Academic memberships

Scientific contributions

Minelli is best known for his studies in evolutionary developmental biology, or evo-devo. His main contributions are about the conceptual foundations of this discipline.[2][3][4][5][6] In his search for an intellectual framework common to evolutionary biology and developmental biology, he has strongly argued against the widespread adultocentrism,[2] that is, interpreting development, in a more or less distinct teleological vein, as a process targeted to the production of an adult animal or plant. At variance with the most popular trend in evo-devo, which is based on comparative developmental genetics and has a clear focus on early stages of embryonic development, the approach defended by Minelli is strongly rooted in comparative morphology and aims to extend to postembryonic development. His approach moves from a revisitation of the traditional concepts of homology. According to Minelli, the homology relationships between two structures is necessarily limited to selected features of those structures, thus requiring the adoption a factorial, or combinatorial concept of homology.[7] Minelli has introduced new concepts, such as axis paramorphism [8] (useful for understanding the evolutionary relationships between the main axis of the body and its appendages) and those of eosegment and merosegment,[9] through which he suggests a radical revisitation of the architecture of the body of segmented animals.[10][11][12] Minelli has also explored the implication of evo-devo for biological systematics,[13][14] speciation[15] and the evolution of life cycles.[16][17]

Publications

Books

Awards

References

  1. A. MInelli CV
  2. 1 2 <Minelli, A. (2003), The Development of Animal Form, Cambridge: Cambridge University Press.
  3. <Minelli, A. (2009), Perspectives in Animal Phylogeny and Evolution, Oxford: Oxford University Press.
  4. <Minelli, A. (2010), “Evolutionary developmental biology does not offer a significant challenge to the neoDarwinian paradigm,” pp. 213–226 in Ayala F.J. & Arp R. (eds.) Contemporary debates in Philosophy of Biology, Malden, MA: Wiley-Blackwell.
  5. <Minelli, A. (2011), Minelli, A. “Development, an open-ended segment of life.” Biological Theory 6 (1): 4–15.
  6. <Minelli, A. (2011), “A principle of developmental inertia,” pp. 116–133 in B. Hallgrímsson and B.K. Hall (eds.) Epigenetics: Linking genotype and phenotype in development and evolution, Berkeley-Los Angeles- London, University of California Press.
  7. <Minelli A. (1998), “Molecules, developmental modules and phenotypes: A combinatorial approach to homology.” Molecular Phylogenetics and Evolution 9 (3): 340–347.
  8. <Minelli A. (2000), “Limbs and tail as evolutionarily diverging duplicates of the main body axis.” Evolution & Development 2 (3): 157–165.
  9. <Minelli A. (2000), “Holomeric vs. meromeric segmentation: A tale of centipedes, leeches, and rhombomeres.” Evolution & Development 2 (1): 35–48.
  10. <Minelli A. (2001), “A three-phase model of arthropod segmentation.” Development, Genes and Evolution 211 (10): 509-521.
  11. <Minelli A. & Fusco Giuseppe (2004), “Evo-devo perspectives on segmentation: model organisms, and beyond.” Trends in Ecology and Evolution 19 (8): 423–429.
  12. <Hughes Nigel C., Minelli A. & Fusco G. (2006), “The ontogeny of trilobite segmentation: a comparative approach.” Paleobiology 32 (4): 603–628.
  13. <Minelli A. (2007), “Invertebrate taxonomy and evolutionary developmental biology.” Zootaxa 1668: 55–60 (2007)
  14. <Minelli, A. (2009), “Phylo-evo-devo: combining phylogenetics with evolutionary developmental biology.” BMC Biology 7:36; doi 10.1186/1741-7007-7-36
  15. <Minelli A. & Fusco G. (2012), “On the evolutionary developmental biology of speciation.” Evolutionary Biology 39 (2): 242–254; doi 10.1007/s11692-012-9175-6.
  16. < Minelli A., Brena Carlo, Deflorian Gianluca, Maruzzo Diego & Fusco G. (2006), “From embryo to adult. beyond the conventional periodization of arthropod development.” Development Genes and Evolution 216 (7-8): 373–383
  17. <Minelli A. & Fusco G. (2010), “Developmental plasticity and the evolution of animal complex life cycles.” Philosophical Transactions of the Royal Society of London 365 (140): 631–640, doi:10.1098/rstb.2009.0268.
  18. A. Minelli CV

External links

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