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Hans E. Suess, 1909–1993
Published online by Cambridge University Press: 18 July 2016
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References
Selected Bibliography
Suess, H. E.
1953
Natural radiocarbon and the rate of exchange of carbon dioxide between the atmosphere and the sea. in
Aldrich, L. T., ed., Proceedings of Conference on Nuclear Processes in Geological Settings. National Research Council, Commission on Nuclear Science
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Suess, H. E.
1954a
Natural radiocarbon measurements by acetylene counting. Science
120: 5–7.Google Scholar
Suess, H. E.
1956
Grundlagen und Ergebnisse der Radiokohlenstoff-Datierung. Angewandte Chemie
68: 540–546.Google Scholar
Suess, H. E.
1958
Radioactivity of the atmosphere and hydrosphere. Annual Review of Nuclear Science
8: 243–256.Google Scholar
Suess, H. E.
1961a
Die Methode der Radiokohlenstoffdatierung und ihre Bedeutung für prähistorische Forschung. Bericht V. Kongress für Vor-und Fruhgeschichte. Berlin, Verlag Gebr. Mann: 798–794.Google Scholar
Suess, H. E.
1961b
Secular changes in the concentration of atmospheric radiocarbon. National Academy of Science, National Research Council Publication
845 (33): 9094.Google Scholar
Suess, H. E.
1965
Secular variations in the cosmic ray-produced carbon-14 in the atmosphere and their interpretations. Journal of Geophysical Research
70: 5937–5952.Google Scholar
Suess, H. E.
1966
Some chemical aspects of the evolution of the terrestrial atmosphere. Tellus
28: 207–211.Google Scholar
Suess, H. E.
1967a
Bristlecone pine calibration of the radiocarbon time scale from 4100 B.C. to 1500 B.C. In Proceedings of the Monaco Symposium on Radioactive Dating and Methods of Low-Level Counting. Vienna, IAEA: 143–151.Google Scholar
Suess, H. E.
1967b
Zur Chronologie des alter Agypten. Zeitschrift für Physik
202: 1–7.Google Scholar
Suess, H. E.
1968
Climatic changes, solar activity, and the cosmic ray production rate of radiocarbon. Meteorological Monographs
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Suess, H. E.
1969b
Tritium geophysics as an international research project. Science
163: 1405–1410.Google Scholar
Suess, H. E.
1970a
Bristlecone pine calibration of the radiocarbon time scale 5300 B.C. to the present. in
Olsson, I., ed., Radiocarbon Variations and Absolute Chronology, Proceedings of the 12th Nobel Symposium. Stockholm, Almqvist & Wicksell: 303–313.Google Scholar
Suess, H. E.
1970b
Climate and radiocarbon during the Middle Ages. in
Berger, R., ed., Scientific Methods in Medieval Archaeology. Berkeley and Los Angeles, California, University of California Press: 159–166.Google Scholar
Suess, H. E.
1970c
The three causes of the secular carbon-14 fluctuations, their amplitudes and time constants. in
Olsson, I., ed., Radiocarbon Variations and Absolute Chronology, Proceedings of the 12th Nobel Symposium. Stockholm, Almqvist & Wicksell: 595–605.Google Scholar
Suess, H. E.
1970d
Transfer of carbon-14 and tritium from the atmosphere into the ocean. in Proceedings of the CACR Symposium on Atmospheric Trace Constituents and Atmospheric Cirulation. Journal of Geophysical Research
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Suess, H. E.
1971
Climatic changes and the atmospheric radiocarbon level. Paleogeography, Paleoclimatology, Paleoecology
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Suess, H. E.
1973b
Natural radiocarbon evidence bearing on climatic changes. In Proceedings of the Paleoclimatology Conference. Gif-sur-Yvette, France.Google Scholar
Suess, H. E.
1978a
Absolute radiocarbon dating by low-altitude European tree-ring calibration (a reply). Nature
272: 649.Google Scholar
Suess, H. E.
1978b
La Jolla measurements of radiocarbon in tree-ring dated wood. Radiocarbon
20(1): 1–18.Google Scholar
Suess, H. E.
1979a
Were the Allerød and Twocreekan substages contemporaneous? In Berger, R. and Suess, H. E., eds., Radiocarbon Dating, Proceedings of the 9th International 14C Conference. Berkeley/Los Angeles, University of California Press: 76–82.Google Scholar
Suess, H. E.
1979b
The carbon-14 level during the fourth and second half of the fifth millennium BC and the carbon-14 calibration curve. in
Berger, R. and Suess, H. E., eds., Radiocarbon Dating, Proceedings of the 9th International 14C Conference. Berkeley/Los Angeles, University of California Press: 538–544.Google Scholar
Suess, H. E.
1979c
A calibration table for conventional radiocarbon dates. in
Berger, R. and Suess, H. E., eds., Radiocarbon Dating, Proceedings of the 9th International 14C Conference. Berkeley/Los Angeles, University of California Press: 777–784.Google Scholar
Suess, H. E.
1979c
Ist die Sonnenaktivität für Klimaschwankungen verantwortlich?
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Suess, H. E.
1979d
The solar wind during the Maunder minimum. Planetary Space Science
27: 1001–1013.Google Scholar
Suess, H. E.
1980b
The radiocarbon record in tree rings of the last 8000 years. in
Stuiver, M., and Kra, R. S., eds., Proceedings of the 10th International 14C Conference. Radiocarbon
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Suess, H. E.
1986
Secular variations of cosmogenic 14C on Earth: Their discovery and interpretation. in
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Suess, H. E.
1990
A comparison of high-precision calibrations of the radiocarbon time scale by three different laboratories. in
Mook, W. G. and Waterbolk, H. T., eds., Proceedings of the 2nd International Symposium 14C and Archaeology. Strasbourg, PACT
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Suess, H. E.
1992
The early radiocarbon years: Personal reflections. in
Taylor, R. E., Long, A. and Kra, R. S., eds., Radiocarbon After Four Decades: An Interdisciplinary Perspective. New York, Springer-Verlag: 11–16.Google Scholar
Suess, H. E. and Becker, B.
1977
Der Radiocarbongehalt von Jahrringproben aus postglazialen Eichenstämmen Mitteleuropas. in
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Suess, H. E. and Goldberg, E.
1971
Comments on “Abyssal Carbon and Radiocarbon in the Pacific” by Craig, H.
Journal of Geophysical Research
76(21): 5131–5132.Google Scholar
Suess, H. E. and Linick, T. W.
1990
The 14C record in bristlecone pine wood of the past 8000 years based on the dendrochronology of the late C. W. Ferguson. Philosophical Transactions of the Royal Society [London] A
330: 403–412.Google Scholar
Suess, H. E. and Strahm, C.
1970
The Neolithic of Auvenier: Calibrated radiocarbon dates. Antiquity
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Suess, H. E. and Wänke, H.
1965
On the possibility of a helium flux through the ocean floor. Progress in Oceanography
3: 347–353.Google Scholar
Bainbridge, A. E., Sandoval, P. and Suess, H. E.
1961
Natural tritium measurements by ethane counting. Science
134: 552–553.Google Scholar
Bainbridge, A. E., Suess, H. E. and Friedman, I.
1961
Isotopic composition of atmospheric hydrogen and methane. Nature
192(4803): 648–649.Google Scholar
Berger, R., Jackson, T. B., Michael, R. and Suess, H. E.
1987
Radiocarbon content of tropospheric CO2 at China Lake, California 1977-1983. Radiocarbon
29 (1): 18–23.Google Scholar
Berger, R. and Suess, H. E., eds., 1979
Radiocarbon Dating, Proceedings of the 9th International 14C Conference. Berkeley/Los Angeles, University of California Press.Google Scholar
Bien, G. S., Rakestraw, N. W. and Suess, H. E.
1956
U.S. Geological Survey radiocarbon dates III. Science
123: 442–448.Google Scholar
Bien, G. S., Rakestraw, N. W. and Suess, H. E.
1960
Radiocarbon concentration in Pacific Ocean water. Tellus
12(4): 436–443.Google Scholar
Bien, G. S., Rakestraw, N. W. and Suess, H. E.
1963
Radiocarbon dating of deep water of the Pacific and Indian Oceans. Bulletin of the Institute of Oceanography, Monaco
61: 159–173.Google Scholar
Bien, G. S., Rakestraw, N. W. and Suess, H. E.
1965
Radiocarbon in the Pacific and Indian oceans and its relation to deep water movements. Limnology and Oceanography
10(supplement): R25–37.Google Scholar
Bien, G. S. and Suess, H. E.
1959
Increase of C14 in the atmosphere from artificial sources measured in a California tree. Zeitschrift für Physik
154: 172–174.Google Scholar
Bien, G. S. and Suess, H. E.
1967
Transfer and exchange of 14C between the atmosphere and the surface water of the Pacific Ocean. In Radioactive Dating and Methods of Low Level Counting. Vienna, IAEA: 105–115.Google Scholar
Bruns, M., Rhein, M., Linick, T. W. and Suess, H. E.
1983
The atmospheric 14C level in the 7th millennium BC.
in
Mook, W. G. and Waterbolk, H. T., eds., Proceedings of the International Symposium 14C and Archaeology. Strasbourg, PACT
8: 511–516.Google Scholar
Cain, W. F. and Suess, H. E.
1976
Carbon-14 in tree rings. Journal of Geophysical Research
81(21): 3688–3694.Google Scholar
Dockins, K. O., Bainbridge, A. E., Houtermans, J. C. and Suess, H. E.
1967
Tritium in the mixed layer of the North Pacific Ocean. In Proceedings of the Monaco Symposium on Radioactive Dating and Methods of Lowlevel Counting. Vienna, IAEA: 129–141.Google Scholar
Druffel, E. M. and Suess, H. E.
1983
On the radiocarbon record in banded corals: Exchange parameters and net transport of 14CO2 between atmosphere and surface ocean. Journal of Geophysical Research
88(C2): 1271–1280.Google Scholar
Ferguson, C. W., Gimbutas, M. and Suess, H. E.
1976
Historical dates for the Neolithic sites of southeast Europe. Science
191: 1170–1172.Google Scholar
Ferguson, C. W., Huber, B. and Suess, H. E.
1966
Determination of the age of Swiss Lake dwellings as an example of dendrochronologically calibrated radiocarbon dating. Zeitschrift für Naturforschung
21a: 1173–1177.Google Scholar
Houtermans, J. C., Oeschger, H. and Suess, H. E.
1973
Reservoir models and production rate variations of natural radiocarbon. Journal of Geophysical Research
78: 1898–1908.Google Scholar
Houtermans, J. C., Suess, H. E. and Munk, W.
1967
The effect of industrial fuel combustion on the carbon-14 level of atmospheric CO2
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Hubbs, C. L., Bien, G. S. and Suess, H. E.
1960
La Jolla natural radiocarbon measurements. American Journal of Science Radiocarbon Supplement
2: 197–223.Google Scholar
Hubbs, C. L., Bien, G. S. and Suess, H. E.
1962
La Jolla natural radiocarbon measurements II. Radiocarbon
4: 204–238.Google Scholar
Hubbs, C. L., Bien, G. S. and Suess, H. E.
1963
La Jolla natural radiocarbon measurements III. Radiocarbon
5: 254–272.Google Scholar
Hubbs, C. L., Bien, G. S. and Suess, H. E.
1965
La Jolla natural radiocarbon measurements IV. Radiocarbon
7: 66–117.Google Scholar
König, H., Wänke, H., Bien, G. S., Rakestraw, N. W. and Suess, H. E.
1964
Helium, neon and argon in the oceans. Deep Sea Research
11: 243–247.Google Scholar
Kruse, H. H., Linick, T. W., Suess, H. E. and Becker, B.
1980
Computer-matched radiocarbon dates of floating tree-ring series. in
Stuiver, M., and Kra, R. S., eds., Proceedings of the 10th International 14C Conference. Radiocarbon
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Lal, D. and Suess, H. E.
1968
The radioactivity of the atmosphere and hydrosphere. Annual Review of Nuclear Science
18: 407–434.Google Scholar
Linick, T. W. and Suess, H. E.
1972
Bomb produced radiocarbon in the surface water of the Pacific Ocean. in
Rafter, T. A. and Grant-Taylor, T. E., eds., Proceedings of the 8th International 14C Conference. Wellington, New Zealand, Royal Society of New Zealand: C87-C93.Google Scholar
Linick, T. W., Suess, H. E. and Becker, B.
1985
La Jolla measurements of radiocarbon in south German oak tree-ring chronologies. Radiocarbon
27(1): 20–32.Google Scholar
Lodge, J. P., Bien, G. S. and Suess, H. E.
1960
The C14 content of urban airborne particulate matter. International Journal for Air Pollution
2: 309–312.Google Scholar
MacKie, E., Collins, J., Ewer, D. W., Smith, A., Suess, H. A. and Renfrew, C.
1971
Thoughts on radiocarbon dating. Antiquity
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Michel, R. L. and Suess, H. E.
1975
Bomb tritium in the Pacific. Journal of Geophysical Research
80: 4139–4152.Google Scholar
Michel, R. L. and Suess, H. E.
1978
Tritium in the Caspian Sea. Earth and Planetary Science Letters
39: 309–312.Google Scholar
Neftel, A., Oeschger, H. and Suess, H. E.
1981
Secular non-random variations of cosmogenic carbon-14 in the terrestrial atmosphere. Earth and Planetary Science Letters
56: 127–147.Google Scholar
Revelle, R. and Suess, H. E.
1957
Carbon dioxide exchange between atmosphere and ocean and the question of an increase of atmospheric CO2 during the past decades. Tellus
9: 18–27.Google Scholar
Revelle, R. and Suess, H. E.
1962
Interchange of properties between the sea and atmosphere. in
Hill, M. N., ed., The Sea: Ideas and Observations on Progress in the Study of the Seas. London, Interscience Publishers.Google Scholar
Rubin, M. and Suess, H. E. U.S.
Geological Survey radiocarbon dates II. Science
121: 481–488.Google Scholar
Sonett, C. P. and Suess, H. E.
1984
Correlation of bristlecone pine ring widths with atmospheric 14C variations: A climate-Sun relation. Nature
307(5947): 141–143.Google Scholar
Stuiver, M. and Suess, H. E.
1966
On the relationship between radiocarbon dates and true sample ages. Radiocarbon
8: 534–540.Google Scholar
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