Overview
Distribution
Localities documented in Tropicos sources
Brazil (South America)
Note: This information is based on publications available through Tropicos and may not represent the entire distribution. Tropicos does not categorize distributions as native or non-native.
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Forzza, R. C. & et al. 2010. 2010 Lista de espécies Flora do Brasil. http://floradobrasil.jbrj.gov.br/2010/.
http://www.tropicos.org/Reference/100002289
© Missouri Botanical Garden, 4344 Shaw Boulevard, St. Louis, MO 63110 USA
Source:
Missouri Botanical Garden
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Ecology
Associations
Plant / associate
fruitbody of Arrhenia chlorocyanea is associated with gametophyte of Polytrichum
Foodplant / parasite
fruitbody of Arrhenia retiruga parasitises gametophyte of Polytrichum
Plant / grows inside
embedded ascoma of Bryochiton perpusillus grows inside leaf of gametophyte of Polytrichum
Plant / associate
basidiome of Cantharellula umbonata is associated with Polytrichum
Plant / associate
fruitbody of Cyphellostereum laeve is associated with gametophyte of Polytrichum
Plant / associate
fruitbody of Cystoderma amianthinum is associated with gametophyte of Polytrichum
Plant / associate
fruitbody of Cystoderma jasonis is associated with gametophyte of Polytrichum
Other: major host/prey
Plant / epiphyte
solitary, superficial ascoma of Epibryon bryophilum grows on dying gametophyte of Polytrichum
Plant / associate
fruitbody of Galerina phillipsii is associated with Polytrichum
Plant / associate
fruitbody of Hypholoma polytrichi is associated with Polytrichum
Plant / associate
fruitbody of Inocybe glabrodisca is associated with Polytrichum
Plant / grows among
gregarious apothecium of Lamprospora polytrichi grows among gametophyte of Polytrichum
Other: major host/prey
Plant / epiphyte
superficial, gregarious, subiculate ascoma of Lizonia emperigonia grows on antheridial cup of gametophyte of Polytrichum
Plant / associate
fruitbody of Mycena latifolia is associated with Polytrichum
Plant / grows among
sessile or short stalked apothecium of Neottiella rutilans grows among gametophyte of Polytrichum
Plant / grows among
apothecium of Octospora humosa grows among gametophyte of Polytrichum
Plant / associate
fruitbody of Psilocybe montana is associated with Polytrichum
Other: minor host/prey
Plant / associate
fruitbody of Russula silvestris is associated with Polytrichum
Foodplant / saprobe
scattered or grouped, immersed, black, rugose, covered then piecing pycnidium of Septoria coelomycetous anamorph of Septoria thecicola is saprobic on dead capsule of Polytrichum
Remarks: season: 8-10
Plant / associate
fruitbody of Stereopsis vitellina is associated with Polytrichum
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Molecular Biology and Genetics
Molecular Biology
Statistics of barcoding coverage
| Specimen Records: | 55 | Public Records: | 30 |
| Specimens with Sequences: | 47 | Public Species: | 9 |
| Specimens with Barcodes: | 45 | Public BINs: | 0 |
| Species: | 13 | ||
| Species With Barcodes: | 11 | ||
© Barcode of Life Data Systems
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Barcode data
© Barcode of Life Data Systems
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Locations of barcode samples
© Barcode of Life Data Systems
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Wikipedia
Polytrichum
Polytrichum is a genus of mosses — commonly called haircap moss or hair moss — which contains approximately 70 species that cover a cosmopolitan distribution. (Less common vernacular names include bird wheat and pigeon wheat.)
The Polythrichum genus has a number of closely related sporophytic characters. The scientific name is derived from the Ancient Greek words polys, meaning "many", and thrix, meaning "hair". This name was used in ancient times to refer to plants with fine, hairlike parts, including mosses, but this application specifically refers to the hairy calyptras found on young sporophytes. There are two major sections of Polytrichum species. The first — section Polytrichum — has narrow, toothed, and relatively erect leaf margins. The other — section Juniperifolia — has broad, entire, and sharply inflexed leaf margins that enclose the lamellae on the upper leaf surface.[1][2]
Contents |
Physiology
Mosses in the genus Polytrichum are endohydric, meaning water must be conducted from the base of the plant. While mosses are considered non-vascular plants, those of Polytrichum show clear differentiation of water conducting tissue. One of these water conducting tissues is termed the hydrome, which makes up the central cylinder of stem tissue. It consists of cells with a relatively wide diameter called hydroids, which conduct water. This tissue is analogous to xylem in higher plants. The other tissue is called leptome, which surrounds the hydrome, contains smaller cells and is analogous to phloem.[3]
Another characteristic feature of the genus is its parallel photosynthetic lamellae on the upper surfaces of the leaves. Most mosses simply have a single plate of cells on the leaf surface, but those of Polytrichum have more highly differentiated photosynthetic tissue. This is an example of a xeromorphic adaption, an adaptation for dry conditions. Moist air is trapped in between the rows of lamellae, while the larger terminal cells act to contain moisture and protect the photosynthetic cells. This minimises water loss as relatively little tissue is directly exposed to the environment, but allows for enough gas exchange for photosynthesis to take place. The microenvironment between the lamellae can host a number of microscopic organisms such as parasitic fungi and rotifers. Additionally, the leaves will curve and then twist around the stem when conditions become too dry, this being another xeromorphic adaptation. It is speculated that the teeth along the leaf's edge may aid in this process, or perhaps also that they help discourage small invertebrates from attacking the leaves.[3]
Classification
The genus Polytrichastrum was separated from Polytrichum in 1971 based on the structure of the peristome (which controls spore release).[4][5] However, molecular and morphological data from 2010 support moving some species back into Polytrichum.[4][6]
Species
References
- ^ Smith Merrill, Gary L. (2007), "Polytrichum", in Flora of North America Editorial Committee, eds. 1993+, Flora of North America, 27, New York & Oxford: Oxford University Press, http://www.efloras.org/florataxon.aspx?flora_id=1&taxon_id=126484
- ^ Crum, Howard Alvin; Anderson, Lewis Edward (1981), Mosses of Eastern North America, Columbia University Press, p. 1281–1282, ISBN 0-231-04516-6
- ^ a b Silverside, A.J. (2005), Biodiversity Reference: Polytrichum commune Hedw., University of Paisley, http://www-biol.paisley.ac.uk/bioref/Bryophyta/Polytrichum_commune.html, retrieved 2008-02-16
- ^ a b Bell, N. E.; Hyvonen, J. (2010), "A phylogenetic circumscription of Polytrichastrum (Polytrichaceae): Reassessment of sporophyte morphology supports molecular phylogeny", American Journal of Botany 97 (4): 566–78, doi:10.3732/ajb.0900161, PMID 21622419
- ^ 1. Polytrichastrum G. L. Smith, Flora of North America
- ^ Bell, NE; Hyvönen, J (2010), "Phylogeny of the moss class Polytrichopsida (BRYOPHYTA): Generic-level structure and incongruent gene trees", Molecular Phylogenetics & Evolution 55 (2): 381–98, doi:10.1016/j.ympev.2010.02.004, PMID 20152915
- ^ a b c d e f g h i Polytrichum, USDA PLANTS
- ^ a b c d e BLWG Verspreidingsatlas Mossen online (in Dutch)
Source:
Wikipedia
Unreviewed
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