J
[1982] Jaccard, F. 1909. Les gres et calcaires a radiolaires du ruisseau du Troublon et de la rive gauche de la Grande-Eau. Bulletin de la Societe Vaudoise des Sciences Naturelles, Ser.5 45(167): 365-368.
[1983] Jackett, S.-J. & Baumgartner, P. O. 2007. New imaging techniques applied to Paleogene radiolaria. Micropaleontology 53(3): 239-247.
[1984] Jackett, S.-J., Baumgartner, P. O. & Bandini, A. N. 2008. A new low-latitude late Paleocene - early Eocene radiolarian biozonation based on unitary associations: applications for accreted terranes. Stratigraphy 5(1): 39-62.
[1985] Jacob, K. 1954. The occurrence of radiolarian cherts in association with ultramafic intrusives in the Andaman Islands, and its significance in sedimentary tectonics. Records of the Geological Survey of India 83(2): 397-422.
[1986] Jacob, K. & Shrivastava, R. N. 1952. Fossil Radiolaria and Silicoflagellata from the Tertiary clays of Colebrooke Island and the Ritchie's Archipelago, Andaman Islands. Science and Culture 17(8): 346-348.
[1987] Jacot Des Combes H & Abelmann, A. 2007. A 350-ky radiolarian record off Lüderitz, Namibia-evidence for changes in the upwelling regime. Marine Micropaleontology 62(): 194-210.
[1988] Jacquet, S. H. M., Henjes, J., Dehairs, F., Worobiec, A., Savoye, N. & Cardinal, D. 2007. Particulate Ba-barite and acantharians in the Southern Ocean during the European Iron Fertilization Experiment (EIFEX). Journal of Geophysical Research 112(): G04006.
[1989] Jafri, S. 1986. Occurrence of Hagiastrids in chert associated with Port Blair Series, South Andaman, India. Journal of the Geological Society of India 28(1): 41-44.
[1990] Jafri, S. H., Balaram, V. & Govil, P. K. 1993. Depositional environments of Cretaceous radiolarian cherts from Andaman-Nicobar Islands, northeastern Indian Ocean. Marine Geology 112(1-4): 291-301.
[1991] Jain, K. P., Garg, R., Kumar, S., Singh, I. B. & Singh, S. K. 1978. Dinoflagellates and radiolarians from the Tethyan sediments, Malla Johar area, Kumaon Himalaya: A preliminary report. Journal of the Paloaeontological Society of India 21 & 22(): 116-119.
[1992] Jann, M. C. 1987. Micropaleontology of manganese nodules from the equatorial North Pacific Ocean -Area SO 25-1 and SO 25-3. Pp. 315-375. in (ed) . Publisher unknown.
[1993] Jannou, G. 2007. Radiolarios del paleógeno de la cuenca Austral, Tierra del Fuego, Argentina. Ameghiniana 44(2): 447-466.
[1994] Jansen, E. & Bjorklund, K. R. 1985. Surface ocean circulation in the Norwegian Sea 15000 BP to present. Boreas 14(): 243-277.
[1995] Japanese-Pakistani Research Group 1989. Tectonics and sedimentation of the Indo-Eurasian colliding plate boundary region and its influence on the mineral developments in Pakistan. Pp. 1-86. in Okimura, Y. & Fatmi, A. N. (ed) Overseas Scientific Research. Hiroshima University, Hiroshima.
[1996] Jasin, B. 1997. Permo-Triassic Radiolaria from the Semanggol Formation, northwest Peninsular Malaysia. Journal of Asian Earth Sciences 15(1): 43-53.
[1997] Jasin, B. & Ali, C. A. 1997. Lower Permian Radiolaria from the Pos Blau area, Ullu Kelantan, Malaysia. Journal of Asian Earth Sciences 15(4-5): 327-339.
[1998] Jenkyns, H. C. & Winterer, E. L. 1982. Palaeogeography of Mesozoic ribbon radiolarites. Earth and Planetary Science Letters 60(3): 351-375.
[1999] Jennings, A. V. 1895. Scientific results of the "Challenger" Expedition: Radiolaria. Natural Science, London 7(): 34.
[2000] Jerzy, L. 1981. Upper Jurassic radiolarite -nodular limestone vertical symmetry in the Polish central Carpathians as reflection of regional depth changes in the ocean. Studia Geologica Polonica 68(): 89-96.
[2001] Jin, R. 1987. Radiolyarii i usloviya osadkonakopleniya pozdnepermskoy svity Dalun v severnoy chasti gor Lunmyin_ provintsii Syichuan' (Yuzhunyiy Kitay). Geological Review 33(5): 238-248.
[2002] Jin, R., Wang, C., Li, J. & Shen, G. 1995. Origin of ocean bottom manganese nodules -microbiota mineralization. Dixhue Yanjiu (Geoscience Research) (28): 125-140.
[2003] Jin, Y., Feng, Q., Meng, Y., He, W. & Gu, S. 2007. Albaillellidae (Radiolaria) from the latest Permian in southern Guangxi, China. Journal of Paleontology 81(1): 9-18.
[2004] Jin, Y.-x, Xuan, C. & Feng, Q.-l 2006. Application of constellation graph to the morphological classification of Albaillella (Radiolaria) from Latest Permian. Acta Micropalaeontologica Sinica 23(1): 16-22.
[2005] Jing 1981. ?. ? 33(3): 238-248.
[2006] Jodot, P. 1931. Age des roches a radiolaires de la Nappe Ophiolithique dans le NW de la Corse. Compte Rendu Sommaire des Séances de la Société Géologique de France 13(): 177-179.
[2007] Jodot, P. 1942. Pre'sence de galets de schiste micace' et de microbreche de phtanites polygenes a` radiolaires du Precambrien dans le poudingue cambrien de la Roche d'Oeetre (Orne). Comptes Rendus de la Société Géologique de France 15(): 190-192.
[2008] Johnson, D. A. 1978. Cenozoic Radiolaria from the eastern tropical Atlantic, DSDP Leg 41. Pp. 763-789. in (ed) Initial Reports of the Deep Sea Drilling Project, 41. U.S. Government Printing Office.
[2009] Johnson, D. A. & Knoll, A. H. 1974. Radiolaria as paleoclimatic indicators: Pleistocene climatic fluctuations in the equatorial Pacific Ocean. Quaternary Research 4(): 206-216.
[2010] Johnson, D. A. & Knoll, A. H. 1975. Absolute age of Quaternary radiolarian datum levels in the equatorial Pacific. Quaternary Research 5(): 99-110.
[2011] Johnson, D. A. & Nigrini, C. A. 1980. Radiolarian biogeography in surface of the western Indian Ocean. Marine Micropaleontology 5(): 111-152.
[2012] Johnson, D. A. & Nigrini, C. A. 1982. Radiolarian biogeography in surface sediments of the eastern Indian Ocean. Marine Micropaleontology 7(): 237-281.
[2013] Johnson, D. A. & Nigrini, C. A. 1985. Synchronous and time-transgressive Neogene radiolarian datum levels in the equational Indian and Pacific Oceans. Marine Micropaleontology 9(): 489-524.
[2014] Johnson, D. A. & Nigrini, C. A. 1985. Time-transgressive late Cenozoic radiolarian events of the equatorial Indo-Pacific. Science 230(4725): 538-540.
[2015] Johnson, D. A. & Parker, F. L. 1972. Tertiary Radiolaria and foraminifera from the equatorial Pacific. Micropaleontology 16(2): 129-143.
[2016] Johnson, D. A., Scheider, D. A., Nigiri, C. A., Caulet, J. P. & Kent, D. V. 1989. Pliocene-Pleistocene radiolarian events and magnetostratigraphic calibrations for the tropical Indian Ocean. Marine Micropaleontology 14(): 33-66.
[2017] Johnson, D. A. & Wick, B. J. 1982. Precision of correlation of radiolarian datum levels in the Middle Miocene, equatorial Pacific. Micropaleontology 28(): 43-58.
[2018] Johnson, D. A. 1983. Cenozoic radiolarians from the Brazil Basin and Rio Grande Rise
(pp) Initial Reports of the Deep Sea Drilling Project, 72. Pp. 783-791. in Barker, P. F., Carloson, R. L., Johnson, D. A. & et al. (ed) . U.S. Government Printing Office.
[2019] Johnson, D. A. 1976. Cenozoic radiolarians from the central Pacific, DSDP Leg 33. Pp. 425-437. in Schlanger, S. O. & Jackson, E. D. (ed) Initial Reports of the Deep Sea Drilling Project, 33. U.S. Government Printing Office.
[2020] Johnson, D. A. 1974. Radiolaria from the eastern Indian Ocean, DSDP Leg 22. Pp. 521-574. in von der Borch, C. C. & Schater, J. G. (ed) Initial Reports of the Deep Sea Drilling Project, 22. U.S. Government Printing Office.
[2021] Johnson, L. E., Fryer, P., Taylor, B., Silk, M., Jones, D. L., Sliter, W. V., Itaya, T. & Ishii, T. 1991. New evidence for crustal accretion in the outer Mariana forearc: Cretaceous radiolarian cherts and mid-ocean ridge basalt-like lavas. Geology 19(): 811-814.
[2022] Johnson, T. C. 1974. The dissolution of siliceous microfossils in surface sediments of the eastern tropical Pacific. Deep-Sea Research 21(): 851-864.
[2023] Jones, D. L. & Murchey, B. L. 1986. Geologic significance of Paleozoic and Mesozoic radiolarian chert. Annual Review of Earth Planet Science 14(): 455-492.
[2024] Jones, G., De Wever, P. & Robertson, A. H. F. 1992. Significance of radiolarian age data to the Mesozoic tectonic and sedimentary evolution of the northern Pindos Mountains, Greece. Geological Magazine 129(4): 385-400.
[2025] Jones, M. K. & Noble, P. J. 2006. Sheinwoodian (uppermost Lower Silurian) Radiolaria from the Cape Phillips Formation, Nunavut, Canada. Micropaleontology 52(4): 289-315.
[2026] Jørgensen, E. 1899. Protophyten und Protozoën im Plankton aus der norwegischen Westküste. Bergens Museum Ärbog 1899(6): 51-95.
[2027] Jørgensen, E. 1900. Protistenplankton aus dem Nordmeere in den Jahren 1897-1900. Pp. 45-98. in (ed) . Bergens Museum, Bergen.
[2028] Jørgensen, E. 1909. Note sur les Radiolaires. Duc d'orele'ans, Croisie`re Oce'anographique accomplie a Bord de la Belgica dans la Mer du Gro"nland 1905(): 455-459.
[2029] Jørgensen, E. 1905. The protist plankton and diatoms in bottom samples: Radiolaria. Pp. 49-151. in Nurdgaard, O. (ed) Hydrographical and Biological Investigation in Norwegian Fjords. Bergens Museum, Bergen.
[2030] Jouse, A. P. 1977. Atlas of Microorganisms in Bottom Sediments of the Ocean: Diatoms, Radiolaria, Silicoflagellates and Coccoliths. Nauka, Moscow, 196 pp.
[2031] Jud, R. 1994. Biochronology and systematics of Early Cretaceous Radiolaria of the Western Tethys. Mémoires de Géologie (Lausanne) 19(): 1-147.
[2032] Jung, H.-S., Jeong, K.-S., Chu, Y.-S., Park, S.-H. & Kim, K.-H. 2001. Role of siliceous fossil dissolution in downcore variations of grain size and water content: western margin of Clarion-Clipperton Fracture Zones, NE equatorial Pacific. Marine Georesources and Geotechnology 19(): 181-195.
K
[2033] Kadko, D., Bluefold, J. R., Burckle, L. H. & Barron, J. 1983. Selective dissolution of siliceous microfossils observed in a box core from the north-east equatorial Pacific. Nature 302(): 139-141.
[2034] Kähler, G. & Stow, D. A. V. 1998. Turbidites and contourites of the Palaeogene Lefkara Formation, southern Cyprus. Sedimentary Geology 115(): 215-231.
[2035] Kaipov, A. D. & Levin, V. L. 1982. Atlas Mikrostruktur Kremnistyikh Porod Alma-Ata. Nauka, 77 pp.
[2036] Kakuwa, Y. 1984. Preservation of siliceous skeletons in siliceous rocks. Scientific Papers of the College of Arts and Sciences, the University of Tokyo 34(): 34-61.
[2037] Kakuwa, Y. 1996. Correlation between the bedded chert sequence of southwest Japan and d13C excursion of carbonate sequence, and its significance to the Permian-Triassic mass extinction. The Island Arc 5(): 194-202.
[2038] Kakuwa, Y. 1996. Permian-Triassic mass extinction event recorded in bedded chert sequence in southwest Japan. Palaeogeography, Palaeoclimatology, Palaeoecology 121(): 35-51.
[2039] Kakuwa, Y. 1997. On the end-Permian mass extinction event inferred from the petrography of late Permian bedded chert in Southwest Japan. News of Osaka Micropaleontologists, Special Volume (10): 77-86.
[2040] Kakuwa, Y. 1998. Significance of radiolarians, organic matter and pyrite in the Early Triassic siliceous claystone, southwest Japan. News of Osaka Micropaleontologists, Special Volume (11): 71-80.
[2041] Kakuwa, Y., Kuwahara, K. & Xia, Wenchen 2009. Late Permian Radiolaria from the Dalong Formation, the Huangshi area, Hubei Province, China. News of Osaka Micropaleontologists (NOM), Special Volume (14): 533-536.
[2042] Kamata, Y. 1995. Early Triassic radiolarians from black siliceous shale and black chert in the Kuzu area of the Ashio Terrane, central Japan. Fossils (59): 23-31.
[2043] Kamata, Y. 1996. Tectonostratigraphy of the sedimentary complex in the southern part of the Ashio terrane, central Japan. Science Reports of the Institute of Geoscience, University of Tsukuba, Section B=Geological Sciences 17(): 71-107.
[2044] Kamata, Y. 1997. Late Permian to Late Triassic radiolarians obtained from a float of the sandstone and chert breccia in the Ashio Mountains (preliminary report). News of Osaka Micropaleontologists, Special Volume (10): 97-107.
[2045] Kamata, Y. 1997. Reconstruction of chert-clastic sequence of the Ashio Terrane in the Kuzu area, central Japan. Journal of the Geological Society of Japan 103(4): 343-356.
[2046] Kamata, Y. 1999. Lower Triassic (Spathian) radiolarians from the Kuzu area (Tochigi Prefecture, central Japan). Geodiversitas 21(4): 657-673.
[2047] Kamata, Y. 2007. Systematic description of primitive Triassic nassellarians from Dienerian chert of the Oruatemanu Formation, Arrow Rocks, Northland, New Zealand. GNS Science Monograph (24): 207-211.
[2048] Kamata, Y., Hisada, K. & Lee, Y. I. 2000. Late Jurassic radiolarians from pebbles of Lower Cretaceous conglomerates of the Hayang Group, southeastern Korea. Geosciences Journal 4(3): 165-174.
[2049] Kamata, Y. & Kajiwara, Y. 1996. Sulfur isotopic data from the Permian-Triassic boundary in a chert sequence at Motegi, Gunma Prefecture, in the Ashio Terrane, central Japan. Pp. 19-27. in Noda, H. & Sashida, K. (ed) Professor Hisayoshi Igo, Commemorative volume on Geology and Paleontology of Japan and Southeast Asia. Gakujyutsu Tosho Insatu Co., Tokyo.
[2050] Kamata, Y., Matsuo, Akihiro, Takemura, A., Yamakita, S., Aita, Yoshiaki, Sakai, Toyosaburo, Suzuki, Noritoshi & Hori, R. S. 2007. Late Induan (Dienerian) primitive nassellarians from Arrow Rocks, Northland, New Zealand. GNS Science Monograph (24): 109-116.
[2051] Kamata, Y. & Mizobe, S. 2001. Co-occurrence of an Early Jurassic ammonite and Middle Jurassic radiolarians in the Kuzu Complex of the Ashio Belt, central Japan and its stratigraphic bearing. News of Osaka Micropaleontologists, Special Volume (12): 191-201.
[2052] Kamata, Y., Mizobe, S. & Sato, T. 2003. An Early Jurassic ammonite from a limestone conglomerate in the Kuzu Complex of the Ashio Belt. Paleontological Research 7(3): 185-194.
[2053] Kamata, Y., Sashida, K. & Igo, Hy 1991. Geology of the Cretaceous Masutomi Group exposed in the southwestern part of the Kanto Mountains, central Japan. Journal of the Geological Society of Japan 97(2): 157-169.
[2054] Kamata, Y., Sashida, K., Ueno, K., Hisada, K., Nakornsri, N. & Charusiri, P. 2002. Triassic radiolarian faunas from the Mae Sariang area, northern Thailand and their paleogeographic significance. Journal of Asian Earth Sciences 20(): 491-506.
[2055] Kamatani, A. 1971. Physical and chemical characteristics of biogenous silica. Marine Biology 8(2): 89-95.
[2056] Kametaka, M. 1997. Radiolarian fossils from conglomerate of the Upper Triassic Nariwa Group, and their geological significance. News of Osaka Micropaleontologists, Special Volume (10): 127-131.
[2057] Kametaka, M. 2006. Early Permian radiolarians from mudstone at Hisage in the Dai area, Nagato Tectonic Zone, Southwest Japan. Journal of the Geological Society of Japan 112(8): 535-538.
[2058] Kametaka, M. 2006. Permian radiolarians from felsic tuff at Soegasako in the Nishiichi area, Nagato Tectonic Zone, Southwest Japan [長門構造帯西市添ヶ迫の珪長質凝灰岩から産出したペルム紀放散虫化石]. Journal of the Geological Society of Japan 112(12): 770-773.
[2059] Kametaka, M., Kojima, S. & Kemkin, I. V. 1997. Mesozoic radiolarians from the Taukha terrane, Far East Russia. News of Osaka Micropaleontologists, Special Volume (10): 143-154.
[2060] Kametaka, M., Nagai, H., Zhu, S., Qui, D. & Wu, C. 1999. Late Permian radiolarians from the Dalong Formation in the Chaohu area, Anhui Province, China. Journal of Earth and Planetary Sciences, Nagoya University 46(): 1-28.
[2061] Kametaka, M., Nakae, S. & Kamada, K. 2005. Early Permian radiolarians from siliceous mudstone in the Rikuchu-Seki district, North Kitakami Terrane. Bulletin of the Geological Survey of Japan 56(7/8): 237-243.
[2062] Kametaka, M., Takebe, M., Nagai, H. & Zhu, S. 2002. Sedimentary petrography of the Middle Permian Gufeng Formation in the Chaohu area, Anhui Province, China. Bulletin of the Nagoya University Museum (): .
[2063] Kametaka, M., Takebe, M., Nagai, H., Zhu, S. & Takayanagi, Yukio 2005. Sedimentary environments of the Middle Permian phosphorite-chert complex from the northeastern Yangtze platform, China; the Gufeng Formation: a continental shelf radiolarian chert. Sedimentary Geology 174(): 197-222.
[2064] Kamikawa, Y., Hisada, K., Sashida, K. & Igo, Hy 1997. Geology of the Nanmoku area in the Chichibu Terrane, the northwestern part of the Kanto Mountains, central Japan. Science Reports of the Institute of Geoscience, University of Tsukuba, Section B=Geological Sciences 18(): 19-38.
[2065] Kamikawa, Y., Kishida, Y., Kaiho, K. & Hisada, K. 1988. Radiolarians obtained from the Cretaceous formations of the Sanchu graben in the Kanto mountains, central Japan. Journal of the Geological Society of Japan 94(11): 903-905.
[2066] Kamikuri, S. & Motoyama, I. 2007. Radiolarian assemblage and environmental changes in the Japan Sea since the Late Miocene. Fossils (82): 35-42.
[2067] Kamikuri, S., Nishi, H., Moore, T. C., Nigrini, C. A. & Motoyama, I. 2005. Radiolarian faunal turnover across the Oligocene/Miocene boundary in the equatorial Pacific Ocean. Marine Micropaleontology 57(): 74-96.
[2068] Kamikuri, S., Nishi, H. & Motoyama, I. 2007. Effects of late Neogene climatic cooling on North Pacific radiolarian assemblages and oceanographic conditions. Palaeogeography, Palaeoclimatology, Palaeoecology 249(): 370-392.
[2069] Kamikuri, S., Nishi, H., Motoyama, I. & Saito, S. 2004. Middle Miocene to Pleistocene radiolarian biostratigraphy in the Northwest Pacific Ocean, ODP Leg 186. The Island Arc 13(): 191-226.
[2070] Kaminski, M. A., Baumgartner, P. O., Bown, P. R., Haig, D. W., McMinn, A., Moran, M. J., Mutterlose, J. & Ogg, J. G. 1992. Magnetobiostratigraphic synthesis of Leg 123: Sites 765 and 766 (Argo Abyssal Plain and Lower Exmouth Plateau). Pp. 717-737. in (ed) Proceedings of the Ocean Drilling Program, Scientific Results, 123. College Station, TX.
[2071] Kamon, M. & Nakazawa, K. 1989. Geology of the Southern Chichibu Belt in the eastern part of Shimizu-cho, Wakayama Prefecture, Southwest Japan. Journal of the Geological Society of Japan 95(): 45-61.
[2072] Kamon, M. & Taketomi, H. 1982. Stratigraphy of the Mesozoic strata around the Arita River, Southwest Japan. News of Osaka Micropaleontologists (9): 11-22.
[2073] Kanamatsu, T., Nanayama, F., Iwata, K. & Fujiwara, Y. 1992. Pre-Tertiary Systems on the western side of the Abashiri Tectonic Line in the Shiranuka area, eastern Hokkaido, Japan: Implications to the tectonic relationship between the Nemuro and Tokoro Belts. Journal of the Geological Society of Japan 98(12): 1113-1128.
[2074] Kanie, Y., Taketani, Y., Sakai, A. & Miyata, Y. 1981. Lower Cretaceous deposits beneath the Yezo Group in the Urakawa area, Hokkaido. Journal of the Geological Society of Japan 87(): 527-533.
[2075] Kanmera, K. & Sano, H. 1986. Stratigraphic and structural relationships among Pre-Cretaceous accretionary and collisional systems in Akiyoshi Terrane. IGCP Project 224, Guide book for Excursion (pp) (): 51-88.
[2076] Kano, Harumasa 2001. Paleocene and Eocene radiolarians from the Domeki Formation, Shikoku, Southwest Japan. News of Osaka Micropaleontologists, Special Volume (12): 321-336.
[2077] Kano, Harumasa & Suzuki, Noritoshi 2009. Normalized cluster analysis method for radiolarian abundance data. News of Osaka Micropaleontologists (NOM), Special Volume (14): 577-581.
[2078] Kano, K. 1984. The Komyo Group in the southernmost part of the Akaishi Mountains, central Japan. Geological Reports of Shizuoka University 10(): 55-85.
[2079] Kanomata, N. 1959. A study on the radiolarian fauna at Gozenyama in the northern part of the Toriashi mountainland, Ibaraki Prefecture. Journal of the College of Arts and Sciences, Chiba University 2(): 304-308.
[2080] Kanomata, N. 1960. A radiolarian fauna at Nokura, Ibaraki Prefecture, Japan. Journal of the College of Arts and Sciences, Chiba University 1(): 93-97.
[2081] Kanomata, N. 1960. A radiolarian fauna at Odaira, Ibaraki Prefecture, Japan. Journal of the College of Arts and Sciences, Chiba University 3(2): 213-220.
[2082] Kanomata, N. 1961. The geology of the Yamizo, Torinoko and Toriashi mountain blocks and their geologic age. Journal of the College of Arts and Sciences, Chiba University 3(): 351-367.
[2083] Kanomata, N. & Iwashita, F. 1964. Study on the radiolarian fauna at the Mineoka Group in the southern part of the Boso Peninsula, Chiba Prefecture. Journal of the College of Arts and Sciences, Chiba University 4(2): 69-72.
[2084] Kapitel, S. 1897. Das Plankton des Karajak-Fjordes. In Vanhöffen eds. Die Fauna und Flora Gro"nlands.. Grönland-Expedition der Geselischaft für Erdkunde zu Berlin 1891-1893 12(): 254-291.
[2085] Kaplan, T. A. 1984. The Lassic outlier, an outlier of Coast Range Ophiolite, northern California. Pacific Section, Society of Economic Paleontologists and Mineralogists 43(): 203-219.
[2086] Kaptarenko-Chernousova, O. K. 1948. Pro poshirennen radiolyariy v knivc'komu yarusi ta pro ikh znachenie. Geol Zh An Ursr 9(4): 51.
[2087] Karakitsios, V., Danelian, T. & De Wever, P. 1988. Datations par les Radiolaires des Calcaires à filaments, schistes à posidonies supérieurs et calcaires de Vighla (zone Inoienne, Épire, Gréce) du Callovien au Tithonique terminal. Comptes rendus de l'Academie des sciences. Serie II, Mecanique, physique, chimie, sciences de l'univers, sciences de la terre 306(): 367-372.
[2088] Karavaev, V. 1896. Nablyudeniya nad radiolyariyami. Zapadne Kievskogo ob-va Estestvoispytateley 15(1): 349-371.
[2089] Karawaiew, W. 1895. Beobachtungen uber die Structur und Vermehrung von Aulacantha scolymantha Haeckel. Zoologische Anzeiger 18(140): 286-289.
[2090]
|
