Abstract
Palaeobiology, like all sciences, progresses by a combination of the discovery of new information, in this case fossils, the application of new techniques, and the development of new concepts with which to generate novel kinds of hypotheses. Research in the field of Late Palaeozoic and Mesozoic terrestrial tetrapods has involved major advances in all three of these over the last decade or so. Several new discoveries fill in gaps in the evolution of higher tetrapod taxa such as Tetrapoda, Dicynodontia, and birds, while others add significantly to the understanding of patterns of faunal turnover and palaeo-community structure.
The molecular revolution in biology is having a profound effect on several aspects of palaeobiology, in particular the use of large amounts of sequence data for phylogenetic studies and estimating branching dates. In some cases, notably placental mammals, this has produced results that highlight the limitations of purely morphological evidence in this, and probably other cases, and points to the desirability of seeking other kinds of evidence of relationships. Molecular developmental biology is starting to suggest new evolutionary hypotheses about the molecular genetic basis of the evolutionary transitions that can be inferred from the fossil record, such as how the tetrapod limb arose. In the field of functional analysis of fossils, CT scanning has opened the way to the application of such methods as finite element analysis for studying the mechanical design of fossil tetrapod skulls and skeletons. Geochemistry has also introduced new methods, notably stable isotope analysis, that have a direct bearing on the interpretation of the palaeoenvironmental background of major evolutionary events such as mass extinctions.
The principal new concept in palaeobiology arises from a shift towards the systems view that it is the interactions of the parts of a complex system, rather than the nature of the parts themselves that provide the main key to understanding how the system works. Correlated progression is a model based on this concept which offers a more realistic view of major evolutionary transitions such as the origins of tetrapods, mammals, and potentially all the higher taxa of tetrapods. Earth sciences are also moving more towards a systems way of thinking, such as when seeking explanations for mass extinctions.
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Alexander, RM (2006) Dinosaur biomechanics. Proc R Soc, B273:1849–1855.
Apesteguía, S, Zaher, H (2006) A Cretaceous terrestrial snake with robust hindlimbs and a sacrum. Nature, 440:1037–1040.
Archibald, JD (2003) Timing and biogeography of the eutherian radiation: fossils and molecules compared. Mol Phylogenetics Evol, 28:350–359.
Archibald, JD, Averianov, AO, Ekdale, EG (2001) Late Cretaceous relatives of rabbits, rodents, and other extant eutherian mammals. Nature, 414:62–65.
Arias, AM, Stewart, A (2002) Molecular principles of animal development. Oxford University Press, Oxford.
Asher, RA, Novacek, MJ, Geisler, JH (2003) Relationships of endemic African mammals and their fossil relatives based on morphological and molecular evidence. J Mammalian Evol, 10:131–194.
Bambach, RK (2006) Phanerozoic biodiversity and mass extinctions. Ann Rev Earth Plane Sci, 34:127–155.
Bandyopadhyay, S, Sengupta, DP (2006) Vertebrate faunal turnover during the Triassic-Jurassic transition: an Indian scenario. N M Mus Nat Hist Sci Bull, 37:77–85.
Barrett, PM, Rayfield, EJ (2006) Ecological and evolutionary implications of dinosaur feeding behaviour. Trends Ecol Evol, 21:217–224.
Bell, MA (2000) Bridging the gap between population biology and paleobiology. Evolution, 54:1457–1461.
Benton, MJ (1994) Late Triassic to Middle Jurassic extinctions among continental tettrapods: testing the pattern. In: Fraser, NC, Sues, H-D (eds) In the shadow of the dinosaurs. Cambridge University Press, Cambridge, MA.
Benton, MJ (1996) On the nonprevalence of competitive replacement in the evolution of tetrapods. In: Jablonski, D, Erwin DH, Lipps, JH (eds) Evolutionary paleobiology. Chicago University Press, Chicago, IL.
Benton, MJ (2003) When life nearly died: the greatest extinction of all time. Thames and Hudson, London, UK.
Berner, RA, Petsch, ST, Lake, JA, Beerling, DJ, Popp, BN, Lane, RS, Laws, EA, Westley, MB, Cassar, N, Woodward, FI, Quick, WP (2000) Isotope fractionation and atmospheric oxygen: implications for Phanerozoic O 2 evolutionn. Science, 287:1630–1633.
Bininda-Emonds, ORP, Cardillo, M, Jones, KE, MacPhee, RDE, Beck, RMD, Grenyer, R, Price, SA, Vos, RA, Gittleman, JL, Purvis, A (2007) The delayed rise of present-day mammals. Nature, 446:507–512.
Boisvert, CA (2005) The pelvic fin and girdle of Panderichthys and the origin of tetrapod locomotion. Nature, 438:1145–1147.
Butler, RJ (2005) The ‘fabrosaurid’ ornithischian dinosaurs of the Upper Elliot Formation (Lower Jurassic) of South Africa and Lesotho. Zool J Linn Soc, 145:175–218.
Caldwell, MW, Lee, MSY (1999) A snake with legs from the marine Cretaceous of the Middle East. Nature, 386:705–709.
Ceste, ME, Doyle, JC (2002) Reverse engineering of biological complexity. Science, 295:1664–1669.
Charlesworth, B (1996) The good fairy godmother of evolutionary genetics. Curr Biol, 6:220.
Chatterjee, S, Templin, JR (2007) Biplane wing planform and flight performance of the feathered dinosaur Microraptor qui. Proc Natl Acad Sci USA, 104:1576–1580.
Clack, JA (1994) Acanthostega gunnari, a Devonian tetrapod from Greenland: the snout, palate and ventral parts of the braincase, with a discussion of their significance. Meddelelser Gronland Geosci, 31:1–24.
Clack, JA (2002) Gaining ground: the origin and evolution of tetrapods. Indiana University Press, Bloomington, IN.
Clarke, JA, Zhou, Z, Zhang, F (2006) Insight into the evolution of avian flight from a new clade of early Cretaceous ornithurines from China and the morphology of Yixianornis grabaui. J Anat, 208:287–308.
Coates, MI (1996) The Devonian tetrapod Acanthostega gunneri Jarvik: postcranial anatomy, basal tetrapod relationships and patterns of skeletal evolution. Trans R Soc Edinburgh Earth Sci, 87:363–421.
Coates, MI, Ruta, M (2007) Skeletal changes in the transition from fins to limbs. In: Hall, BK (ed) Fins into limbs: evolution, development, and transformation. Chicago University Press, Chicago, IL.
Daeschler, EB, Shubin, NH, Jenkins, FA (2006) A Devonian tetrapod-like fish and the evolution of the tetrapod body plan. Nature, 440:757–763.
Depew, MJ, Simpson, CA (2006) 21st Century neontology and the comparative development of the vertebrate skull. J Exp Zool (Mol Dev Evol), 235:1256–1291.
Depew, MJ, Simpson, CA, Morasso, M, Rubenstein, JLR (2005) Reassessing the Dlx code: the genetic regulation of branchial arch skeletal pattern and development. J Anat, 207:501–561.
Donaghue, PCJ, Benton, MJ (2007) Rocks and clocks: calibrating the tree of life using fossils and molecules. Trends Ecol Evol, 22:424–431.
Dullemeijer, P (1974) Concepts and approaches in animal morphology. Van Gorcum, Assen, The Netherlands.
Dullemeijer, P (1980) Functional morphology and evolutionary biology. Acta Biotheor, 29:151–250.
Erwin, DH, Jin, SA (2002) End-Permian mass extinctions: a review. Geol Soc Am Sp Pap, 356:363–383.
Foote, M, Hunter, JP, Janis, C, Sepkoski, JJ (1999) Evolutionary and preservational constraints on origins of biologic groups: divergence times of eutherian mammals. Science, 283:1310–1314.
Garner, JP, Taylor, GK, Thomas, ALR (1999) On the origin of birds: the sequence of character acquisition in the evolution of bird flight. Proc R Soc, B266:1259–1266.
Gould, SJ (1994) Tempo and mode in the macroevolutionary reconstruction of Darwinism. Proc Natl Acad Sci USA, 91:6764–6771.
Gould, SJ (2002) The structure of evolutionary theory. Belknap Press, Harvard, Cambridge, MA.
Grantham, T (2007) Is macroevolution more than successive rounds of microevolution? Palaeontology, 50:75–85.
Hall, BK (2007) Fins into limbs: evolution, development, and transformation. Chicago University Press, Chicago, IL.
Hallam, A, Wignall, PB (1997) Mass extinctions and their aftermath. Oxford University Press, Oxford.
Hu, D, Hu, L, Zhang, L, Xu, X (2009) A pre-Archaeopteryx troodontid theropod from China with long feathers on the metatarsus. Nature, 461:640–643.
Hu, Y, Meng, J, Wang, Y, Li, C (2005) Large Mesozoic mammals fed on young dinosaurs. Nature, 433:149–152.
Hunter, JP, Janis, CM (2006) Spiny Norman in the Garden of Eden? Dispersal and early biogeography of Placentalia. J Mammal Evol, 13:89–123.
Hutchinson, JR (2004) Biomechanical modeling and sensitivity analysis of bipedal running ability. II. Extinct taxa. J Morphol, 262:441–461.
Irmis, RB, Nesbitt, SJ, Padian, K, Smith, ND, Turner, AH, Woody, D, Downs, A (2007) A Late Triassic dinosauromorph assemblage from New Mexico and the rise of dinosaurs. Science, 317:358–361.
Jarvik, E (1980) Basic structure and evolution of vertebrates, Vols. 1 and 2. Academic Press, New York, NY.
Ji, Q, Luo, Z-X, Wible, JR, Zhang, J-P, Georgi, JA (2002) The earliest known eutherian mammal. Nature, 416:816–822.
Ji, Q, Luo, Z-X, Yuan, C-X, Tabrum, AR (2006) A swimming mammaliaform from the Middle Jurassic and ecomorphological diversification of early mammals. Science, 311:1123–1127.
Jin, M, Yaoming, H, Chuankui, L, Yuanqing, W. (2006) The mammal fauna in the Early Cretaceous Jehol Biota: implications for diversity and biology of Mesozoic mammals. Geol J, 41:439–463.
Kemp, TS (1978) Stance and gait in the hindlimb of a therocephalian mammal-like reptile. J Zool London, 186:143–161.
Kemp, TS (1985) Synapsid reptiles and the origin of higher taxa. Spec Pap Palaeontol, 33:175–184.
Kemp, TS (1988) Haemothermia or Archosauria? The interrelationships of mammals, birds and crocodiles. Zool J Linn Soc, 92:67–104.
Kemp, TS (1999) Fossils and evolution. Oxford University Press, Oxford.
Kemp, TS (2005) The origin and evolution of mammals. Oxford University Press, Oxford.
Kemp, TS (2006) The origin and early radiation of the therapsid mammal-like reptiles: a palaeobiological hypothesis. J Evol Biol, 19:1231–1247.
Kemp, TS (2007a) The concept of correlated progression as the basis of a model for the evolutionary origin of major new taxa. Proc R Soc, B274:1667–1673.
Kemp, TS (2007b) The origin of higher taxa: macroevolutionary processes, and the case of the mammals. Acta Zool, 88:3–22.
Kemp, TS (2009) Phylogenetic interrelationships and pattern of evolution of the therapsids: testing for polytomy. Palaeontol Afr, 44:1–12.
Kielan-Jaworowska, Z, Cifella, RL, Luo, Z-X (2004) Mammals from the age of dinosaurs: origins, evolution, and structure. Columbia University Press, New York, NY.
Kirschner, MW (2005) The meaning of systems biology. Cell, 121:503–504.
Kmita, M, Fraudeau, N, Hérault, Y, Duboule, D (2002) Serial deletions and duplications suggest a mechanism for the collinearity of Hoxd genes in limbs. Nature, 420:145–150.
Konopka, AK (2007) Basic concepts of systems biology. In: Konopka, AK (ed) Systems biology: principles, methods, and concepts. CRC Press, Taylor and Francis Group, Boca Raton, FL.
Langer, MC, Benton, MJ (2006) Early dinosaurs: a phylogenetic study. J Syst Palaeontol, 4:309–358.
Lawton, J (2001) Earth systems science. Science, 292:1965.
Li, C, Wu, X-C, Reippel, O, Wang, L-T, Zhao, L-J (2008) An ancestral turtle from the late Triassic of southwestern China. Nature, 456:497–500.
Lovelock, J (1979) Gaia. Oxford University Press, Oxford.
Lovelock, J (2000) Homage to Gaia. Oxford University Press, Oxford.
Lucas, SG, Tanner, LH (2006) Tetrapod biostratigraphy and biochronology of the Triassic-Jurassic transition on the Southern Colorado plateau, USA. Palaeogeogr Palaeoclimatol Palaeoecol, 244:242–256.
Luo, Z-X, Ji, Q, Wible, JR, Yuan, C-X (2003) An Early Cretaceous tribosphenic mammal and metatherian evolution. Science, 302:1934–1940.
Luo, Z-X, Wible, JR (2005) A Late Jurassic digging mammal and early mammalian diversification. Science, 308:103–107.
McKenna, MC, Bell, SK (1997) Classification of mammals above the species level. Columbia University Press, New York, NY.
Meng, J, Hu, Y, Wang, Y, Wang, X, Li, C (2006) A Mesozoic gliding mammal from northeastern China. Nature, 444:889–893.
Modesto, SP, Rubidge, BS, Welman, J (1999) The most basal anomodont therapsid and the primacy of Gondwana in the evolution of anomodonts. Proc R Soc, B266:331–337.
Murphy, WJ, Eizirik, E, (2009) Placental mammals. In: Hedges, SB, Kumar, S (eds) The timetree of life. Oxford University Press, Oxford.
Novacek, MJ, Wyss, AR, McKenna, MC (1988) The major groups of eutherian mammals. In: Benton, MJ (ed) The phylogeny and classification of tetrapods, Vol. 2. Oxford University Press, Oxford.
Padian, K, Dial, KP (2005) Origin of flight: could the ‘four-winged’ dinosaur fly? Nature, 438:3–4.
Rauhut, OWM (2003) Interrelationships and evolution of basal theropod dinosaurs. Spec Pap Palaeontol, 69:3–213.
Rayfield, EJ (2005) Aspects of comparative cranial mechanics in the theropod dinosaurs Coelophysis, Allosaurus and Tyrannosaurus. Zool J Linn Soc, 144:309–316.
Rayfield, EJ, Norman, DB, Horner, CC, Hirner, JR, Smith, PM, Thomason, JJ, Upchurch, P (2001) Cranial design and function in a large theropod dinosaur. Nature, 409:1033–1037.
Reisz, RR, Sues, H-D (2000) Herbivory in late Paleozoic and Triassic terrestrial vertebrates. In: Sues, H-D (ed) Evolution of herbivory in terrestrial vertebrates: perspectives from the fossil record. Cambridge University Press, Cambridge, MA.
Riedl, R (1977) A systems-analytical approach to macro-evolutionary phenomena. Q Rev Biol, 522:351–370.
Riedl, R (1978) Order in living organisms: a systems analysis of evolution. Wiley, Chichester.
Rieppel, O (2001) Preformationist and epigenetic biases in the history of the morphological character concept. In: Wagner, GP (ed) The character concept in evolutionary biology. Academic Press, San Diego, CA.
Rose, KD (2006) The beginning of the age of mammals. John Hopkins University Press, Baltimore, MD.
Rosenzweig, ML, McCord, RD (1991) Incumbent replacement: evidence for long-term evolutionary progress. Paleobiology, 17:202–213.
Royer, DL, Berner, RA, Montañez, IP, Tabor, NJ, Beerling, DJ (2004) CO 2 as a primary driver of Phanerozoic climate. GSA Today, 14:4–10.
Rubidge, BS (1990) Redescription of the cranial morphology of Eodicynodon oosthuizeni (Therapsida: Dicynodontia). Navorsinge Nasl Mus Bloemfontein, 7:1–25.
Rubidge, BS, Hopson, JA (1996) A primitive anomodont therapsid from the base of the Beaufort Group (Upper Permian) of South Africa. Zool J Linn Soc, 117:115–139.
Rybczynski, N (2000) Cranial anatomy and phylogenetic position of Suminia getmanovi, a basal anomodont (Amniota: Therapsida) from the Late Permian of Eastern Europe. Zool J Linn Soc, 130:329–373.
Save-Soderbergh, G (1932) Preliminary note on Devonian stegocephalians from East Greenland. Meddr Gronland Geosci, 98:1–211.
Sereno, PC, Wilson, JA, Witmer, L, Whitlock, J, Maga, A, Ide, O, Rowe, T (2007) Structural extremes in a Cretaceous dinosaur. Public Lib Sci, 2:e1230.
Shubin, NH, Daeschler, EB, Jenkins, FAJ (2006) The pectoral fin of Tiktaalik roseae and the origin of the tetrapod limb. Nature, 440:764–771.
Springer, MS, Murphy, WJ, Eizirik, E, O’Brien, SJ (2003) Placental mammal diversification and the Cretaceous-Tertiary boundary. Proc Natl Acad Sci USA, 100:1056–1061.
Springer, MS, Murphy, WJ, Eizirik, E, O’Brien, SJ (2005) Molecular evidence for the major placental clades. In: Rose, KD, Archibald, JD (eds) The rise of the placental mammals. John Hopkins University Press, Baltimore, MD.
Srivastava, R, Sahni, A, Jafar, SA, Mishra, S (2005) Microstructure-dictated resistance properties of some Indian dinosaur eggshells: finite element modelling. Paleobiology, 31:315–323.
Tanaka, M, Tickle, C (2007) The development of fins and limbs. In: Hall, BK (ed) Fins into limbs: evolution, development, and transformation. Chicago University Press, Chicago, IL.
Tanner, LH, Lucas, SG, Chapman, MG (2004) Assessing the record and causes of Late Triassic extinctions. Earth Sci Rev, 65:103–139.
Thomson, KS (1966) The evolution of the tetrapod middle ear in the rhipidistian-amphibian transition. Am Zool, 6:379–397.
Turner, AH, Pol, D, Clarke, JA, Etickson, GM, Norell, MA (2007) A basal dromaeosaurid and size evolution preceding avian flight. Science, 317:1378–1381.
Twitchett, RJ (2006) The palaeoclimatology, palaeoecology and palaeoenvironmental analysis of mass extinction events. Palaeogeogr Palaeoclimatol Palaeoecol, 232:190–213.
Upchurch, P, Barrett, PM, Galton, PM (2007) A phylogenetic analysis of basal sauropodomorph dinosaurs. Spec Pap Palaeontology, 77:57–90.
Upchurch, P, Hunn, CA, Norman, DB (2002) An analysis of dinosaurian biogeography: evidence for the existence of vicariance and dispersal patterns caused by geological events. Proc R Soc, B269:613–621.
Vorobyeva, EI, Schultze, H-P (1991) Description and systematics of panderichthyid fishes with comments on their relationship to tetrapods. In: Schultze, H-P, Trueb, L (eds) Origins of higher groups of tetrapods. Cornell University Press, Ithaca, NY.
Wagner, GP, Larsson, HCE (2007) Fins and limbs in the study of evolutionary novelties. In: Hall, BK (ed) Fins into limbs: evolution, development, and transformation. Chicago University Press, Chicago, IL.
Wignall, PB (2001) Large igneous provinces and mass extinctions. Earth Sci Rev, 53:1–33.
Wilkinson, DM (2003) The fundamental processes in ecology: a thought experiment on extraterrestrial biospheres. Biol Rev, 78:171–179.
Wilkinson, DM (2006) Fundamental processes in ecology: an earth systems approach. Oxford University Press, Oxford.
Wilkinson, MT (2007) Sailing the skies: the improbable aeronautical success of the pterosaurs. J Exp Biol, 210:1663–1671.
Xu, X, Norrell, MA (2006) Non-avian dinosaurs from the Lower Cretaceous Jehol group of western Liaoning, China. Geol J, 41:419–437.
Xu, X, Tan, Q, Wang, J, Zhao, X, Tan, L (2007) A gigantic bird-like dinosaur from the Late Cretaceous of China. Nature, 447:844–847.
Zhang, Z (2006) Evolutionary radiation of the Jehol Biota: chronological and ecological perspectives. Geol J, 41:377–393.
Zhou, Z (2004) The origin and early evolution of birds: discoveries, disputes, and perspectives from fossil evidence. Naturwissenschaften, 91:455–471.
Zhou, Z, Barrett, PM, Hilton, J (2003) An exceptionally preserved Lower Cretaceous ecosystem. Nature, 421:807–813.
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Kemp, T. (2010). New Perspectives on the Evolution of Late Palaeozoic and Mesozoic Terrestrial Tetrapods. In: New Aspects of Mesozoic Biodiversity. Lecture Notes in Earth Sciences, vol 132. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-10311-7_1
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