Geoscience Reference
In-Depth Information
Palaeoichthyology (Riga, 2003). Acta Universitatis
Latviensis, 679, 79 - 98.
Leriche, M. 1931. Les poissons famenniens de la Belgi-
que. Les faci`s du Famennien dans la r´gion gallo-
belge. Les relations entre les formations marines et
les formations continentales du D´vonien sup´rieur
sur la bordure m´ridionale du Continent Nord-
Atlantique. Acad´mie Royale de Belgique, Classe des
Sciences, M´moires,2
e
s´rie, 10 [in French].
Long, J. A. (ed.) 1993. Palaeozoic Vertebrate Biostrati-
graphy and Biogeography. Belhaven Press, London.
Long,J.A.&Gordon, M. S. 2004. The greatest step in
vertebrate history: a paleobiological review of the fish-
tetrapod
Sarcopterygii and the sister group of the tetrapods.)
In: Richter,S.&Sudhaus, W. (eds) Kontroversen
in der Phylogenetischen Systematik der Metazoa. Sit-
zungsberichte der Gesellschaft Naturforschender
Freunde zu Berlin, NF, 43, 175 - 199 [in German
with English abstract].
Sheehan, P. M. 1977. Species diversity in the Phanero-
zoic: a reflection of labor by systematists? Paleobiol-
ogy, 3, 325 - 328.
Steemans, P., Le H´ riss´,A.&Bozdogan, N. 1996.
Ordovician and Silurian cryptospores and miospores
from Southeastern Turkey. Review of Palaeobotany
and Palynology, 93, 35 - 76.
Streel, M. 1992. Climatic impact on Famennian mios-
pore distribution. In: Fifth International Conference
on Global Bioevents (IGCP 216, G¨ ttingen). Abstract,
108 - 109.
Streel, M. 2007a. West Gondwanan and Euramerican
climate impact on Famennian miospore assemblages.
In: Cl´ ment,G.&Vecoli, M. (eds) Terrestrialization
Influences on the Palaeozoic Geosphere - Biosphere
(ECLIPSE
transition.
Physiological
and
Biochemical
Zoology, 77, 700 - 719.
MacNaughton, R. B., Cole, J. M., Dalrymple, R. W.,
Braddy, S. J., Briggs,D.E.G.&Lukie,T.D.
2002. First steps on land: arthropod trackways in
Cambrian-Ordovician eolian sandstone, southeastern
Ontario, Canada. Geology, 30, 391 - 394.
Marshall, J. E. A.,
Astin,T.R.&Clack, J. A. 1999.
East
Greenland
tetrapods
are
Devonian
in
age.
II
meeting,
Paris,
8 - 9
Oct.
2007).
Geology, 27, 637 - 640.
Marshall, J. E. A., Astin, T. R., Evans,E.&Almond,J.
2002. The palaeoclimatic significance of the
Devonian-Carboniferous Boundary. In: Geology of
the Devonian System (Proceedings of the International
Symposium, Syktyvkar, Komi Republic, July 9 - 12
2002), 23 - 25.
Niedzwiedzki, G., Szrek, P., Narkiewicz, K., Narkie-
wicz,M.&Ahlberg, P. E. 2010. Tetrapod trackways
from the early Middle Devonian period of Poland.
Nature, 463, 43 - 48.
Pan, J., Huo,F.et al. 1987. Continental Devonian
System of Ningxia and its Biotas. Geological
Publishing House, Beijing [in Chinese with English
abstract].
Ritchie, A., Wang, S., Young,G.C.&Zhang, G. 1992.
The Sinolepidae, a family of antiarchs (placoderm
fishes) from the Devonian of South China and
Eastern Australia. Records of the Australian Museum,
44, 319 - 370.
Ruta,M.&Coates, M. I. 2003. Bones, molecules,
and crown-tetrapod origins. In: Donoghue,P.C.J.
& Smith, M. P. (eds) Telling the Evolutionary
Time - Molecular Clocks and the Fossil Record.
CRC Press, Boca Raton/Systematic Association,
Special Volume Series/Palaeontological Association,
224 - 262.
Ruta, M., Coates,M.I.&Quicke, D. L. J. 2003. Early
tetrapod relationships revisited. Biological Reviews,
78, 251 - 345.
Schultze, H.-P. 1993. Osteichthyes: Sarcopterygii. In:
Benton, M. J. (ed.) The Fossil Record 2. Chapman
& Hall, London, 657 - 663.
Schultze, H.-P. 1997. Umweltbedingungen beim
¨ bergang von fisch zu tetrapode. (Paleoenvironment
at the transition from fish to tetrapod.) Sitzungs-
berichte der Gesellschaft Naturforschender Freunde
zu Berlin, NF, 36, 59 - 77 [in German with English
abstract].
Schultze, H.-P. 2004. Evolution der Actinopterygii und
der Sarcopterygii: zur Frage der Schwestergruppe der
Tetrapoda.
Abstracts, 29 - 31.
Streel, M. 2007b. West Gondwanan and Euramerican
climate impact on early Famennian to latest Visean
miospore assemblages. Subcommission on Devonian
Stratigraphy Newsletter, 22, 53 - 57.
Streel, M. 2009. Upper Devonian miospore and conodont
zone correlation in Western Europe. In: K ¨ nigshof,P.
(ed.) Devonian Change: Case Studies in Palaeogeo-
graphy
and
Palaeoecology.
Geological
Society,
London, Special Publications, 314, 163 - 176.
Streel,M.&Marshall, J. E. A. 2006. Devonian -
Carboniferous boundary global correlations and their
paleogeographic implications for the Assembly of
Pangaea. In: Wong, T. E. (ed.) Proceedings of the
XVth International Congress on Carboniferous and
Permian Stratigraphy (Utrecht, the Netherlands,
10 - 16 August 2003). Royal Netherlands Academy of
Arts and Sciences, 481 - 496.
Strother, P. K., Al-Hajri,S.&Traverse, A. 1996.
New evidence for land plants from the lower
Middle Ordovician of Saudi Arabia. Geology, 24,
55 - 59.
Turner, S. 1986. Vertebrate fauna of the Silverband
Formation, Grampians, Western Victoria. Proceedings
of the Royal Society of Victoria, 98, 53 - 62.
Ward, P., Labandeira, C., Laurin,M.&Berner,R.A.
2006. Confirmation of Romer's Gap as a low oxygen
interval constraining the timing of initial arthropod
and vertebrate terrestrialization. Proceedings of the
National
Academy
of
Sciences
of
USA,
103,
16818 - 16822.
Warren,J.W.&Wakefield, N. A. 1972. Trackways
of tetrapod vertebrates from the Upper Devonian of
Victoria, Australia. Nature, 228, 469 - 470.
Warren, A., Jupp,R.&Bolton, B. 1986. Earliest tetra-
pod trackway. Alcheringa, 10, 183 - 186.
Young, G. C. 1993. Middle Palaeozoic macrovertebrate
biostratigraphy of eastern Gondwana. In: Long,J.A.
(ed.) Palaeozoic Vertebrate Biostratigraphy and
Biogeography. Belhaven Press, London, 208 - 251.
Young, G. C. 2003. North Gondwana mid-Palaeozoic con-
nections
(The
evolution
of
Actinopterygii
and
with
Euramerica
and
Asia:
Devonian
