Kirjanduse otsing ...

Lihtpäring otsib infot kõigilt kirjanduse andmeväljadelt: autor, aasta, pealkiri, ajakirja nimi, kogumik, abstrakt, märksõnad, doi jne.

(1) otsida saab ühe või mitme sõna järgi, tulemustes kuvatakse kirjed, kus vähemalt üks neist on olemas (nt Kaljo Kivimägi);
(2) kui lisad märksõna ette "+" märgi, siis otsitakse vaid kirjeid, kus see märksõna sisaldub (nt +Kaljo +Kivimägi);
(3) märksõna välistamiseks kasuta "-" märki (nt -Kaljo +Kivimägi);
(4) pimeotsingu tähiseks on * (nt litostrat*);
(5) kindla fraasi otsinguks ümbritse see jutumärkidega (nt "tartu riikliku ülikooli");
(6) kombineeri eelnevaid võimalusi (nt +"estonian journal of earth sciences" +Kaljo +year:[2010 TO *] annab tulemuseks kõik Dimitri Kaljo artiklid ajakirjas EJES);

Täiendavad filtrid:
Autor: Aasta: Pealkiri:


NB! Otsingutulemuste hulgas kuvatakse vaikimisi vaid kontrollitud kirjeid, mis on otseselt seotud Eestiga. Näita kõiki publikatsioone.

Detailsem päringuvorm valmib 2020. a teises pooles. Andmete sisestamine ja märksõnadega varustamine kestab 2020. a lõpuni ning seda finantseerib KIKi projekt "Eesti maapõue trükiste andmebaas".

Otsingu tulemused (162)

Hints, O., Martma, T., Männik, P., Nõlvak, J., Põldvere, A., Shen, Y., Viira, V., 2014: New data on Ordovician stable isotope record and conodont biostratigraphy from the Viki reference drill core, Saaremaa Island, western Estonia. GFF, 136, 1, 100-104. https://doi.org/10.1080/11035897.2013.873989

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Martma, T., 2003: Carbon and oxygen isotopes. Estonian Geological Sections, 5, 28-31.

Mastalerz, M., Schimmelmann, A., Hower, C., Lis, G., Hatch, J., Jacobson S. R., 2003: Chemical and isotopic properties of kukersites from Iowa and Estonia. Organic Geochemistry, 34, 10, 1419-1427.

Kleesment, A., Urtson, K., Kiipli, T., Martma, T., Põldvere, A., Kallaste, T., Shogenova, A., Shogenov, K., 2013: Temporal evolution, petrography and composition of dolostones in the Upper Devonian Plavinas Regional Stage, southern Estonia and northern Latvia. Estonian Journal of Earth Sciences, 62, 3, 139-159. https://doi.org/10.3176/earth.2013.12

Hints, L., Hints, O., Kaljo, D., Kiipli, T., Männik, P., Nõlvak, J., Pärnaste, H., 2010: Hirnantian (latest Ordovician) bio- and chemostratigraphy of the Stirnas-18 core, western Latvia. Estonian Journal of Earth Sciences, 59, 1, 1-24. https://doi.org/10.3176/earth.2010.1.01

Martma, T., 2006: Ordovician and lowermost Silurian carbon isotopes. Estonian Geological Sections, 7, 14-15.

Raidla, V., Kern, Z., Pärn, J., Babre, A., Erg, K., Ivask, J., Kalvāns, A., Kohán, B., Lelgus, M., Martma, T., Mokrik, R., Popovs, K., Vaikmäe, R., 2016: A δ18O isoscape for the shallow groundwater in the Baltic Artesian Basin. Journal of Hydrology, 542, 254-267. https://doi.org/10.1016/j.jhydrol.2016.09.004

Punning, J.-M., Martma, T., Kessel, H., Vaikmäe, R., 1988: The isotopic composition of oxygen and carbon in the subfossil mollusc shells of the Baltic Sea as an indicator of palaeosalinity. Boreas, 17, 1, 27-31. https://doi.org/10.1111/j.1502-3885.1988.tb00120.x

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Leben, K., Mõtlep, R., Paaver, P., Konist, A., Pihu, T., Kirsimäe, K., 2020: Geochemical study of stable carbon and oxygen isotopes in landfilled Ca-rich oil shale ash. Estonian Journal of Earth Sciences, 69, 3, 134-142. https://doi.org/10.3176/earth.2020.09

Pärn, J., Walraevens, K., van Camp, M., Raidla, V., Aeschbach, W., Friedrich, R., Ivask, J., Kaup, E., Martma, T., Mažeika, J., Mokrik, R., Weissbach, T., Vaikmäe, R., 2019: Dating of glacial palaeogroundwater in the Ordovician-Cambrian aquifer system, northern Baltic Artesian Basin. Applied Geochemistry, 102, 64-76. https://doi.org/10.1016/j.apgeochem.2019.01.004

Ainsaar, L., Meidla, T., Martma, T., 1999: Evidence for a widespread carbon isotopic event associated with late Middle Ordovician sedimentological and faunal changes in Estonia. Geological Magazine, 136, 1, 49-62. https://doi.org/10.1017/S001675689900223X

Kaljo, D., Martma, T., 2000: Carbon isotopic composition of Llandovery rocks (East Baltic Silurian) with environmental interpretation. Proceedings of the Estonian Academy of Sciences. Geology, 49, 4, 267-283.

Ainsaar, L., Meidla, T., Tinn, O., Martma, T., Dronov, A., 2007: Darriwilian (Middle Ordovician) carbon isotope stratigraphy in Baltoscandia. Acta Palaeontologica Sinica, 46, Suppl., 1-8.

Meidla, T., Ainsaar, L., Hints, L., Hints, O., Martma, T., Nõlvak, J., 1999: The mid-Caradocian biotic and isotopic event in the Ordovician of the East Baltic. Acta Universitatis Carolinae. Geologica, 43, 1/2, 503-506.

Põldsaar, K., Ainsaar, L., 2014: Extensive soft-sediment deformation structures in the early Darriwilian (Middle Ordovician) shallow marine siliciclastic sediments formed on the Baltoscandian carbonate ramp, northwestern Estonia. Marine Geology, 356, 111-127. https://doi.org/10.1016/j.margeo.2013.08.012

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Richardson, J. A., Keating, C., Lepland, A., Hints, O., Bradley, A. S., Fike, D. A., 2019: Silurian records of carbon and sulfur cycling from Estonia: The importance of depositional environment on isotopic trends. Earth and Planetary Science Letters, 512, 71-82. https://doi.org/10.1016/j.epsl.2019.01.055

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Dzik, J., 1983: Relationships between Ordovician Baltic and North American Midcontinent conodont faunas. Fossils and Strata, 15, 59-85.

Brenchley, P. J., Carden, G. A., Hints, L., Kaljo, D., Marshall, J. D., Martma, T., Meidla, T., Nõlvak, J., 2003: High-resolution stable isotope stratigraphy of Upper Ordovician sequences: Constraints on the timing of bioevents and environmental changes associated with mass extinction and glaciation. Geological Society of America Bulletin, 115, 1, 89-104. https://doi.org/10.1130/0016-7606(2003)115<0089:HRSISO>2.0.CO;2

Kleesment, A., Konsa, M., Puura, V., Karhu, U., Preeden, U., Kallaste, T., 2006: Impact-induced and diagenetic changes in minerals in the sandy ejecta of the Kärdla crater, NW Estonia. Proceedings of the Estonian Academy of Sciences. Geology, 55, 3, 189-212.

Kaljo, D., Hints, L., Männik, P., Nõlvak, J., 2008: The succession of Hirnantian events based on data from Baltica: brachiopods, chitinozoans, conodonts, and carbon isotopes. Estonian Journal of Earth Sciences, 57, 4, 197-218. https://doi.org/10.3176/earth.2008.4.01

Deines, P., Wickman, F. E., 1985: The stable carbon isotopes in enstatite chondrites and Cumberland Falls. Geochimica et Cosmochimica Acta, 49, 1, 89-95. https://doi.org/10.1016/0016-7037(85)90193-0

Ainsaar, L., Kaljo, D., Martma, T., Meidla, T., Männik, P., Nõlvak, J., Tinn, O., 2010: Middle and Upper Ordovician carbon isotope chemostratigraphy in Baltoscandia: a correlation standard and clues to environmental history. Palaeogeography, Palaeoclimatology, Palaeoecology, 294, 3-4, 189-201. https://doi.org/10.1016/j.palaeo.2010.01.003

Punning, J.-M., Koff, T., Martma, T., Possnert, G., 2002: Stable isotope and pollen stratigraphy in marl sediments from Lake Ilmjärv (central Estonia). Proceedings of the Estonian Academy of Sciences. Geology, 51, 3, 180-192.

Stansell, N. D., Klein, E. S., Finkenbinder, M. S., Fortney, C. S., Dodd, J. P., Terasmaa, J., Nelson, D. B., 2017: A stable isotope record of Holocene precipitation dynamics in the Baltic region from Lake Nuudsaku, Estonia. Quaternary Science Reviews, 175, 73-84. https://doi.org/10.1016/j.quascirev.2017.09.013

Kleesment, A., Kirsimäe, K., Martma, T., Shogenova, A., Urtson, K., Shogenov, K., 2012: Linkage of diagenesis to depositional environments and stratigraphy in the northern part of the Baltic basin. Estonian Journal of Earth Sciences, 61, 1, 15-32. https://doi.org/10.3176/earth.2012.1.02

Saarse, L., Heinsalu, A., Veski, S., Amon, L., Gaidamavicius, A., 2012: On the deglaciation chronology of the Palivere ice-marginal zone, northern Estonia. Bulletin of the Geological Society of Finland, 84, 1, 21-31. https://doi.org/10.17741/bgsf/84.1.002

Bondar, E., Bityukov, M., Palu, V., Kattai, V., 1996: Carbon isotope composition in the Early Palaeozoic crude oil, natural bitumens and kerogeneous rocks of the Baltic region. Oil Shale, 13, 3, 171-183.

Eensaar, J., Pani, T., Gaškov, M., Sepp, H., Kirsimäe, K., 2017: Stable isotope composition of hypogenic speleothem calcite in Kalana (Estonia) as a record of microbial methanotrophy and fluid evolution. Geological Magazine, 154, 1, 57-67. https://doi.org/10.1017/S0016756815000928

Marshall, J. D., Brenchley, P. J., Mason, P., Wolff, G. A., Astini, R. A., Hints, L., Meidla, T., 1997: Global carbon isotopic events associated with mass extinction and glaciation in the late Ordovician. Palaeogeography, Palaeoclimatology, Palaeoecology, 132, 1-4, 195-210. https://doi.org/10.1016/S0031-0182(97)00063-1

Tavast, E., Raukas, A., 1999: Application of the malacological method to solve stratigraphic and palaeogeographical problems on the example of the West Estonian coast. Oceanological Studies, 28, 3-4, 45-57.

Bowman, C. N., Young, S. A., Kaljo, D., Eriksson, M. E., Them, T. R., Hints, O., Martma, T., Owens, J. D., 2019: Linking the progressive expansion of reducing conditions to a stepwise mass extinction event in the late Silurian oceans. Geology, 47, 10, 968-972. https://doi.org/10.1130/G46571.1

Kaljo, D., Martma, T., 2006: Application of carbon isotope stratigraphy to dating the Baltic Silurian rocks. GFF, 128, 2, 123-129. https://doi.org/10.1080/11035890601282123

Bauert, H., Ainsaar, L., Põldsaar, K., Sepp, S., 2014: δ13C chemostratigraphy of the Middle and Upper Ordovician succession in the Tartu-453 drillcore, southern Estonia, and the significance of the HICE. Estonian Journal of Earth Sciences, 63, 4, 195-200. https://doi.org/10.3176/earth.2014.18

Ainsaar, L., Meidla, T., Martma, T., 2004: The Middle Caradoc Facies and Faunal Turnover in the Late Ordovician Baltoscandian palaeobasin. Palaeogeography, Palaeoclimatology, Palaeoecology, 210, 2-4, 119-133. https://doi.org/10.1016/j.palaeo.2004.02.046

Kaljo, D., 2004: Diversity of late Ordovician rugose corals in Baltoscandia: role of environmental changes and comparison with other areas. Proceedings of the Estonian Academy of Sciences. Geology, 53, 4, 233-245.

Kaljo, D., Hints, L., Martma, T., Nõlvak, J., 2001: Carbon isotope stratigraphy in the latest Ordovician of Estonia. Chemical Geology, 175, 49-59. https://doi.org/10.1016/S0009-2541(00)00363-6

Laumets, L., Kalm, V., Poska, A., Kele, S., Lasberg, K., Amon, L., 2014: Palaeoclimate inferred from δ18O and palaeobotanical indicators in freshwater tufa of Lake Äntu Sinijärv, Estonia. Journal of Paleolimnology, 51, 1, 99-111. https://doi.org/10.1007/s10933-013-9758-y

Liira, M., Kirsimäe, K., Kuusik, R., Mõtlep, R., 2009: Transformation of calcareous oil-shale circulating fluidized-bed combustion boiler ashes under wet conditions. Fuel, 88, 4, 712-718. https://doi.org/10.1016/j.fuel.2008.08.012

Kiipli, E., Kiipli, T., 2020: Hirnantian sea-level changes in the Baltoscandian Basin, a review. Palaeogeography, Palaeoclimatology, Palaeoecology, 540, 1-13. https://doi.org/10.1016/j.palaeo.2019.109524

Hammarlund, E. U., Loydell, D. K., Nielsen, A. T., Schovsbo, N. H., 2019: Early Silurian δ13Corg excursions in the foreland basin of Baltica, both familiar and surprising. Palaeogeography, Palaeoclimatology, Palaeoecology, 526, 126-135. https://doi.org/10.1016/j.palaeo.2019.03.035

Cramer, B. D., Brett, C. E., Melchin, M. J., Männik, P., Kleffner, M. A., Mclaughlin, P. I., Loydell, D. K., Munnecke, A., Jeppsson, L., Corradini, C., Brunton, F. R., Saltzman, M. R., 2011: Revised correlation of Silurian Provincial Series of North America with global and regional chronostratigraphic units and δ13Ccarb chemostratigraphy. Lethaia, 44, 2, 185-202. https://doi.org/10.1111/j.1502-3931.2010.00234.x

Gouldey, J.C., Saltzman, M.R., Young, S.A., Kaljo, D., 2010: Strontium and carbon isotope stratigraphy of the Llandovery (Early Silurian): Implications for tectonics and weathering. Palaeogeography, Palaeoclimatology, Palaeoecology, 296, 264-275. https://doi.org/10.1016/j.palaeo.2010.05.035

Ebbestad, J. O. R., Högström, A. E. S., Frisk, Ǻ. M., Martma, T., Kaljo, D., Kröger, B., Pärnaste, H., 2015: Terminal Ordovician stratigraphy of the Siljan district, Sweden. GFF, 137, 1, 36-56. https://doi.org/10.1080/11035897.2014.945620

Kiipli, E., Kiipli, T., Kallaste, T., Märss, T., 2016: Chemical weathering east and west of the emerging Caledonides in the Silurian – Early Devonian, with implications for climate. Canadian Journal of Earth Sciences, 53, 8, 774-780. https://doi.org/10.1139/cjes-2015-0156

Kaljo, D., Hints, L., Hints, O., Männik, P., Martma, T., Nõlvak, J., 2011: Katian prelude to the Hirnantian (Late Ordovician) mass extinction: a Baltic perspective. Geological Journal, 46, 5, 464-477. https://doi.org/10.1002/gj.1301

Vinn, O., Ernst, A., Toom, U., 2016: Earliest symbiotic rugosans in cystoporate bryozoan Ceramopora intercellata Bassler, 1911 from Late Ordovician of Estonia (Baltica). Palaeogeography, Palaeoclimatology, Palaeoecology, 461, 140-144. https://doi.org/10.1016/j.palaeo.2016.08.016

Olsson, I. U., Kaup, E., 2001: The Varying Radiocarbon Activity of Some Recent Submerged Estonian Plants Grown in the Early 1990s. Radiocarbon, 43, 2B, 809-820. https://doi.org/10.1017/S0033822200041485

Kaljo, D., Kiipli, T., Martma, T., 1997: Carbon isotope event markers through the Wenlock-Pridoli sequence in Ohesaare (Estonia) and Priekule (Latvia). Palaeogeography, Palaeoclimatology, Palaeoecology, 132, 1-4, 211-224. https://doi.org/10.1016/S0031-0182(97)00065-5

Lehnert, O., Männik, P., Joachimski, M. M., Calner, M., Frýda, J., 2010: Palaeoclimate perturbations before the Sheinwoodian glaciation: A trigger for extinctions during the ‘Ireviken Event’. Palaeogeography, Palaeoclimatology, Palaeoecology, 296, 3-4, 320-331. https://doi.org/10.1016/j.palaeo.2010.01.009

Kaljo, D., Hints, L., Martma, T., Nõlvak, J., 2017: A multiproxy study of the Puhmu core section (Estonia, Upper Ordovician): consequences for stratigraphy and environmental interpretation. Estonian Journal of Earth Sciences, 66, 2, 77-92. https://doi.org/10.3176/earth.2017.08

Kochenov, A. V., Baturin, N., 2002: The Paragenesis of Organic Matter, Phosphorus, and Uranium in Marine Sediments. Lithology and Mineral Resources, 37, 2, 126–140.

Emig, C. C., 2002: Tools for linguloid taxonomy: the genus Obolus (Brachiopoda) as an example. Carnets de Géologie, 01, 1-9.

McLaughlin, P. I., Emsbo, P., Brett, C. E., Bancroft, A. M., Desrochers, A., Vandenbroucke, T. R., 2019: The rise of pinnacle reefs: A step change in marine evolution triggered by perturbation of the global carbon cycle. Earth and Planetary Science Letters, 515, 13-25. https://doi.org/10.1016/j.epsl.2019.02.039

Kaljo, D., Einasto, R., Martma, T., Märss, T., Nestor, V., Viira, V., 2015: A bio-chemostratigraphical test of the synchroneity of biozones in the upper Silurian of Estonia and Latvia with some implications for practical stratigraphy. Estonian Journal of Earth Sciences, 64, 4, 267-283. https://doi.org/10.3176/earth.2015.33

Kaljo, D., Martma, T., Saadre, T., 2007: Post-Hunnebergian Ordovician carbon isotope trend in Baltoscandia, its environmental implications and some similarities with that of Nevada. Palaeogeography, Palaeoclimatology, Palaeoecology, 245, 1-2, 138-155. https://doi.org/10.1016/j.palaeo.2006.02.020

Raidla, V., Kirsimäe, K., Vaikmäe, R., Kaup, E., Martma, T., 2012: Carbon isotope systematics of the Cambrian–Vendian aquifer system in the northern Baltic Basin: Implications to the age and evolution of groundwater. Applied Geochemistry, 27, 10, 2042-2052. https://doi.org/10.1016/j.apgeochem.2012.06.005

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Kiipli, T., Kallaste, T., Martma, T., 1995: Mn-Fe-calcite concretions from varved clays of Estonia and the Gulf of Finland: the composition and growth history. Proceedings of the Estonian Academy of Sciences. Geology, 44, 3, 163-176.

Kiipli, E., Kiipli, T., Kallaste, T., Siir, S., 2012: Al2O3/TiO2 ratio of the clay fraction of Late Ordovician–Silurian carbonate rocks as an indicator of paleoclimate of the Fennoscandian Shield. Palaeogeography, Palaeoclimatology, Palaeoecology, 365-366, 312-320. https://doi.org/10.1016/j.palaeo.2012.10.001

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Kaljo, D., Martma, T., Grytsenko, V., Brazauskas, A., Kaminskas, D., 2012: Přídolí carbon isotope trend and upper Silurian to lowermost Devonian chemostratigraphy based on sections in Podolia (Ukraine) and the East Baltic area. Estonian Journal of Earth Sciences, 61, 3, 162-180. https://doi.org/10.3176/earth.2012.3.03

Vinn, O., Toom, U., Ernst, A., 2018: Intergrowth of Orbignyella germana Bassler, 1911 (Bryozoa) and Lambelasma carinatum Weyer, 1993 (Rugosa) in the pelmatozoan-bryozoan-receptaculitid reefs from the Late Ordovician of Estonia. Palaeontologia Electronica, 21.1.4A, 1-7. https://doi.org/10.26879/818

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Kaljo, D., Martma, T., Männik, P., Viira, V., 2003: Implications of Gondwana glaciations in the Baltic late Ordovician and Silurian and a carbon isotopic test of environmental cyclicity. Bulletin de la Societe Geologique de France, 174, 1, 59-66. https://doi.org/10.2113/174.1.59

Kaljo, D., Hints, L., Martma, T., Nõlvak, J., Oraspõld, A., 2004: Late Ordovician carbon isotope trend in Estonia, its significance in stratigraphy and environmental analysis. Palaeogeography, Palaeoclimatology, Palaeoecology, 210, 2-4, 165-185. https://doi.org/10.1016/j.palaeo.2004.02.044

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Männik, P., Viira, V., 2012: Ordovician conodont diversity in the northern Baltic. Estonian Journal of Earth Sciences, 61, 1, 1-14. https://doi.org/10.3176/earth.2012.1.01

Shields, G. A., Carden, G. A., Veizer, J., Meidla, T., Rong, J., Li, R., 2003: Sr, C, and O isotope geochemistry of Ordovician brachiopods: a major isotopic event around the Middle-Late Ordovician transition. Geochimica et Cosmochimica Acta, 67, 11, 2005-2025. https://doi.org/10.1016/S0016-7037(02)01116-X

Kriiska, A., Kirs, J., Alttoa, K., Maala, L., 2017: Carved Stone Fragment of Sanidine Trachyte from the Viljandi Castle. Baltic Journal of Art History, 13, 1, 75-86. https://doi.org/10.12697/BJAH.2017.13.04

Tõnisson, H., Orviku, Kaarel, Kont, A., Suursaar, Ü., Jaagus, J., Rivis, R, 2007: Gravel-pebble Shores on Saaremaa Island, Estonia, and the Relationship with Formation Conditions. Journal of Coastal Research, 50, 810-815.

Põldsaar, K., Ainsaar, L., Nemliher, R., Tinn, O., Stinkulis, G., 2019: A siliciclastic shallow-marine turbidite on the carbonate shelf of the Ordovician Baltoscandian palaeobasin. Estonian Journal of Earth Sciences, 68, 1, 1-14. https://doi.org/10.3176/earth.2019.01

Mõtlep, R., Sild, T., Puura, E., Kirsimäe, K., 2010: Composition, diagenetic transformation and alkalinity potential of oil shale ash sediments. Journal of Hazardous Materials, 184, 1-3, 567-573. https://doi.org/10.1016/j.jhazmat.2010.08.073

Saarse, L., Vassiljev, J., Miidel, A., 2003: Simulation of the Baltic Sea shorelines in Estonia and neighbouring areas. Journal of Coastal Research, 19, 2, 261-268.

Johnson, M. E., Baarli, B. G., Nestor, H., Rubel, M., Worsley, D., 1991: Eustatic sea-level patterns from the Lower Silurian (Llandovery Series) of southern Norway and Estonia. Bulletin of the Geological Society of America, 103, 3, 315-335. https://doi.org/10.1130/0016-7606(1991)103<0315:ESLPFT>2.3.CO;2

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