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Groups (Kingdom) DOMAIN 1.Bacteria- cyanobacteria (blue green algae) 2.Archae 3.Eukaryotes Division: Rhodophyta “Algae” 1. Alveolates- dinoflagellates 2. Stramenopiles- diatoms, Ochrophyta 3. Rhizaria- unicellular amoeboids 4 Excavates- unicellular flagellates 4. 5. Plantae- rhodophyta, chlorophyta, seagrasses 6. Amoebozoans- slimemolds 7. Fungi- heterotrophs with extracellular digestion 8. Choanoflagellates- unicellular 1 9. Animals- multicellular heterotrophs 2 Algal Evolution: Unicellular, freshwater Chloroplast peptidoglycan Plantae 3.9 bya = Cyanobacteria appear and introduce photosynthesis Glaucophytes Rhodophyta Chlorophytes phycoerythrin Chl b, starch Charophytes Land Plants 2.5 bya = Eukaryotes appeared (nuclear envelope and ER thought to come from invagination of plasma membrane) 1.6 bya = Multicellular algae -Rhodophyta (Red algae) &Chlorophyta (Green algae) y Dinoflagellates g & Invertebrates appear pp 900 mya= 490 mya = Phaeophyceae (Brown algae) & land plants & coralline algae & crustaceans & mulluscs 408mya= Insects & Fish 362 mya = Coccolithophores & Amphibians & Reptiles 290mya- Gymnosperms 3 Adapted from Sadava 2014 145 mya = Diatoms & Angiosperms 1 Division Rhodophyta - most speciose of the macroalgae Location Red Brown Green S. Australia 800 (70%) 231 123 1154 7,117 species identified (up to 20,000 ?!?) 98% marine N. Atlantic 589 (50%) 324 258 1171 Biogeography/distribution • Found at all latitudes W.USA 459 (69%) 137 72 668 •Tropical- small & filamentous • Temperate highest # of spp (outnumber browns and greens) • Polar relatively few species – browns and greens dominate lots of crustose coralline reds, to 200 m • Size distribution tropical = mostly small filamentous plants (except calcareous forms) temperate = larger fleshy species 5 Rhodophyta Characteristics Algal taxonomy 1) Pigments: chl a & d carotenoids: B-carotene, A-carotene Hierarchical system of classification: phycobilins: phycocyanin, phycoerytrin, allophycocyanin 2) Plastid structure: • envelope: 2 • thylakoids: single, no stacks, covered with phycobilisomes 3) Storage product: floridian starch, doesn’t stain with IKI Level: Domain Group Division Class Subclass Order Family Genus species 4) Flagella: none 5) Life History: Alternation of Generations Only Mitosis: closed, no centrioles 6 7 suffix: -phyta p y -phyceae -phycidae -ales -aceae example: Eukaryote Plantae Rhodophyta Florideophyceae p y Rhodymeniophycidae Rhodymeniales Rhodymeniaceae Rhodymenia pacifica 8 2 Pigments Phycobilisome structure: Allophycocyanin 9 10 …vs. other divisions: pigments imbedded within the thylakoid membrane Phycobilisome on the thylakoid membrane Structure of phycoerythrin + protein 11 12 3 Rhodophyta Pigments Pigments Experiment: - same species of red algae - place on rope at 3 depths Buoy Reds respond to changing light conditions by: 1. Red light Changing the number/density of phycobilisomes 2. Changing g g the # of molecules of pigment pg in each antennae …what is this called? Green light 13 Pigments Rhodophyta: Morphology of Cell Walls (Extracellular Matrix or ECM – less rigid than other algae/plants) Experiment: - same species of red algae - place on rope at 3 depths Buoy 14 Two Main Components: PC 1. Cellulose microfibrils for structural support 2. Phycocolliods- Mucilaginous polysaccharides that surround microfibrils (more abundant than microfibrils) a. agar/agarose b. carageenan (after Irish Co b/c Chondrus crispus) Function: elasticity/flexibility (cope with water motion), desiccation prevention, osmoregulation (ion exchange), dispersal/motility?, fusion with other cells, wound repair, parasitism, increases in length/volume, attachment PE 15 16 4 Rhodophyta Cell Characteristics: large cells due to: Human Uses of Rhodophyta • Food • nori (Porphyra) • 1949 life cycle completed – advanced cultivation techniques 1. Multinucleate = one cell has multiple nuclei # of nuclei correlated to the number of plastids (replication, mitosis, no cytokinesis) • Phycocolliods = dervived from mucilagenous polysaccharides of cell walls •Thickeners •Stabilizers •Gels •Two important phycocolliods: • Carageenan (toothpaste, cosmetics, chocolate milk, ice cream, dessert gels, pet foods), found in Chondrus, Gigartina, Eucheuma and Kappaphycus •Agar (food gel, pharmaceutical capsules, medium for culturing microorganisms, gel electrophoresis), found in Gelidium, Gracelaria, Pterocladia, and Ahnfeltia 17 18 Cell characteristics Cell characteristics Apical cell: yp y repeated p genome g duplication p 2. Polyploidybuffer against mutation of essential genes (Endoreduplication = replication, no mitotic nuclear division) Multinucleate non-polyploid Uninucleate non- polyploid Uninucleate polyploid Uninucleate non- polyploid Uninucleate, polyploid Apical cell: Derived cells: Uninucleate non- polyploid Multinucleate non- polyploid Uninucleate polyploid Multinucleate non- polyploid Multinucleate non- polyploid Derived cells: Examples: 19 Multinucleate, non- polyploid Mazzaella, Callithamnion, Chondracanthus Uninucleate polyploid Microcladia Multinucleate non- polyploid Polysiphonia 20 5 Pit plugs - structural support between cells Pit plugs - structural support between cells Old name: “pit connections” • Protinaceous plugs between cells • Secondary pit plugs formed between non non-related related cells within and individual among filaments or between individuals (parasites) • Primary pit plugs formed f dd during i cytokinesis ki i between b 2 daughter cells within a filament • Not a real connection – unlike browns, not for transport 21 22 Polysiphonous – composed of tiers of vertically elongated cells, transversely arranged, the lateral cells around a central axis (siphon) Rhodophyta Morphology -Unicellular- solitary non motile cells central filament surrounded by 4 or more pericentral cells MAC Key: Cells in a regular transverse series - Filamentous- chain of cells -Parenchymatous- undifferentiated, undifferentiated isodiometric cells generated by a meristem - Pseudoparenchymatous- form of thallus composed of interwoven continuous filaments 23 Polysiphonia 24 6 Cortication : elaboration of polysiphonous condition where pericentral cells continue to proliferate Growth Reds often display growth through cell elongation Cell repair by cell fusion New growth = not florescent Partial Cortication 25 26 Uniaxial Growth- one longitudinal central filament forming the axis Heterotrichous Growth – filamentous growth in 2 directions, results in thallus composed of both prostrate + erect components Intercallary meristem = cell division Epithallus Parithallus hypothallus Apical meristem 27 28 7 Multiaxial Growth- several longitudinal medullary filaments, each derived from an apical cell Flagella? NO - lack of flagella has led to… TRIPHASIC LIFE HISTORY • Spores – no flagella • Gametes – no flagella • “Spermatia” “S i ” = unflagellated fl ll d male l gametes; no free f movement • Passive dispersal by water 29 Has led to adaptations that allow survival during seasonal variation in habitat and herbivory pressure… (Some herbivores prefer eating one life history 30 stage over another) Division: Rhodophyta- 6504 species 1. Class: Porphyridiophyceae -12 species Order: Porphyridales Division: Rhodophyta- 7,117 species • Unicellular • “a little round thing” • Soil, Arial habitats, Fresh water, Brackish, Marine Eight Ei ht classes l ss s Focus on 3 classes: 1. Class: Porphyridiophyceae -12 species 2.Class: Bangiophyceae-197 species 3.Class: Florideophyceae- 6,767 species •Surrounded by a mucilaginous sheath • Large stellate chloroplast • Reproduction by cell division, release of vegetative cells or by endospores 31 Genus: Porphyridium, Rufusia 32 8 Division: Rhodophyta- 6504 species Class: Porphyridiophyceae -12 species Order: Porphyridales Genus: Porphyridium Division: Rhodophyta- 6504 species 1.Class: Porphyridiophyceae -12 species Order: Porphyridales Genus: Rufusia Found only in sloth hair 33 34 Genus: Bangia Division: Rhodophyta- 6504 species 2.Class: Bangiophyceae-158 species Order: Bangiales - “simple” reds • Unbranched uniseriate filament in early development; later becomes multiseriate; rhiziodial extensions of lower cells - unicells, filaments, parenchymatous blades - marine, terrestrial, freshwater •2N conchocelis stage g like Pyropia y p - uninucleate uninucl t -one stellate chloroplast per cell •Asexual reproduction by monospores - pit plugs rare; if present, only primary, and in 2N stage • Pit plugs present in conchocelis stage but not in gametophyte - biphasic life history Genus: Bangia & Pyropia •Inhabits upper intertidal splash zone on rocks – rarely epiphytic 35 36 3 6 9 Genus: Pyropia (Porphyra) Algal Life Histories :Terminology 1N gametophyte: parenchymatous blade monostromatic or distromatic Spermatium, spermatia (pl) = a non motile cell that functions as a male gamete Carpogonium = female gamete 2N sporophyte: “conchocelis” stage discovered in 1949 by Kathleen Drew Baker B k REVOLUTION E microscopic filament lives on/in mollusk shells perennial Conchocelis stage= 2N filamentous stage; lives in/on CaCo3 shells of mollusks Conchospore = 1 N spore produced by 2N conchocelis stage Monospore= 1N or 2N asexual spore that develops into the same phase as the parent • Haplodiplontic life history • Saxicolous or epiphytic/endophytic • Harvested for nori Asexual vs. Sexual: gametophyte switches from monospores to gametes; triggered by daylength (fall = shorter days = sex) 37 38 Division: Rhodophyta- Life History of Bangaliales ex Pyropia Haplodiplontic Alternation of Generations: organism having a separate multicellular diploid sporophyte and haploid gametophyte stage 2.Class: BangiophyceaeOrder: Bangiales syngamy Mt Spermatia from male gametophyte spermatium Mt p g carpogonium 2N carpospores carpogonium microfilamentous 2N conchocelis stage 1N gametophytic macrothalli Mt meiosis occurs in conchosporangium fertilization plantlet Me Capogonium divides to form carposporesNo gominoblast 1N conchospore Mt monospore monospore 39 gametophyte 40 10 Division: Rhodophyta- 6504 species Triphasic Life History 3.Class: Florideophyceae-6199 species 1) Gametophyte: haploid, 1N multicellular releases gametes - advanced reds - always multicellular: filaments or psuedoparenchymatous -marine, freshwater 2) Carposporophyte: all 2N material on the female gametophyte where the 2N zygote is cloned to form the carpospores releases carpospores 3) Tetrasporophyte: diploid, 2N multicellular releases tetraspores -almost always multinucleate -many discoid chloroplasts -primary and secondary pit plugs - triphasic life history 41 1N gametophytes 2N carposporophyte on 1N female gametophyte Multiple 2N carpospores produced through mitosis in gominoblast filaments mitosis 1N 42 Triphasic Life Histories :Terminology trichogyne Female Gametophyte-hapliod, 1n, multicellular produces gametes Carpogonial branch (cb)= filamentous branch on which the carpogonium are formed cp cb Carpogonium (cp) =female gamete 2N Carpogonium on a carpogonial branch 1N 2N carpospores Trichogyne = extension of egg to which spermatium attaches Male Gametophyte-hapliod, 1n, multicellular release gametes 1N Spermatangial branch = filamentous branch which holds the spermatangia meiosis growth 1N tetraspores Spermatangium, Spermatangia-male reproductive structure that produce spermatia 2N 43 2N tetrasporophyte Spermatia= male gamete 44 11 1N gametophytes Triphasic Life Histories :Terminology 2N carposporophyte on 1N female gametophyte spermatia Male gametophyte - Polysiphonia Multiple 2N carpospores produced through mitosis in gominoblast filaments tricoblasts mitosis 1N 2N tricogyne Carpogonium on a carpogonial branch spermatangia Female gametophyte - Polysiphonia 1N 1N meiosis growth Trichoblast = usually a uniseriate filament of cells (with little pigmentation) that either remains sterile or can undergo division to form either spermatangia or carpogonium. 1N tetraspores 2N 46 2N tetrasporophyte 45 Triphasic Life Histories :Terminology 2N carpospores 1N gametophytes 2N carposporophyte on 1N female gametophyte Carposporophyte = diploid, multicellular, one of the 2N generations; develops from the fusion of the carpogonium & spermatium (all 2N material on the female gametophyte); this is where the 2N zygote is cloned to form the carpospores Multiple 2N carpospores produced through mitosis in gominoblast filaments Pericarp = 1N vegetative tissue that surrounds the carposporophyte mitosis Cystocarp = pericarp (1N) + carposporophyte (2N). 1N Carposprorangia = reproductive structures that produce carpospores 2N Gonimoblast = 2N filaments bearing carposporangia in the carposporophyte Carpogonium on a carpogonial branch Carpospore = dipliod (2n) spore formed by mitosis by the carposprophyte 1N 2N carpospores 1N meiosis growth 2N 1N tetraspores 1N 47 2N 48 2N tetrasporophyte 12 ( ) Carpospoophyte (2N) Mt Mt ( ( ) ) ( ) Gametophyte (1N) Carpospores (2N) Gametophyte (1N) Me ( ) Tetraspores (1N) Tetrasporophyte (2n) ( ) Mazzaella Triphasic Life Histories :Terminology Tetrasporophyte = diploid, multicellular, one of the 2n generations; develops from germinating carpospore & release tetraspores Tetrasporangium = 2N cell which undergoes meiosis to form 4 tetraspores Tetraspore = haploid (N) spore formed by meiosis by the tetrasporophyte types of tetraspore arrangement within the tetrasporangia (four 1N spores) Tetrahedral Cruciate (two views) 1N gametophytes Zonate 51 2N carposporophytes on female gametophyte 2N tetrasporophyte 52 13 Mastocarpus species complex 2N carposporophytes on female gametophyte 1N gametophytes 2N tetrasporophyte 53 14