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Start Over Descriptor "Selaginella" Journal annals of botany
18 results on '"Selaginella"'

1. Convergence of ecophysiological traits drives floristic composition of early lineage vascular plants in a tropical forest floor.

Author

Campany, Courtney E, Martin, Lindsay, and Watkins, James E

Subjects
*VASCULAR plants, *ECOPHYSIOLOGY, *TROPICAL forests, *BIODIVERSITY, *PHOTOSYNTHESIS
Abstract

Background and Aims Tropical understorey plant communities are highly diverse and characterized by variable resource availability, especially light. Plants in these competitive environments must carefully partition resources to ensure ecological and evolutionary success. One mechanism of effective resource partitioning is the optimization of functional traits to enhance competition in highly heterogeneous habitats. Here, we surveyed the ecophysiology of two early lineage vascular plant groups from a tropical forest understorey: Selaginella (a diverse lineage of lycophytes) and ferns. Methods In a lowland rain forest in Costa Rica, we measured a suite of functional traits from seven species of Selaginella and six fern species. We evaluated species microclimate and habitat; several photosynthetic parameters; carbon, nitrogen and phosphorus content; chlorophyll concentration; leaf mass per area (LMA); and stomatal size and density. We then compare these two plant lineages and search for relationships between key functional parameters that already exist on a global scale for angiosperms. Key Results Convergence of trait function filtered Selaginella species into different habitats, with species in heavily shaded environments having higher chlorophyll concentrations and lower light compensation points compared with open habitats. Alternatively, lower foliar nitrogen and higher stomatal densities were detected in species occupying these open habitats. Selaginella species had denser and smaller stomata, lower LMA and lower foliar nutrient content than ferns, revealing how these plant groups optimize ecophysiological function differently in tropical forest floors. Conclusions Our findings add key pieces of missing evidence to global explorations of trait patterns that define vascular plant form and function, which largely focus on seed plants. Broadly predictable functional trait relationships were detected across both Selaginella and ferns, similar to those of seed plants. However, evolutionary canalization of microphyll leaf development appears to have driven contrasting, yet successful, ecophysiological strategies for two coexisting lineages of extant homosporous vascular plants. [ABSTRACT FROM AUTHOR]

Published
2019
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2. The enigma of sex allocation in Selaginella.

Author

Petersen, Kurt B and Burd, Martin

Subjects
*SELAGINELLA, *PLANT reproduction, *ANGIOSPERMS, *FERTILIZATION (Biology), *FRUIT development
Abstract

* Background and Aims The division of resource investment between male and female functions is poorly known for land plants other than angiosperms. The ancient lycophyte genus Selaginella is similar in some ways to angiosperms (in heterospory and in having sex allocation occur in the sporophyte generation, for example) but lacks the post-fertilization maternal investments that angiosperms make via fruit and seed tissues. One would therefore expect Selaginella to have sex allocation values less female-biased than in flowering plants and closer to the theoretical prediction of equal investment in male and female functions. Nothing is currently known of sex allocation in the genus, so even the simplest predictions have not been tested. * Methods Volumetric measurements of microsporangial and megasporangial investment were made in 14 species of Selaginella from four continents. In five of these species the length of the main above-ground axis of each plant was measured to determine whether sex allocation is related to plant size. * Key Results Of the 14 species, 13 showed male-biased allocations, often extreme, in population means and among the great majority of individual plants. There was some indication from the five species with axis length measurements that relative male allocation might be related to the release height of spores, but this evidence is preliminary. * Conclusions Sex allocation in Selaginella provides a phylogenetic touchstone showing how the innovations of fruit and seed investment in the angiosperm life cycle lead to typically female-biased allocations in that lineage. Moreover, the male bias we found in Selaginella requires an evolutionary explanation. The bias was often greater than what would occur from the mere absence of seed and fruit investments, and thus poses a challenge to sex allocation theory. It is possible that differences between microspores and megaspores in their dispersal ecology create selective effects that favour male-biased sexual allocation. This hypothesis remains tentative. [ABSTRACT FROM AUTHOR]

Published
2018
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3. The enigma of sex allocation in Selaginella

Author

Martin Burd and Kurt B. Petersen

Subjects
Selaginellaceae, 0106 biological sciences, education.field_of_study, Reproduction, Lineage (evolution), fungi, Heterospory, Population, food and beverages, Sporophyte, Original Articles, Plant Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Microspore, Evolutionary biology, Selaginella, Biological dispersal, Germ Cells, Plant, education, Sex allocation, 010606 plant biology & botany
Abstract

Background and Aims The division of resource investment between male and female functions is poorly known for land plants other than angiosperms. The ancient lycophyte genus Selaginella is similar in some ways to angiosperms (in heterospory and in having sex allocation occur in the sporophyte generation, for example) but lacks the post-fertilization maternal investments that angiosperms make via fruit and seed tissues. One would therefore expect Selaginella to have sex allocation values less female-biased than in flowering plants and closer to the theoretical prediction of equal investment in male and female functions. Nothing is currently known of sex allocation in the genus, so even the simplest predictions have not been tested. Methods Volumetric measurements of microsporangial and megasporangial investment were made in 14 species of Selaginella from four continents. In five of these species the length of the main above-ground axis of each plant was measured to determine whether sex allocation is related to plant size. Key Results Of the 14 species, 13 showed male-biased allocations, often extreme, in population means and among the great majority of individual plants. There was some indication from the five species with axis length measurements that relative male allocation might be related to the release height of spores, but this evidence is preliminary. Conclusions Sex allocation in Selaginella provides a phylogenetic touchstone showing how the innovations of fruit and seed investment in the angiosperm life cycle lead to typically female-biased allocations in that lineage. Moreover, the male bias we found in Selaginella requires an evolutionary explanation. The bias was often greater than what would occur from the mere absence of seed and fruit investments, and thus poses a challenge to sex allocation theory. It is possible that differences between microspores and megaspores in their dispersal ecology create selective effects that favour male-biased sexual allocation. This hypothesis remains tentative.

Published
2017

4. Variation in Chromosome Numbers, CMA Bands and 45S rDNA Sites in Species of Selaginella (Pteridophyta).

Author

MARCON, ADRIANA BUARQUE, LEÃO BARROS, IVA CARNEIRO, and GUERRA, MARCELO

Subjects
PLANT chromosome numbers, PLOIDY, SELAGINELLA, PLANT species, SILVER nitrate, FLUORESCENCE in situ hybridization, RECOMBINANT DNA
Abstract

• Background and Aims Selaginella is the largest genus of heterosporous pteridophytes, but karyologically the genus is known only by the occurrence of a dysploid series of n = 7–12, and a low frequency of polyploids. Aiming to contribute to a better understanding of the structural chromosomal variability of this genus, different staining methods were applied in species with different chromosome numbers.• Methods The chromosome complements of seven species of Selaginella were analysed and, in four of them, the distribution of 45S rDNA sites was determined by fluorescent in situ hybridization. Additionally, CMA/DA/DAPI and silver nitrate staining were performed to investigate the correlation between the 45S rDNA sites, the heterochromatic bands and the number of active rDNA sites.• Key Results The chromosome numbers observed were 2n = 18, 20 and 24. The species with 2n = 20 exhibited chromosome complement sizes smaller and less variable than those with 2n = 18. The only species with 2n = 24, S. convoluta, had relatively large and asymmetrical chromosomes. The interphase nuclei in all species were of the chromocentric type. CMA/DA/DAPI staining showed only a weak chromosomal differentiation of heterochromatic bands. In S. willdenowii and S. convoluta eight and six CMA+ bands were observed, respectively, but no DAPI+ bands. The CMA+ bands corresponded in number, size and location to the rDNA sites. In general, the number of rDNA sites correlated with the maximum number of nucleoli per nucleus. Ten rDNA sites were found in S. plana (2n = 20), eight in S. willdenowii (2n = 18), six in S. convoluta (2n = 24) and two in S. producta (2n = 20).• Conclusions The remarkable variation in chromosome size and number and rDNA sites shows that dramatic karyological changes have occurred during the evolution of the genus at the diploid level. These data further suggest that the two putative basic numbers of the genus, x = 9 and x = 10, may have arisen two or more times independently. [ABSTRACT FROM AUTHOR]

Published
2005
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5. Importance of the Fixative for Reliable Ultrastructural Preservation of Poikilohydric Plant Tissues. Observations on Dry, Partially, and Fully Hydrated Tissues ofSelaginella lepidophylla.

Author

PLATT, K. A., OLIVER, M. J., and THOMSON, W. W.

Subjects
SELAGINELLA, PLANT cells & tissues, ELECTRON microscopy, CYTOPLASM, PLANT species
Abstract

Leaves of desiccated ‘resurrection plants’,Selaginella lepidophylla, were hydrated either through the roots of intact plants or as isolated organs. Air-dry tissue and samples at 1, 4, 8 and 24 h (both detached and intact) of hydration were prepared for electron microscopy using aldehyde fixatives of different osmotic strengths. Both dry and hydrated tissues were also prepared using freeze substitution. Significant differences in the ultrastructural preservation of these different samples were noted. There was a direct correlation between the osmolality of both the fixative and the tissue with the quality of ultrastructural preservation. When the osmolality of the fixative was slightly (or even considerably) higher than that of the tissue, optimal preservation was achieved. Freeze substitution, however, gave the most faithful preservation of all subcellular compartments, despite the frequent presence of small ice crystals. Additionally, hydration of detached leaves for more than 4 h resulted in swelling damage of the organelles and cytoplasm, regardless of the fixation protocol.Broadly interpreted, the results of this study indicate that an optimal preservation of plant cell and organelle ultrastructure can be achieved by the use of high osmolality fixatives or, preferably, freeze substitution. These results are also important in determining the method of hydration of poikilohydric samples for physiological studies and for interpretation of functional changes as related to the structural condition of the organelles.Copyright 1997 Annals of Botany Company [ABSTRACT FROM AUTHOR]

Published
1997
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6. Convergence of ecophysiological traits drives floristic composition of early lineage vascular plants in a tropical forest floor

Author

Lindsay M Martin, James E. Watkins, and Courtney E. Campany

Subjects
0106 biological sciences, Vascular plant, Costa Rica, Lineage (evolution), media_common.quotation_subject, Plant Science, Forests, 010603 evolutionary biology, 01 natural sciences, Competition (biology), Selaginella, Photosynthesis, media_common, biology, Ecology, fungi, food and beverages, Plant community, Microphyll, Understory, Original Articles, biology.organism_classification, Plant Leaves, Ferns, Fern, 010606 plant biology & botany
Abstract

Background and aims Tropical understorey plant communities are highly diverse and characterized by variable resource availability, especially light. Plants in these competitive environments must carefully partition resources to ensure ecological and evolutionary success. One mechanism of effective resource partitioning is the optimization of functional traits to enhance competition in highly heterogeneous habitats. Here, we surveyed the ecophysiology of two early lineage vascular plant groups from a tropical forest understorey: Selaginella (a diverse lineage of lycophytes) and ferns. Methods In a lowland rain forest in Costa Rica, we measured a suite of functional traits from seven species of Selaginella and six fern species. We evaluated species microclimate and habitat; several photosynthetic parameters; carbon, nitrogen and phosphorus content; chlorophyll concentration; leaf mass per area (LMA); and stomatal size and density. We then compare these two plant lineages and search for relationships between key functional parameters that already exist on a global scale for angiosperms. Key results Convergence of trait function filtered Selaginella species into different habitats, with species in heavily shaded environments having higher chlorophyll concentrations and lower light compensation points compared with open habitats. Alternatively, lower foliar nitrogen and higher stomatal densities were detected in species occupying these open habitats. Selaginella species had denser and smaller stomata, lower LMA and lower foliar nutrient content than ferns, revealing how these plant groups optimize ecophysiological function differently in tropical forest floors. Conclusions Our findings add key pieces of missing evidence to global explorations of trait patterns that define vascular plant form and function, which largely focus on seed plants. Broadly predictable functional trait relationships were detected across both Selaginella and ferns, similar to those of seed plants. However, evolutionary canalization of microphyll leaf development appears to have driven contrasting, yet successful, ecophysiological strategies for two coexisting lineages of extant homosporous vascular plants.

Published
2018

7. Variation in Chromosome Numbers, CMA Bands and 45S rDNA Sites in Species of Selaginella (Pteridophyta)

Author

Marcelo Guerra, Iva Carneiro Leão Barros, and Adriana Buarque Marcon

Subjects
Selaginellaceae, Chromomycins, Indoles, DNA, Plant, Nucleolus, Heterochromatin, Distamycins, Heterospory, Chromosome, Original Articles, Plant Science, Biology, biology.organism_classification, DNA, Ribosomal, Chromosomes, Plant, Staining, Evolution, Molecular, Species Specificity, Genus, Selaginella, Botany, Ploidy, Coloring Agents, Cell Nucleolus, Fluorescent Dyes
Abstract

• Background and Aims Selaginella is the largest genus of heterosporous pteridophytes, but karyologically the genus is known only by the occurrence of a dysploid series of n = 7–12, and a low frequency of polyploids. Aiming to contribute to a better understanding of the structural chromosomal variability of this genus, different staining methods were applied in species with different chromosome numbers. • Methods The chromosome complements of seven species of Selaginella were analysed and, in four of them, the distribution of 45S rDNA sites was determined by fluorescent in situ hybridization. Additionally, CMA/DA/DAPI and silver nitrate staining were performed to investigate the correlation between the 45S rDNA sites, the heterochromatic bands and the number of active rDNA sites. • Key Results The chromosome numbers observed were 2n = 18, 20 and 24. The species with 2n = 20 exhibited chromosome complement sizes smaller and less variable than those with 2n = 18. The only species with 2n = 24, S. convoluta, had relatively large and asymmetrical chromosomes. The interphase nuclei in all species were of the chromocentric type. CMA/DA/DAPI staining showed only a weak chromosomal differentiation of heterochromatic bands. In S. willdenowii and S. convoluta eight and six CMA+ bands were observed, respectively, but no DAPI+ bands. The CMA+ bands corresponded in number, size and location to the rDNA sites. In general, the number of rDNA sites correlated with the maximum number of nucleoli per nucleus. Ten rDNA sites were found in S. plana (2n = 20), eight in S. willdenowii (2n = 18), six in S. convoluta (2n = 24) and two in S. producta (2n = 20). • Conclusions The remarkable variation in chromosome size and number and rDNA sites shows that dramatic karyological changes have occurred during the evolution of the genus at the diploid level. These data further suggest that the two putative basic numbers of the genus, x = 9 and x = 10, may have arisen two or more times independently.

Published
2004

8. Nuclear DNA Amounts in Pteridophytes

Author

Michael D. Bennett and Ilia J. Leitch

Subjects
biology, Selaginella, Ophioglossum petiolatum, Botany, Biodiversity, food and beverages, Plant Science, biology.organism_classification, Genome, Genome size, Nuclear DNA, Pteridophyte
Abstract

DNA amounts (C-value and genome size) are much-used biodiversity characters. A workshop held at Kew in 1997 identified major gaps in our knowledge of plant DNA amounts, recommending targets for new work to fill them. Murray reviewed non-angiosperm plants noting that representation of pteridophyte species (approx. 0.42%) was poor, while locating C-value data for them was very difficult. The workshop confirmed the need to make data for other groups besides angiosperms accessible for reference purposes. This paper pools DNA C-values for 48 pteridophyte species from eight original sources into one reference source, and fulfils a key workshop recommendation for this group. Comparing these data shows that nuclear 1C-values in pteridophytes vary approx. 1000-fold, from 0.055 pg in Selaginella species to about 55 pg in Ophioglossum petiolatum. Genome size estimates for 25 pteridophytes vary approx. 200-fold from 0.055 to 10.7 pg, and the mean genome sizes in diploids and polyploids (5.15 and 4.59 pg, respectively) are not significantly different. Wider comparisons show that ranges of genome sizes in the major groups of land plants are very different. Those in bryophytes and pteridophytes are narrow compared with those in gymnosperms and angiosperms. The data indicate that the origin of land plants possibly involved a first major increase in genome size in the evolution of vascular plants, while a second such increase occurred later in gymnosperms. C-values for pteridophytes remain very few, but conversely opportunities for new work on them are many.

Published
2001

14. The Cones of the Genus Selaginella

Author

M. G. Sykes and W. Stiles

Subjects
Genus, Selaginella, Botany, Plant Science, Biology, biology.organism_classification
Abstract

n/a

Published
1910

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