Lab #5 Mosses & Ferns
Non-Vascular & Vascular Seedless Plants major division of plants into: non-vascular & vascular non-vascular plants are known collectively as the “bryophytes” divided into: the mosses (Phylum Bryophyta) the liverworts (Phylum Hepatophyta) the hornworts (Phylum Anthocerophyta) vascular plants can be divided into: seedless and seed-bearing seedless plants are the “lycophytes” and the “pterophytes” Division Lycophyta – club mosses Division Pterophyta – ferns, horsetails and whisk fers the seed bearing plants are divided into: the gymnosperms – non-flowering plants the angiosperms – flowering plants
alternation of generations: alternating between a multicellular haploid structure (gametophyte) and a multicellular diploid structure (sporophyte) alternating between a gametophyte stage and a sporophyte stage Plant Life Cycles ** as plants evolve there is an increasing importance of the sporophyte over the gametophyte Mitosis
main steps: 1. haploid spore undergoes mitosis to produce the haploid gametophyte 2. gametophyte grows and produces male and female reproductive structures via mitosis – antheridium & archegonium artheridium produces sperm, archegonium produces an egg egg fertilized by sperm to produce a diploid zygote 3. zygote undergoes mitosis to grow into a diploid sporophyte 4. sporophyte undergoes meiosis to produce haploid spores 5. back to step #1
Plant reproduction terms sporophyte (diploid) = spore producing plant that bears sporangia (singular = sporangium) sporangium = structure that produces haploid spores by meiosis spores (haploid) = released cells that will grow via mitosis to generate a gametophyte gametophyte (haploid) = multicellular structure that bears male and female gametangia (singular = gametangium) gametangium (haploid) = multicellular structure for the production of male and female gametes via mitosis archegonium (haploid) = female gametangium that produces an egg antheridium (haploid) = male gametangium that produces multiple sperm
Non-vascular plants (bryophytes) bryophytes = ancient group of non-vascular plants that share a common ancestor ancestor – 475 million years old have not given rise to any other living group of plants but they still exist today!! lack the vascular tissues – xylem & phloem gametophyte is still the dominant form of the life cycle what we identify as the “plant” Phylum Bryophyta Phylum Hepatophyta Phylum Anthocerophyta
Mnium hornum Phylum Bryophyta Sphagnum peat moss
Phylum Bryophyta mosses gametophyte stage of the life cycle thallus (heart-shaped) body bears male and female gametophores with gametangia gametophore – leafy shoots of the moss gametophyte thallus anchored to the substrate via rhizoids root-like structures – NOT true roots multiple cells that form up end to end to produce a filament non-photosynthetic do NOT absorb nutrients and water anchorage only
Non-vascular plants non-vascular mosses are not to be confused with the vascular club mosses = lycophytes some mosses are NOT mosses at all – Irish moss (red seaweed), reindeer moss (lichen)
Bryophyte General Life Cycle: The Gametophyte dominant stage in all bryophytes release of spores onto favorable habitat the spore germinates into a threadlike protonema – covers a large surface area for absorption or water and minerals protonema grows into a haploid gametophyte each protonema produces a bud with an apical meristem (stem-cell like tissue for growth) the AM develops into the gamete producing gametophyte the leafy shoots of the moss gametophyte are called gametophores the tips of the gametophore bear the male or female gametangia the gametophyte of mosses is the actual moss!!
Bryophyte General Life Cycle : The Gametophyte reproductive structures of the gametophyte = gametangia (singular = gametangium) multiple gametangia develop on each gametophyte some bryophytes are bisexual – both antheridium and archegonium on the same gametophyte plant = monoecious e.g. liverwort bryophyte most moss bryophytes have separate antheridium and archegonium located on separate gametophytes on separate plants = dioecious “male and female” moss plants production of the gametes by mitosis since the gametophyte is haploid already!!!
Bryophyte General Life Cycle : The Sporophyte fertilization of the egg is followed by development of the embryo within the archegonium the embryo develops into a sporophyte (diploid) - remains attached to the gametophyte via a foot – for absorption of nutrients moss
sporophyte stage – dependent upon the bryophyte gametophyte food and water passed to it via transfer cells transfer cells found in between the sporophyte and the gametophyte in a “placenta-like” tissue The Sporophyte
Moss Sporophyte anatomical features: 1. seta – stem-like structure organ connecting sporangium to the gametophyte 2. foot – base of the seta 3. sporangium – site of spore production opening = operculum 4. calyptra – surrounds and protects the sporangium may be bald or hairy
Polytrichum commune hairy cap moss SPOROPHYTE GAMETOPHYTE calyptra around the sporangium stem (seta) GAMETOPHYTE (leafy shoot)
Bryophyte General Life Cycle : The Sporophyte haploid spores develop in the sporangium via meiosis since the sporangium is diploid the spores are dispersed and settle onto a new substrate from these spores comes new protonemata (singular = protonema) hornwort and moss sporophytes tend to be large and more complicated liverwort sporophytes are microscopic hornwort moss liverwort
Phylum Hepatophyta liverworts share some similarities with mosses but there are some distinct differences – gametophyte and sporophyte form gametophyte can be found as either leafy or thalloid (depending on species) thallus has no stems or leaves thallus gametophyte – can be 1 to 2 cells thick or multicellular with tissue differentiation rhizoids are unicellular (like mosses) –elongated single cells often covered with scales – role in anchorage only many thalloid forms have gemmae cups for asexual reproduction
Phylum Hepatophyta leafy gametophyte – can look a lot like the gametophyte of mosses very small leaves (about 1cm long) - arranged as two rows along the sides of the stem rhizoid is very similar to the moss rhizoid leafy gametophyte thallus gametophyte
Marchantia Gametophyte Marchantia gametophyte is made up of broad shaped leaves = thallus growing out of the gametophyte are stalked structures - called gametophores “palm-tree female” & “umbrella male” since both of these are found on the same sporophyte plant = monoecious Archegonia and antheridia of Marchantia (a dieocious liverwort) Male gametophore Antheridium with sperm Female gametophore Archegonium with egg the gametophyte of the liverwort is the actual liverwort!! antheridium gametangium with sperm archegonium gametangium egg
male gametophore looks like a “patio umbrella” that grows up from the gametophyte/liverwort male gametangia (antheridia) found embedded in the top surface of the gametophore several antheridia clustered onto an antheridial head or receptacle Male Gametophyte antheridium female gametophore male
Female Gametophyte female gametophore looks like a palm tree growing up from the gametophyte/liverwort female gametangia (archegonia) found “dangling” underneath archegonium = venter with an egg + tubular neck
The Liverwort Sporophyte in the liverwort – the fertilized egg in the archegonium becomes the embryo the embryo develops into the diploid sporophyte sporophyte is attached to the female gametophore by a seta and a foot the sporophyte is small and “dangles” off the female gametophore like “coconuts” end is the sporangium – contains haploid spores formed by meiosis
Sporophyte forms after the egg in the archegonium is fertilized comprised of a foot, seta and a “dangling” sporangium sporagngium is attached to the female gametophore by the foot and a seta spores are expelled out all at once (unlike mosses) presence of elaters with contract and expand with humidity to expel the spores once the spores are dispersed, the liverwort sporophyte withers away (unlike mosses) Female Gametophore with archegonia Marchantia polymorpha, a “thalloid” liverwort Foot Seta Sporangium 500 µm Marchantia sporophyte (LM)
Marchantia Asexual reproduction some uprisings are called gemmae cups – contain asexual gemmae – discs of green tissue that when dispersed generate new gametophytes develop by mitosis from the gametophyte gemmae cups & cross section
Phylum Anthocerophyta: Hornworts An Anthroceros hornwort species Sporophyte Gametophyte
The Economics of Moss mosses have very lightweight spores- easy distribution & the establishment of mosses around the globe very common and diverse in moist forests and wetlands can help retain nitrogenous compounds in the soil via their relationships with cyanobacteria many species can survive drought and rehydrate one wetland moss = Sphagnum or “peat moss” peat moss = partially decayed remnants of Sphagnum major component of partially decayed organic material called peat 3% of Earth’s surface are peatlands peat contains 30% of world’s soil carbon 450 billion tons of carbon is stored as peat Sphagnum moss
Vascular, Seedless Plants divided into two big groups 1. ferns, whisk ferns, horsetails – Division Pterophyta 2. club mosses, quillworts, spike mosses – Division Lycophyta called mosses – but they have vascular tissues!!!! limited adaptations have restricted many seedless plants to limited ranges have vascular tissue for the conducting of water and nutrients and metabolites similar to the xylem and phloem of seed bearing trees only economically important seedless vascular plant is the fern
Vascular, Seedless Plants life cycle is alternation of generations the sporophyte is the dominant plant the gametophyte is reduced in size – independent of the sporophyte and is restricted to moist habitats still retain flagellated sperm – needs moisture for reproduction well developed leaves and roots, stomata and structural support tissue most species are homosporous produce only one type of spore that gives rise to a haploid, monoecious gametophyte (via mitosis)
Phylum Lycophyta 5 existing genera: Lycopodium & Phylloglossum (club mosses) Selaginella (spike mosses) Isoetes and Stylites (quillworts) Quillwort Isoetes Golden club moss Selaginella (spike moss)
Division Lycophyta club mosses, spike mosses and quillworts 1200 species today NOT true mosses since they have vascular tissue most ancient line of vascular plants modern lycophytes grow on tropical trees as epiphytes – BUT they are NOT parasites Diphasiastrum tristachyum, a club moss Strobili (clusters of sporangia) epiphytic ferns
Division Lycophyta club mosses –sporangia are clustered on strobili (cones) strobili look like “clubs” strobilus are made up of clusters of modified leaves called sporophylls sporophylls bear spore-producing sporangia 200 living species most inhabit moist environments microphylls (leaves) are spirally arranged most are homosporous common example: Lycopodium – 95 species dried spores are flammable due to fat content and are used as flash powder in magic acts Diphasiastrum tristachyum, a club moss Strobili (clusters of sporophylls)
Division Lycophyta spike mosses Selaginella lepidophylla a spike moss spike mosses e.g. Selaginella lepidophylla – resurrection plant found in the desert as a dormant plant until moisture increases heterosporous – two types of spores megaspores produce the female gametophyte via mitosis microspores produce the male gametophyte via mitosis Selaginella canaliculata a spike moss
Selaginella strobili Lycopodium strobili Strobili with sporangia megaspores microspores
Division Lycophyta quillworts e.g. Isoetes qunnii gunnii, a quillwort quillworts e.g. Isoetes qunnii 60 species within the genus wet, muddy areas heterosporous almost every leaf bears a sporangia
Division Pterophyta ferns, whisk ferns & horsetails used to be three separate phyla Phylum Sphenophyta – horsetails Phylum Psilophyta – whisk ferns Phylum Pterophyta - ferns molecular biology now places them in one group = Division Pterophyta
Division Pterophyta horsetails = Equisetum Phylum Arthrophyta – “jointed plants” 15 living species rings of small leaves or branches can emerge from each joint stem is the main photosynthetic organ strobilus is comprised of multiple sporophylls bearing specialized sporangia each sporangium clustered together on an umbrella-shaped structure = sporangiophore sporangiophores are arranged in a compact spiral = strobilus
sporangiophore - Equisetum strobilus
Division Pterophyta whisk ferns dichotomously branching stems but no roots homosporous with spores that give rise to bisexual gametophytes that grow underground sporangia are called synangia look like three sporangia that have fused considered to be living fossils due to their resemblance to fossils of ancient vascular plants
Division Pterophyta ferns – 12,000 species fern is the sporophyte sporophyte is comprised of underground, horizontal stems called rhizomes from these come vertical shoots that give rise to large leaves called fronds divided into pinna (or leaflets) frond grows as the fiddlehead mature frond is called the megaphyll megaphyll is a compound leaf with a center rachis and multiple pinna the pinna itself may be may up of small pinnules part of the rachis without pinna = stalk (connects the frond to the rhizome) some fern species – e.g. staghorn fern – have a simple leaf structure
fronds rhizome rhizoids
Division Pterophyta fern gametophyte: is called the prothallus – very small and dependent on the sporophyte one to two cells thick heart or kidney shaped photosynthetic shrivels and dies after the young sporophyte develops anchored by rhizoids – not for absorption similar to Lycophyta http://www.youtube.com/watch?v=MQB7Moc3Dos http://www.youtube.com/watch?v=mDlHGrRlNPE
Division Pterophyta fern sporophyte: diploid bears sporangia (singular = sporangium) clustered under the pinna in structures called sori (singular = sorus) so one sorus is made up of multiple sporangia a sporangium contains spore mother cells (2n) the spore mother cells undergo meiosis to produce spores (n) haploid gametophyte
The Annulus and spore dispersal from the Sporangium http://www.youtube.com/watch?v=-xF83pHEx6Q the individual sporangium is a stalked structure at the end is a spring-like devicee that disperse the spores = annulus annulus = a row of cells that bisects the sporangium like a sturdy spine. annulus walls are permeable to water evaporating water is drawn out from the annulus, causing the cells to shrink – pries the sporangium open the presence of water within the sporangium propels the spores out like a catapult