Abstract
Niche construction theory (NCT) has been represented as a new and comprehensive theory of evolution, one that breaks the constraints imposed by the dominant and largely gene-selectionist standard evolutionary model that is presently mischaracterized as “Darwinian.” I will argue that NCT is not so much a new theory, as it is a fruitful readmission of a venerable physiological perspective on adaptation, selection and evolution. This perspective is closer in spirit and philosophy to the original (and richer) Darwinian idea developed by Darwin himself, and that animated much of the rich late nineteenth century debate about evolution, heredity, adaptation and development, a debate that was largely eclipsed by the early twentieth century emergence of the Neodarwinian synthesis. I will argue that a full realization of the promise of NCT turns on a full understanding of another intellectual revolution of the nineteenth century, Claude Bernard’s conception of homeostasis, a profound statement of the nature of life that has, through the twentieth century, come to be widely misunderstood and trivialized.
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References
Agutter PS, Wheatley DN (1999) Foundations of biology: on the problem of “purpose” in biology in relation to our acceptance of the Darwinian theory of natural selection. Found Sci 4:3–23
Ayala F (1970) Teleological explanation in evolutionary biology. Philos Sci 27:1–15
Benes FM (2000) Emerging principles of altered neural circuitry in schizophrenia. Brain Res Rev 31:251–269
Bennet-Clark HC (1970) The mechanism and efficiency of sound production in mole crickets. J Exp Biol 52:619–652
Blume H (2002) The origin of specious. And why reductionists are winning the Darwin wars. Am Prospect 13:41–44
Boogert NJ, Paterson DM, Laland KN (2006) The implications of niche construction and ecosystem engineering for conservation biology. Bioscience 56:570–578
Cairns-Smith A, Hartman H (eds) (1986) Clay minerals and the origin of life. Cambridge University Press, Cambridge
Calvi LM, Adams GB, Weibrecht KW, Weber JM, Olson DP, Knight MC, Martin RP, Schipani E, Divieti P, Bringhurst FR, Milner LA, Kronenberg HM, Scadden DT (2003) Osteoblastic cells regulate the haematopoietic stem cell niche. Nature 425:841–846
Dangerfield JM, McCarthy TS, Ellery WN (1998) The mound-building termite Macrotermes michaelseni as an ecosystem engineer. J Trop Ecol 14:507–520
Dawkins R (1976) The selfish gene. Oxford University Press, New York, p 224
Dawkins R (1982) The extended phenotype. W H Freeman & Co, Oxford
Dennett DC (1995) Darwin’s dangerous idea. Evolution and the meanings of life. Simon & Schuster, New York
Dick SJ, Strick JE (2005) The living universe. NASA and the development of astrobiology. Rutgers University Press, New Brunswick
Dupré J, O’Malley MA (2009) Varieties of living things: life at the intersection of lineage and metabolism. Philos Theory Biol 1:1–25
Dyson F (1999) Origins of life, 2nd edn. Cambridge University Press, Cambridge
Eigen M, Gardiner W, Schuster P, Winkler-Oswatitsch R (1981) The origin of genetic information. Sci Am 244:88–118
Erwin DH (2008) Macroevolution of ecosystem engineering, niche construction and diversity. Trends Ecol Evol 23:304–310
French RM, Messinger A (1994) Genes, phenes and the Baldwin effect: learning and evolution in a simulated population. In: Brooks R, Maes P (eds) Artificial life IV. MIT Press, Cambridge
Fry I (2000) The emergence of life on earth. A historical and scientific overview. Rutgers University Press, New Brunswick
Grafen A (2002) A first formal link between the price equation and an optimization program. J Theor Biol 217:75–91
Hamilton WD (1972) Altruism and related phenomena, mainly in social insects. Annu Rev Ecol Syst 3:193–232
Henning BG, Scarfe AC (eds) (2014) Beyond mechanism. Putting life back into biology. Lexington Books, Lanham
Hutchinson GE (1957) Concluding remarks. Cold Spring Harb Symp Quant Biol 22:415–427
Jones CG, Lawton JH, Shachak M (1997) Positive and negative effects of organisms as physical ecosystem engineers. Ecology 78:1946–1957
Jones CG, Gutiérrez JL, Byers JE, Crooks JA, Lambrinos JG, Talley TS (2010) A framework for understanding physical ecosystem engineering by organisms. Oikos 119:1862–1869
Kavanagh MW (1987) The efficiency of sound production in two cricket species, Gryllotalpa australis and Teleogryllus commodus (Orthoptera: Grylloidea). J Exp Biol 130:107–119
Kylafis G, Loreau M (2008) Ecological and evolutionary consequences of niche construction for its agent. Ecol Lett 11:1072–1081
Laland KN, Odling-Smee FJ, Feldman MW (1996) The evolutionary consequences of niche construction. A theoretical investigation using two-locus theory. J Evol Biol 9:293–316
Laland KN, Odling-Smee J, Feldman MW (2000) Niche construction, biological evolution and cultural change. Behav Brain Sci 23:131–175
Laland KN, Odling-Smee J, Gilbert SJ (2008) Evo-devo and niche construction: building bridges. J Exp Zool 310:549–566
Laland KN, Odling-Smee J, Myles S (2010) How culture shaped the human genome. Nat Rev Genet 11:137–148
Laland KN, Sterelny K, Odling-Smee J, Hoppitt W, Uller T (2011) Cause and effect in biology revisited: is Mayr’s proximate-ultimate dichotomy still useful? Science 334:1512–1516
Laland K, Uller T, Feldman M, Sterelny K, Müller GB, Moczek A, Jablonka E, Odling-Smee J, Wray GA, Hoekstra HE, Futuyma DJ, Lenski RE, Mackay TFC, Schluter D, Strassmann JE (2014) Does evolutionary theory need a rethink? Nature 514:161–164
Lemischka IR, Moore KA (2003) Interactive niches. Nature 425:778–779
Lewontin R (1983) Gene, organism, and environment. In: Bendall DS (ed) Evolution from molecules to men. Cambridge University Press, New York, p 273–286
Lewontin RC (2000) The triple helix: gene, organism and environment. Harvard University Press, Cambridge
Lovelock JE (1987) Gaia. A new look at life on earth. Oxford University Press, Oxford
Margulis L (1967) Origins of life. In: Proceedings of the first conference. Origins of life. Gordon and Breach, Science Publishers, Princeton, New Jersey, p 376
Margulis L, Sagan D (eds) (1997) Slanted truths. Essays on Gaia, symbiosis and evolution. Springer, Heidelberg
Matthews B, De Meester L, Jones CG, Ibelings BW, Bouma TJ, Nuutinen V, van de Koppel J, Odling-Smee J (2013) Under niche construction: an operational bridge between ecology, evolution, and ecosystem science. Ecol Monogr 84:245–263
Mayr E (1982) The growth of biological thought: diversity, evolution, and inheritance. Belknap/Harvard University Press, Cambridge
Mayr E (1988) Essay 2. Cause and effect in biology. In: Mayr E (ed) Toward a new philosophy of biology. Belknap/Harvard University Press, Cambridge
Miller W (2001) The structure of species, outcomes of speciation and the ‘species problem’: ideas for paleobiology. Palaeogeogr Palaeoclimatol Palaeoecol 176:1–10
Morel RE, Fleck RE (2006) A fourth law of thermodynamics. Khimiya 15:305–310
Nagel T (1979) Teleology revisited. And other essays in the philosophy and history of science. Columbia University Press, New York
Nagel T (2012) Mind and cosmos: why the materialist neo-darwinian conception of nature is almost certainly false. Oxford University Press, USA
Normandin S (2007) Claude Bernard and an Introduction to the study of experimental medicine: “Physical vitalism”, dialectic, and epistemology. J Hist Med Allied Sci 62:495–528
Odling-Smee FJ (2010) Niche inheritance. In: Pigliucci M, Müller GB (eds) Evolution. The extended synthesis. MIT Press, Cambridge, p 175–207
Odling-Smee J, Turner JS (2011) Niche construction theory and human architecture. Biol Theory 6:283–289
Odling-Smee FJ, Laland KN, Feldman MW (2003) Niche construction: the neglected process in evolution. Princeton University Press, Princeton
Odling-Smee J, Erwin DH, Palkovacs EP, Feldman MW, Laland KN (2013) Niche construction theory: a practical guide for ecologists. Q Rev Biol 88:3–28
Raynaud X, Jones CG, Barot S (2013) Ecosystem engineering, environmental decay and environmental states of landscapes. Oikos 122:591–600
Schneider ED, Sagan D (2005) Into the cool. Energy flow, thermodynamics and life. University of Chicago Press, Chicago
Schrödinger E (1974) What is life: the physical aspects of the living cell. Mind and matter. Cambridge University Press, Cambridge
Scott-Phillips TC, Laland KN, Shuker DM, Dickins TE, West SA (2014) The niche construction perspective: a critical appraisal. Evolution 68:1231–1243
Shapiro R (1986) Origins. A skeptics guide to the creation of life on Earth, Heinemann
Sober E (ed) (2006) Conceptual issues in evolutionary biology. MIT Press, Cambridge
Terenius L (2000) Schizophrenia: pathophysiological mechanisms—a synthesis. Brain Res Rev 31:401–404
Turner JS (2000) The extended organism. The physiology of animal-built structures. Harvard University Press, Cambridge
Turner JS (2002) A superorganism’s fuzzy boundary. Nat Hist 111(6):62–67
Turner JS (2004a) Extended phenotypes and extended organisms. Biol Philos 19:327–352
Turner JS (2004b) Gaia, extended organisms, and emergent homeostasis. In: Schneider SH, Miller JR, Crist E, Boston PJ (eds) Scientists debate Gaia. The next century. MIT Press, Cambridge, pp 57–70
Turner JS (2006) Termites as mediators of the water economy of arid savanna ecosystems. In: Porporato A, d’Odorico P (eds) Dryland ecohydrology. Springer, Heidelberg, pp 303–313
Turner JS (2007a) Homeostasis, complexity and the problem of biological design. In: Richardson KA, Cilliers P (eds) Explorations in complexity thinking: pre-proceedings of the 3rd international workshop on complexity and philosophy. ISCE Publishing, Mansfield, Massacusetts, pp 131–147
Turner JS (2007b) Signs of design. The Christian Century 124:18–22
Turner JS (2007c) The Tinkerer’s accomplice. How design emerges from life itself. Harvard University Press, Cambridge
Turner JS (2013a) Biology’s second law. Homeostasis, purpose and desire. In: Henning G, Scarfe A (eds) Beyond mechanism. Putting life back into biology. Lexington Books, Lanham, pp 183–203
Turner JS (2013b) Homeostasis and the forgotten vitalist roots of adaptation. In: Normandin S, Wolfe CT (eds) Vitalism and the scientific image in post-enlightenment life science, 1800–2010. Springer, Heidelberg, pp 271–291
Turner JS (2013c) Superorganisms and superindividuality. The emergence of individuality in a social insect assemblage. In: Bouchard F, Huneman P (eds) From groups to individuals. Perspectives on biological associations and emerging individuality. MIT Press, Cambridge, pp 219–241
Turner JS, Marais E, Vinte M, Mudengi A, Park W (2006) Termites, water and soils. Agricola 2006:40–45
Wächtershäuser G (1988) Before enzymes and templates: theory of surface metabolism. Microbiol Rev 52:452–484
Waddington CH (1961) The nature of life. George Allen & Unwin Limited, London
Walker TJ, Figg DE (1990) Song and acoustic burrow of the prairie mole cricket, Gryllotalpa major (Orthoptera: Gryllidae). J Kansas Entomol Soc 63:237–242
Wilson EO (1971) The insect societies. Belknap/Harvard University Press, Cambridge
Wilson EO (1975) Sociobiology. The new synthesis. The Belknap Press of Harvard University Press, Cambridge
Wilson DS (1989) Levels of selection: an alternative to individualism in biology and the human sciences. Social Networks 11:257–272
Wilson DS (1997) Biological communities as functionally organized units. Ecology 78:2018–2024
Wolfe CT (2008) Introduction. Vitalism without metaphysics? Medical vitalism in the enlightenment. Sci Context 21:461–463
Wright JP, Jones CG (2006) The concept of organisms as ecosystem engineers ten years on: progress, limitations, and challenges. Bioscience 56:203–209
Acknowledgments
Part of this article is a précis of a book written with the support of a fellowship from the John C Templeton Foundation. Sponsors of the research that shaped this work also include the Human Frontiers Science Program, the National Geographic Society, the US Army Research Office and the National Science Foundation.
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Turner, J.S. Homeostasis and the physiological dimension of niche construction theory in ecology and evolution. Evol Ecol 30, 203–219 (2016). https://doi.org/10.1007/s10682-015-9795-2
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DOI: https://doi.org/10.1007/s10682-015-9795-2