Rhynchostegium
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| Rhynchostegium | |
|---|---|
| Rhynchostegium murale | |
| Scientific classification | |
| Kingdom: | Plantae |
| Division: | Bryophyta |
| Class: | Bryopsida |
| Subclass: | Bryidae |
| Order: | Hypnales |
| Family: | Brachytheciaceae |
| Genus: | Rhynchostegium Bruch & Schimp. 1852[1] |

Rhynchostegium is a genus of pleurocarpous mosses belonging to the family Brachytheciaceae.[2] The genus has a cosmopolitan distribution across different climatological regions except the polar regions, mostly in tropic to north temperate regions.[2][1] The genus contains both aquatic and terrestrial species.[1][3] The genus was named for their rostrate opercula.[1] The type species of this genus is Rhynchostegium confertum (Dicks.) Schimp.[1]
The genus name comes from the Greek rhyncho- (beaked) and stegos (a lid), which refers to the rostrate operculum of the sporophyte.[1]
History
The genus was first described by Bruch and Wilhelm Philippe Schimper in 1852.[2][1]
Habitats
Morphology
Gametophyte

Rhynchostegium are small to large mosses that form either loose tuft or extensive mats on the substrate, with irregular or regular branching.[1][3] The younger plants are generally deep green or light green; aging plants could become whitish, brownish, or paler green.[1][3] Stems are creeping and lack hyaloderm, with acute to acuminate pseudoparaphyllia.[3] Stem leaves are erectopatent or erect.[1][3] Branch leaves are similar in morphology to stem leaves but smaller and sometimes narrower.[3] Leaves are commonly straightly to homomallously arranged; subimbricate, subcomplanate, or complanate arrangement are sometimes seen, especially in branch leaves.[1] Leaf base, decurrent or not, varies from ovate to ovate-cordate, occasionally lanceolate, and the narrowing from gradual to abrupt, towards a short- or long-acuminate apex, where sometimes a differentiated long acumen or apiculus is present.[1] The leaves have a single costa that generally smoothly ends 35-75% up the leaf, and more often in branch leaves in an abaxial spine.[1] Leaf surfaces vary from flat to slightly concave and not to strongly longitudinally plicate, with little to some pores and linear laminal cells.[1][3] Leaf margins are serrate to serrulate.[1][3] Axillary hairs constitute of 3-7 cells,[3] with 1-3 upper cells.[1] Alar cells are slightly enlarged, and either undifferentiated or quadrate to elongate-rectangular.[1][3]
Sporophyte
Rhynchostegium are autoicous.[3] Covered by a naked calyptra is a rostrate to long-rostrate operculum attached to a red-brown to brown, oblong-cylindric, weakly curved capsule, which is inclined or horizontal to a red-brown, smooth seta that has abruptly contracted perichaetial leaves at the base, with acumen straight to reflexed.[1][3] An annulus separates the operculum.[3] The peristome is xerochastic and perfect, which the red to orange-red exostomes have reduced trabeculae and cross-striolae at the base of the teeth; in rare cases the exostomes are narrow and yellow.[1][3] The broadly or narrowly perforated endostomes and developed to vestigial cilia are supported by a low or high basal membrane.[1] Spore diameters range between 9-16 μm.[3]
Biochemistry
Allelopathy
Allelopathy has been studied on Rhynchostegium pallidifolium, which usually form pure colonies in their natural habitat.[7][8] Methanol extract of R.pallidifolium represses the seedling of cress, alfalfa, lettuce, ryegrass, timothy, and Digitaria sanguinalis in a concentration-dependent manner.[7] A combination of ESI-MS and 1H NMR analyses identified the inhibitory chemical as 3-hydroxy-β-ionone.[7] Further study showed a minimal 3-hydroxy-β-ionone concentration of 1 μM for the inhibition of cress hypocotyl growth, and 3 μM for cress root growth, while the endogenous concentration.[8] The presence of 3-hydroxy-β-ionone in their natural substrate and the growing medium suggested secretion to the environment, which may imply an important role of 3-hydroxy-β-ionone in competition with other plants and the forming of pure colonies.[8]
Antibacterial

Acetone extract of Rhynchostegium riparioides showed antibiotic activity on some Gram-negative bacteria, including Escherichia coli, Proteus mirabilis, Entero-bacter cloacae and Pseudomonas aeruginosa.[9]
Ethanolic extract of Rhynchostegium vagans showed similar effect on some Gram-negative bacteria and fungi, with performance superior to chloramphenicol and fluconazole.[10]