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Long-living lotus: germination and soil -irradiation of centuries-old fruits, and cultivation, growth, and phenotypic abnormalities of offspring¹

²Department of Organismic Biology, Ecology, Evolution, University of California, Los Angeles, California 90095 USA; ³Department of Earth and Space Sciences, University of California, Los Angeles California 90095 USA; ⁴Chemistry Department, Brookhaven National Laboratory, Upton, New York 11973 USA; ⁵Nanjing Institute of Geology and Palaeontology, Nanjing, Jiansu, China; ⁶Beijing Institute of Geology, Beijing, China; ⁷Center of Accelerator Mass Spectrometry, Lawrence Livermore National Laboratory, Livermore, California 94551 USA; ⁸Department of Geology, Liaoning Normal University, Dalian, Liaoning, China

Sacred lotus (Nelumbo nucifera) has been cultivated as a crop in Asia for thousands of years. An 1300-yr-old lotus fruit, recovered from an originally cultivated but now dry lakebed in northeastern China, is the oldest germinated and directly ¹⁴C-dated fruit known. In 1996, we traveled to the dry lake at Xipaozi Village, China, the source of the old viable fruits. We identified all of the landmarks recorded by botanist Ichiro Ohga some 80 yr ago when he first studied the deposit, but found that the fruits are now rare. We (1) cataloged a total of 60 lotus fruits; (2) germinated four fruits having physical ages of 200–500 yr by ¹⁴C dating; (3) measured the rapid germination of the old fruits and the initially fast growth and short dormancy of their seedlings; (4) recorded abnormal phenotypes in their leaves, stalks, roots, and rhizomes; (5) determined -radiation of 2.0 mGy/yr in the lotus-bearing beds; and (6) measured stratigraphic sequences of the lakebed strata. The total -irradiation of the old fruits of 0.1–3 Gy (gray, the unit of absorbed dosage defined as 1 joule/kg; 1 Gy = 100 rad), evidently resulting in certain of the abnormal phenotypes noted in their seedlings, represents the longest natural radiobiology experiment yet recorded. Most of the lotus abnormalities resemble those of chronically irradiated plants exposed to much higher irradiances. Though the chronic exposure of the old fruits to low-dose -radiation may be responsible in part for the notably weak growth and mutant phenotypes of the seedlings, it has not affected seed viability. All seeds presumably repair cellular damage before germination. Understanding of repair mechanisms in the old lotus seeds may provide insight to the aging process applicable also to other organisms.

Key Words: abnormalities • dormancy • radiation • growth • imbibition • lotus • seed longevity