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Logan, G. А., Hayes, J. M., Hieshima, G. В. and Summons R. Е. Terminal Proterozoic reorganization of biogeochemical cycles. Nature 376: 53 — 56; 1995.
Глава 5. Гигантские стрекозы
Rutten, М. G. Geologic data on atmospheric history. Palaeogeography, Palaeoclimatology, Palaeoecology 2:47 — 57; 1966.
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Производство метана и пожары
Watson, А., Lovelock, J. Е. and Margulis L. Methanogenesis, fires and the regulation of atmospheric oxygen. Biosystems 10: 293 — 298; 1978.
Фотодыхание
Beerling, D. J., Woodward, F. I., Lomas, IVf. R., Wills, М. А., Quick, W. Р. and Valdes P. J. The influence of Carboniferous palaeo-atmospheres on plant function: an experimental and modelling assessment. Philosophical Transactions of the Royal Society of London. В. 353: 131 — 140; 1998.
Beerling, D. J. and Berner, R. А. Impact of а Permo-Carboniferous high Oz event on the terrestrial carbon cycle. Proceedings of the National Academy of Sciences USA 97: 12428 — 12432; 2000.
Захоронение углерода и расчет содержания кислорода в атмосфере (см. также литературу к главе 2)
Berner, R. А. and Canfield D. E. А new model for atmospheric oxygen over Phanerozoic time. American Jоиrпаl of Science 289: 333 — 361; 1989.
Пузырьки газа в янтаре
Berner, R. А. and Landis, Р. Gas bubbles in fossil amber as possible indicators of the major gas composition of ancient air. Science 239: 1406 — 1409; 1988. Technical comments on Berner and Landis. Science 241: 717 — 724; 1988.
Изотопы углерода и расчет содержания кислорода в атмосфере
Berner, R. А., Petsch, S. T., Lake, J. A., Beerling, D. J., Рорр, В. N., Lane, R. S., Laws, E. А., Westley, М. В., Cassar, N., Woodward, F. I. and Quick, W. Р. Isotopic fractionation and atmospheric oxygen: implications for Phanerozoic 02 evolution. Science 287: 1630 — 1633; 2000.
Адаптация растений к пожарам и ископаемый древесный уголь
Robinson, J. М. Phanerozoic Oz variation, fire and terrestrial ecology. Palaeogeography, Palaeoclimatology, Раlaeоесоlogy 75: 223 — 240; 1989.
Jones, Т. P. and Chaloner, W. G. Fossil charcoal, its recognition and palaeoatmospheric significance. In: Кumр, L. R., Kasting, J. F. and Robinson, J. М. (Eds.), Atmospheric Oxygen Variation through Geologic Time. Global and Planetary Changes: 39 — 50; 1991.
К/Т-граница, пожары и цунами
Wolbach, W. S., Lewis, R. S., Anders, E., Orth, С. J. and Brooks, R. R. Global fire at the Cretaceous-Tertiary boundary. Nature 334: 665 — 669; 1988.
Kruger, М. А., Stankiewicz, В. А., Crelling, J. С, Montanari, А. and Bensley, D. F. Fossil charcoal in Cretaceous-Tertiary boundary strata: evidence for catastrophic firestorm and megawave. Geochimica et Geophysica Acta 58: 1393 — 1397; 1994.
Механика полета стрекозы в богатой кислородом атмосфере
Graham, J. В., Dudley, R., Aguilar, N. М. and Gans, С. Implications of the late Palaeozoic oxygen pulse for physiology and evolution. Nature 375: 117 — 120; 1995.
Dudley, R. Atmospheric oxygen, giant paleozoic insects and the evolution of aerial locomotor performance. Jоиrпаl of Ехpеriтеntal Biology 201: 1043 — 1050; 1998.
Harrison, J. F. and Lighton J. R. В. Oxygen-sensitive flight metabolism in the dragonfly Erythemis simplicicollis. Journal of Ехperimental Biology 201: 1739 — 1744; 1998.
«Полярный гигантизм» и кислород
Chapelle, G. and Peck, L. S. Polar gigantism dictated by oxygen availability. Nature 399: 114 — 115; 1999.
Глава 6. Жизнь Марии Кюри
Quinn, S. Marie Curie: А Life. Simon & Schuster, New York, 1995.
Облучение, «радиевые девушки» и Хиросима
Clark, С. Radium Girls: Women and Industrial Health Refоrт, 1910 — 1935. University of North Carolina Press, Chapel Hill, 1997.
Hersey, J. Hiroshima. Penguin Books, London, 1990.
Радиохимия
Von Sonntag, С. Chemical Basis of Radiatioп Biology. Taylor and Francis, London, 1987.
Свободные радикалы кислорода
Fridovich I. Oxygen is toxic. Bioscience 27: 462 — 466; 1977.
Gerschman, R., Gilbert, D. L., Nye, S. W., Dwyer, Р. and Fenn W. О. Oxygen poisoning and Х-irradiation: А mechanism in common. Science 119: 623 — 626; 1954.
Gilbert, D. L. Fifty years of radical ideas. Annals of the New York Асаdemу of Science 899: 1 — 14; 2000.
Сжиженный кислород
Wilson, D. Supercold. An Introduction to Low Temperature Technology. Faber and Faber, London, 1979.
Повреждение тканей свободными радикалами, выделяющимися при дыхании
Shigenaga, М. К., Gimeno, С. J. and Ames В. N. Urinary 8-hydroxy-2ʼ-deoxyguanosine as а biological marker of in vivo oxidative DNA damage. Proceedings of the National Acadету of Sciences USA 86: 9697 — 9701; 1989.
Радиационная устойчивость бактерий
Hoyle, F. The Intelligent Universe. Michael Joseph, London, 1983.
White, О., Eisen, J. А. and Heidelberg J. F., et al. Genоmеsequence of the radioresistant bacterium Deinococcus radiodurans R1. Science 286: 1571 — 1577; 1999.
Поверхность Марса
Оуаmа, V. I. and Berdahl В. J. The Viking gas exchange experiment results from Chryse and Utopia surface samples. Journal of Geophisiсаl Research 82: 4669 — 4676; 1977.
Глава 7. Эволюция фотосинтеза
Des Marais, D. When did photosynthesis emerge on Earth? Science 289: 1703 — 1705; 2000.
Xiong, J., Fischer, W. М., Inoue, К., Nakahara, М. and Bauer, С. Е. Molecular evidence for the early evolution of photosynthesis. Science 289: 1724 — 1730; 2000.