Page 10 - i1052-5173-31-7
P. 10
Lebedeva-Ivanova, N., Gaina, C., Minakov, A., and Society for Geosciences, v. 163, p. 251–259, https:// and Eurekan fault tectonics at the northern mar-
Kashubin, S., 2019, ArcCRUST: Arctic crustal doi.org/10.1127/1860-1804/2012/0163-0251. gin of Ellesmere Island (Canadian High Arctic):
thickness from 3-D gravity inversion: Geochem- Miller, E.L., Meisling, K.E., Akinin, V.V., Brumley, Journal of the German Society for Geosciences,
istry Geophysics Geosystems, v. 20, p. 3225– K., Coakley, B.J., Gottlieb, E.S., Hoiland, C.W., v. 164, p. 81–105, https://doi.org/10.1127/1860
3247, https://doi.org/10.1029/2018GC008098. O’Brien, T.M., Soboleva, A., and Toro, J., 2018, -1804/2013/0007.
Lundin, E.R., and Doré, A.G., 2019, Non-Wilso- Circum-Arctic Lithosphere Evolution (CALE) Piepjohn, K., von Gosen, W., Tessensohn, F., Rein-
nian break-up predisposed by transforms: Ex- Transect C: Displacement of the Arctic Alaska– hart, L., McClelland, W.C., Dallman, W.,
amples from the North Atlantic and Arctic, in Chukotka microplate towards the Pacific during Gaedicke, C., and Harrison, J.C., 2015, Tectonic
Wilson, R.W., Housman, G.A., McCaffery, opening of the Amerasia Basin of the Arctic, in map of the Ellesmerian and Eurekan deforma-
K.J.W., Doré, A.G., and Buiter, S.J.H., eds., Pease, V., and Coakley, B., eds., Circum-Arctic tion belts on Svalbard, North Greenland, and the
Fifty Years of the Wilson Cycle Concept in Lithosphere Evolution: Geological Society of Queen Elizabeth Islands (Canadian Arctic): Ark-
Plate Tectonics: Geological Society of London London Special Publication 460, p. 57–120, tos, v. 1, no. 12, p. 1–12, https://doi.org/10.1007/
Special Publication 470, p. 375–392, https://doi https://doi.org/10.1144/SP460.9. s41063-015-0015-7.
.org/10.1144/SP470.6. Murphy, D.C., 2019, Latest Cretaceous–early Eocene Piepjohn, K., Strauss, J.V., Reinhardt, L., and Mc-
Macdonald, F.A., McClelland, W.C., Schrag, D.P., Pacific-Arctic?-Atlantic connection: Co-evolution Clelland, W.C., editors, 2019, Circum-Arctic
and Macdonald, W.P., 2009, Neoproterozoic of strike-slip fault systems, oroclines, and trans- Structural Events: Tectonic Evolution of the Arc-
glaciation on a carbonate platform margin in verse fold-and-thrust belts in the northwestern tic Margins and Trans-Arctic Links with Adja-
Arctic Alaska and the origin of the North Slope North American Cordillera, in Piepjohn, K., cent Orogens: Geological Society of America
subterrane: Geological Society of America Bul- Strauss, J.V., Reinhardt, L., and McClelland, W.C., Special Paper 541, 686 p., https://doi.org/10.1130/
letin, v. 121, p. 448–473, https://doi.org/10.1130/ eds., Circum-Arctic Structural Events: Tectonic SPE541.
B26401.1. Evolution of the Arctic Margins and Trans-Arctic Piskarev, A., Poselov, V., and Kaminsky, V., eds.,
Macdonald, F.A., Schmitz, M.D., Crowley, J.L., Links with Adjacent Orogens: Geological Society 2019, Geologic Structures of the Arctic Basin:
Roots, C.F., Jones, D.S., Maloof, A.C., Strauss, of America Special Paper 541, p. 665–686, https:// Berlin, Springer, 375 p., https://doi.org/ 10.1007/
J.V., Cohen, P.A., Johnston, D.T., and Schrag, doi.org/10.1130/2018.2541(28). 978-3-319-77742-9.
D.P., 2010, Calibrating the Cryogenian: Science, Nikishin, A.M., Petrov, E.I., Cloetingh, S., Malyshev, Rosa, D., Majka, J., Thrane, K., and Guarnieri, P.,
v. 327, p. 1241–1243, https://doi.org/10.1126/ N.A., Morozov, A.F., Posamentier, H.W., Verzh- 2016, Evidence for Timanian-age basement
science.1183325. bitsky, V.E., Freiman, S.I., Rodina, E.A., Startseva, rocks in North Greenland as documented
Majka, J., Kośmińska, K., Bazarnik, J., and K.F., and Zhukov, N.N., 2021, Arctic ocean mega through U-Pb zircon dating of igneous xenoliths
McClelland, W.C., 2021, The Ordovician Thores project: Paper 2—Arctic stratigraphy and regional from the Midtkap volcanic centers: Precambrian
volcanic island arc of the Pearya Terrane from tectonic structure: Earth-Science Reviews, https:// Research, v. 275, p. 394–405, https://doi.org/
northern Ellesmere Island formed on Precambri- doi.org/10.1016/j.earscirev.2021.103581 (in press). 10.1016/ j.precamres .2016 .01.005.
an continental crust: Lithos, v. 386–387, 105999, Oldow, J.S., and Avé Lallemant, H.G., 1993, Late Saylor, J.E., Jordan, J.C., Sundell, K.C., Wang, X.,
https://doi.org/10.1016/j.lithos.2021.105999. Mesozoic and Cenozoic tectonism of the Arctic Wang, S., and Deng, T., 2017, Topographic growth
Malone, S.J., McClelland, W.C., von Gosen, W., and margin of eastern Alaska and northwestern Can- of the Jishi Shan and its impact on basin and hy-
Piepjohn, K., 2017, The Earliest Neoproterozoic ada: Implications for the evolution of the Canada drology evolution, NE Tibetan Plateau: Basin Re-
magmatic record of the Pearya terrane, northern- Basin: Geological Society of America Abstracts search, v. 30, p. 544–563, https://doi .org/ 10.1111/
most Ellesmere Island: Implications for terrane with Programs, v. 25, no. 6, p. A172. bre.12264.
reconstructions in the Arctic Caledonides: Pre- Oldow, J.S., Avé Lallemant, H.G., Julian, F.E., and Soja, C.M., and Antoshkina, A.I., 1997, Coeval
cambrian Research, v. 292, p. 323–349, https://doi Seidensticker, C.M., 1987, Ellesmerian(?) and development of Silurian stromatolite reefs in
.org/10.1016/j.precamres.2017.01.006. Brookian deformation in the Franklin Mountains, Alaska and the Ural Mountains: Implications for
Malone, S.J., McClelland, W.C., von Gosen, W., and northeastern Brooks Range, Alaska, and its bear- paleogeography of the Alexander terrane: Geol-
Piepjohn, K., 2019, Detrital zircon U-Pb and Lu- ing on the origin of the Canada Basin: Geology, ogy, v. 25, p. 539–542, https://doi.org/10.1130/
Hf analysis of Paleozoic sedimentary rocks from v. 15, p. 37–41, https://doi.org/10.1130/0091 -7613 0091-7613(1997)025<0539:CDOSSR>2.3.CO;2.
the Pearya terrane and Ellesmerian Fold Belt (1987)15<37:EABDIT>2.0.CO;2. Strauss, J.V., Macdonald, F.A., Taylor, J.F., Repetski,
(northern Ellesmere Island): A comparison with Oldow, J.S., Bally, A.W., Avé Lallemant, H.G., and J.E., and McClelland, W.C., 2013, Laurentian ori-
Circum-Arctic datasets and their implications on Leeman, W.P., 1989, Phanerozoic evolution of the gin for the North Slope of Alaska: Implications for
terrane tectonics, in Piepjohn, K., Strauss, J.V., North American Cordillera (United States and the tectonic evolution of the Arctic: Lithosphere,
Reinhardt, L., and McClelland, W.C., eds., Cir- Canada), in Bally, A.W., and Palmer, A.R., eds., v. 5, p. 477–482, https://doi.org/10.1130/L284.1.
cum-Arctic Structural Events: Tectonic Evolution Geology of North America: An Overview: Boul- Strauss, J.V., Hoiland, C.W., Ward, W.P., Johnson,
of the Arctic Margins and Trans-Arctic Links der, Colorado, Geological Society of America, The B.G., Nelson, L.L., and McClelland, W.C., 2017,
with Adjacent Orogens: Geological Society of Geology of North America, v. A, p. 139–232. Orogen transplant: Taconic−Caledonian arc mag-
America Special Paper 541, p. 231–254, https:// Patchett, P.J., Roth, M.A., Canale, B.S., de Freitas, matism in the central Brooks Range of Alaska:
doi.org/10.1130/2018.2541(12). T.A., Harrison, J.C., Embry, A.F., and Ross, G.M., Geological Society of America Bulletin, v. 129,
Mazur, S., Czerny, J., Majka, J., Maneck, M., Holm, 1999, Nd isotopes, geochemistry, and constraints p. 649–676, https://doi.org/10.1130/B31593.1.
D., Smyrak, A., and Wypych, A., 2009, A strike- on sources of sediments in the Franklinian mobile Strauss, J.V., Johnson, B.G., Colpron, M., Nelson,
slip terrane boundary in Wedel Jarlsberg Land, belt, Arctic Canada: Geological Society of Ameri- L.L., Perez, J.L., Benowitz, J.A., Ward, W.P., and
Svalbard, and its bearing on correlations of SW ca Bulletin, v. 111, p. 578–589, https://doi.org/ McClelland, W.C., 2019a, Pre-Mississippian stra-
Spitsbergen with the Pearya terrane and Ti- 10.1130/0016-7606(1999)111 <0578:NIGACO> tigraphy and provenance of the North Slope subter-
manide belt: Journal of the Geological Society, 2.3.CO;2. rane of Arctic Alaska II: Basinal rocks of the north-
v. 166, p. 529–544, https://doi.org/10.1144/0016 Patrick, B.P., and McClelland, W.C., 1995, Late eastern Brooks Range and their significance in
-76492008-106. Proterozoic granitic magmatism on Seward Pen- circum-Arctic evolution, in Piepjohn, K., Strauss,
McAdoo, D.C., Farrell, S.L., Laxon, S.W., Zwally, insula and a Barentian origin for Arctic Alaska- J.V., Reinhardt, L., and McClelland, W.C., eds.,
H.J., Yi, D., and Ridout, A.L., 2008, Arctic Ocean Chukotka: Geology, v. 23, p. 81–84, https://doi .org/ Circum-Arctic Structural Events: Tectonic Evolu-
gravity field derived from ICESat and ERS-2 al- 10.1130/0091-7613(1995)023<0081:LPGMOS> tion of the Arctic Margins and Trans-Arctic Links
timetry: Tectonic implications: Journal of Geo- 2.3.CO;2. with Adjacent Orogens: Geological Society of
physical Research, Solid Earth, v. 113, B05408, Pease, V., and Coakley, B., editors, 2018, Circum- America Special Paper 541, p. 525–572, https://doi
12 p., https://doi.org/10.1029/2007JB005217. Arctic Lithosphere Evolution: Geological Soci- .org/10.1130/2018.2541(23).
McClelland, W.C., Malone, S.J., von Gosen, W., Piep- ety of London Special Publication 460, 465 p., Strauss, J.V., Macdonald, F.A., and McClelland, W.C.,
john, K., and Läufer, A., 2012, The timing of sinis- https://doi.org/10.1144/SP460.19. 2019b, Pre-Mississippian stratigraphy and prove-
tral displacement of the Pearya Terrane along the Piepjohn, K., von Gosen, W., Läufer, A., McClel- nance of the North Slope subterrane of Arctic Alas-
Canadian Arctic Margin: Journal of the German land, W.C., and Estrada, S., 2013, Ellesmerian ka I: Platformal carbonate rocks of the northeastern
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