Effects of meteorological factors on airborne bracken (<Emphasis Type="Italic">Pteridium aquilinum</Emphasis> (L.) Kuhn.) spores in Salamanca (middle-west Spain)

Temporal variation of airborne bracken (Pteridium aquilinum) spores concentration in Salamanca during 10 years from January 1998 to December 2007 were studied by using a Burkard spore trap, and correlations with some meteorological parameters were analyzed. The number of spores that were counted was very low, due probably to the distance between the spore trap and the main bracken populations which were located 70 km away from the city. Long-range transport caused by winds coming from the Second Quadrant (IIQ) is supposed to be responsible for the appearance of bracken spores in Salamanca. The season period from August to late October shows the most intense spore dispersal process, with an early morning distribution along the day. Years 2002 and 2007 with a low quantity of airborne spores were also characterized by low mean temperatures, always under 18°C from May to June. Daily spore concentration shows positive correlation with temperature and sun hours but negative with IVQ winds and with relative humidity. No correlation between daily spore concentration and rainfall was found. Also, a positive correlation between number of spores and IIQ winds was observed during the main spore season (MSS) and prepeak period (PRE).     

Fern-spore-feeder interaction in temperate forests in Japan: Sporing phenology and spore-feeding insect community

Angiosperms are widely appreciated to have flowering schedules, but far less attention has been paid to the timing of spore production by ferns. Although a range of abiotic factors are likely responsible for the timing of fern sporing, spore predation by specialist spore-feeding insects may also exert selective forces on timing. As a step toward understanding ecological factors that affect the evolution of fern sporing phenology, we tracked annual sporing patterns and examined associations with spore-feeding insects in 38 ferns species in two Japanese temperate forests. Most sporing occurred during June through August, the period of highest temperature and precipitation at the study sites, but some species produced spores during a limited period in spring or very late autumn. Over 70% of all species examined were attacked by spore-feeders, which consisted of seven polyphagous and five oligophagous species. Spore feeders occurred predominantly during June through September, and stathmopodid moth larvae consumed up to 70% of the mature sporangia. Thus, although the warm and humid conditions in the summer is likely favored for prothallial growth and fertilization, spring or late-autumn sporing in some species may have evolved as an adaptation to escape spore predation by spore feeders.     

OBSERVATIONS ON THE CHROMATINIC BODIES OF Streptomyces coelicolor

Colonies of Streptomyces coelicolor growing on cellophane and impression preparations from sporing colonies were stained for chromatin by the methods of Feulgen, DeLamater (1951), and Piéchaud (1954). The chromatinic bodies of the substrate hyphae have a great variety of configurations. During the development of the spores, elongated chromatinic structures in the young aerial hyphae separate into a number of subunits and a single round chromatinic body is included in each spore.     

THE PARASPORAL BODY OF BACILLUS LATEROSPORUS LAUBACH

On sporulation the slender vegetative rods swell and form larger spindle-shaped cells in which the spores are formed. When the spores mature they lie in a lateral position cradled in canoe-shaped parasporal bodies which are highly basophilic and can be differentiated from the surrounding vegetative cell cytoplasm with dilute basic dyes. On completion of sporulation the vegetative cell protoplasm and the cell wall lyse, leaving the spore cradled in its parasporal body. This attachment continues indefinitely on the usual culture medium and even persists after the spores have germinated. In thin sections of sporing cells the bodies are differentiated from the cell protoplasm by differences in structure. Whereas the protoplasm has a granular appearance, in both longitudinal and cross-sections the parasporal body comprises electron-dense lamellae running parallel with the membranes of the spore coat and less electron-dense material in the interstices of the lamellae. The inner surface of the body is contiguous with that of the spore coat as if it were part of the spore, rather than a separate body attached to the spore. The staining reactions of the parasporal body are not consistent with those of any substance described in bacteria. With Giemsa the bodies stain like chromatin, but the Feulgen reaction indicates that they do not contain the requisite nucleic acid. With an aqueous solution of toluidine blue they stain metachromatically, but with an acidified solution the results are variable. Neisser's stain for polyphosphate is negative. The basophilic substance is removed from the body with some organic solvents. This basophilic substance has not been specifically identified with any material seen in ultrathin sections, but it is suggested that it might be the less electron-dense material in the interstices of the lamellar structure. In contrast to the spore coat of B. laterosporus, those of its two relatives B. brevis and B. circulans take up basic stain like the parasporal body. Thin spore sections of these species have shown that the walls are thicker than those surrounding the spores of B. laterosporus, and it is suggested that the outer stainable layer of brevis and circulans spores is an accessory coat which in laterosporus may have been deformed to give a parasporal body.     

肾蕨配子体发育的研究

利用光学显微镜观察肾蕨(Nephrolepis auriculata)孢子的萌发及配子体发育过程。结果表明:成熟的孢子棕黄色,不透明,极面观圆球形,赤道面观豆形,单裂缝,表面光滑。孢子萌发类型为书带蕨型,播种后15 d左右萌发,形成5-12个细胞长的丝状体。原叶体发育为三叉蕨型。30 d左右发育为片状体,45 d左右形成幼原叶体,幼原叶体不对称,成熟原叶体心脏形对称。原叶体边缘及背腹面都具毛状体,毛状体由单细胞构成。60 d左右精子器开始出现,精子器近圆球形,由3个细胞构成。70 d左右颈卵器出现,成熟颈卵器颈部由4列细胞构成,3-5层细胞高。原叶体受精后1个月内可看到幼胚生成。     

Light dependent spore germination in Woodwardia radicans (L.) Sm

Abstract

The spores of Woodwardia radicans can germinate indifferently either in water or in culture media containing mineral salts at temperatures (15-24°C) falling within a range believed optimal for many other ferns (15-30 C).

The spores are photosensitive, will not germinate in the dark and the addition of gibberellic acid is ineffective in substituting a light requirement. Spore germination was induced by white and red light and phytochrome seems to be implicated in the control of germination since far-red light (and not the blue irradiation) can reverse the stimulating effect of the red light.

Spore morphology and spore germination pattern was studied using light and scanning electron microscopes.

It was concluded that the progressive disappearance of W. radicans from the Italian localities is not due to difficulties in spore germination but is related to problems that arise during the subsequent stages.     

Resting spore formation ofLeptocylindrus danicus (Bacillariophyceae) during short time-scale upwelling and its significance as predicted by a simple model

Resting spore formation during short time-scale upwelling and its significance were investigated in the field and by a simple theoretical model. Field observations of spore formation ofLeptocylindrus danicus were made off Izu Peninsula, Japan. A rapid increase in ratio of resting spore to vegetative cell numbers indicated thatL. danicus formed resting spores quickly as a response to nutrient depletion in the upwelled water, although only a very low number of resting spores was found in the upwelling. A simple model was constructed to investigate the possible advantages of spore formation during short time-scale upwelling. This showed that there is a critical time-scale for resting spore formation to be advantageous. The nutrient depletion period of the upwelling off Izu was shorter than the critical time-scale determined by the model. Rapid-sinking of resting spores may increase further the critical time-scale, unless spores return with upwelling water. For short time-scale upwelling, the vegetative cell may be better suited than the resting spore for enduring a short period of nutrient depletion. Contribution from Shimoda Marine Research Center, University of Tsukuba, No. 475.     

Temporal dynamics of airborne fungi in Havana (Cuba) during dry and rainy seasons: influence of meteorological parameters

The aim of this paper was to determine for first time the influence of the main meteorological parameters on the atmospheric fungal spore concentration in Havana (Cuba). This city is characterized by a subtropical climate with two different marked annual rainfall seasons during the year: a “dry season” and a “rainy season”. A nonviable volumetric methodology (Lanzoni VPPS-2000 sampler) was used to sample airborne spores. The total number of spores counted during the 2 years of study was 293,594, belonging to 30 different genera and five spore types. Relative humidity was the meteorological parameter most influencing the atmospheric concentration of the spores, mainly during the rainy season of the year. Winds coming from the SW direction also increased the spore concentration in the air. In terms of spore intradiurnal variation we found three different patterns: morning maximum values for Cladosporium, night peaks for Coprinus and Leptosphaeria, and uniform behavior throughout the whole day for Aspergillus/Penicillium."     

Analysis of the Loss in Heat and Acid Resistance during Germination of Spores of Bacillus Species

A major event in the nutrient germination of spores of Bacillus species is release of the spores'' large depot of dipicolinic acid (DPA). This event is preceded by both commitment, in which spores continue through germination even if germinants are removed, and loss of spore heat resistance. The latter event is puzzling, since spore heat resistance is due largely to core water content, which does not change until DPA is released during germination. We now find that for spores of two Bacillus species, the early loss in heat resistance during germination is most likely due to release of committed spores'' DPA at temperatures not lethal for dormant spores. Loss in spore acid resistance during germination also paralleled commitment and was also associated with the release of DPA from committed spores at acid concentrations not lethal for dormant spores. These observations plus previous findings that DPA release during germination is preceded by a significant release of spore core cations suggest that there is a significant change in spore inner membrane permeability at commitment. Presumably, this altered membrane cannot retain DPA during heat or acid treatments innocuous for dormant spores, resulting in DPA-less spores that are rapidly killed.     

Cytological Investigations on Porphyra umbilicalis(L.) Kutz. var. laciniata(Lightf.) J.Ag.

1. Vegetative mitosis of Porphyra umbilicalis var. laciniatais normal, the chromosome number as seen in late prophase beingfive. Special features of this mitosis are the appearance ofseveral stained chromatin segments in early pro-phase and theformation of a crescent-shaped group of chromosomes during metaphaseand anaphase. 2. Genuine monospores have not been seen in the material investigated. 3. Both spores and spermatia arise by repeated division of amother-cell and in identical ways. Evidence is presented toshow that the first division in the mother-cell forming sporesis longitudinal. There is no evidence of reduction divisionin this division, and the chromosome number in the mother-cellis five. 4. The first division in the germinating spore is mitotic andshows five chromosomes. 5. The Conchocelis-phase is haploid throughout and produces‘fertile cell rows’ and ‘plantlets’,but spore liberation has not been observed. It is suggestedthat the ‘plantlets’ may grow out directly intothe leafy phase or may give rise to spores according to prevailingenvironmental conditions. 6. No evidence of sexual reproduction has been obtained in thepresent work and the role of the spermatium in the life-cycleis not clear. It is suggested that further work may profitablybe concerned with investigating the nature of the spermatium.     

Effect of trehalose on the viability of sporangiospores of the mucorous fungus <Emphasis Type="Italic">Blakeslea trispora</Emphasis>

Sporangiospores of Blakeslea trispora are in a state of exogenous dormancy, and water is the key factor controlling their germination. A wide range of carbohydrates, ammonium salts, and yeast extract had a weak stimulating effect (less than 50%) on spore germination, whereas amino acids could significantly inhibit this process. Cultivation of B. trispora on sporogenous sucrose- and trehalose-containing media (S and T spores, respectively) resulted in significant changes in spore formation, as well as in the chemical composition of spores and their viability. In the presence of trehalose, the amount of spores increased twofold; spore viability during storage increased as well. All changes in the carbohydrate composition of the cytosol and in the composition of the spore membrane lipids indicated that the dormancy of T spores was deeper than that of S spores, which has a favorable effect on their viability.     

Isolation and characterization of Bacillus megaterium mutants containing decreased levels of spore protease.

A proteolytic activity present in spores of Bacillus megaterium has previously been implicated in the initiation of hydrolysis of the A, B, and C proteins which are degraded during spore germination. Four mutants of B. megaterium containing 20 to 30% of the normal level of spore proteolytic activity have been isolated. Partial purification of the protease from wild-type spores by a reviewed procedure resulted in the resolution of spore protease activity on the A, B, and C proteins into two peaks--a major one (protease II) and a minor one (protease I). The protease mutants tested lacked active protease II. All of the mutants exhibited a decreased rate of degradation of the A, B, and C proteins during spore germination at 30 degrees C, but degradation of the proteins did occur. Degradation of the A, B, and C proteins during germination of the mutant spores was decreased neither by blockade of ATP production nor by germination at 44 degrees C. Initiation of spore germination was normal in all four mutants, and all four mutants went through outgrowth, grew, and sporulated normally in rich medium. Similarly, outgrowth of spores of two of the four mutants was normal in minimal medium at 30 degrees C. In the two mutants studied, the kinetics of loss of spore heat resistance and spore UV light resistance during germination were identical to those of wild-type spores. This indicates that the A, B, and C proteins alone are not sufficient to account for the heat or UV light resistance of the dormant spore.     

Trichostomopsis aaronis (Lor.) Agnew & Townsend new to the U.S.S.R.

Abstract

Occurrence of Ptilidium pulcherrimum in transects and spore dispersal from a single colony have been studied in a coastal spruce forest in northern Sweden. The main substrate type was rotting wood with 75% of all occurrences. Annual spore production was 68,500 spores/m² forest, 640,000 spores/m² substrate and 44,000,000 spores/m² colony. Almost 50% of the spores were deposited within 2.5 m of the colony. Annual spore deposition between colonies was estimated to be between 24,000–39,000 and deposition on the main substrate, decaying logs, was about 340–600 spores/m² forest. P. pulcherrimum showed a clumped distribution pattern up to about a 15 m neighbourhood distance. This pattern could not be explained by a similar clumping of the substrate. Instead a limitation by distance in establishment due to a deficit of spores is assumed.     

Role of DNA repair in Bacillus subtilis spore resistance.

Wet-heat or hydrogen peroxide treatment of wild-type Bacillus subtilis spores did not result in induction of lacZ fusions to three DNA repair-related genes (dinR, recA, and uvrC) during spore outgrowth. However, these genes were induced during outgrowth of wild-type spores treated with dry heat or UV. Wet-heat, desiccation, dry-heat, or UV treatment of spores lacking major DNA-binding proteins (termed alpha-beta- spores) also resulted in induction of the three DNA repair genes during spore outgrowth. Hydrogen peroxide treatment of alpha-beta-spores did not result in induction of dinR- and rerA-lacZ but did cause induction of uvrC-lacZ during spore outgrowth. Spores of a recA mutant were approximately twofold more UV sensitive and approximately ninefold more sensitive to dry heat than were wild-type spores but were no more sensitive to wet heat and hydrogen peroxide. In contrast, alpha-beta- recA spores were significantly more sensitive than were alpha-beta- spores to all four treatments, as well as to desiccation. Surprisingly, RecA levels were quite low in dormant spores, but RecA was synthesized during spore outgrowth. Taken together, these data (i) are consistent with previous suggestions that some treatments (dry heat and UV with wild-type spores; desiccation, dry and wet heat, hydrogen peroxide, and UV with alpha-beta- spores) that kill spores do so in large part by causing DNA damage and (ii) indicate that repair of DNA damage during spore outgrowth is an important component of spore resistance to a number of treatments, as has been shown previously for UV.     

Ultrastructure of Minchinia Sp. Spores from Shipworms (Teredo Spp.) in the Western North Atlantic, with a Discussion of Taxonomy of the Haplosporidiidae

Electron microscopy of haplosporidan spores from Teredo navalis and T. furcifera revealed 4 distinct membrane-bound extensions, 1 apical extension opposite the opercular hinge, 1 terminal and 2 opposing lateral extensions. These extensions were not continuous with the spore wall, but contained microtubule-like structures and degrading epispore cytoplasm. No other known species in the family Haplosporidiidae is characterized by spores possessing four epispore extensions. There are currently two genera in this family, Minchinia and Haplosporidium. The genus Minchinia includes spores such as those of M. chitonis which bear two epispore cytoplasm extensions. Spores of the genus Haplosporidium have been characterized by spore wall derived filaments. A 3rd group of haplosporidan species with spores ornamented by wrappings have traditionally also been assigned to the genus Haplosporidium. Based on the presence of epispore cytoplasm extensions rather than spore wall filaments, the haplosporidan of Teredo spp. can be placed in the genus Minchinia.     

Bracken (Pteridium aquilinum)-induced DNA adducts in mouse tissues are different from the adduct induced by the activated form of the Bracken carcinogen ptaquiloside

Following treatment with bracken fern (Pteridium aquilinum) extract and bracken spores a number of DNA adducts were detected by (32)P-postlabeling. Three of these adducts have been described previously (Povey et al., Br. J. Cancer (1996) 74, 1342-1348) and in this study, using a slightly different protocol, four new adducts, with higher chromatographic mobility, were detected at levels ranging from 50 to 230% of those previously described. When DNA was treated in vitro with activated ptaquiloside (APT) and analysed by butanol extraction or nuclease P1 treatment, only one adduct was detected by (32)P-postlabeling. This adduct was not present in the DNA from mice treated with bracken fern or spores, suggesting either that bracken contains genotoxins other than ptaquiloside or that the metabolism of ptaquiloside produces genotoxins not reflected by activated ptaquiloside. However, as the ATP-derived adduct has been detected previously in ileal DNA of bracken-fed calves, species-specific differences in the metabolism of bracken genotoxins may exist, thereby leading to differences in their biological outcomes.     

Screening trials of materials for suppressing spore production by Gloeosporium perennans on apple trees

In a screening trial of thirteen potential spore suppressants carried out in 1965, sporing cankers on Cox's Orange Pippin shoots, induced by inoculation with Gloeosporium perennans in November 1964, were treated at bud-burst with the test materials. The most effective spore suppressant was dichlo-fluanid; this, with the next five most effective materials and six additional materials, was used in a second trial in 1966, when the greatest reduction in spore production was obtained with tetrachloro-o-cresol. A general trend towards correspondence between spore output from cankers and infection on neighbouring fruits was shown, but this could be modified by a number of factors, including changes in spore viability caused by fungicide treatment.     

The effect of meteorological factors on the daily variation of airborne fungal spores in Granada (southern Spain)

A study was made of the link between climatic factors and the daily content of certain fungal spores in the atmosphere of the city of Granada in 1994. Sampling was carried out with a Burkard 7-day-recording spore trap. The spores analysed corresponded to the taxa Alternaria, Ustilago and Cladosporium, with two morphologically different spore types in the latter genus, cladosporioides and herbarum. These spores were selected both for their allergenic capacity and for the high level of their presence in the atmosphere, particularly during the spring and autumn. The spores of Cladosporium were the most abundant (93.82% of the total spores identified). The Spearman correlation coefficients between the spore concentrations studied and the meteorological parameters show different indices depending on the taxon being analysed. Alternaria and Cladosporium are significantly correlated with temperature and hours of sunlight, while Ustilago shows positive correlation indices with relative humidity and negative indices with wind speed. Received: 16 April 1998 / Revised: 27 September 1999 / Accepted: 27 October 1999     

Role of dipicolinic acid in resistance and stability of spores of Bacillus subtilis with or without DNA-protective alpha/beta-type small acid-soluble proteins

Dipicolinic acid (DPA) comprises approximately 10% of the dry weight of spores of Bacillus species. Although DPA has long been implicated in spore resistance to wet heat and spore stability, definitive evidence on the role of this abundant molecule in spore properties has generally been lacking. Bacillus subtilis strain FB122 (sleB spoVF) produced very stable spores that lacked DPA, and sporulation of this strain with DPA yielded spores with nearly normal DPA levels. DPA-replete and DPA-less FB122 spores had similar levels of the DNA protective alpha/beta-type small acid-soluble spore proteins (SASP), but the DPA-less spores lacked SASP-gamma. The DPA-less FB122 spores exhibited similar UV resistance to the DPA-replete spores but had lower resistance to wet heat, dry heat, hydrogen peroxide, and desiccation. Neither wet heat nor hydrogen peroxide killed the DPA-less spores by DNA damage, but desiccation did. The inability to synthesize both DPA and most alpha/beta-type SASP in strain PS3664 (sspA sspB sleB spoVF) resulted in spores that lost viability during sporulation, at least in part due to DNA damage. DPA-less PS3664 spores were more sensitive to wet heat than either DPA-less FB122 spores or DPA-replete PS3664 spores, and the latter also retained viability during sporulation. These and previous results indicate that, in addition to alpha/beta-type SASP, DPA also is extremely important in spore resistance and stability and, further, that DPA has some specific role(s) in protecting spore DNA from damage. Specific roles for DPA in protecting spore DNA against damage may well have been a major driving force for the spore's accumulation of the high levels of this small molecule.     

A respiratory nitrate reductase active exclusively in resting spores of the obligate aerobe Streptomyces coelicolor A3(2)

The Gram‐positive aerobe Streptomyces coelicolor undergoes a complex life cycle including growth as vegetative hyphae and the production of aerial hyphae and spores. Little is known about how spores retain viability in the presence of oxygen; however, nothing is known about this process during anaerobiosis. Here, we demonstrate that one of the three respiratory nitrate reductases, Nar‐1, synthesized by S. coelicolor is functional exclusively in spores. A tight coupling between nitrite production and the activity of the cytoplasmically oriented Nar‐1 enzyme was demonstrated. No exogenous electron donor was required to drive nitrate reduction, which indicates that spore storage compounds are used as electron donors. Oxygen reversibly inhibited nitrate reduction by spores but not by spore extracts, suggesting that nitrate transport might be the target of oxygen inhibition. Nar‐1 activity required no de novo protein synthesis indicating that Nar‐1 is synthesized during sporulation and remains in a latently active state throughout the lifetime of the spore. Remarkably, the rates of oxygen and of nitrate reduction by wetted spores were comparable. Together, these findings suggest that S. coelicolor spores have the potential to maintain a membrane potential using nitrate as an alternative electron acceptor.