Page 35 - i1052-5173-27-3-4

P. 35

New constraints on the age and evolution of the Journal of Geophysical Research, v. 76, p. 2562– U., and Wernicke, B., eds., Extending a Continent:
Wishbone Ridge, southwest Pacific Cretaceous 2586, doi:10.1029/JB076i011p02562. Architecture, Rheology and Heat Budget:
microplates, and Zealandia–West Antarctica Smith, W.H.F., and Sandwell, D.T., 1997, Global Geological Society (London) Special Publication
breakup: Geology, v. 34, p. 185–188, doi: sea floor topography from satellite altimetry and 321, p. 89–118.
10.1130/G22168.1. ship depth soundings: Science, v. 277, p. 1956– UNCLOS (United Nations Commission on the
Mortimer, N., Hauff, F., and Calvert, A.T., 2008a, 1962, doi: 10.1126/science.277.5334.1956. Limits of the Continental Shelf), 2008,
Continuation of the New England orogen, Stagpoole, V.M., 2002, The New Zealand continent, Recommendations of the Commission on the
Australia, beneath the Queensland Plateau and version 1.0: Institute of Geological and Nuclear Limits of the Continental Shelf (CLCS) in regard
Lord Howe Rise: Australian Journal of Earth Sciences Geophysical Map GPM15, scale: to the submission made by New Zealand 19 April
Sciences, v. 55, p. 195–209, doi: 1:7,500,000. 2006: http://www.linz.govt.nz/system/files_force/
10.1080/08120090701689365. Suggate, R.P., Stevens, G.R., and Te Punga, M.T., media/pages-attachments/un-continental-shelf-
Mortimer, N., Dunlap, W.J., Palin, J.M., Herzer, eds., 1978, The geology of New Zealand: recommendations.pdf (last accessed June 2016).
R.H., Hauff, F., and Clark, M., 2008b, Ultra-fast Wellington, New Zealand, Government Printer, Weaver, S.D., Storey, B.C., Pankhurst, R.J.,
early Miocene exhumation of Cavalli Seamount, 819 p. Mukasa, S.B., DiVenere, V.J., and Bradshaw,
Northland Plateau, Southwest Pacific Ocean: New Sutherland, R., Collot, J., Lafoy, Y., Logan, G.A., J.D., 1994, Antarctica–New Zealand rifting and
Zealand Journal of Geology and Geophysics, Hackney, R., Stagpoole, V., Uruski, C., Hashimoto, Marie Byrd Land lithospheric magmatism linked
v. 51, p. 29–42, doi: 10.1080/00288300809509848. T., Higgins, K., Herzer, R.H., Wood, R., Mortimer, to ridge subduction and mantle plume activity:
Mortimer, N., and 22 others, 2014, High-level N., and Rollet, N., 2010, Lithosphere delamination Geology, v. 22, no. 9, p. 811–814, doi: 10.1130/
stratigraphic scheme for New Zealand rocks: with foundering of lower crust and mantle caused 0091-7613(1994)022<0811:ANZRAM>2.3.CO;2
New Zealand Journal of Geology and permanent subsidence of New Caledonia White, R.S., McKenzie, D., and O’Nions, R.K.,
Geophysics, v. 57, p. 402–419, doi: 10.1080/ Trough and transient uplift of Lord Howe Rise 1992, Oceanic crustal thickness from seismic
00288306.2014.946062. during Eocene and Oligocene initiation of Tonga- measurements and rare earth element inversions:
Mortimer, N., Turnbull, R.E., Palin, J.M., Tulloch, Kermadec subduction, western Pacific: Tectonics, Journal of Geophysical Research, v. 97,
A.J., Rollet, N., and Hashimoto, T., 2015, v. 29, TC2004, doi: 10.1029/2009TC002476. p. 19,683–19,715, doi: 10.1029/92JB01749.
Triassic–Jurassic granites on the Lord Howe Thomson, A.A., and Evison, F.F., 1962, Thickness Whittaker, J.M., Williams, S.E., Halpin, J.A., Wild,
Rise, northern Zealandia: Australian Journal of of the Earth’s crust in New Zealand: New T.J., Stilwell, J.D., Jourdan, F., and Daczko, N.R.,
Earth Sciences, v. 62, p. 735–742. Zealand Journal of Geology and Geophysics, 2016, Eastern Indian Ocean microcontinent
Neuendorf, K.K.E., Mehl, J.P., and Jackson, J.A., v. 57, p. 402–419. formation driven by plate motion changes: Earth
2005, Glossary of Geology, 5th edition: Torsvik, T.H., Amundsen, H., Hartz, E.H., Corfu, F., and Planetary Science Letters, v. 454, p. 203–212,
Alexandria, Virginia, American Geological Kusznir, N., Gaina, C., Doubrovine, P.V., doi: 10.1016/j.epsl.2016.09.019.
Institute, 779 p. Steinberger, B., Ashwal, L.D., and Jamtveit, B., Wood, R.A., Stagpoole, V.M., Wright, I., Davy, B.,
Pulvertaft, T.C.R., and Dawes, P.R., 2011, North 2013, A Precambrian microcontinent in the and Barbes, P., 2003, New Zealand’s continental
Atlantic spreading axes terminate in continental Indian Ocean: Nature Geoscience, v. 6, p. 223– shelf and UNCLOS Article 76: Institute of
cul-de-sacs of Baffin Bay and the Laptev Sea: 227, doi: 10.1038/ngeo1736. Geological and Nuclear Sciences Information
Canadian Journal of Earth Sciences, v. 48, Tulloch, A.J., Kimbrough, D.L., and Wood, R.A., Series, v. 56, 56 p.
p. 593–601, doi: 10.1139/E11-004. 1991, Carboniferous granite basement dredged
Rey, P.F., and Müller, R.D., 2010, Fragmentation from a site on the southwest margin of the MANUSCRIPT RECEIVED 12 SEPT. 2016
of active continental plate margins owing to Challenger Plateau, Tasman Sea: New Zealand REVISED MANUSCRIPT RECEIVED 19 DEC. 2016
the buoyancy of the mantle wedge: Nature Journal of Geology and Geophysics, v. 34, MANUSCRIPT ACCEPTED 21 DEC. 2016
Geoscience, v. 3, p. 2547–261. p. 121–126, doi: 10.1080/00288306.1991
Segev, A., Rybakov, M., and Mortimer, N., 2012, .9514449.
A crustal model for Zealandia and Fiji: Geo- Tulloch, A.J., Ramezani, J., Mortimer, N.,
physical Journal International, v. 189, p. 1277– Mortensen, J., van den Bogaard, P., and Maas,
1292, doi: 10.1111/j.1365-246X.2012.05436.x. R., 2009, Cretaceous felsic volcanism in New
Shor, G.G., Jr., Kirk, H.K., and Menard, H.W., Zealand and Lord Howe Rise (Zealandia) as a
1971, Crustal structure of the Melanesian area: precursor to final Gondwana break-up, in Ring,

The Web of Science’s #1 ranked geology journal for 10 years in a row.

FREE online access to every 35
Geology issue is now included with

all 2017 GSA Memberships.

Not a member? Join Now! www.geosociety.org/members/

www.geosociety.org/gsatoday

30 31 32 33 34 35 36 37 38 39 40