Lepidodendrales (from the Greek for "scale tree") or arborescent lycophytes are an extinct order of primitive, vascular, heterosporous, arborescent (

tree In botany, a tree is a perennial plant with an elongated stem, or trunk, usually supporting branches and leaves. In some usages, the definition of a tree may be narrower, e.g., including only woody plants with secondary growth, only ...

-like)

plant Plants are the eukaryotes that form the Kingdom (biology), kingdom Plantae; they are predominantly Photosynthesis, photosynthetic. This means that they obtain their energy from sunlight, using chloroplasts derived from endosymbiosis with c ...

s belonging to

Lycopodiopsida Lycopodiopsida is a class of vascular plants also known as lycopsids, lycopods, or lycophytes. Members of the class are also called clubmosses, firmosses, spikemosses and quillworts. They have dichotomously branching stems bearing simple leaves ...

. Members of Lepidodendrales are the best understood of the fossil lycopsids due to the vast diversity of Lepidodendrales specimens and the diversity in which they were preserved; the extensive distribution of Lepidodendrales specimens as well as their well-preservedness lends paleobotanists exceptionally detailed knowledge of the coal-swamp giants’ reproductive biology, vegetative development, and role in their paleoecosystem. The defining characteristics of the Lepidodendrales are their secondary

xylem Xylem is one of the two types of transport tissue (biology), tissue in vascular plants, the other being phloem; both of these are part of the vascular bundle. The basic function of the xylem is to transport water upward from the roots to parts o ...

, extensive periderm development, three-zoned

cortex Cortex or cortical may refer to: Biology * Cortex (anatomy), the outermost layer of an organ ** Cerebral cortex, the outer layer of the vertebrate cerebrum, part of which is the ''forebrain'' *** Motor cortex, the regions of the cerebral cortex i ...

, rootlike appendages known as stigmarian rootlets arranged in a spiralling pattern, and

megasporangium A sporangium (from Late Latin, ; : sporangia) is an enclosure in which spores are formed. It can be composed of a single cell or can be multicellular. Virtually all plants, fungi, and many other groups form sporangia at some point in their lif ...

each containing a single functional megaspore that germinates inside the

sporangium A sporangium (from Late Latin, ; : sporangia) is an enclosure in which spores are formed. It can be composed of a unicellular organism, single cell or can be multicellular organism, multicellular. Virtually all plants, fungus, fungi, and many ot ...

. Many of these different plant organs have been assigned both generic and specific names as relatively few have been found organically attached to each other. Some specimens have been discovered which indicate heights of 40 and even 50 meters and diameters of over 2 meters at the base. The massive trunks of some species branched profusely, producing large crowns of leafy twigs; though some leaves were up to 1 meter long, most were much shorter, and when leaves dropped from branches their conspicuous leaf bases remained on the surface of branches. Strobili could be found at the tips of distal branches or in an area at the top of the main trunk. The underground organs of Lepidodendrales typically consisted of dichotomizing axes bearing helically arranged, lateral appendages serving an equivalent function to roots. Sometimes called "giant club mosses", they are believed to be more closely related to extant quillworts based on xylem, although fossil specimens of extinct

Selaginella ''Selaginella'', also known as spikemosses or lesser clubmosses, is a genus of lycophyte. It is usually treated as the only genus in the family Selaginellaceae, with over 750 known species. This family is distinguished from Lycopodiaceae (th ...

les from the Late Carboniferous also had secondary xylem.

Morphology

Lepidodendrales had tall, thick trunks that rarely branched and were topped with a crown of bifurcating branches bearing clusters of

leaves A leaf (: leaves) is a principal appendage of the stem of a vascular plant, usually borne laterally above ground and specialized for photosynthesis. Leaves are collectively called foliage, as in "autumn foliage", while the leaves, stem, ...

. These leaves were long and narrow, similar to large blades of grass, and were spirally-arranged. The vascular system of the erect trunk was unusual in that it switched its morphological development as the plant grew. The young trunk began as a protostele in which the outer

matured first (exarch), but the later and higher portion of the trunk developed as an ectophloic siphonostele in which the

was flanked by

phloem Phloem (, ) is the living tissue in vascular plants that transports the soluble organic compounds made during photosynthesis and known as ''photosynthates'', in particular the sugar sucrose, to the rest of the plant. This transport process is ...

tissue on both its inner and outer side.

Stem structure

The most common fossil specimens of Lepidodendrales, as well as the most recognizable, are the

compression Compression may refer to: Physical science *Compression (physics), size reduction due to forces *Compression member, a structural element such as a column *Compressibility, susceptibility to compression * Gas compression *Compression ratio, of a ...

s of stem surfaces marked with constant, though partially asymmetric, rhomboidal leaf cushions. These fossils look much like tire tracks or

alligator An alligator, or colloquially gator, is a large reptile in the genus ''Alligator'' of the Family (biology), family Alligatoridae in the Order (biology), order Crocodilia. The two Extant taxon, extant species are the American alligator (''A. mis ...

skin, lending the Greek name "Lepidodendrales," meaning "scale trees." These leaf cushions are actually the expanded leaf base which remained after the leaves fell, as the abscission of the leaf was not flush to the stem surface. The rhomboidal shape arises from the acute angle of the top and bottom of the cushions, known as leaf bolsters, and the rounded angle of the side. The actual leaf scar is present slightly above the midpoint of the cushion and is roughly elliptical in shape. On the leaf scar, three small pitted impressions can sometimes be found. The central and always present pit results from a vascular bundle that extended into the leaf from the stem, known as "parichnos," a system of aerating tissues. Two other parichnos channels can be found on ''Lepidodendron'' stem surfaces, though these do not occur in the Diaphorodendraceae. Above the leaf scar is a mark from a former

ligule A ligule (from "strap", variant of ''lingula'', from ''lingua'' "tongue") is a thin outgrowth at the junction of leaf A leaf (: leaves) is a principal appendage of the plant stem, stem of a vascular plant, usually borne laterally above g ...

. A waxy cuticle covered the stem surface, including leaf cushions but not including the stem scars. The simple epidermis lacks specialized cells like

trichome Trichomes (; ) are fine outgrowths or appendages on plants, algae, lichens, and certain protists. They are of diverse structure and function. Examples are hairs, glandular hairs, scales, and papillae. A covering of any kind of hair on a plant ...

s or epidermal glands. Stomata are frequent and sunken in shallow depressions. Stems of Lepidodendrales could be protostelic, as in ''Diaphorodendron'', have a mixed

pith Pith, or medulla, is a tissue in the stems of vascular plants. Pith is composed of soft, spongy parenchyma cells, which in some cases can store starch. In eudicotyledons, pith is located in the center of the stem. In monocotyledons, it ex ...

, or be siphonostelic, as in ''Diaphorodendron'' and ''Lepidodendron''. In mixed pith stems, parenchyma cells are scattered while

tracheid A tracheid is a long and tapered Lignin, lignified cell in the xylem of Tracheophyta, vascular plants. It is a type of conductive cell called a tracheary element. Angiosperms also use another type of conductive cell, called vessel elements, to t ...

s are placed in the middle, though the tracheids exist in a short, squat, parenchymatous shape; this is cited as evidence that the pith in Lepidodendrales originated as immature parenchymatous cells which failed to properly differentiate into tracheids. Around the primary

of Lepidodendrales may be a secondary xylem, which can be several centimeters thick. Unlike modern woody trees, the secondary xylem of Lepidodendrales is only a small portion of the diameter of the stem, as the extensively developed periderm is responsible for the large trunks. The primary and secondary xylem tracheids are scalariform and have Williamson striations, or fimbrils, between these scalariform lines. The fimbrils characterize wood in arborescent lycopsids, though similar structures occur in modern club and spike mosses, and these fimbrils are a shared structure for all lycopsids. Bordering outside the secondary xylem is a section of cells with thin walls, representing the

vascular cambium The vascular cambium is the main growth tissue in the stems and roots of many plants exhibiting secondary growth, specifically in dicots such as buttercups and oak trees, gymnosperms such as pine trees, as well as in certain other vascular ...

. Though modern seed plants have a bifacial cambium, the Lepidodendrids have a unifacial cambium, producing a secondary xylem only on their inner face. The

zone is separated from this secondary xylem by a section of thin-walled cells known as the "parenchyma sheath." Current evidence suggests that there was no secondary phloem present within arborescent lycopsids. The

of Lepidodendrids typically consisted of the inner, middle, and outer cortex, distinguished by their cell types. The inner cortex is the narrowest and consists of small parenchyma cells; secretory cells, lacunae, and various sclerotic cells also can be found in this section. The middle cortex is larger and in turn consists of larger parenchyma cells. This section is characterized by radially extending lacunae in young stems, while in older stems the middle cortex is usually not preserved save for a few parenchyma cells. The outer cortex has no definite arrangement, but its cells have slightly thicker walls. The periderm is produced in the outer cortex. The periderm is bizonate in Diaphorodendron, where the inner zone consists of alternatingly thick and thin walled cells, and the outer zone contains dark, "resinous" cells. The homogenous or bizonate periderm is massive in Lepidodendron. The loose construction of the cortex and the large amounts of thin-walled periderm contributed to the sloughing of tissue layers during the fossilization process. This led to a variety of decorticated fossils often presumed to be external stem and trunk features but lacking leaf cushions and other features. Various generic names have been given to decorticated specimens, including '' Knorria'', a name for stems with nearly all tissues outside the xylem absent. The pattern of stem growth in Lepidodendrales can be reconstructed by analyzing their cortical growth patterns. When plants are immature, the cortex is extensive and the outer stem surface is covered with many rows of leaf bases. As the tree continues to grow, the secondary xylem and periderm originate from the vascular cambium and phellogen. This increase in stem tissue and stem diameter results in the sloughing off of outer tissues including leaf bases; hence, in older areas of the plant the outer surface of the trunk is protected by the periderm. Many older drawings of ''Lepidodendron'' incorrectly illustrate leaf bases extending to the ground in older trees. At higher, younger levels of the tree, the branches have fewer rows of smaller leaves. In these sections less secondary xylem and periderm are produced. This reduction in

stele A stele ( ) or stela ( )The plural in English is sometimes stelai ( ) based on direct transliteration of the Greek, sometimes stelae or stelæ ( ) based on the inflection of Greek nouns in Latin, and sometimes anglicized to steles ( ) or stela ...

size and secondary tissue production continues to taper towards the most distal branches, where only a tiny protostele, no secondary tissues, and few rows of leaves exist; this distal stage of development is known as "apoxogenesis." These small, distal twigs cannot develop into larger branches over time, a growth pattern known as determinate growth; this contrasts with the modern

indeterminate growth In biology and botany, indeterminate growth is growth that is not terminated, in contrast to determinate growth that stops once a genetically predetermined structure has completely formed. Thus, a plant that grows and produces flowers and fruit ...

pattern of most modern woody plants.

Leaf structure

Leaves of Lepidodendrales plants are linear, with some long. Stems with the largest diameters have the longest leaves, a pattern correlated with the determinate growth of the plants. Many organ taxa established for detached Lepidodendrales leaves were likely produced by the same kind of plant and differ in morphology only because of their position on the plant. The generic name ''Lepidophyllum'' is the original name for preserved Lepidodendrid leaves, but as this name had already been used for a separate flowering plant, the name '' Lepidophylloides'' is used today instead. Along the entire

lamina Lamina may refer to: People * Saa Emerson Lamina, Sierra Leonean politician * Tamba Lamina, Sierra Leonean politician and diplomat Science and technology * Planar lamina, a two-dimensional planar closed surface with mass and density, in mathem ...

of ''Lepidophylloides'', a single vascular bundle is bordered by shallow grooves on the abaxial surface. Stomata are sunken in pits aligned in rows parallel to these grooves. A hypodermal zone of fibers surrounds the vascular bundle of the leaf.

Underground organs

The underground organs of the Lepidodendrales are assigned the generic name ''Stigmaria''. These structures are one of the most common lycopsid fossils and are the main organ found in the clay layer beneath most Carboniferous coal deposits; this clay layer represents the soil layer which the plants were rooted in. Despite the existence of multiple species of ''Stigmaria'', our understanding of the underground organs is based primarily on the widespread species ''Stigmaria ficoides''. The stigmarian organs originate from the base of the trunk as four major axes extending horizontally, leading to a relatively shallow rooting system. Lateral appendages are attached to each axis in a helical pattern. These appendages would abscise as the plant grew, resulting in the characteristic circular external scars of ''Stigmaria'' fossil specimens. Although these appendages are often called "stigmarian rootlets," their helical arrangement and growth abscission are actually more characteristic of leaves than modern lateral roots. The four primary axes of ''Stigmaria'' dichotomize often, forming an extensive underground system possibly ranging up to in radius. The rootlets range in size, being up to long and wide, and typically taper distally and do not dichotomize. A small monarch vascular strand is present in each rootlet, surrounded by a compact inner cortex. Outside this inner cortex is a hollow middle cortex and a thin outer cortex; sometimes a connection extends from the inner cortex to the outer cortex. The primary xylem of ''Stigmaria'' is endarch and arranged in a series of bands surrounded by vascular cambium. The secondary xylem tracheids are arranged in radial lines and contain scalariform wall thickenings with fimbrils identical to those in the aerial branches. No secondary phloem has been found in ''Stigmaria'' fossil specimens, and the vascular cambium was unifacial with translocation enabled by the primary phloem. The radially aligned tracheids in most ''Stigmaria'' axes were produced by a thickening

meristem In cell biology, the meristem is a structure composed of specialized tissue found in plants, consisting of stem cells, known as meristematic cells, which are undifferentiated cells capable of continuous cellular division. These meristematic c ...

rather than a vascular cambium. The development of underground organs of Lepidodendrales was likely similar to the development of the aerial stems. However, some features of these organs have yet to be identified in function and some modern features of roots are absent in ''Stigmaria''. The helical arrangement of the rootlet appendages is unlike the irregular arrangement of modern roots. No root hairs have been identified, though fungi in some cortical parenchyma cells may have functioned as mycorrhizae. The monarch vascular bundle in the rootlets is bilaterally symmetrical, but modern roots have radially symmetrical vascular tissue, though vascular bundles in leaves are bilaterally symmetrical. In addition, the rootlets underwent abscission from the axis regularly as the plant grew in a similar fashion to the process of foliar abscission. However, root abscission is unknown in modern plants. These features of the rootlets suggest that they are homologous to the aerial leaves of Lepidodendrales but modified to serve anchoring and absorbing functions. This implies that the underground organs of the plants arose as evolutionary modification of the aerial organs. StigmariaRootlets

Despite the towering height of some Lepidodendrales plants, their stigmarian system was typically shallow, and therefore it is dubious how the underground organs could support the huge trees, especially since many plants grew in supersaturated, watery soil that was largely unstable. Different suggestions have arisen to explain their stature and root system: it may be that the extensive horizontal growth of the root axes provided enough support, or that the crowns of adjacent trees could entangle and provide mutual support. The nature of the wood and density of the crown of modern trees can have a large effect on tree uprooting, and since arborescent lycopsids had little secondary xylem and bushy crowns they may have been better suited to standing upright.

Reproductive organs

The reproductive organs of the Lepidodendrids consisted of strobili or cones on distal branches in the crown. In ''Synchysidendron'' the cones occur on late-formed crown branches, while in ''Diaphorodendron'' the cones occur on deciduous lateral branches. The cones could grow to be considerably large, as in ''Lepidostrobus goldernbergii'' specimens are over long. The cones consist of a central axis with sporophylls arranged helically;

sporangia A sporangium (from Late Latin, ; : sporangia) is an enclosure in which spores are formed. It can be composed of a unicellular organism, single cell or can be multicellular organism, multicellular. Virtually all plants, fungus, fungi, and many ot ...

are on the adaxial surface of the sporophylls and are upturned distally to overlap sporophylls above. Part of the sporophyll typically extends downward to create a heel or other distal extension. A

can be found in a small pit distal to the sporangium. Though '' Lepidostrobus'' is the most common name for Lepidodendrales cones, the name has been used for specimens of any form of preservation and for both monosporangiate and bisporangiate forms, so taxonomic problems often ensue. Attempts to dissuade these taxonomic confusions have been made. Some have suggested the name ''Lepidostrobus'' should only describe monosporangiate cones and the name ''Flemingites'' describe bisporangiate cones, while others have used cone morphology to attempt to better differentiate species within ''Lepidostrobus''. Embryo specimens have been found in the cone ''Bothrodendrostrobus''. The embryo begins as an unvascularized globular structure found within megagametophyte tissue, and in more mature specimens two vascularized appendages extend through the trilete suture, representing the first shoot and first root. Gametophyte generation of Lepidodendrales is poorly understood and based on few specimens, but the ''Flemingites schopfii'' cones exhibit well-preserved signs of the micro and megagametophyte phases. Compared to gametophytes of modern lycopsids, ''F. schopfii'' has microgametophytes most similar to extant ''

'', while the megagametophytes are more similar to ''

Isoetes ''Isoetes'', commonly known as the quillworts, is a genus of lycopod. It is the only living genus in the family Isoetaceae and order Isoetales. , there were about 200 recognized species, with a cosmopolitan distribution mostly in aquatic habitats ...

''. Other well-preserved Lepidodendrid gametophytes have been found in spores of ''Lepidodendron rhodumnense'' fossilized in

chert Chert () is a hard, fine-grained sedimentary rock composed of microcrystalline or cryptocrystalline quartz, the mineral form of silicon dioxide (SiO2). Chert is characteristically of biological origin, but may also occur inorganically as a prec ...

from the late

Viséan The Visean, Viséan or Visian is an age in the ICS geologic timescale or a stage in the stratigraphic column. It is the second stage of the Mississippian, the lower subsystem of the Carboniferous. The Visean lasted from to Ma. It follows ...

Growth

During the early stages of growth, arborescent lycophytes grew as unbranched trunks, with the leaves growing directly out of the leaf cushions/bases. Later in the growth cycle, depending on the species, the trunk produced either a series of laterally (perpendicular to the trunk) growing branches with a dichotomizing growth pattern, or a

crown A crown is a traditional form of head adornment, or hat, worn by monarchs as a symbol of their power and dignity. A crown is often, by extension, a symbol of the monarch's government or items endorsed by it. The word itself is used, parti ...

of dichotomising branches. Some ''

Sigillaria ''Sigillaria'' is a genus of extinct, spore-bearing, Lepidodendrales, arborescent lycophyte, known from the Carboniferous and Permian periods. It is related to the more famous ''Lepidodendron'', and more distantly to modern Isoetes, quillworts. ...

'' species are suggested to not have branched at all. During the later stages of growth, the leaf laminae on the lower portions of the trunk were shed, though the rate of shedding was not rapid, as large stems have been found with the leaves remaining attached. The leaf bases remained on the trunk until in the largest stems they were sloughed off to expose the periderm. The rate of growth of arborescent lycophytes is disputed, some authors contend that they had a rapid life cycle, growing to their maximum size, reproducing and then dying in only 10 to 15 years, while other authors argue that these growth rates are overestimated. It has been proposed that arborescent lycophytes had a similar

carbon fixation Biological carbon fixation, or сarbon assimilation, is the Biological process, process by which living organisms convert Total inorganic carbon, inorganic carbon (particularly carbon dioxide, ) to Organic compound, organic compounds. These o ...

mechanism to modern quillworts, where carbon was uptaken from the surrounding sediment, and enriched carbon dioxide concentrations within internal gas spaces allowed increased carbon absorption. Most parts of the plant, including the leaves, stems and parts of the rooting rhizophore structures, were likely photosynthetic.

Ecology

Arborescent lycophytes are suggested to have had a preference for disturbed habitats. The large quantities of

biomass Biomass is a term used in several contexts: in the context of ecology it means living organisms, and in the context of bioenergy it means matter from recently living (but now dead) organisms. In the latter context, there are variations in how ...

that were responsible for the formation of globally widespread Carboniferous coal seams were predominantly produced by arborescent lycophytes. Lepidodendrales are suggested to be responsible for almost 70% of the plant material in the Westphalian coal-swamp forests of America, though at the end of the Westphalian period Lepidodendrales members were in decline and had become responsible for only 5% of coal biomass. Arborescent lycopsids were largely becoming extinct in North America and Europe by the end of the Carboniferous as tree ferns began to rise to prominence, though arborescent lycopsids persisted in China until the

Middle Permian The Guadalupian is the second and middle series/epoch of the Permian. The Guadalupian was preceded by the Cisuralian and followed by the Lopingian. It is named after the Guadalupe Mountains of New Mexico and Texas, and dates between 272.95 ± 0. ...

. Some scientists have suggested that the decline of lepidodendrids during this period was a result of

Variscan The Variscan orogeny, or Hercynian orogeny, was a geologic mountain-building event caused by Late Paleozoic continental collision between Euramerica (Laurussia) and Gondwana to form the supercontinent of Pangaea. Nomenclature The name ''Variscan ...

tectonic activity creating unstable conditions by reducing the size of the coal-swamp ecosystems, while others suggest that their decline was due to climate change; some scientists suggest a combination of these theories, that tectonic activity caused changes in floral composition which triggered climate change, in turn resulting in this decline.

Taxonomy

Amongst

, Lepidodendrales are considered to be more closely related to

Isoetales Isoetales, sometimes also written Isoëtales, is an order of plants in the class Lycopodiopsida. There are about 140-150 living species, all of which are classified in the genus '' Isoetes'' (quillworts), with a cosmopolitan distribution, but ...

(which includes modern quillworts) than to club mosses or spikemosses. Some authors do not use Lepidodendrales, and instead include arborescent lycophytes within Isoetales.

Species

Various specimens of Lepidodendrales have been historically categorized as members of ''Lepidodendron'', a genus defined by morphology of leaf cushions. DiMichele established '' Diaphorodendron'' to dissuade ambiguity over these widely ranging specimens, which includes some structurally preserved specimens which were previously members of ''Lepidodendron''. ''Diaphorodendron'' was later divided into the two genera ''Diaphorodendron'' and ''Synchysidendron'', and the genera were placed in the new family Diaphorodendraceae.

Synapomorphies In phylogenetics, an apomorphy (or derived trait) is a novel character or character state that has evolved from its ancestral form (or plesiomorphy). A synapomorphy is an apomorphy shared by two or more taxa and is therefore hypothesized to ...

of this new family are a medullated protostele and a dorsiventrally flattened megasporangium. Synapomorphies of the family Lepidodendraceae are a bilaterally flattened

and infrafoliar parichnos which extend below the leaf scar. The generic names ''Lepidodendron'' and ''Diaphorodendron'' today describe both cellularly preserved stem segments and entire plants, including their foliar organs, underground organs, and reproductive organs. Specifically, the generic name ''Lepidodendron'' is typically used to describe compression specimens which feature a particular type of leaf cushion morphology. In addition, many "organ taxa" have been identified to the Lepidodendrales: roots ('' Stigmaria''), leaves, and cones ('' Lepidostrobus'') were originally given a different genus and species name before it could be shown that they belonged to the same organism.