Heuser J E, Reese T S, Dennis M J, et al. Synaptic vesicle exocytosis captured by quick freezing and correlated with quantal transmitter release[J]. Journal of Cell Biology, 1979, 81(2): 275-300.
[2]
Dwyer J R, Uman M A, Rassoul H K, et al. Energetic radiation produced during rocket- triggered lightning[J]. Science, 2003, 299 (5607): 694-697.
[3]
Rakov V A, Uman M A. Lightning: Physics and effects[M]. Cambridge: Cambridge University Press, 2003.
[4]
Login G R, Dvorak A M. Methods of microwave fixation for microscopy[M]. Stuttgart: Gustav Fischer Verlag, 1994.
[5]
Schichnes D, Nemson J A, Ruzin S E. Microwave paraffin techniques for botanical tissues [M]//Giberson R T, Demaree R S. Microwave Techniques and Protocols. Totowa: Humana Press, 2001.
[6]
Villanueva- Amadoz U, Benedetti A, Méndez J, et al. Focused ion beam nano-sectioning and imaging: A new method in characterisation of palaeopalynological remains[J]. Grana, 2012, 51(1): 1-9.
[7]
Poinar H N, H?ss M, Bada J L, et al. Amino acid racemization and the preservation of ancient DNA[J]. Science 1996, 272(5263): 864- 866.
[8]
Poinar H N, Stankiewicz B A. Protein preservation and DNA retrieval from ancient tissues[J]. Proceedings of the National Academy of the Sciences of the United States of America, 1999, 96(15): 8426-8431.
[9]
Niklas K J. Morphological and chemical examination of Courvoisiella ctenomorpha gen. et sp., a siphonous alga from the upper Devonian, West Virginia, U.S.A.[J]. Review of Palaeobotany and Palynology, 1976, 21(3): 187-203.
[10]
Niklas K J. Paleophytochemistry: Implications concerning plant evolution[J]. Paleobiology, 1981, 7(1): 1-13.
[11]
Wang X, Yuan X, Zhou C, et al. Anatomy and plant affinity of Chuaria[J]. Chinese Science Bulletin, 2011, 56(12): 1256-1261.
[12]
Darrah W C. A remarkable fossil Selaginella with preserved female gametophytes[J]. Botanical Museum Leaflet Harvard University, 1938, 6 (6): 113-135.
[13]
Taylor T N, Millay M A. Structurally preserved fossil cell contents[J]. Transaction of American Microscope Society, 1977, 96(3): 390-393.
[14]
Niklas K J. Differential preservation of protoplasm in fossil angiosperm leaf tissues[J]. American Journal of Botany, 1982, 69(3): 325-334.
[15]
NiklasKJ.Organellepreservationandprotoplastpartitioningin angiosperm leaf tissues[J]. American Journal of Botany, 1983, 70(4): 543-548.
[16]
Niklas K J, Brown R M, Santos R, et al. Ultrastructure and cytochemistry of Miocene angiosperm leaf tissues[J]. Proceedings of the National Academy of the Sciences of the United States of America, 1978, 75(7): 3263-3267.
[17]
Niklas K J, Brown R M J, Santos R. Ultrastructural states of preservation in Clarkia angiosperm leaf tissues: Implications on modes of preservation[M]//Smiley C J. Late Cenozoic History of the Pacific Northwest. San Francisco: American Association for the Advancement of Science, Pacific Division, 1985.
[18]
Poinar H N, Melzer R R, Poinar G O. Ultrastructure of 30-40 million year old leaflets from Dominican amber (Hymenaea protera, Fabaceae: Angiospermae)[J]. Experimentia, 1996, 52(4): 387-390.
[19]
Schoenhut K, Vann D R, Lepage B A. Cytological and ultrastructural preservations in Eocene Metasequoia leaves from the Canadian High Arctic[J]. American Journal of Botany, 2004, 91(6): 816-824.
[20]
Ozerov I A, Zhinkina N A, Efimov A M, et al. Feulgen- positive staining of the cell nuclei in fossilized leaf and fruit tissues of the lower Eocene Myrtaceae[J]. Botanical Journal Linnean Society, 2006, 150(3): 315-321.
[21]
Zhilin S G, Yakovleva O V. On the preservation of anatomical and ultrathin structures of the leaf compressions of Eucommia palaeoulmoides (Eucommiaceae) from the Miocene in Kazakhstan[J]. Botanicheskii Zhurnal, 1994, 79(10): 1-8.
[22]
Wang X. Plant cytoplasm preserved by lightning[J]. Tissue & Cell, 2004, 36(5): 351-360.
[23]
Wang X. A chemical signal possibly related to physiology in fossil cells detected by energy dispersive X-ray microanalysis[J]. Tissue & Cell, 2006, 38(1): 43-51.
[24]
Wang X. High temperature as a mechanism for plant cytoplasm preservation in fossils[J]. Acta Geologica Sinica, 2007, 81(2): 183-193.
[25]
Wang X, Du K, Yi T, et al. Cytoplasmic remains in an Eocene fossil stem[J]. IAWA Journal, 2010, 31(3): 363-367.
[26]
Wang X, Liu W, Cui J, et al. Palaeontological evidence for membrane fusion between a unit membrane and a half- unit membrane[J]. Molecular Membrane Biology, 2007, 24(5/6): 496-506.
[27]
Wang X, Liu W, Du K. Palaeontological evidence of membrane relationship in step-by-step membrane fusion[J]. Molecular Membrane Biology, 2011, 28(2): 115-122.
[28]
Wang X, Liu W, Du K, et al. Ultrastructure of chloroplasts in fossil Nelumbo from the Eocene of Hainan Island, South China[J]. Plant Systematics and Evolution, 2014, 10: 2259-2264.
[29]
Wang X, Yu J, Fang X. An AFM observation on fossil cytoplasm[J]. Acta Geologica Sinica, 2008, 82(6): 1141-1145.
[30]
Darrah W C. Textbook of paleobotany[M]. New York: D. Appleton- Century Company, 1939.
[31]
Oehler D Z. Transmission electron microscopy of organic microfossils from the late Precambrian Bitter Springs Formation of Australia; Techniques and survey of preserved ultrastructure[J]. Journal of Paleontology, 1976, 50(1): 90-106.
[32]
Oehler D Z. Pyrenoid-like structures in late Precambrian algae from the Bitter Springs Formation of Australia[J]. Journal of Paleontology, 1977, 51(5): 885-901.
[33]
Bomfleur B, Mcloughlin S, Vajda V. Fossilized nuclei and chromosomes reveal 180 million years of genomic stasis in royal ferns[J]. Science, 2014, 343(6177): 1376-1377.
[34]
Niklas K J, Brown R M. Ultrastructural and paleobiochemical correlations among fossil tissue from the St. Maries River (Clarkia) area, Northern Idaho, USA[J]. American Journal of Botany, 1981, 68(3): 332-341.
[35]
Nishida H, Pig K B, Rigby J F. Swimming sperm in an extinct Gondwanan plant[J]. Nature, 2003, 422(6930): 396-397.
[36]
Nishida H, Pigg K B, Kudo K, et al. Zooidogamy in the late Permian genus Glossopteris[J]. Journal of Plant Research, 2004, 117(4): 323- 328.
Niklas K J, Brown R M. Some chemophysical factors attending fossilization[J]. Bioscience, 1981, 31(2): 148-149.
[39]
Bradley W H. Chloroplast in Spirogyra from the Green River Formation of Wyoming[J]. American Journal of Science, 1962, 260(6): 455-459.
[40]
Vikulin S V. The Eocene and early Oligocene floras of the Russian Plain and their relation to the palaeofloras of central Europe[J]. Acta Palaeobotanica, 1999, 2(Suppl 1): 429-445.
[41]
Koller B, Schmitt J M, Tischendorf G. Cellular fine structures and histochemical reactions in the tissue of a cypress twig preserved in Baltic amber[J]. Proceeding of Royal Society B, 2005, 272(1559): 121- 126.
[42]
Wang X, Cui J. The first observation on plant cell fossils in China[J]. Acta Geologica Sinica, 2007, 81(1): 16-22.
[43]
Golenberg E M, Giannasi D E, Clegg M T, et al. Chloroplast DNA sequence from a Miocene Magnolia species[J]. Nature, 1990, 344 (6267): 656-658.
[44]
Kim S, Soltis D E, Soltis P S, et al. DNA sequences from Miocene fossils: An ndhF sequence of Magnolia latahensis (Magnoliaceae) and an rbcL sequence of Persea pseudocarolinensis (Lauraceae) [J]. American Journal of Botany, 2004, 91(4): 615-620.
[45]
Niklas K J, Giannasi D E. The paleobiochemistry of fossil angiosperm floras. Part II. Diagenesis of organic compounds with particular reference to steroids[M]. Smiley C J. Late Cenozoic history of the Pacific Northwest. San Francisco: American Association for the Advancement of Science, Pacific Division, 1985.
[46]
Edwards D, Axe L. Anatomical evidence in the detection of the earliest wildfires[J]. Palaios, 2004, 19(2): 113-128.
[47]
Li N, Deng H X, Zhang W H, et al. The impact of high temperature on living plant cytoplasm[J]. Acta Palaeontologica Sinica, 2013, 52(4): 484-491.
[48]
Scott A C. Preservation by fire [M]//Briggs D E G, Crowther P R. Palaeobiology II. Malden: Blackwell Science, 2001.
[49]
Scott A C, Cripps J A, Collinson M E, et al. The taphonomy of charcoal following a recent heathland fire and some implications for the interpretation of fossil charcoal deposits[J]. Palaeogeography Palaeoclimatology Palaeoecology, 2000, 164(1-4): 1-31.
[50]
Millay M A, Eggert D A. Microgametophyte development in the Paleozoic seed fern family Callistophytaceae[J]. American Journal of Botany, 1974, 61(10): 1067-1075.
[51]
Wang X, Zhang Y, Du K, et al. Atomic force microscope observation on ultrastructures in plant cells[J]. Journal of Nanoscience and Nanotechnology, 2010, 10(10): 6624-6628.
