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References

  • Alpert P. 2000. The discovery, scope and puzzle of desiccation tolerance in plants. Plant Ecology 151: 517.
  • Arendt JD. 1997. Adaptive intrinsic growth rates: an integration across taxa. Quarterly Review of Biology 72: 149177.
  • Au DWT, Reunov AA, Wu RSS. 1998. Four lines of spermatid development and dimorphic spermatozoa in the sea urchin Anthocidaris crassispina (Echinodermata, Echinoida). Zoomorphology 118: 159168.
  • Basnayake J, Ludlow MM, Cooper M, Henzell RG. 1993. Genotypic variation of osmotic adjustment and desiccation tolerance in contrasting sorghum inbred lines. Field Crops Research 35: 5162.
  • Bernhard DL, Renzaglia KS. 1995. Spermiogenesis in the moss Aulacomnium palustre. The Bryologist 98: 5270.
  • Bewley JD. 1973. Polyribosomes conserved during desiccation of the moss Tortula ruralis are active. Plant Physiology 51: 285288.
  • Bewley JD. 1979. Physiological aspects of desiccation tolerance. Annual Review of Plant Physiology 30: 195238.
  • Bewley JD, Halmer P, Krochko JE, Winner WE. 1978. Metabolism of a drought-tolerant and a drought-sensitive moss: respiration, ATP synthesis and carbohydrate status. In: Crowe JH, Clegg JS, eds. Dry biological systems. New York, NY, USA: Academic Press, 185203.
  • Bhowmick S, Zhu L, McGinnis L, Lawitts J, Nath BD, Toner M, Biggers J. 2003. Desiccation tolerance of spermatozoa dried at ambient temperature: production of fetal mice. Biology of Reproduction 68: 17791786.
  • Bianchi G, Gamba A, Murelli C, Salamini F, Bartels D. 1991. Novel carbohydrate metabolism in the resurrection plant Craterostigma plantagineum. Plant Journal 1: 355359.
  • Bisang I, Ehrlen J, Hedenas L. 2004. Mate limited reproductive success in two dioicous mosses. Oikos 104: 291298.
  • Blackman SA, Obendorf RL, Leopold AC. 1992. Maturation proteins and sugars in desiccation tolerance of developing soybean seeds. Plant Physiology 100: 225230.
  • Bold HC, Alexopoulos CJ, Delevoryas T. 1987. Morphology of plants and fungi, 5th edn . New York, USA: Macmillan.
  • Brewbaker JL, Kwack BH. 1963. The essential role of calcium ion in pollen germination and pollen tube growth. American Journal of Botany 50: 859865.
  • Buckland-Nicks J. 1998. Prosobranch parasperm: sterile germ cells that promote paternity? Micron 29: 267280.
  • Buckland-Nicks J, Bryson I, Hart L, Partridge V. 1999. Sex and a snail’s sperm: on the transport, storage and fate of dimorphic sperm in Littorinidae. Invertebrate Reproduction & Development 36: 145152.
  • Chapin FSI, Autumn K, Pugnaire FI. 1993. Evolution of suites of traits in response to environmental stress. American Naturalist 142: S78S92.
  • Chippindale AK, Gibbs AG, Sheik M, Yee KJ, Djawdan M, Bradley TJ, Rose MR. 1998. Resource acquisition and the evolution of stress resistance in drosophila melanogaster. Evolution 52: 13421352.
  • Clarke LJ, Robinson SA. 2008. Cell wall bound ultraviolet screening compounds explain the high ultraviolet tolerance of the Antarctic moss, Ceratodon purpureus. New Phytologist 179: 776783.
  • Clayton-Greene KA, Green TGA, Staples B. 1977. Studies of Dawsonia superba. 1. Antherozoid dispersal. The Bryologist 80: 439444.
  • Convey P, Smith RIL. 1993. Investment in sexual reproduction by Antarctic mosses. Oikos 68: 293302.
  • Cove D, Bezanilla M, Harries P, Quatrano R. 2006. Mosses as model systems for the study of metabolism and development. Annual Review of Plant Biology 57: 497520.
  • Coxson DS, McIntyre DD, Vogel HJ. 1992. Pulse release of sugars and polyols from canopy bryophytes in tropical montane rainforest (Guadeloupe, French West Indies). Biotropica 24: 121133.
  • Cronberg N, Natcheva R, Hedlund K. 2006. Microarthropods mediate sperm transfer in mosses. Science 313: 1255.
  • Crowe JH, Crowe LM, Chapman D. 1984. Preservation of membranes in anhydrobiotic organisms-the role of trehalose. Science 223: 701703.
  • Crowe JH, Hoekstra FA, Crowe LM. 1992. Anhydrobiosis. Annual Review of Physiology 54: 579599.
  • Cuming AC, Cho SH, Kamisugi Y, Graham H, Quatrano RS. 2007. Microarray analysis of transcriptional responses to abscisic acid and osmotic, salt, and drought stress in the moss, Physcomitrella patens. New Phytologist 176: 275287.
  • Dilks TJK, Proctor MCF. 1979. Photosynthesis, respiration and water content in bryophytes. New Phytologist 82: 97114.
  • Equihua M, Usher MB. 1993. Impact of carpets of the invasive moss Campylopus introflexus on Calluna vulgaris regeneration. Journal of Ecology 81: 359365.
  • Frahm J-P. 1980. Synopsis of the genus Campylopus in North America north of Mexico. The Bryologist 83: 570588.
  • Franzen A. 1956. On spermiogenesis, morphology of the spermatozoon, and biology of fertilization among invertebrates. Zoologiska Bidrag Uppsala 31: 355482.
  • Garbary DJ, Renzaglia KS, Duckett JG. 1993. The phylogeny of land plants: a cladistics analysis based on male gametogenesis. Plant Systematics and Evolution 188: 237269.
  • Garg AK, Kim JK, Owens TG, Ranwala AP, Do Choi Y, Kochian LV, Wu RJ. 2002. Trehalose accumulation in rice plants confers high tolerance levels to different abiotic stresses. Proceedings of the National Academy of Sciences, USA 99: 1589815903.
  • Gerson U. 1969. Moss-arthropod associations. The Bryologist 72: 495500.
  • Giard A. 1894. L’anhydrobiose en ralentissement des phénomènes vitaux. Comptes Rendus des Séances de la Société de Biologie et de ses Filiales 46: 497.
  • Gibson RJH, Miller-Brown D. 1927. Fertilization of bryophyta Polytrichum commune (preliminary note). Annals of Botany 41: 190191.
  • Glazer I, Gaugler R, Segal D. 1991. Genetics of the nematode Heterorhabditis bacteriophora strain HP88 the diversity of beneficial traits. Journal of Nematology 23: 324333.
  • Gou XP, Yuan T, Wei XP, Russell SD. 2009. Gene expression in the dimorphic sperm cells of Plumbago zeylanica: transcript profiling, diversity, and relationship to cell type. Plant Journal 60: 3347.
  • Gradstein SR, Sipman HJM. 1978. Taxonomy and world distribution of Campylopus introflexus and C. pilifer (= C. polytrichoides): a new synthesis. Bryologist 81: 114121.
  • Grime JP. 1977. Evidence for the existence of three primary strategies in plants and its relevance to ecological and evolutionary theory. American Naturalist 111: 11691194.
  • Grout AJ. 1900. Antherozoids of mosses. The Bryologist 3: 4.
  • Hayakawa Y. 2007. Parasperm: Morphological and functional studies on non-fertile sperm. Ichthyological Research 54: 111130.
  • Hayakawa Y, Kobayashi M, Munehara H, Watanabe A, Onitake K. 2007. Spermatogenesis involving parasperm production in the marine cottoid fish, Hemilepidotus gilberti. Raffles Bulletin of Zoology 14: 2935.
  • Higginson DM, Pitnick S. 2011. Evolution of intra-ejaculate sperm interactions: do sperm coperate? Biological Reviews 86: 249270.
  • Hirano T, Hoshino Y. 2010. Sperm dimorphism in terms of nuclear shape and microtubule accumulation in Cyrtanthus mackenii. Sexual Plant Reproduction 23: 153162.
  • Hochachka PW, Somero GN. 2002. Biochemical adaptation: mechanism and process in physiological evolution, 3rd edn. Oxford, UK: Oxford University Press.
  • Hodgson AN. 1997. Paraspermatogenesis in gastropod molluscs. Invertebrate Reproduction & Development 31: 3138.
  • Hoekstra FA, Golovina EA, Buitink J. 2001. Mechanisms of plant desiccation tolerance. Trends in Plant Science 6: 431438.
  • Hoekstra FA, Vanroekel T. 1988. Desiccation tolerance of Papaver dubium pollen during its development in the anther- possible role of phospholipid-composition and sucrose content. Plant Physiology 88: 626632.
  • Hoffmann AA, Harshman LG. 1999. Desiccation and starvation resistance in Drosophila: patterns of variation at the species, population and intrapopulation levels. Heredity 83: 637643.
  • Hoffmann AA, Parsons PA. 1989. An integrated approach to environmental-stress tolerance and life-history variation-desiccation tolerance in Drosophila. Biological Journal of the Linnean Society 37: 117136.
  • Ingram J, Bartels D. 1996. The molecular basis of dehydration tolerance in plants. Annual Review of Plant Physiology and Plant Molecular Biology 47: 377403.
  • Jurenka R, Terblanche JS, Klok CJ, Chown SL, Krafsur ES. 2007. Cuticular lipid mass and desiccation rates in Glossina pallidipes: interpopulation variation. Physiological Entomology 32: 287293.
  • Kaiser K, Outlaw WH, Ziegler H. 1985. Sucrose content of receptive archegonia of the moss Bryum capillare Hedw. Naturwissenschaften 72: 378379.
  • Koster KL. 1991. Glass-formation and desiccation tolerance in seeds. Plant physiology 96: 302304.
  • Koster KL, Leopold AC. 1988. Sugars and desiccation tolerance in seeds. Plant Physiology 88: 829832.
  • Lee PE, Wilkes A. 1965. Polymorphic spermatozoa in the Hymenopterous wasp Dahlbominus. Science 147: 1445.
  • Levitan DR. 2000. Sperm velocity and longevity trade off each other and influence fertilization in the sea urchin Lytechinus variegatus. Proceedings of the Royal Society of London, Series B–Biological Sciences 267: 531534.
  • Lindo Z, Winchester NN. 2006. A comparison of microarthropod assemblages with emphasis on oribatid mites in canopy suspended soils and forest floors associated with ancient Western redcedar trees. Pedobiologia 50: 3141.
  • Longton RE, Greene SW. 1979. Experimental studies of growth and reproduction in the moss Pleurozium shreberi (Brid.) Mitt. Journal of Bryology 10: 321338.
  • Lord EM, Russell SD. 2002. The mechanisms of pollination and fertilization in plants. Annual Review of Cell and Developmental Biology 18: 81105.
  • Lovelock CE, Jackson AE, Melick DR, Seppelt RD. 1995. Reversible photoinhibition in Antarctic moss during freezing and thawing. Plant Physiology 109: 955961.
  • Lu JC, Chen F, Xu HR, Huang YF, Lu NQ. 2007. Comparison of three sperm-counting methods determination of sperm concentration in human semen and sperm suspensions. Labmedicine 38: 232236.
  • Lutzen J, Jespersen A, Takahashi T, Kai T. 2004. Morphology, structure of dimorphic sperm, and reproduction in the hermaphroditic commensal bivalve Pseudopythina tsurumaru (Galeommatoidea : Kellidae). Journal of Morphology 262: 407420.
  • Mahmoud AMA, Depoorter B, Piens N, Comhaire FH. 1997. The performance of 10 different methods for the estimation of sperm concentration. Fertility and Sterility 68: 340345.
  • McGinnis LK, Zhu L, Lawitts JA, Bhowmick S, Toner M, Biggers JD. 2005. Mouse sperm desiccated and stored in trehalose medium without freezing. Biology of Reproduction 73: 627633.
  • Meyer H, Santarius KA. 1998. Short-term thermal acclimation and heat tolerance of gametophytes of mosses. Oecologia 115: 18.
  • Minami A, Nagao M, Arakawa K, Fujikawa S, Takezawa D. 2003. Abscisic acid-induced freezing tolerance in the moss Physcomitrella patens is accompanied by increased expression of stress-related genes. Journal of Plant Physiology 160: 475483.
  • Morton BB, Forsythe AB. 1974. Robust tests for the equality of variances. Journal of the American Statistical Association 69: 364367.
  • Muggoch H, Walton J. 1942. On the dehiscence of the antheridium and the part played by surface tension in the dispersal of spermatocytes in Bryophyta. Proceedings of the Royal Society of London, Series B–Biological Sciences 130: 448461.
  • Nabe H, Funabiki R, Kashino Y, Koike H, Satoh K. 2007. Responses to desiccation stress in bryophytes and an important role of dithiothreitol-insensitive non-photochemical quenching against photoinhibition in dehydrated states. Plant and Cell Physiology 48: 15481557.
  • Oliver MJ, Bewley JD. 1984. Plant desiccation and protein synthesis: VI. Changes in protein synthesis elicited by desiccation of the moss Tortula ruralis are effected at the translational level. Plant Physiology 74: 923927.
  • Oliver MJ, Tuba Z, Mishler BD. 2000a. The evolution of desiccation tolerance in land plants. Plant Ecology 16: 85100.
  • Oliver MJ, Velten J, Mishler BD. 2005. Desiccation tolerance in bryophytes: a reflection of the primitive strategy for plant survival in dehydrating habitats? Integrative and Comparative Biology 45: 788799.
  • Oliver MJ, Velten J, Wood AJ. 2000b. Bryophytes as experimental models for the study of environmental stress tolerance: Tortula ruralis and desiccation-tolerance in mosses. Plant Ecology 151: 7384.
  • Oliver MJ, Wood AJ, O’Mahony P. 1997. How some plants recover from vegetative desiccation: a repair based strategy. Acta Physiologiae Plantarum 19: 419425.
  • Pammenter NW, Berjak P. 1999. A review of recalcitrant seed physiology in relation to desiccation-tolerance mechanisms. Seed Science Research 9: 1337.
  • Paolillo DJ Jr. 1975. The release of sperms from the antheridia of Polytrichum juniperinum Hedw. New Phytologist 74: 287293.
  • Paolillo DJ Jr. 1977. On the release of sperms in Atrichum. American Journal of Botany 64: 8185.
  • Paolillo DJ Jr. 1979. On the lipids of the sperm masses of three mosses. The Bryologist 82: 9396.
  • Paolillo DJ Jr. 1981. The swimming sperms of land plants. BioScience 31: 367373.
  • Pfeffer W. 1884. Untersuchungen aus dem botanischen. Institut in Tübingen 1: 363.
  • Potts M. 1994. Desiccation tolerance of prokaryotes. Microbiology and Molecular Biology Reviews 58: 755805.
  • Proctor MCF. 2000. Physiological ecology. In: Shaw AJ, Goffinet B, eds. Bryophyte biology. Cambridge, UK: Cambridge University Press, 225247.
  • Proctor M. 2001. Patterns of desiccation tolerance and recovery in bryophytes. Plant Growth Regulation 35: 147156.
  • Proctor MCF, Oliver MJ, Wood AJ, Alpert P, Stark LR, Cleavitt NL, Mishler BD. 2007. Desiccation-tolerance in bryophytes: a review. The Bryologist 110: 595621.
  • Proctor MCF, Pence VC. 2002. Vegetative tissues: bryophytes, vascular resurrection plants, and vegetative propagules. In: Black M, Pritchard HW, eds. Desiccation and survival in plants: drying without dying. Wallingford, UK: CABI Publishing, 207237.
  • Renzaglia KS, Johnson TH, Gates HD, Whittier DP. 2001. Architecture of the sperm cell of Psilotum. American Journal of Botany 88: 11511163.
  • Renzaglia KS, Rasch EM, Pike LM. 1995. Estimates of nuclear DNA content in bryophyte sperm cells-phylogenetic considerations. American Journal of Botany 82: 1825.
  • Richmond RH, Hunter CL. 1990. Reproduction and recruitment of corals – comparisons among the Caribbean, the tropical pacific, and the Red Sea. Marine Ecology-Progress Series 60: 185203.
  • Robinson SA, Wasley J, Popp M, Lovelock CE. 2000. Desiccation tolerance of three moss species from continental Antarctica. Australian Journal of Plant Physiology 27: 379388.
  • Rosenstiel TN, Eppley SM. 2009. Long-lived sperm in the geothermal bryophyte Pohlia nutans. Biology Letters 5: 857860.
  • Rowntree JK, Duckett JG, Mortimer CL, Ramsay MM, Pressel S. 2007. Formation of specialized propagules resistant to desiccation and cryopreservation in the threatened moss Ditrichum plumbicola (Ditrichales, Bryopsida). Annals of Botany 100: 483496.
  • Rouse GW, Jamieson BGM. 1987. An ultrastructural-study of the spermatozoa of the polychaetes Eurythoe complanata (Amphinomidae), Clymenella sp. and Micromaldane sp. (Maldanidae), with definition of sperm types in relation to reproductive-biology. Journal of Submicroscopic Cytology and Pathology 19: 573584.
  • Rütten D, Santarius KA. 1992. Relationship between frost tolerance and sugar concentration of various bryophytes in summer and winter. Oecologia 91: 260265.
  • Saito C, Nagata N, Sakai A, Mori K, Kuroiwa H, Kuroiwa T. 2002. Angiosperm species that produce sperm cell pairs or generative cells with polarized distribution of DNA-containing organelles. Sexual Plant Reproduction 15: 167178.
  • Schonbek MW, Bewley JD. 1981. Responses of the moss Tortula ruralis to desiccation treatments: I. Effects of minimum water content and rates of dehydration and rehydration. Canadian Journal of Botany 59: 26982706.
  • Seel WE, Hendry GAF, Lee JA. 1992. The combined effects of desiccation and irradiance on mosses from xeric and hydric habitats. Journal of Experimental Botany 43: 10231030.
  • Shaw AJ. 1986. A new approach to the experimental propagation of bryophytes. Taxon 35: 671675.
  • Shaw AJ, Beer SC. 1999. Life history variation in gametophyte populations of the moss Ceratodon purpureus (Ditrichaceae). American Journal of Botany 86: 512521.
  • Shaw AJ, Goffinet B. 2000. Bryophyte biology. Cambridge, UK: Cambridge University Press.
  • Silberglied RE, Shepherd JG, Dickinson JL. 1984. Eunuchs – the role of apyrene sperm in Lepidoptera. American Naturalist 123: 255265.
  • Smirnoff N. 1992. The carbohydrates of bryophytes in relation to desiccation tolerance. Journal of Bryology 10: 185191.
  • Smith R, Convey P. 2002. Enhanced sexual reproduction in bryophytes at high latitudes in the maritime Antarctic. Journal of Bryology 24: 107117.
  • Southworth D, Cresti M. 1997. Comparison of flagellated and nonflagellated sperm in plants. American Journal of Botany 84: 13011311.
  • Stark LR. 2002. Skipped reproductive cycles and extensive sporophyte abortion in the desert moss Tortula inermis correspond to unusual rainfall patterns. Canadian Journal of Botany 80: 533542.
  • Stark LR, Mishler BD, McLetchie DN. 2000. The cost of realized sexual reproduction: assessing patterns of reproductive allocation and sporophyte abortion in a desert moss. American Journal of Botany 87: 15991608.
  • Stark LR, Nichols L, McLetchie DN, Bonine ML. 2005. Do the sexes of the desert moss Syntrichia caninervis differ in desiccation tolerance? A leaf regeneration assay. International Journal of Plant Sciences 166: 2129.
  • Sun WQ, Irving TC, Leopold AC. 1994. The role of sugar, vitrification and membrane phase-transition in seed desiccation tolerance. Physiologia Plantarum 90: 621628.
  • Taylor LP, Hepler PK. 1997. Pollen germination and tube growth. Annual Review of Plant Physiology and Plant Molecular Biology 48: 461491.
  • Till-Bottraud I, Joly D, Lachaise D, Snook RR. 2005. Pollen and sperm heteromorphism: convergence across kingdoms? Journal of Evolutionary Biology 18: 118.
  • Turmel M, Otis C, Lemieux C. 2006. The chloroplast genome sequence of Chara vulgaris sheds new light into the closest green algal relatives of land plants. Molecular Biology and Evolution 23: 13241338.
  • Van der Velde M, During HJ, Van der Zande L, Bijlsma R. 2001. The reproductive biology of Polytrichum formosum: clonal structure and paternity revealed by microsatellites. Molecular Ecology 10: 24232434.
  • Van Look KJW, Dzyuba B, Cliffe A, Koldewey HJ, Holt WV. 2007. Dimorphic sperm and the unlikely route to fertilisation in the yellow seahorse. Journal of Experimental Biology 210: 432437.
  • Vanderpoorten A, Goffinet B. 2009. Introduction to bryophytes, 2nd edn . Cambridge, UK: Cambridge University Press.
  • Weterings K, Russell SD. 2004. Experimental analysis of the fertilization process. Plant Cell 16: S107S118.
  • Winston PW, Bates DH. 1960. Saturated solutions for the control of humidity in biological research. Ecology 41: 232237.
  • Womersley C, Ching C. 1989. Natural dehydration regimes as a prerequisite for the successful induction of anhydrobiosis in the nematode Rotylenchulus reniformis. Journal of Experimental Biology 143: 359372.
  • Wood AJ. 2007. The nature and distribution of vegetative desiccation-tolerance in hornworts, liverworts and mosses. The Bryologist 110: 163177.
  • Wood AJ, Oliver MJ. 2004. Molecular biology and genomics of the desiccation-tolerant moss Tortula ruralis. In: Wood AJ, Oliver MJ, Cove DJ, eds. New frontiers in bryology: physiology, molecular biology and functional genomics. Dordrecht, the Netherlands: Kluwer Academic Publishers, 7190.
  • Wyatt R. 1977. Spatial pattern and gamete dispersal distances in Atrichum angustatum, a dioicous moss. The Bryologist 80: 284291.
  • Wyatt R, Anderson LE. 1984. Breeding systems in bryophytes. In: Dyer AF, Duckett JG, eds. The experimental biology of bryophytes. London, UK: Academic Press, 3964.
  • Ziegler H, Kaiser K, Lipp J. 1988. Sucrose in the archegonium exudate of the moss Bryum capillare; Hedw. Naturwissenschaften 75: 203.