Physiology and Cultivation of
Algae and Cyanobacteria
2.
Summaries of the ten algal divisions
• Historically
– classified on basis of: pigmentation, chem. structure of
storage products, thylakoid membrane organization,
chemistry, structure of cell wall, number, arrangement,
and ultrastructure of flagella, occurrence of special
features, sex.cycles
• Recently
– comparison of sequence of 5S; 18S; 28S rRNA, internal
genetic coherence
Cyanophyta
– together with prochlorophyta – non-motile G- eubacteria
• 1-cell. to filament (un-/branched), & colonial aggr.
• widely distrib.; planctonic, blooms, picoplancton, benthic, soil, mud,
hot springs; symbiotic
• Pigm.: chl a, blue & red phycobilins, carotenes
• phycobilisomes in rows on outher surface of thylakoids
• Thylacoids – free in cytoplasm, non-stacked, singled&equidistant
• Res.polysach.: cyanophycean starch (granules betw. thylakoids),
cyanophycin
• some marine contain gas vesicles
• some filamentous form heterocysts & akinetes
• some produce hepato-, neurotoxins
Prochlorophyta
• 1-cell. / filamentous (un-/branched)
• free-living component of pelagic nanoplancton, obligate symbionts within
didemnid ascidians & holoturians
• mainly limited to tropical&subtropical env.
• Pigm.: chl a, chl b, -carotene, xanthophyls lack phycobilins,
• Thylakoids – free in cytoplasm, stacked
• Res.polysach.: cyanophycean starch (starch-like)
Cyan.&Prochlor.
• able to fix nitrogen
• contain polyhedral bodies (carboxysomes) with RuBisCO
• in cell wall peptidoglycane layer
• obligate photoautotrophs
• asexual reproduction (cell division / fragmentation of colonies)
Glaucophyta
• 1-cell., flagellate, dorsiventral construction, 2 unequal flagella inserted
in shallow depression below apex
• marine, rare freshw., solme soil
• Pigm.: chl a, acces.pigm.: phycoerythrocyanin, phycocyanin,
allophycocyanin in phycobilisomes, carotenoids
• Chlpl. lie ni spec. vacuole, present thin peptidoglycan wall betw. 2
outher plastid membranes
• Thylacoids non-stacked
• ctDNA in center of chlpl. near carboxysomes (RuBisCO)
• Res.polysach.: starch (granules in cytoplasm outside of chlpl.)
• photoautotrophs with blue-green plastids – cyanelles
– presumed to be phylogenetically derived from endosymbiotic cyanobacterium
• unknown sex. reproduction
Glaucocystis sp. / from Kanazawa, Ishikawa Pref., Japan / Microscope:Leica DMRD (DIC)
Rhodophyta
• red algae, mostly seaweeds, can free-living 1-cell.
• mostly marine
• lack flagellate stages
• Pigm.: chl a, phycobiliproteins in phycobilisomes
• Chlpl. 2-membrane enclosure
• thylakoids – non-stacked, single&equidistant within chlpl.
• ctDNA scattered throughout chlpl.
• Res.polysach.: floridean starch & -1.4-glucan polysach. – grains in
cytoplasm
• mostly photoautotrophs
• Repr.
– in majority – cytokinesis incomplete >> pit connection >> proteinacous
plug >> plug
– sexual.: isomorphic / heteromorphic diplohaplontic life cycle
Rhodophyllis Divaricata -
http://www.algaebase.org/search/species/deta
il/?species_id=121
Heterokontophyta
• when 2 flagella they are different
• flagelate cells – heterokont – long mastigonemate flagellum directed forward during
swimming & short smooth fl., points backwards along the cell
• 1-cell-to-colonial, filamentous, siphonous, multicellular complex kelp; various type of
flagellum
• mostly marine (can freshw,&terestrial)
• Pigm.: prepoderance of carotenoids over chlorophylls
– chl a, c1, c2, c3, access.: b-carotene, fucoxanthin, vaucheriaxanthin
• thylakoids stacked in three – lamellae
• one lamellae usually runs along whole chlpl. = girdle lamellae
• chlpl. 2-membrane & fold of ER
• ctDNA – ring-shaped
• Res.polysach.: chrysolaminarin in cytoplasm in spec. vacuole
• eyespot – layer of globules, enclosed within chlpl. together with photoreceptor loc. in
smooth flagellum, forms photoreceptive apparatus
• photoautotrophy can be combine with heterotrophy
• sex. reproduc.: life cycle – haplontic (Chrysophyceae), diplontic (Bacillariophyceae),
diplohaplontic (Phaeophyceae)
http://www.urbanrivers.org/drawingdiatoms/diat
oms.html
http://oceandatacenter.ucsc.edu/PhytoGallery/dinos%2
0vs%20diatoms.html
http://www.calacademy.org/science_now/archive/
academy_research/sarah_spaulding.php
Haptophyta
• mostly 1-cell., motile, palmelloid / coccoid (rare colonial/filament.)
• generaly marine
• flagellate cells – 2 naked flagella inserted laterally or apically (may have diff.
lenght)
• haptonema – typically long organelle flagellar structure (diff ultrastruct.)
• Pigm.: chl a, c1, c2, access.: fucoxanthin, -carotene, xanthins
• Chlpl. enclosed within fold of ER
• Thylakoids – stacked in three, no girdle lamellae
• ctDNA – nucleoid scattered in chlpl.
• can be eyespot – row of globules inside chlpl., no associated flagellar struct.
• Res.polysach.: chrysolaminarin
• Cell surface – tiny celulosic scales or calcified scales bearing spoke-like fibrils
• Phototrophs / heterotrophs, phagotrophy in forms that lack cell covering
• Sex. reprod.: heteromorphic diplohaplontic life cycle
Cryptophyta
• 1-cell. flagellate
• assymetric cells, dorsiventrally constructed
• 2 unequal hary flagella, subapically inserted, emerging from above gullet loc.
on ventral side of cell – lined by ejectosomes
• free-swimming in freshw. & marine
• Pigm.: chl a, c2, phycobilins in thylakoid lumen > in phycobilisomes
• Chlpl. – 1 - 2 per cell, surrounded by fold of ER - in these intermembrane
space – peculiar organemme – nucleomorph - ? nucleus of red algal symbiont
• Thylakoids in pairs, no girdle lamellae
• Pyrenoid projects out from the inner side of chlpl.
• ctDNA condensed in small nucleoid inside chlpl.
• Res.polysach.: starch ganules in periplastidial space
• eyespot sometimes inside plastid, no association with flagella
• Cell enclosed in stiff, proteinaceous periplast – polygonal plates
• mostly photosynthetic nutrition, can be heterotrophs
• Repr.: primary longitudinal cell division, can be sexual
Dinophyta
• 1-cell., flagelates (can be ameboid, coccoid, palmelloid or filament.)
• 2 flagella with independent beating pattern (1st - training, 2nd - girdling) >> rotatory whirling motion
• characteristic cell covering components beneath cell membrane (layer of flat, polygon. vesicles –
empty or celulose filled)
• dinokont type – theca – bi-partite armor (upper, anterior [epiconus]; lower, posterior [hypoconus])
separated by groove (cingulum) loc. transversal flagellum; smaller groove (sulcus) – extended
posteriorly – host longitudinal flagellum
• important freshw. & marine microplancton
• consumed by filterfeeders; parasites; endosymbionts of tropical corals
• Pigm.: chl a, b, c1, c2, fucoxanthin, carotenoids, xanthophylls
• Chlpl. (if present) surrounded by 3 membranes
• Thylakoids stacked in 3; ctDNA in small nodules scattered in whole chlpl.
• complex photoreceptive system “compound eye” (Warnowiaceae) – lens & retinoid
• Dinocaryon – eukaryotic nucleus, chromosomes condensed during mitosis, karyotheca unbroken –
endomitosis
• Res.polysach.: starch - grains in cytoplasm; oil droplets in some genera
• At cell suraface – trichocysts – discharge explosively when stimulated
• Photoautotrophy & hi. diversity of nutrit. types
• can form blooms, possib. bioluminiscence
• Sex. reproduct. – haplontic life cycle; can form hypnospores
A marine dinoflagellate. (Bar: 30 mm.)
Dorsal view of Gonyaulax sp.,
a brackish water dinoflagellate.
Euglenophyta
• mostly unicell.flagellates, can be colonial
• widely distributed, freshwater, brakish & marine, abundant in hi. heterotrophic
env.
• flagella arise from bottom of cavity – reservoir (loc. in anterior end of cell);
can live in mud; presence of pellicle – proteinaceous wall inside cytoplasm –
spiral construction
• Pigm.: chl a & b,  & -carotenes, xanthins, some spec. can absent plastids
• Chlpl.- 3 membrane envelope
• Thylakoids – group of three without girdle lamella
• photoreceptive system – orange eyespot loc. free in cytoplasm; true
photoreceptor loc. at base of flagellum
• Res.polysach.: paramylon (-1,3-glucan); granules inside cytoplasm(not in
chlpl.)
• obligate mixotrophs, require vitamins of B group; colorless can be
phagotrophs, osmotrophs
• Reproduction – only asexual
Unicell of Euglena mutabilis. (Bar: 10 mm.)
Chlorarachniophyta
• naked, unicell., form net-like plasmodium via filopodia
• life cycle forms – amoeboid, coccoid, flagellate stages
• ovoid zoospores bear single flagellum
• marine
• Pgm.: chl a & b
• Chlpl. – 4-membrane envelope, each has prominent projecting
pyrenoid
• Thylakoids – stacked in one to three
• nucleomorph present btw. 2nd and 3th membrane originated from green
algal endosymbiont
• Res.polysach.: paramylon (-1,3-glucan)
• phototrophs & phagotrophs engulfs bacteria, flagelates & eukaryotic
algae
• Repr. – mostly asexual – mitosis or zoospore formation
– heterogamy rarely
Plasmodial reticulum of Chlorarachnion,
bright field microscope image (a) and schematic drawing (b). (Bar: 4 mm.)
Chlorophyta
• great range of somatic differentiation (flagellates to differentiated multicell. thalli)
• thallus organization <--> basis of classification
• flagella -wide diversity in number & arrangement (1-8 in apical / subapical region)
• zoids are isokont (similar struct. but can differ in lenght)
• freshwater, marine & terestrial
• Pigm.: chl. a & b,  & -carotenes, xanthophylls
• Chlpl. – 2-membrane envelope
• Thylakoids – stacked, form grana
• pyrenoid (if present) in chlpl.
• ctDNA – circular
• Res.polysach.: starch – most important – grain inside chlpl.
• glucan & -1,4-mannan can present in cell wall
• eyespot (if present) loc. inside chlpl.
• photoautotrophs, can be heterotrophs
• Repr. – sex. – variety of life cycle – group specific
– similarity to higher plants - Trentepohliaceae – cell division using phrogmoplast disc where the
cells will divide
• probably land plants derived directly from these freshwater algae
Unicell of Pyramimonas longicauda.
Filament of Oedogonium sp., with a Peranema sp. cell. (Bar: 20 mm.)
Thallus of Codium sp. (Bar: 2 cm.)
Thallus of
Trentepohlia arborum.
Thallus of Nitella sp.
Portion of the thallus
of Acetabularia sp.
Endosymbiosis & origin of
eukaryotic algae
• procaryotic ancestor → endosymbiotic events → primary plastid
• secondary / tertiary endosymbiosis → plastid (sec. eukaryotic cell)
• arrangement of cellular compartments inside the the other – info about evolut.
history
• Cyanobacteria
– evolved >2.8 bill. years ago
– fundamental roles in ocean carbon, oxygen, nitrogen fluxes
– turning point in biogeochemistry of Earth
– photosynthesis – energy of VIS, oxidation of H2O, reduction of CO2
– CO2 + H2O + light chl a> (CH2O)n + O2
Three major algal lineages of primary plastids
• Glaucophyta lineage
– plastids – thin peptidoglycan cell wall & cyanobacter.-like pigments
» cyanobacterial ancestry
– neither green nor red plastid present
– any secondary plastid derived from Glacophyta is known
• Chlorophyta lineage “green algae”
– green algal plastid
– 2-membrane system surround.
• chl b – sec. pigment, phycobiliproteins lost
– other – prochlorophyte based hypothesis
– major role in oceanic food webs & carbon cycle from -2.2 bill. years until Permian extinction (-250mil y.)
– origin of land plants
– >Secondary endosymbiosis → Euglenophyta (3-membrane plastid) & Chlorarachniophyta (4-membrane plastid
• Rodophyta leneage “ red algae”
– red algal plastid
– 2-membrane system
• chl a & phycobiliproteins organized into phycobilisomes attached on thylakoid membrane
• Thylakoids with phycobilisomes don’t form stacks – similar to cyanobacteria
– >Secondary endosysmbiosis → Cryptomonades (Cryptophyta)
• (4-membrane plastid) + chl c (also Haptophyta, Heterocontophyta & Dinophyta)
– stacked thylakoids found in lineages lacking phycobilisomes
– >a few groups of Dinoflagelates Tertiary endosymbiosis – uptake of secondary plastid containing
endosymbiont
– All these groups are relatively modern org.
– dinoflagelates & coccolithophorids rise paralel with dinosaurs
– diatoms rise with mammals
members of red lineages in shallow seas in Jurassic period provide petroleum
Endosymbiosis & origin of
eukaryotic algae
Chlorophyll a,b
Chlorophyll a,b
Chlorophyll a,b
Chlorophyll a,b
Chlorophyll a,d
Chlorophyll a,c
Chlorophyll a,c
Chlorophyll a,c
Chlorophyll a,c