Difference between revisions of "Selaginella"

Palisot de Beauvois

Prodr. Aethéogam. 101. 1805.

Common names: Spike-moss sélaginelle
Etymology: from Selago, an ancient name for Lycopodium, a genus resembling Selaginella, and Latin, -ella, diminutive suffix
Treatment appears in FNA Volume 2.
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--><span class="statement" id="st-d0_s0" data-properties="plant growth form or habitat;plant habitat;plant habitat"><b>Plants </b>terrestrial, on rock, or rarely hemiepiphytic (initially terrestrial, becoming epiphytic) or epiphytic (in S. oregana).</span> <span class="statement" id="st-d0_s1" data-properties="stem growth form or orientation;stem growth form or orientation;stem growth form or orientation;stem growth form;stem growth form;stem orientation;stem architecture;stem architecture;stem architecture"><b>Stems </b>prostrate, creeping, decumbent, cespitose, climbing, or fully erect, articulate or not, slightly to greatly branched.</span> <span class="statement" id="st-d0_s2" data-properties="rhizophore count;rhizophore fragility or size;rhizophore shape"><b>Rhizophores </b>usually present, stout or filiform.</span> <span class="statement" id="st-d0_s3" data-properties="root architecture;root count"><b>Roots </b>branching several times dichotomously from rhizophore tips.</span> <span class="statement" id="st-d0_s4" data-properties="stem location;stem growth form"><b>Leaves </b>on aerial stems dimorphic or monomorphic;</span> <span class="statement" id="st-d0_s5" data-properties="">if monomorphic, then linear to narrowly lanceolate, highly overlapping, spirally arranged;</span> <span class="statement" id="st-d0_s6" data-properties="leaf architecture;leaf architecture;leaf shape;leaf shape;leaf shape;leaf arrangement;leaf arrangement;leaf shape;leaf shape;leaf shape;leaf shape;leaf arrangement;stem location;stem growth form;rank count;rank count;rank count;larger lateral leaf orientation;median leaf size;median leaf fixation or orientation;median leaf orientation;dichotomy architecture">if leaves on aerial stem dimorphic, then round or oblong to lanceolate, arranged in 4 ranks, 2 ranks of larger spreading lateral leaves and 2 ranks of smaller, appressed, and ascending median leaves, often with axillary leaf at base of each branching dichotomy.</span> <span class="statement" id="st-d0_s7" data-properties="megasporangium shape;megasporangium shape;megasporangium shape"><b>Megasporangia </b>lobed to ovoid;</span> <span class="statement" id="st-d0_s8" data-properties="microsporangium shape;microsporangium shape;microsporangium shape">microsporangia reniform to ovoid.</span> <span class="statement" id="st-d0_s9" data-properties="megaspore shape;megaspore shape;megaspore shape;megaspore shape;megaspore shape;megaspore relief;megaspore diameter;megaspore diameter"><b>Megaspores </b>tetrahedral, ovoid, or globose, variously sculptured, (127–) 200–1360 µm diam.;</span> <span class="statement" id="st-d0_s10" data-properties="microspore shape;microspore relief;microspore diameter;x chromosome count;x chromosome count;x chromosome count;x chromosome count;x chromosome count;x chromosome count">microspores tetrahedral, variously sculptured, 20–75 µm diam. <b>x</b> = 7, 8, 9, 10, 11, 12.</span><!--
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--><span class="statement" id="st-undefined" data-properties=""><b>Plants </b>terrestrial, on rock, or rarely hemiepiphytic (initially terrestrial, becoming epiphytic) or epiphytic (in <i>S. oregana</i>). <b>Stems</b> prostrate, creeping, decumbent, cespitose, climbing, or fully erect, articulate or not, slightly to greatly branched. <b>Rhizophores</b> usually present, stout or filiform. <b>Roots</b> branching several times dichotomously from rhizophore tips. <b>Leaves</b> on aerial stems dimorphic or monomorphic; if monomorphic, then linear to narrowly lanceolate, highly overlapping, spirally arranged; if leaves on aerial stem dimorphic, then round or oblong to lanceolate, arranged in 4 ranks, 2 ranks of larger spreading lateral leaves and 2 ranks of smaller, appressed, and ascending median leaves, often with axillary leaf at base of each branching dichotomy. <b>Megasporangia</b> lobed to ovoid; microsporangia reniform to ovoid. <b>Megaspores</b> tetrahedral, ovoid, or globose, variously sculptured, (127–)200–1360 µm diam.; microspores tetrahedral, variously sculptured, 20–75 µm diam. <b>x</b> = 7, 8, 9, 10, 11, 12.</span><!--
  
 
-->{{Treatment/Body
 
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|distribution=Worldwide;mainly tropical and subtropical regions.
 
|distribution=Worldwide;mainly tropical and subtropical regions.
|discussion=<p>The generic and infrageneric classification of Selaginella is controversial, and more than one genus may be recognized (see R. E. G. Pichi-Sermolli 1971 for information on generic synonyms). A. C. Jermy (1986, 1990b) proposed a subgeneric classification similar to that of J. G. Baker (1883, 1887). Despite some reservations, I consider Jermy's system useful for our purpose; therefore it is followed here. Three of the five subgenera proposed by Jermy occur in the flora area: subg. Selaginella, subg. Tetragonostachys, and subg. Stachygynandrum. One of the species in the flora, Selaginella eatonii (see discussion), may eventually prove to be best classified within a fourth, subg. Heterostachys Baker.</p><!--
+
|discussion=<p>The generic and infrageneric classification of <i>Selaginella</i> is controversial, and more than one genus may be recognized (see R. E. G. Pichi-Sermolli 1971 for information on generic synonyms). A. C. Jermy (1986, 1990b) proposed a subgeneric classification similar to that of J. G. Baker (1883, 1887). Despite some reservations, I consider Jermy's system useful for our purpose; therefore it is followed here. Three of the five subgenera proposed by Jermy occur in the flora area: subg. <i>Selaginella</i>, subg. Tetragonostachys, and subg. Stachygynandrum. One of the species in the flora, <i>Selaginella eatonii</i> (see discussion), may eventually prove to be best classified within a fourth, subg. Heterostachys Baker.</p><!--
 
--><p>Some characteristics used in the keys and descriptions are best observed in fresh specimens or by soaking a sample of a dried specimen in water, using material at branch forks or buds. This is particularly true for members of subg. Tetragonostachys. Use a minimum of 20X (40–60X better) magnification and take measurements of both young and old leaves. Measurements of leaf length include the bristle and the most basal portion.</p><!--
 
--><p>Some characteristics used in the keys and descriptions are best observed in fresh specimens or by soaking a sample of a dried specimen in water, using material at branch forks or buds. This is particularly true for members of subg. Tetragonostachys. Use a minimum of 20X (40–60X better) magnification and take measurements of both young and old leaves. Measurements of leaf length include the bristle and the most basal portion.</p><!--
--><p>Selaginella subg. Tetragonostachys has a tendency for stem and leaves close to the substrate surface to be morphologically different from those on the side away from the substrate. In this case, the leaves on the side of the axis away from the surface are called upperside leaves, and those on the side toward the surface are called underside leaves. Otherwise, the leaves are designated only as leaves. In the subg. Stachygynandrum, however, which has complete structural differentiation between stem sides, the upper leaves are called median leaves, and the lower ones are called lateral leaves.</p><!--
+
--><p><i>Selaginella </i>subg.<i> Tetragonostachys</i> has a tendency for stem and leaves close to the substrate surface to be morphologically different from those on the side away from the substrate. In this case, the leaves on the side of the axis away from the surface are called upperside leaves, and those on the side toward the surface are called underside leaves. Otherwise, the leaves are designated only as leaves. In the subg. Stachygynandrum, however, which has complete structural differentiation between stem sides, the upper leaves are called median leaves, and the lower ones are called lateral leaves.</p><!--
 
--><p>Species probably more than 700 (38 in the flora).</p>
 
--><p>Species probably more than 700 (38 in the flora).</p>
 
|tables=
 
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|publication year=1805
 
|publication year=1805
 
|special status=
 
|special status=
|source xml=https://jpend@bitbucket.org/aafc-mbb/fna-fine-grained-xml.git/src/287ef3db526bd807d435a3c7423ef2df1e951227/V2/V2_633.xml
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|source xml=https://bitbucket.org/aafc-mbb/fna-data-curation/src/2e0870ddd59836b60bcf96646a41e87ea5a5943a/coarse_grained_fna_xml/V2/V2_633.xml
 
|genus=Selaginella
 
|genus=Selaginella
|dichotomy architecture=branching
 
|larger lateral leaf orientation=spreading
 
|leaf architecture=monomorphic;monomorphic
 
|leaf arrangement=arranged;arranged;overlapping
 
|leaf shape=oblong;lanceolate
 
|median leaf fixation or orientation=appressed
 
|median leaf orientation=ascending
 
|median leaf size=smaller
 
|megasporangium shape=lobed;ovoid
 
|megaspore diameter=200um;1360um
 
|megaspore relief=sculptured
 
|megaspore shape=globose;ovoid;globose;ovoid;tetrahedral
 
|microsporangium shape=reniform;ovoid
 
|microspore diameter=20um;75um
 
|microspore relief=sculptured
 
|microspore shape=tetrahedral
 
|plant growth form or habitat=terrestrial
 
|plant habitat=epiphytic;hemiepiphytic
 
|rank count=2;2;4
 
|rhizophore count=present
 
|rhizophore fragility or size=stout
 
|rhizophore shape=filiform
 
|root architecture=branching
 
|root count=several
 
|stem architecture=branched;not;articulate
 
|stem growth form=dimorphic;dimorphic;climbing;cespitose
 
|stem growth form or orientation=decumbent;creeping;prostrate
 
|stem location=aerial;aerial
 
|stem orientation=erect
 
|x chromosome count=12;11;10;9;8;7
 
 
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-->[[Category:Treatment]][[Category:Selaginellaceae]]
 
-->[[Category:Treatment]][[Category:Selaginellaceae]]

Latest revision as of 20:24, 5 November 2020

Plants terrestrial, on rock, or rarely hemiepiphytic (initially terrestrial, becoming epiphytic) or epiphytic (in S. oregana). Stems prostrate, creeping, decumbent, cespitose, climbing, or fully erect, articulate or not, slightly to greatly branched. Rhizophores usually present, stout or filiform. Roots branching several times dichotomously from rhizophore tips. Leaves on aerial stems dimorphic or monomorphic; if monomorphic, then linear to narrowly lanceolate, highly overlapping, spirally arranged; if leaves on aerial stem dimorphic, then round or oblong to lanceolate, arranged in 4 ranks, 2 ranks of larger spreading lateral leaves and 2 ranks of smaller, appressed, and ascending median leaves, often with axillary leaf at base of each branching dichotomy. Megasporangia lobed to ovoid; microsporangia reniform to ovoid. Megaspores tetrahedral, ovoid, or globose, variously sculptured, (127–)200–1360 µm diam.; microspores tetrahedral, variously sculptured, 20–75 µm diam. x = 7, 8, 9, 10, 11, 12.

Distribution

Worldwide, mainly tropical and subtropical regions.

Discussion

The generic and infrageneric classification of Selaginella is controversial, and more than one genus may be recognized (see R. E. G. Pichi-Sermolli 1971 for information on generic synonyms). A. C. Jermy (1986, 1990b) proposed a subgeneric classification similar to that of J. G. Baker (1883, 1887). Despite some reservations, I consider Jermy's system useful for our purpose; therefore it is followed here. Three of the five subgenera proposed by Jermy occur in the flora area: subg. Selaginella, subg. Tetragonostachys, and subg. Stachygynandrum. One of the species in the flora, Selaginella eatonii (see discussion), may eventually prove to be best classified within a fourth, subg. Heterostachys Baker.

Some characteristics used in the keys and descriptions are best observed in fresh specimens or by soaking a sample of a dried specimen in water, using material at branch forks or buds. This is particularly true for members of subg. Tetragonostachys. Use a minimum of 20X (40–60X better) magnification and take measurements of both young and old leaves. Measurements of leaf length include the bristle and the most basal portion.

Selaginella subg. Tetragonostachys has a tendency for stem and leaves close to the substrate surface to be morphologically different from those on the side away from the substrate. In this case, the leaves on the side of the axis away from the surface are called upperside leaves, and those on the side toward the surface are called underside leaves. Otherwise, the leaves are designated only as leaves. In the subg. Stachygynandrum, however, which has complete structural differentiation between stem sides, the upper leaves are called median leaves, and the lower ones are called lateral leaves.

Species probably more than 700 (38 in the flora).

Key

1 Leaves on aerial stems dimorphic, arranged in 4 ranks (2 median, 2 lateral), axillary leaves present at branching points; rhizophores present. Subg. Stachygynandrum
1 Leaves on aerial stems monomorphic, not in distinct ranks, axillary leaves absent at branching points; rhizophores present or absent. > 2
2 Strobili cylindric; sporophylls spreading; leaves thin, soft, margins short-spiny; stomates throughout abaxial surface of leaf; rhizophores absent. Subg. Selaginella
2 Strobili quadrangular; sporophylls usually appressed; leaves thick or fleshy (seldom thin), firm, margins dentate, serrate, or ciliate (never spiny); stomates in abaxial groove; rhizophores present. Subg. Tetragonostachys
... more about "Selaginella"
Iván A. Valdespino +
Palisot de Beauvois +
Spike-moss +  and sélaginelle +
Worldwide +  and mainly tropical and subtropical regions. +
from Selago, an ancient name for Lycopodium, a genus resembling Selaginella, and Latin, -ella, diminutive suffix +
Prodr. Aethéogam. +
alston1955a +, baker1883a +, horner1963a +, jermy1986a +, koller1986a +  and tryon1949a +
Selaginella +
Selaginellaceae +