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References
Meeuse, B. J. D. & Raskin, I. Sex. Plant Reprod. 1, 3–15 (1988).
Skubatz, H., Williamson, P. S., Schneider, E. L. & Meeuse, B. J. D. J. Exp. Bot. 41, 1335–1339 (1990).
Schroeder, C. A. Principes 22, 26–29 (1978).
Skubatz, H., Tang, W. & Meeuse, B. J. D. J. Exp. Bot. 44, 489–492 (1993).
Nagy, K. A., Odell, D. K. & Seymour, R. S. Science 178, 1195–1197 (1972).
Knutson, R. M. Science 186, 746–747 (1974).
Schneider, E. L. & Buchanan, J. D. Am. J. Bot. 67, 182–193 (1980).
Seymour, R. S., Bartholomew, G. A. & Barnhart, M. C. Planta 157, 336–343 (1983).
Comi, C. Nuovo Gior. Bot. Ital. 46, 600–610 (1939).
Knutson, R. M. Am. Mid. Nat. 88, 251–254 (1972).
Heinrich, B. The Hot-Blooded Insects. Strategies and Mechanisms of Thermoregulation (Harvard Univ. Press, Cambridge, 1993).
Wieser, W. Bioenergetik (Thieme, Stuttgart, 1986).
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Seymour, R., Schultze-Motel, P. Thermoregulating lotus flowers. Nature 383, 305 (1996). https://doi.org/10.1038/383305a0
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DOI: https://doi.org/10.1038/383305a0
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