GENETIC ANALYSIS OF ANTHERIDIOGEN SENSITIVITY IN CERATOPTERIS RICHARDII

The pheromone antheridiogen promoted the production of males in gametophyte populations of the fern Ceratopteris richardii. Two homozygous strains of this species exhibited markedly different sensitivities to the pheromone, resulting in populations with either high or low frequencies of males. The two strains were characterized by dose responses to antheridiogen and by gametophyte population density studies to investigate the effect of antheridiogen produced within cultures. Analyses of Fl hybrids and an F2 generation indicated that differences in the antheridiogen responses of the two parental strains are associated with either one or two nuclear genes.     

Comparative study of the sympatric ferns Culcita macrocarpa and Woodwardia radicans: Sexual phenotype

The sexual phenotypes of 1152 gametophytes from four populations of Culcita macrocarpa and Woodwardia radicans were monitored over a 1-year period. Gametophytes were maintained under three experimental conditions: (1) isolated, (2) pairs from the same sporophyte, or (3) pairs from different sporophytes. The frequencies of the sexual phenotypes did not vary significantly among these three conditions, and although there were some quantitative differences between populations, the sexual-phenotype sequences observed were species-specific. Gametophytes of C. macrocarpa were first male and then hermaphrodite: this sequence, together with the absence of antheridiogens, favours intragametophytic selfing. Natural populations of C. macrocarpa are presumably androdioecious. Gametophytes of W. radicans were first female and then hermaphrodite: this sequence and antheridiogen activity favour intergametophytic and even xenogamous mating. Despite these laboratory findings, populations of W. radicans are probably trioecious (because of the effects of antheridiogen). Few sporophytes of W. radicans were obtained in the present study, and none of C. macrocarpa: this is attributable to limiting illumination or substrate.     

同形鳞毛蕨成精子囊素系统的初步研究

研究了同形鳞毛蕨成精子囊素对该种和水蕨孢子萌发和配子体发育的影响,结果表明：同形鳞毛蕨配子体能产生成精子囊素,该成精子囊素能抑制同种孢子的萌发,抑制作用随配子体成熟度的增加而增强;同形鳞毛蕨成精子囊素还可促进同种孢子发育为雄配子体;光照条件下,同形鳞毛蕨成精子囊素对水蕨孢子萌发和配子体发育影响不大,黑暗条件下,同形鳞毛蕨成精子囊素能显著的促使水蕨孢子提早萌发,但都不影响其孢子最终萌发率和配子体的性别分化,表明同形鳞毛蕨和水蕨的成精子囊素不属于同一系统。     

Antheridiogen,dark spore germination,and outcrossing mechanisms in Bommeria (Adiantaceae)

Isozymic analyses of the patterns of genetic variability in sporophyte populations have demonstrated that most fern species have outcrossing breeding systems. However, because fertilization takes place during the ephemeral, diminutive gametophyte generation, direct observation of breeding systems in nature has not been possible. Recent discoveries of soil-bound spore banks suggested that genetic diversity could be stored beneath the surface and subsequently released by appropriate chemical cues. Previous studies demonstrated that Bommeria sporophytes are the product of outcrossing, that their gametophytes carry high levels of genetic load, and that they produce and respond to antheridiogen. Research reported here demonstrated that Bommeria spores can survive long-term storage but will not germinate in the dark. Antheridiogen, however, will release spores from this light requirement and stimulate germination. Higher concentrations of antheridiogen result in higher germination rates. Gametophytes grown in the dark on antheridiogen-enriched agar form antheridia and release actively swimming sperms. Thus, spores housed beneath the soil surface could remain dormant until stimulated to germinate by antheridiogen secreted by surface-dwelling, archegoniate gametophytes. Sperm released from these subterranean gametophytes could fertilize eggs on the surface. Because spores housed in the soil are likely to be genetically different than those at the surface, heterozygous sporophytes would be more likely to result. Discovering that Bommeria species contain all of the prerequisites for this proposed outcrossing mechanism provides an explanation for the maintenance of genetic diversity in some fern populations.     

Reproductive and competitive interactions among gametophytes of the allotetraploid fern Dryopteris corleyi and its two diploid parents

Background and Aims

Several models predict that the establishment of polyploids within diploid populations is enhanced by non-random mating (i.e. selfing and assortative mating) of cytotypes and by a higher relative fitness of polyploids. This report assesses the role that antheridiogens (i.e. maleness-inducing pheromones) and intercytotype differences in growth rate have on polyploid performance.

Methods

Three buckler-fern species were studied: the allotetraploid Dryopteris corleyi and its diploid parents, D. aemula and D. oreades. In one experiment, gametophytes of these species were cultured under rich growth conditions to compare the timing of gametangia production. The substrata on which these gametophytes had grown were used as antheridiogen sources in a second experiment. The three species were combined as source and target of antheridiogen (i.e. nine species pairs). Timing of antheridia production and gametophyte size were determined after those antheridiogen treatments.

Key Results

Under rich growth conditions the allotetraploid produced archegonia earlier than those of diploid parents. Female gametophytes of the three species produced antheridiogens that inhibited growth and favoured maleness both within and among species. Gametophyte size was similar in the three species but antheridia formed earlier in the allotetraploid.

Conclusions

Unisexuality, promoted by non-specific antheridiogens, enhances random mating both within and among species. The resulting hybridization can favour the reproductive exclusion of the allopolyploid in sites where it is outnumbered by diploids. However, the earlier production of gametangia in the allotetraploid favours assortative mating and may thus counterbalance reproductive exclusion.Key words: Allopolyploidy, antheridiogen, assortative mating, Dryopteris aemula, Dryopteris corleyi, Dryopteris oreades, gametophytes, gender expression, minority cytotype exclusion     

Isolation of the Antheridiogen of Anemia phyllitidis

The antheridiogen (antheridium-inducing substance) of the fern species Anemia phyllitidis has been obtained in pure form based on the isolation procedure described below. Pure antheridiogen is active to a dilution of 10 μg/l in antheridium formation and 0.3 μg/l in dark-germination. Its molecular formula is C₁₉H₂₂O₅.     

Morphological functions of gibberellins in leptosporangiate fern gametophytes: insights into the evolution of form and gender expression

In addition to genetic load, the induction of maleness in leptosporangiate gametophytes by the pheromone antheridiogen may facilitate rates of outcrossing similar to those found in angiosperms. The antheridiogens that have been chemically identified are similar to gibberellins and probably evolved from this common plant hormone. The purposes of this study were to determine the functions of endogenous gibberellins in morphological development and gender expression in leptosporangiate fern gametophytes and to elucidate how antheridiogens may have evolved from gibberellin precursors. We grew gametophytes of Osmunda regalis and Athyrium filix‐femina on nutrient agar enriched with APOGEE, which blocks gibberellin synthesis. Osmunda regalis is a member of Osmundaceae, the only family in Osmundales, the sister group of all remaining extant leptosporangiate ferns. This family possesses a male‐first gender in isolation and lacks any known antheridiogen systems. In contrast, A. filix‐femina is a member of a derived family, Woodsiaceae, which possesses antheridiogen systems. Disruption of gibberellin synthesis retarded notch development and expression of both maleness and femaleness (i.e. gender status) in both species. On the basis of these results, we offer a simple model of gametophyte evolution driven by gender‐based fitness gain curves and the influence of exogenous gibberellins. © 2009 The Linnean Society of London, Botanical Journal of the Linnean Society, 2009, 159 , 599–615.     

Evidence for a gibberellin biosynthetic origin of ceratopteris antheridiogen

The species-specific chemical messenger, antheridiogen A_Ce, mediates the differentiation of male gametophytes in the fern Ceratopteris. In order to investigate the biochemical origin of antheridiogen, the effect of the inhibitors, 2′-isopropyl-4′-(trimethylammoniumchloride)-5′ -methylphenylpiperidine-1-carboxylate (AMO-1618), 2-chloroethyl trimethylammonium chloride (CCC), and α-cyclopropyl-α-(4-methoxyphenyl)-5-pyrimidine methyl alcohol (ancymidol) on gametophytic sex expression was determined in C. richardii. Both AMO-1618 and ancymidol blocked the production of male gametophytes in three genetically defined strains of C. richardii that exhibit different sensitivities to antheridiogen. Antheridiogen supplementation overcame inhibition by AMO-1618 and ancymidol, except in one strain (HaC18) that is insensitive to antheridiogen supplementation. These data suggest that the synthesis of Ceratopteris antheridiogen, a taxon that is insensitive to exogenously supplied gibberellins, occurs via a pathway that may include steps in common with gibberellin biosynthesis or involves similar reactions.     

On Dark-Germination and Antheridium Formation in Anemia phyllitidis

Schraudolf's finding is confirmed that gibberellic acid induces antheridia in Anemia phyllitidis and Lygodium japonicum. The activity spectra of gibberellic acid and the native antheridiogen of Anemia phyllitidis are similar: Both induce antheridia in the tested species of the family Schizaeaceae but are inactive towards the tested representatives of other fern families. However, the native antheridiogens of two schizaeaceous species are more species-specific in their action than is gibberellic acid. Anemia medium cancels the light requirement for spore germination as is the case with gibberellic acid. Chromatographic studies indicate that the dark-germination-inducing factor is identical with, or very similar to, the earlier demonstrated antheridiogen. The specificities of the active factors towards dark-germination in A. phyllitidis and L. japonicum are similar to those encountered with antheridium formation. Anemia medium induces dark-germination and induces antheridia on the dark-grown protonemata to a concentration ca. 30 times lower than it induces antheridia on light-grown prothalli. The studies indicate that this differential activity results from a differential competence of the prothalli to react to the active substance in light and darkness.     

The effects of light on sex determination in gametophytes of the fern <Emphasis Type="Italic">Ceratopteris richardii</Emphasis>

The sexuality of homosporous fern gametophytes is usually determined by antheridiogen, a pheromone that promotes maleness. In this work the effect of photomorphogenically active light on antheridiogen-induced male development was examined for gametophytes of Ceratopteris richardii. Although blue light did not affect sensitivity to Ceratopteris antheridiogen (A_Ce) in wild-type gametophytes, it was found that the gametophytes of the her1 mutant, which are insensitive to A_Ce, developed into males when grown under blue light in the presence of A_Ce. Thus, we conclude that another A_Ce-signal transduction pathway activated by blue light exists latently in the gametophytes of C. richardii. Red light, on the other hand, suppressed male development. Because simultaneous red and blue light-irradiation did not promote male development in the her1 gametophytes, the action of red light seems to dominate that of blue light. The results of experiments with a photomorphogenic mutant also suggested that phytochrome may be involved in the action of red light.     

On the physiology and chemistry of fern antheridiogens

Döpp has demonstrated an antheridium-inducing hormone (antheridiogen) in P.aquilinum. This antheridiogen (abbr. Apt.) is active in many, if not all, species of the family Polypodiaceae. Among responsive species, the minimally effective concentration varies widely. Apt was assayed againstOnoclea sensibilis because this species fails to form antheridia spontaneously under the prevailing conditions of culture and because none of the many species tested responds to a lower concentration A_Pt is inactive toward the investigated species of the fern families Osmundaceae, Cyatheaceae and Schizaeaceae. The two schizaeaceous speciesAnema phyllitidis andLygodium japonicum also elaborate antheridiogens (abbr. A_An and A_Ly). Both these antheridiogens are inactive in 0.sensibilis, the species used to assay for A_Pt. A_An, A_Ly, A_Pt and A_On (the antheridiogen of O.sensibilis) are distinct entities based both on the criteria of cross-testing and of Chromatographic separation. Cross-testing led to the conclusion that the antheridiogen ofCeratopteris thalictroides differ from A_Pt and A_An. Gibberellins have antheridiogenic properties in schizaeaceous species but, like A_An and A_Ly, they fail to hasten antheridium formation in the species used to assay for A_Pt. The native antheridiogens of schizaeaceous species are more species-selective in their action than is GA₃. A_An has recently been isolated. Its structure is similar to, if not identical with, that of gibberellins. A_An behaves like a weak gibberellin in several higher plant assay systems. The prothalli ofP. aquilinum andO. sensibilis become insensitive to Apt as they attain heart shape or shortly thereafter. Prothalli ofP. aquilinum do not begin to synthesize A_Pt and secrete it into the medium, until after they have become insensitive to it. It is in consequence of this that the most rapidly growing and developing individuals attain the archegonial phase without a prior antheridial phase. Various mechanisms and developmental characteristics are described, which strongly favor cross-fertilization inP. aquilinum without, however, eliminating an opportunity for self-fertilization. The cells of abortive antheridium initials, and of “green antheridia”, exhibit certain characteristics of green vegetative cells. These atypical structures appear to arise when early antheridial stages are overtaken by conditions unfavorable to antheridium differentiation. The observations suggest that A_Pt may be required beyond an initial inductive event. The investigations led to the conclusion that A_Pt functions by cancelling a light-dependent block to antheridium formation and suggest that in darkness this block decays without the intervention of A_Pt. InPolypodium crassifolium, the light-effect on antheridium formation is mediated by phytochrome. Other subject matters discussed include: The cellular location of antheridium initials; the relationship of antheridiogen to antheridiogen structure; the existence of a switching mechanism in the sexual development ofO. sensibilis; the retrieval of genetic information in the induction and differentiation of antheridia; the tempero-spatial pattern of competence to antheridiogen in schizaeaceous species and the inducibility of a physiological state antagonistic to antheridium formation in A.phyllitidis.     

Antheridiogen production and response in Polypodiaceae species

Antheridiogen chemicals secreted by living fern gametophytes have been shown to influence production of male gametangia and thus mating systems in a large number of terrestrial fern species. Antheridiogens have not previously been thought to be prevalent in the Polypodiaceae, a large family composed mostly of tropical epiphytes. This study presents bioassay methods more sensitive than previously used to detect antheridiogen and demonstrates that antheridiogens are also operative in the Polypodiaceae and in epiphytic species. Seven species in six genera (Campyloneurum angustifolium, C. phyllitidis, Lepisorus thunbergianus, Microgramma heterophylla, Phlebodium aureum, Phymatosorus scolopendria, and Polypodium pellucidum) were tested for the presence of an antheridiogen system. All species tested except P. aureum were induced to produce antheridia precociously by their own antheridiogen and by that of Pteridium aquilinum (APt). Phlebodium aureum responded to APt and promoted antheridium formation in Onoclea sensibilis but did not respond to its own antheridiogen. Spores of all species except P. aureum were induced to germinate in darkness by antheridiogen of the same species and by APt and to form antheridia in the dark, further enhancing the possibility of intergametophytic mating.     

TREE SEEDLING EMERGENCE ON INTERACTIVE TEMPERATURE AND MOISTURE GRADIENTS AND IN PATCHES OF OLD-FIELD VEGETATION

Seeds of tree species commonly invading old-fields (Fraxinus americana, Gleditsia triacanthos, Morus rubra, Platanus occidentalis, and Prunus serotina) were germinated at eight temperatures from 5 C to 40 C, with six moisture levels (2% to 18% gravimetric moisture content) at each temperature. For most species, total seedling emergence and emergence rate exhibited approximate bivariate Gaussian response surfaces. Emergence of all species, except Gleditsia, was much more sensitive to differences in temperature than to differences in moisture. Species differed considerably in their response breadths across the interactive gradients, with moisture response bearing little relationship to temperature response. Seeds of Acer saccharum, Crataegus mollis, Fraxinus americana, Gleditsia triacanthos, Morus rubra, and Prunus serotina were sown into old-field vegetation patches dominated by eight different plant species, across three different soils. Acer and Morus emergence exhibited no significant differences among vegetation patches. Emergence of other tree species differed among patch types, but identity of the vegetation (often early successional) most conducive to emergence typically varied from year to year. Emergence of most species responded more strongly to vegetation than to soil series. High Fraxinus and Prunus emergence was associated with dampened temperature ranges, while high Crataegus emergence was associated with low amounts of plant litter. Despite great variability, vegetation differences can predict tree seedling emergence better than do year-to-year or soil differences. Extrapolations from the laboratory experiments predicted approximate levels of overall seedling emergence in the field, but prevailing temperatures and moisture differences among plant neighborhoods alone were not sufficient to explain observed differences in seedling emergence among these patches.     

Gametophyte development of Woodwardia radicans (L.) Sm.: Effect of population density and antheridiogen on sex expression

Abstract

Gametophyte development of Woorwardia radicans was studied in controlled culture conditions, as well as the effect of population density and antheridiogen on sex expression. The pattern of gametophyte development is not affected by temperature, while sex expression of gametophytes is affected by sowing density, by the presence in the culture medium of «antheridiogen» and by the nutritional conditions of gametophytes. The probable effects of antheridiogen and population density on the observed developmental pattern are considered.     

Discordance between morphological and molecular species boundaries among Caribbean species of the reef sponge Callyspongia

Sponges are among the most species‐rich and ecologically important taxa on coral reefs, yet documenting their diversity is difficult due to the simplicity and plasticity of their morphological characters. Genetic attempts to identify species are hampered by the slow rate of mitochondrial sequence evolution characteristic of sponges and some other basal metazoans. Here we determine species boundaries of the Caribbean coral reef sponge genus Callyspongia using a multilocus, model‐based approach. Based on sequence data from one mitochondrial (COI), one ribosomal (28S), and two single‐copy nuclear protein‐coding genes, we found evolutionarily distinct lineages were not concordant with current species designations in Callyspongia. While C. fallax, C. tenerrima, and C. plicifera were reciprocally monophyletic, four taxa with different morphologies (C. armigera, C. longissima, C. eschrichtii, and C. vaginalis) formed a monophyletic group and genetic distances among these taxa overlapped distances within them. A model‐based method of species delimitation supported collapsing these four into a single evolutionary lineage. Variation in spicule size among these four taxa was partitioned geographically, not by current species designations, indicating that in Callyspongia, these key taxonomic characters are poor indicators of genetic differentiation. Taken together, our results suggest a complex relationship between morphology and species boundaries in sponges.     

Factors Influencing Spore Germination and Early Gametophyte Development in Anemia mexicana and Anemia phyllitidis

Spores of Anemia mexicana Klotzsch and Anemia phyllitidis (L.) Swartz were tested comparatively to investigate the effects of various treatments on spore germination and early gametophyte development in light and darkness. The optimum pH for induction of spore germination is approximately 6. Both species have a minimum 8 hour light insensitive preinduction phase for spore germination. An additional 8 to 12 hours of light are needed to induce 50% germination in A. phyllitidis while at least 24 hours of light are needed for A. mexicana spores. A. phyllitidis has greater sensitivity to the four gibberellic acids tested (GA₃, GA₄, GA₇, and GA₁₃) than A. mexicana for induction of spore germination in darkness. In both species the greatest response was observed with GA₄ and GA₇. GA₁₃ was clearly the least effective. Gametophytes of each species are 100 times more sensitive to their own antheridiogen than to the antheridiogen of the other species. AMO-1618 (1 millimolar), fenarimol (1 mm), and ancymidol (0.1 mm) had essentially no effect on light-induced germination. The latter two did, however, inhibit gametophyte development.     

Biotic constraints on the invasion of diffuse knapweed (Centaurea diffusa) in North American grasslands

Knapweeds (Centaurea spp.) are among the most invasive of non-indigenous plant species that have colonized western North America over the last century. We conducted a 4-year experiment in a reconstructed grassland to test hypotheses related to the ability of grasslands to resist the invasion of diffuse knapweed (C. diffusa). We experimentally invaded C. diffusa and three native species into areas where we manipulated soil nitrogen (N) and phosphorus (P) availability and removed extant grasses to reduce competition. We evaluated the growth response of these species to these resources and competitive manipulations. Of the native species that were experimentally added, only one species, Ratibida pinnata (prairie coneflower), established in any numbers. Establishment values in intact vegetation were low for both species, but establishment by C. diffusa (0.02%) clearly outperformed that of R. pinnata (0.001%). Under reduced grass competition, establishment was enhanced, but the values for C. diffusa (0.68%) were not statistically different from those of R. pinnata (0.57%). Neither species performed better under higher soil nutrients in the presence of competing grasses. In plots with both species, biomass of the two planted species was positively correlated, but the biomass of both species was negatively correlated with non-added weedy species. Subsequent harvests of C. diffusa indicated that establishment was enhanced in treatments with higher soil nutrients but that the biomass of these plants could only be enhanced when plant competition was also reduced. These results indicate that C. diffusa can establish in intact grasslands at rates higher than natives, but opportunism rather than competitive ability best describes the invasiveness of C. diffusa. Thus, the mechanisms contributing to the establishment of this knapweed species are different from factors identified as contributing to the dominance of this invader.     

Gibberellins and antheridiogen on sex in Blechnum spicant L.

The role of gibberellins (GAs) in determining sex in the gametophyte of the fern Blechnum spicant L. was studied through (a) the effect of exogenous GA₄₊₇ and GA₃ (b) quantitation of the endogenous levels of GA_1, GA₃, GA₄, GA₇, GA₉, and GA₂₀ in male and female gametophytes, and (c) the effect of flurprimidol, a GAs biosynthesis inhibitor of the steps of oxidation of ent-kaureno to ent-kaurenoic acid. Our results show that GA₄₊₇ had a slight effect of inducing either male or female sexual organs, antheridia and archegonia, respectively. The endogenous GAs content was not significantly different between sexes, but the GA₄, GA₇, and GA₂₀ levels were raised above those of the other GAs in both sexes. Neither antheridiogen biosynthesis nor antheridia formation was inhibited by flurprimidol. Gametophytes regenerated from homogenized mature gametophytes (HG) show a different physiological behavior than spore-derived gametophytes. In the first case, gametophytes are males and synthesize antheridiogen before they attain maturity, in contrast to what occurs in spore-derived gametophytes which are females and synthesize antheridiogen when mature.     

Limiting similarity and the intensity of competitive effects on the mottled sculpin,Cottus bairdi,in experimental stream communities

The identification of potential competitors has been driven by the concept of limiting similarity. Lacking are explicit tests of interaction strength among morphologically similar and dissimilar species. I used the mottled sculpin, Cottus bairdi, as a focal species in an artificial stream experiment designed to compare the effect of intraspecific competition to interspecific cometition from two very different species: a congener, the Kanawha sculpin (C. carolinae ssp.), and an unrelated species, the fantail darter (Etheostoma flabellare). The differences in morphology between these two species generate specific predictions under limiting similarity regarding the likelihood of competition and its relative strength: the congener should be a more important potential competitor. Increased fish density had a strong effect on the multivariate response of survival and growth, and on the relative condition of C. bairdi, indicating competition. The effect of additional C. bairdi or Kanawha sculpins were roughly equal, but the effect of E. flabellare was significantly greater. The most important potential impact on C. bairdi came from interspecific competition by a species that is smaller and very different in morphology, contrary to predictions based on limiting similarity.     

Temperature response of parameters of a biochemically based model of photosynthesis. II. A review of experimental data

The temperature dependence of C₃ photosynthesis is known to vary with growth environment and with species. In an attempt to quantify this variability, a commonly used biochemically based photosynthesis model was parameterized from 19 gas exchange studies on tree and crop species. The parameter values obtained described the shape and amplitude of the temperature responses of the maximum rate of Rubisco activity (V_cmax) and the potential rate of electron transport (J_max). Original data sets were used for this review, as it is shown that derived values of V_cmax and its temperature response depend strongly on assumptions made in derivation. Values of J_max and V_cmax at 25 °C varied considerably among species but were strongly correlated, with an average J_max : V_cmax ratio of 1·67. Two species grown in cold climates, however, had lower ratios. In all studies, the J_max : V_cmax ratio declined strongly with measurement temperature. The relative temperature responses of J_max and V_cmax were relatively constant among tree species. Activation energies averaged 50 kJ mol^?1 for J_max and 65 kJ mol^?1 for V_cmax, and for most species temperature optima averaged 33 °C for J_max and 40 °C for V_cmax. However, the cold climate tree species had low temperature optima for both J_max(19 °C) and V_cmax (29 °C), suggesting acclimation of both processes to growth temperature. Crop species had somewhat different temperature responses, with higher activation energies for both J_max and V_cmax, implying narrower peaks in the temperature response for these species. The results thus suggest that both growth environment and plant type can influence the photosynthetic response to temperature. Based on these results, several suggestions are made to improve modelling of temperature responses.