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Gabdullin R., Guzhikov A., Dundin I. (1999) Origin of rhythmically bedded Cenomanian carbonate rocks of the Bakhchisarai region (SW Crimea). – Geologica carpathica. V.50. No.1. P.49-61.

Gabdullin R.R., Guzhikov A.J., Bogachkin A.B., Bondarenko N.A., Lubimova T.V., Widrik A.B. (1999) Periodites below and above the K/T boundary // -Bull, de l’lnstitute Royal des Sciences Naturelles de Belgique. Sciences de la Terre, 69-supp. 1999. P.87-101.

Gaona-Narvaez T., Maurrasse F.J.-M.R., Moreno-Bedmar J.A. (2013) Stable carbon-isotope stratigraphy and ammonite biochronology at Madotz, Navarra, northern Spain: Implications for the timing and duration of oxygen depletion during OAE-1a // Cretaceous Research 40, pp. 143-157

Garcia R., Moreno-Bedmar J.A., Bover-Arnal T., Company M., Salas R., Latil J-L., Martín-Martín J.D., Gomez-Rivas E., Bulot L.G., Delanoy G., Martínez R., Grauges A. (2014) Lower Cretaceous (Hauterivian-Albian) ammonite biostratigraphy in the Maestrat Basin (E Spain) // Journal of Iberian Geology, Vol 40, No 1, P.99-112.

Garrido A.C., Parent H. (2017) Lithofacies and age of the Quintuco Formation (Lower Cretaceous) in the Mallín Quemado area (Sierra de la Vaca Muerta, Neuquén Basin, Argentina). Stratigraphic and depositional implications // Boletín del Instituto de Fisiografía y Geología, 87. Pp. 1-16.

Gasiński M.A., Olshtynska A., Uchman A. (2013) Late Maastrichtian foraminiferids and diatoms from the Polish Carpathians (Ropianka Formation, Skole Nappe): a case study from the Chmielnik-Grabówka composite section // Acta Geologica Polonica Vol 63, No 4 (2013) 515–525

Gebhard G. (1983) Taxonomische Konsequenzen aus der Synonymie von Mojsisovicsia Steinmann und Falloticeras Parona & Bonarelli (Ammonoidea, Alb) // Paläont. Z. Bd.57. Nr.1/2. S.111-119.

Georgescu M.D. (2012) Origin, evolutionary classification, and biostratigraphic significance of the Late Cretaceous planktic foraminiferal directional lineage Bollitruncana O.A. Korchagin, 2001 // Studia UBB Geologia. V.57. no.2. P.3-16.

Gerth E. (1925) La fauna neocomiana de la Cordillera Argentina en la parte meridional de la provincia de Mendoza. Actas de la Academia Nacional de Ciencias, T.9. P.57-132.

Gerth H. (1965) Ammoniten des mittleren und oberen Jura und der ältesten Kreide vom Nordabuhang des Schneegebirges in Neu Guinea // N. Jb. Geol. Paläont., Abhandl. Bd.121. Hft.3. S.209-218.

Geyer O. (1983) Obertithonische Ammoniten-Faunen von Peru // Zbl. Geol. Paläont. Teil I. Hft. 3/4. S.335-350.

Gilabert V., Arz J.A., Arenillas I., Hilario A. (2016) Estudio bioestratigráfico con foraminíferos planctónicos del Santoniense-Campaniense en la sección de Deba-Zumaia (Gipuzkoa): Nueva biozonación con heterohelícidos // Geogaceta, V.60. P.71-74.

Gnibidenko Z.N., Lebedeva N.K., Shurygin B.N. (2012) Paleomagnetism of the Cretaceous sediments of the southern West Siberian Plate (from well 8 core studies) // Russian Geology and Geophysics 53. Pp.895–905.

Gnibidenko Z.N., Lebedeva N.K., Shurygin B.N. (2014) A Regional Upper Cretaceous Magnetostratigraphic Section of Southern West Siberia (Omsk Depression) // Doklady Earth Sciences. Vol. 458, Part . Pp. 1107-1111.

Godefroit P., Lauters P., Van Itterbeeck J., Bolotsky Y.L., Dong Z., Jin L., Wu W., Bolotsky I.Y. (2011) Recent advances on study of hadrosaurid dinosaurs in Heilongjiang (Amur) River area between China and Russia region // Global Geology, Vol. 14, Issue 3, P.160-191.

Godet A., Bodin S., Adatte T., Follmi K.B. (2008) Platform-induced clay-mineral fractionation along a northern Tethyan basin-platform transect: implications for the interpretation of Early Cretaceous climate change (Late Hauterivian-Early Aptian) // Cretaceous Research 23(5-6), pp. 830-847.

Goguitchaichvilia A., Solanoa M.C., Campsb P., Bettuccic L.S., Menad M., Trindadee R., Reyesa B.A., Moralesa J., Loeraf H.L. (2012) The Earth’s magnetic field prior to the Cretaceous Normal Superchron: new palaeomagnetic results from the Alto Paraguay Formation // International Geology Review iFirst. Pp. 1–13.

Golonka J., Waśkowska A., Doktor M., Bubik M., Reháková D., Vašíček Z., Ślączka A., Kaminski M.A. (2016) Most significant geosites of the Cieszyn Foothills, Outer flysch Carpathians, Poland and Czech Republic // e-Review of Tourism Research (eRTR). Vol. 13, No. 5/6. Pp. 525-535.

Gongadze G. (2010) Evolution Peculiarities of the Caucasian Late Cretaceous – Early Paleocene Echinoidea // Bull. Georg. Natl. Acad. Sci. Vol. 4. No. 2. P.172-175.

González-Arreola C., Barragán R., Company M., Moreno-Bedmar J.A., Cruz-Vázquez R. (2017) Upper Berriasian ammonites from the Taraises Formation of Cuencamé de Ceniceros section, Durango State, Northern Mexico // Boletín de la Sociedad Geológica Mexicana. Vol. 69. No. 2. Pp. 465-477.

González-Arreola C., Barragán R., Moreno-Bedmar J.A. (2014) Olcostephanidae (Ammonoidea) from the upper Valanginian Taraises Formation (Durango State, Mexico) // Cretaceous Research 49, pp. 55-62

González-León O., Anton Moreno-Bedmar J., Vega F.J. (2014) Morphology and ontogeny of the fossil lobster Meyeria magna M'Coy, 1849 (Astacidae, Mecochiridae) from the Lower Cretaceous (Lower Aptian) of Mexico, United Kingdom and Spain // N. Jb. Geol. Paläont. Abh. 271/1, p. 49-68

Goolaerts S., Dupuis C. (2013) Ammonites from the Dababiya Quarry Corehole: Taxonomic notes and age assessment // Stratigraphy, vol. 9, no.3–4, P.261–266.

Gräf O., Turculeţ I. (1988) Zwei neue Lamellaptychus-Arten aus dem oberen Barrême der rumänischen Ostkarpaten // Z. geol. Wiss. Bd.16. Hft.6. S.531-542.

Grün B., Blau J. (1997) New aspects of calpionellid biochronology: proposal for a revised calpionellid zonal and subzonal division // Revue Paleobiol., Geneve, 16 (1): 197-214.

Grӧcke D.R., Price G.D., Ruffell A.H., Mutterlose J., Baraboshkin E. (2003) Isotopic evidence for Late Jurassic-Early Cretaceous climate change // Palaeogeography, Palaeoclimatology, Palaeoecology 202. Pp. 97-118

Gröcke D.R., Price G.D., Robinson S.A., Baraboshkin E., Mutterlose J., Ruffell A.H. (2005) ´The Upper Valanginian (early cretaceous) positive carbon-isotope event recorded in terrestrial plants // Earth and planetary science letters., 240 (2). pp. 495-509.

Gründel J., Parent H., Cocca S. E., Cocca R. (2007) Marine Jurassic gastropods of Argentina. IV. A new species from the Middle Tithonian (Internispinosum Biozone) of Barda Negra, southern Neuquen-Mendoza Basin // Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen, 2007.– Vol. 245, H. 2.– p. 143-146.

Grabowski J. (2011) Magnetostratigraphy of the Jurassic/Cretaceous boundary interval in the Western Tethys and its correlations with other regions: a review // Volumina Jurassica, IX. Pp. 105–128.

Grabowski J., Haas J., Stoykova K., Wierzbowski H., Brański P. (2017) Environmental changes around the Jurassic/Cretaceous transition: New nannofossil, chemostratigraphic and stable isotope data from the Lókút section (Transdanubian Range, Hungary) // Sedimentary Geology, 360. Pp. 54–72.

Grabowski J., Idakieva V., Ivanova D., Ivanov M., Lakova I., Petrova S., Schnab P., Sobień K., Stoykova K., Tchoumatchenco P. (2015) Integrated bio-, magnetostratigraphy and magnetic susceptibility of Upper Berriasian hemipelagic carbonates in the West Balkan Mts // 7th BgGS National Conference With International Participation "GEOPHYSICS 2015". Pp. 1-6.

Grabowski J., Lakova I., Schnabl P., Sobień K., Petrova S. (2014) Berriasian bio- and magnetostratigraphy and magnetic susceptibility of the Barlya section (Western Balkan Unit, Bulgaria) – preliminary results // Volumina Jurassica, XII (1): 185–194.

Grabowski J., Michalik J., Pszczolkowski A., Lintnerova O. (2010) Magneto-, and isotope stratigraphy around the Jurassic/Cretaceous boundary in the Vysoka Unit (Male Karpaty Mountains, Slovakia): correlations and tectonic implications // Geologica Carpathica. V. 61. N. 4. Pp. 309 – 326.

Grabowski J., Schnabl P., Lakova I., Sobień K., Petrova S. (2013) First magnetostratigraphic results of the Berriasian in the Western Balkan Mts, Bulgaria // Bulgarian Geological Society, National Conference with international participation “Geosciences 2013”. Pp. 69-70.

Grabowski J., Sobień K. (2015) Variation in clastic input in the Berriasian of the Lower Sub-Tatric (Krížna) succession in the Tatra Mountains (Central Western Carpathians, Poland): data from magnetic susceptibility and inorganic geochemistry // Annales Societatis Geologorum Poloniae. Vol. 85: 139–150.

Gradstein F.M., Ogg J.G., Hilgen F.J. (2012) On The Geologic Time Scale // Newsletters on Stratigraphy, Vol. 45/2, P.171–188.

Granier B. (2019) JK2018: International Meeting around the Jurassic/Cretaceous Boundary – Chairperson’s Report // Volumina Jurassica, 2019, XVII: 1–6.

Granier B. (ed., 2019) JK2018 - International Meeting around the Jurassic-Cretaceous Boundary.- Carnets de Géologie, Madrid, ISBN13: 978-2-916733-18-0, Book 2019/01 (CG2019_B01), 100 p.

Granier B., Énay R., Charollais J. (2020) Discussion of the paper by Wimbledon et al., 2020b, entitled "The proposal of a GSSP for the Berriasian Stage (Cretaceous System): Part 1" [Jurassica, XVIII (1)] // Volumina Jurassica, 2020, XVIII (2): 111–124.

Granier B., Bucur I.I. (2011) Stratigraphic ranges of some Tithonian-Berriasian benthic foraminifers and Dasycladales. Re-evaluation of their use in identifying this stage boundary in carbonate platform settings // Boletín del Instituto de Fisiografía y Geología 79-81. Pp. 9-10.

Granier B., Clavel B., Moullade M., Busnardo R., Charollais J., Tronchetti G., Desjacques P. (2013) L'Estellon (Baronnies, France), a "Rosetta Stone" for the Urgonian biostratigraphy // Carnets de Géologie [Notebooks on Geology] - Article 2013/04. Pp. 163-207.

Granier B., Toland C., Gèze B., Azar D. & Maksoud S. (2016) Some steps toward a new story for the Jurassic - Cretaceous transition in Mount Lebanon // Carnets Geol., Madrid, vol. 16, no. 8, p. 247-269.

Granier B.R.C., Ferry S., Benzaggagh M. (2020) A critical look at Tré Maroua (Le Saix, Hautes-Alpes, France), the Berriasian GSSP candidate section // Carnets Geol. 20 (1). Pp. 1-17.

Grauges A., Moreno-Bedmar J.A., Martínez R. (2010) Desmocerátidos (Ammonoidea) del Aptiense Inferior (Cretácico inferior) de la subcuenca de Oliete, cordillera ibérica oriental (Teruel, España) // Sociedad Española de Paleontologia, 25(1): 7-18

Grekoff N. (1960) Ostracodes du Bassin du Congo. II. Crétacé // Annales du Musée Royal du Congo Belge Tervuren (Belgique). Série in-8°. Sciences géologiques. Vol.35. P.vi-xii, 1-70.

Grigoriev D.V. (2013) Redescription of Prognathodon lutugini (Squamata, Mosasauridae) // Proceedings of the Zoological Institute RAS. Vol. 317, No. 3. Pp. 246–261.

Grigoriev D.V. (2014) Giant Mosasaurus hoffmanni (Squamata, Mosasauridae) from the Late Cretaceous (Maastrichtian) of Penza, Russia // Proceedings of the Zoological Institute RAS. Vol. 318, No. 2, P. 148–167.

Grigoriev D.V., Arkhangelsky M.S., Kolchanov V.V., Bulanov V.V., Sennikov A.G., Golubev V.K., Skutschas P.P. (2022) The Use of Zygapophyseal Skeletochronology for Individual Age Determination of a Basal Mosasauroid (Squamata, Mosasauridae) from the Campanian of Saratov Region // Paleontological Journal. 2022. Vol. 56. ¹ 4. P. 441-447.

Grigoriev D.V., Arkhangelsky M.S.,Merkulov S.M. (2015) A record of Clidastes propython Cope (Squamata, Mosasauridae) in the Upper Cretaceous of the Saratov region (Russia) // Paleontological journal. 2015. V. 49. ¹ 5. P. 512-520

Grigor’ev D.V., Averianov A.O., Arkhangelsky M.S., Pervushov E.M., Zozyrev N.Yu. (2009) A Mosasaur from the Cenomanian of Russia // Paleontological Journal. Vol. 43. No. 3. Pp. 311–317.

Grishchenko V.A., Guzhikov A.Yu. (2019) Paleomagnetic Directions Distortion Caused by Viscous-Plastic Deformations Estimated from Anisotropy of Magnetic Susceptibility (Case Study of Berriasian Clays from East Crimea) // In: Nurgaliev D., Shcherbakov V., Kosterov A., Spassov S. (eds) Recent Advances in Rock Magnetism, Environmental Magnetism and Paleomagnetism. Springer Geophysics. Springer, Cham. P. 25-35.

Grishchenko V.A., Manikin A.G., Savelieva Y.N., Feodorova A.A. (2020) Magnetostratigraphy and Biostratigraphy of the Valanginian in the Crimean Mountains. In: Yanovskaya T., Kosterov A., Bobrov N., Divin A., Saraev A., Zolotova N. (eds) Problems of Geocosmos–2018. Springer Proceedings in Earth and Environmental Sciences. Springer, Cham. P. 53-81.

Guerra R.M., Concheyro A., Wise Jr S.W., Fauth G. (2016) Late Campanian-Maastrichtian Kamptnerius magnificus acme in the South Atlantic section of the Southern Ocean, ODP Holes 690C and 700B // Micropaleontology. Vol. 62. No. 3. Pp. 213–219, text-figures 1–5, plate 1.

Guerra R.M., Concheyro A., Wise Jr. S.W., Kender S., Fauth G. (2016) New latitude-based nannofossil zonations for the Campanian–Maastrichtian of the South Atlantic Ocean and their paleoceanographic implications // Palaeogeography, Palaeoclimatology, Palaeoecology, 452. Pp. 55–67.

Guerra R.M., Tokutake L.R., Fauth G. (2012) Cretaceous calcareous nannofossils from Pelotas Basin, Brazil: Biostratigraphic and paleoecological inferences // Journal of South American Earth Sciences, 36. Pp.55-71.

Guide des excursions du VII Congrès géologique international. St. Peterbourg, Impr. de M. Stassuléwitsch, 1897. 725 p.

Guide des musées minéralogique et géologique de l’ Université Impériale de St. Petersbourg.- St. Petersbourg, Imp. de M. Stassulẃitsch, 1897. 53 p.

Guillaume H.A., Bolli H.M., Beckmann J.P. (1972) Estratigrafía del Cretáceo Inferior en la serranía del Interior, Oriente de venezuela // IV Congreso Geológico Venezolano, 3: 1619-1659.

Guzhikov A. Yu., Baraboshkin E. J. (2006) Assessment of Diachronism of Biostratigraphic Boundaries by Magnetochronological Calibration of Zonal Scales for the Lower Cretaceous of the Tethyan and Boreal Belts // Doklady Earth Sciences, Vol. 409A, No. 6, pp. 843–846.

Guzhikov A. Yu., Molostovskii E. A., Nazarov Kh., Fomin V. A., Baraboshkin E. Yu., Kopaevich L. F. (2003) Magnetostratigraphic Data on the Upper Cretaceous of Tuarkyr (Turkmenistan) and Their Implications for the General Paleomagnetic Time Scale // Izvestiya, Physics of the Solid Earth, Vol. 39, No. 9. P. 728–740. (Translated from Fizika Zemli, No. 9, 2003, pp. 31–44).

Guzhikov A., Bagayeva M., Arkadiev V. (2014) Magnetostratigraphy of the Upper Berriasian “Zavodskaya Balka” section (East Crimea, Feodosiya) // Volumina Jurassica, 2014, xii (1): 175 -184.

Guzhikov A., Guzhikova A., Pervushov E., Ryabov I., Surinskiy A., Seltser V., Beniamovski V. (2017) The Reverse polarity zone in the Turonian-Coniacian interval of the Lower Volga region // Sames, B. (Ed.): 10th International Symposium on the Cretaceous – Abstracts, 21–26 August 2017, Vienna. – Berichte der Geologischen Bundesanstalt, 120, Vienna. P. 104.

Guzhikov A.Y., Eremin V.N. (1999) Regional magnetic zonality scheme for the Berriasian-lower Aptian from the North Caucasus // GEODIVERSITAS, 21 (3), p.387-406

Guzhikov A.Y., Guzhikova A.A., Manikin A.G., Grishchenko V.A. (2020) Magnetostratigraphy of the Maastrichtian from Volga Right Bank Area Near Saratov (Lower Volga Region) // In: Yanovskaya T., Kosterov A., Bobrov N., Divin A., Saraev A., Zolotova N. (eds) Problems of Geocosmos–2018. Springer Proceedings in Earth and Environmental Sciences. Springer, Cham. P. 83-105.

Guzhikov A.Y., Molostovsky E.A. (1999) Some features of the Early Cretaceous sedimentation in the Cis-Caucasia reflected in magnetic properties of the sedimentary cover // GEODIVERSITAS, 21 (3), p.365-385

Guzhikov A.Yu. (2013) Solving unsolvable problems in stratigraphy (Comments to the paper “New data on the magnetostratigraphy of the Jurassic–Cretaceous boundary interval, Nordvik Peninsula (northern East Siberia)” by V.Yu. Bragin, O.S. Dzyuba, A.Yu. Kazansky, and B.N. Shurygin). Russian Geology and Geophysics 54. Pp. 349–354.

Guzhikov A.Yu. (2019) General Magnetostratigraphic Scale: Present Status and Outlook of Development // In: Nurgaliev D., Shcherbakov V., Kosterov A., Spassov S. (eds) Recent Advances in Rock Magnetism, Environmental Magnetism and Paleomagnetism. Springer Geophysics. Springer, Cham. P. 343-351.

Guzhikov A.Yu., Aleksandrova G.N., Baraboshkin E.Yu. (2020) New Sedimentological, Magnetostratigraphic, and Palynological Data on the Upper Cretaceous Alan-Kyr Section (Central Crimea) // Moscow University Geology Bulletin. Vol. 75. No. 1. Pp. 20–30.

Guzhikov A.Yu., Arkad’ev V.V., Baraboshkin E.Yu., Bagaeva M.I., Piskunov V.K., Rud’ko S.V., Perminov V.A., Manikin A.G. (2012) New Sedimentological, Bio-, and Magnetostratigraphic Data on the Jurassic–Cretaceous Boundary Interval of Eastern Crimea (Feodosiya) // Stratigraphy and Geological Correlation. Vol. 20. No. 3. P. 261-294.

Guzhikov A.Yu., Baraboshkin E.J., Birbina A.V. (2003) New paleomagnetic data for the Hauterivian - Aptian deposits of the Middle Volga region: A possibility of global correlation and dating of time-shifting of stratigraphic boundaries // Russian Journal of Earth Sciences. Vol.5, No.6, P.1-30.

Guzhikov A.Yu., Baraboshkin E.Yu, Ryabov I.P., Ustinova M.A., Vishnevskaya V.S. (2024) Anomalous Features in the Behavior of the Geomagnetic Field at the End of the Cretaceous Normal Superchron: Insights from the Study of the Turonian–Santonian in the Southwestern Crimea // Izvestiya, Physics of the Solid Earth, Vol. 60, No. 1, pp. 8–31.

Guzhikov A.Yu., Baraboshkin E.Yu., Aleksandrova G.N., Ryabov I.P., Ustinova M.A., Kopaevich L.F., Mirantsev G.V., Kuznetsov A.B., Fokin P.A., Kosorukov V.L. (2021) New Bio-, Chemo-, and Magnetostratigraphy of the Santonian–Campanian Boundary in the Kudrino and Aksu-Dere Sections (SW Crimea): Problems of Global Correlation and Selection of the Lower Boundary Stratotype of the Campanian. 1. Geological Framework, Sedimentology, Biostratigraphy // Stratigraphy and Geological Correlation. Vol. 29, No. 4. Pp. 450–494.

Guzhikov A.Yu., Baraboshkin E.Yu., Aleksandrova G.N., Ryabov I.P., Ustinova M.A., Kopaevich L.F., Mirantsev G.V., Kuznetsov A.B., Fokin P.A., Kosorukov V.L. (2021) New Bio-, Chemo-, and Magnetostratigraphy of the Santonian–Campanian Boundary in the Kudrino and Aksu-Dere Sections (SW Crimea): Problems of Global Correlation and Selection of the Lower Boundary Stratotype of the Campanian. 2. Magneto- and Chemostratigraphy, Discussion // Stratigraphy and Geological Correlation. Vol. 29. No. 5. Pp. 27–58.

Guzhikov A.Yu., Baraboshkin E.Yu., Beniamovsky V.N., Vishnevskaya V.S., Kopaevich L.F., Pervushov E.M., Guzhikova A.A. (2017) New Bio- and Magnetostratigraphic Data on Campanian‒Maastrichtian Deposits of the Classical Nizhnyaya Bannovka Section (Volga River Right Bank, Southern Saratov Region) // Stratigraphy and Geological Correlation, 2017, Vol. 25, No. 1, pp. 39–75.

Guzhikov A.Yu., Baraboshkin E.Yu., Ryabov I.P., Ustinova M.A., Vishnevskaya V.S. (2024) Anomalous Features in the Behavior of the Geomagnetic Field at the End of the Cretaceous Normal Superchron: Insights from the Study of the Turonian–Santonian in the Southwestern Crimea. Izvestiya, Physics of the Solid Earth, Vol. 60, No. 1, p.8–31.

Guzhikova A.A., Guzhikov A.Y., Pervushov E.M., Ryabov I.P., Surinskiy A.M. (2019) Existence of the Reversal Polarity Zones in Turonian-Coniacian from the Lower Volga (Russia): New Data // In: Nurgaliev D., Shcherbakov V., Kosterov A., Spassov S. (eds) Recent Advances in Rock Magnetism, Environmental Magnetism and Paleomagnetism. Springer Geophysics. Springer, Cham. P. 353-369.



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