Life in Freshwater

Lecture 1

 

 

 

Life in Freshwater

  • Freshwater is a small percentage of all water on earth and occupies a small percentage of earth’s surface area
  • Fairly rapid turnover of water in lakes, rivers, and streams
  • Water has unique physical properties
  • Freshwater bodies are ephemeral on a geological time scale
    • 10-15K yrs since the last ice age, not a lot of time for evolution in glacial lake basins
    • Likely will be another glaciation in a few 10K yrs
  • Freshwater bodies are physically discontinuous
    • Small waterbodies separated by land with incomplete interconnections
  • In really old, deep lakes some endemic species have evolved (Baikal, Tanganyika, Malawi)

 

Origins of Freshwater Life

  • Animals
    • Originally evolved in the sea, some such as crustacea, invaded freshwater directly from the sea
    • Some, such as insects, moved to land and then invaded freshwater from land
  • Plants
    • Vascular plants evolved on land, invaded freshwaters thus presence of stomata and problems with root anaerobiosis
  • Microbes
    • Most evolved originally in the sea and invaded fw from there

 

Life History Patterns

  • Nutrition: Needed for Energy and Essential Elements/Compounds
    • Autotroph (primary producer): manufactures its own biomass from inorganic materials (CO2, minerals)
      • Photoautotroph: utilizes sunlight as an energy source and CO2 as the C source   H20  +  CO2  + sunlight à  (CH2O)  +  O2
      • Chemoautotroph: utilizes reduced inorganic compounds as energy source and CO2 as C source.
    • Heterotroph (consumer): requires C in form of complex organic molecules for both energy and essential elements/compounds
      • Herbivores: consumers which feed on living plant material
      • Carnivores: consumers which feed on living animal material\
      • Detritivores: consumers which feed on detritus (saprophytes)
    • H20    +    CO2    à    (CH2O)    +    O2

 

  • Reproduction
    • Asexual:
      • offspring are genetically identical to parent
      • usually allows for rapid growth of population
      • low metabolic cost per offspring
    • Sexual:
      • Normally involves two parents of different genotype
      • Allows formation of new genotypes
      • Facilitates evolutionary adaptations
      • May also be used to produce resting stages

 

  • Sexual Life History Patterns
    • Usually involve alternation between haploid (1 chromosome set per cell) and diploid (2 chromosome sets per cell) forms
    • Meiosis and fertilization allow switching between the two forms
    • Types of Sexual Life History Patterns
      • Gametic Meiosis:  Meiosis produces gametes – eg. Humans
      • Sporic Meiosis: Meiosis produces spores – eg. Ulva (sea lettuce)
      • Zygotic Meiosis: Zygote undergoes meiosis, is only diploid cell
    • Other definitions
      • Isomorphic: Haploid and Diploid individuals are the same

Kingdom Monera (The Bacteria)

  • Characteristics:
    • Bacterial cell wall containing murein
    • Bacterial ribosome 70S
    • Reserve material is poly-$-hydoxybutyric acid, glycogen
    • No organelles or membrane-bound bodies with the cell
    • May possess flagella
    • No membrane-bound nucleus, nuclear material is single circular loop of DNA
    • May from endospores – small bacterial cell within multiple membranes and wall structures, resistant to high temperatures, drying, etc.
  • Classification:
    • Based on
      • Morphology (rod/bacillus, coccus/sphere, spirillum/spiral)
      • Gram stain reaction
      • Specific structures/behavior
      • Metabolic features (this will be the focus of our discussion)
  • Phototrophic Bacteria (energy obtained from photosynthesis/primary producers)
    • Cyanobacteria (“blue-green” algae)
      • Conduct traditional photosynthesis
      • Produce O2
      • Electron donor is H2O
      • Ecologically similar to true “algae”
      • Reproduction by fragmentation or thick-walled resting cells (akinetes)
      • N2 fixation by species with heterocysts & by other species in dense colonies
      • Gas vacuoles: allow regulation of buoyancy
      • Some toxic strains
      • Most abundant in polluted or nutrient enriched systems
      • Examples of morphological diversity
    • Rhodospirilliaceae (purple non-sulfur bacteria)
      • No O2 production
      • Found only in anaerobic conditions
      • Electron donor is H2, thiosulfate, organic S
    • Chromatiaceae (purple sulfur bacteria) & Chlorobiaceae (green sulfur bacteria)
      • No O2 production
      • Found only in anaerobic conditions
      • Analogous to regular photosynthesis with H2S as electron donor and elemental sulfur is deposited
  • Gram-negative chemolithotrophic bacteria (energy from inorganic molecules)
    • Nitrobacteriaceae (used nitrogen & sulfur-oxidizing bacteria)
      • Nitrobacter: oxidize nitrite to nitrate
      • Nitrosomonas: oxidize ammonia to nitrite
      • Thiobacillus: oxidize hydrogen sulfide to sulfate
    • Siderocasaceae
      • Derive energy from Iron or Manganese oxidation
  • Methane-producing bacteria
    • Restricted to anaerobic habitats such as sediments
    • Strip oxygen from organic compounds for respiration and leave methane behind
  • Gram-negative aerobic rods and cocci
    • Pseudomonadaceae
      • Common inhabitants of sediment and freshwater
      • Generalized heterotrophs
      • Wide temperature tolerances
    • Azotobacteraceae
      • Inhabitants of sediment and water
      • Heterotrophs which fix N2
    • Rhizobaceae
      • Restricted to nodules of legumes
      • Heterotrophs which fix N2
    • Methylmonadaceae
      • Similar to Pseudomonadaceae, but only use 1-C organic molecules
    • Halobacteriaceae
      • Similar to Pseudomonadaceae, but require high salt concentrations
  • Gram-negative facultatively anaerobic rods
    • Vibrionaceae
      • Facultative anaerobes
      • Generalized heterotrophs
      • Found in fresh and salt water
  • Gram-negative cocci and coccobacilli
    • Acinetobacter
      • Ubiquitous decomposer
      • Generalized chemoorganotroph (hetrotrophs)
  • Gram-positive cocci (most are associated with plants or animals)
    • Micrococcus
      • Generalized chemoorganotrophs (hetrotrophs)
      • Found in soil and fresh water
  • Endosport-forming rods and cocci
    • Bacillus
      • Aerobic and chemoorganotrophic
      • Found in decaying plant and animal matter
  • Gliding bacteria
    • Aerobic chemoorganotrophs
    • Found on decomposing plant matter and animal feces
    • Some have been isolated from freshwater (eg. Beggiatoa)
  • Sheathed bacteria
    • Heterogeneous group
    • Sphaerotilis: heterotroph found in slow-running polluted waters (“sewage fungus”)

Kingdom Myceteae (Fungi)

  • Characteristics
    • Eukaryotic cells
    • Organelles
    • Organized nucleus with membrane
    • 80S ribosomes in cytoplasm
    • most have a cell wall of cellulose and chitin
    • most produce filaments known as hyphae
    • hyphae may be septate or coenocytic
    • fungi produce a wide variety of spores involved in reproduction and dissemination
  • Division Mastigomycota (produce flagellated cells, zoospores)
    • Class Chytridiomycetes
      • Produce motile cells each with a single posterior whiplash flagellum
      • Prevalent in aquatic habitats/soil
      • Microscopic
      • Some parasitize algae
      • Some are unicellular with no mycelia
      • Some have rhizoids (short delicate filaments, no nuclei, for anchorage and nutrient absorption)
      • Some have rhizomycelia (hypha-like filaments)
      • Example: Rhizophidium
    • Class Oomycetes
      • Biflagellate zoospores with 1 tinsel flagellum (directed forward) and 1 whiplash flagellum (trailing)
      • Cell walls contain no chitin
      • Sexual reproduction is oogamous by contact
      • Meiosis is gametangial (=~gametic)
      • Free-living (saprobic) or ectoparasitic on algae, water molds, small animals
      • Easy to culture on hempseed
      • Example: Saprolegnia
  • Division Amastigomykota (no flagellated cells known)
    • SubClass Hyphomycetes
      • Septate hyphae
      • Reproduce only asexually (conidia) making classification difficult
      • Many are plant or human pathogens or industrial fungi
      • Some prey on nematodes
      • Very important in the breakdown of leaves of terrestrial origin in streams
        • Hyphae help in invasion of tissue
        • Fungi are better able to attach structural polyments like cellulose and pectin than bacteria

 

 

Kingdom Protista

-unicellular, colonial or filamentous eukaryotes without specialized cells or tissues

 

Subkingdom Algae (photosynthetic protests)

  • Characteristics
    • Ecologically similar, but taxonomically diverse group
    • Divided into groups (divisions/classes) based on:
      • Pigments
      • Storage compounds
      • Motility
      • Wall Material
  • Class Chlorophyceae
    • Chlorophyll a, b
    • ", $ -carotene
    • Starch as storage material
    • Flagellated cells common
    • Cellulose as wall material
    • Taxa of Interest
      • Order Volvocales
        • Flagellated cells and colonies
        • Cup-like chloroplast
        • Progression of genera:
          • Chlamydomonas (unicell)
          • Gonium (flat plate colony, 4-32 cells)
          • Pandorina (sphere, 4-32 cells)
          • Eudorina (sphere, 16-64 cells)
          • Volvox (hollow sphere, 500-50,000 cells)
        • Asexual reproduction
          • Autocolonies
          • Palmella resting stage
        • Sexual reproduction
          • Zygotic meiosis
          • Isogamous
      • Order Chlorococcales
        • Nonflagellated cells, aggregations, and colonies
        • Representative genera:
          • Pediastrum
          • Scenedesmus
          • Ankistrodesmus
        • Asexual reproduction: autocolony formation
        • Sexual reproduction: isogamy
      • Order Ulotricales
        • Filaments with uninucleate cells, band-shaped chloroplast
        • Asexual reproduction:
          • Binary fission & fragmentation
          • Zoospores
        • Sexual reproduction
          • Flagellated isogametes
          • Meiosis inferred to be zygotic
        • Representative Taxa
          • Ulothrix
      • Order Oedogoniales
        • Filaments with uninucleate cells & reticulate chloroplast
        • Wall thickenings (rings) created during mitosis
        • Asexual reproduction
          • binary fission and fragmentation
          • zoospores (multiflagellate)
        • Sexual reproduction
          • Ooganous
          • Zygotic meiosis
        • Representative Genera
          • Oedogonium
          • Bulbochaete
      • Order Cladophorales
        • Filaments with multinucleate cells
        • Chloroplasts reticulate or discoid
        • Asexual reproduction
          • Binary fission and fragmentation
          • Zoospores
        • Sexual reproduction
          • Some documented with gametic or sporic meiosis, more work needed.
        • Representative genera
          • Cladophora
          • Rhizoclonium
  • Class Charophyceae
    • Generally similar to the chlorophytes, but in cellular ultrastructure are distinctly different
    • Chlorophyll a, b
    • ", $ -carotene
    • Starch as storage material
    • Flagellated cells common
    • Cellulose as wall material
    • Taxa of Interest
      • Order Charales (stoneworts)
        • Macrophytic
        • Branching filaments with apical growth and complex reproductive structures
        • Representative genera:
          • Chara
          • Nitella
      • Order Zygnematales
        • No flagellated stages
        • Asexual reproduction: binary fission and fragmentation
        • Sexual reproduction: conjugation
        • Representative genera:
          • Spirogyra (filament with spiral chloroplast)
          • Zygnema (filament with starlike chloroplast)\
          • Mougeotia (filament with band chloroplast)
          • Cosmarium (desmid with twin spheres)
          • Closterium (desmid with two curving cones)

 

    • Division Euglenophyta
      • Basic Characteristics
        • Chl a, b
        • b-carotene
        • paramylon as storage
        • protein pellicle as outer covering
        • all cells flagellated
      • Only a few genera, all are flagellated unicells
        • Euglena, Phacus (naked, only pellicle)
        • Trachelomonas (also has outer shell or test)
      • Only asexual reproduction by binary fission has been observed
    • Division Chrysophyta
      • Basic Characteristics
        • Chl a, c
        • Fucoxanthin as carotinoid
        • Chrysolaminarin, oils as storage
        • Some are naked, some have silica walls or scales
        • Flagellated cells are heterokontous
          • 2 flagella: 1 whiplash, 1 tinsel
      • Class Chrysophyceae
        • Cells naked or covered with silica scales or shell (lorica)
        • Some cells are phagocytic in addition to photosynthetic
        • Limited number of genera, single cells or colonies of cells
          • Ochromonas (unicell, naked)
          • Mallomonas (unicell, siliceous scales)
          • Dinobryon (colony of cells in siliceous wineglasses)
          • Synura (spherical colony of unicells)
        • Reproduction
          • Asexual
            • Binary fission
            • Cyst (statospore) formation
          • Sexual
            • Isogamous or anisogamous
            • Zygotic meiosis
      • Class Tribophyceae
        • Non-flagellated cells and filaments
        • Reproduction
          • Asexual
            • Binary fission, fragmentation
            • Zoospores
          • Sexual
            • Isogamy or anisogamy or oogamy
            • Resting zygotes
            • Zygotic meiosis
        • Representative genera
          • Tribonema (fine filament)
          • Vaucheria (large bore coenocytic (no crosswalls) tube)
      • Class Bacillariophyceae (diatoms)
        • Silica wall (frustule) like a “petri plate”
        • Taxonomy based on wall structure
        • Two main groups
          • Pinnate: bilaterally symmetric
          • Centric: radially symmetric
        • Very important freshwater primary producers
          • Abundant, particularly in spring and fall
          • Desirable food for small invertebrate grazers
        • Reproduction
          • Asexual
            • Binary fission
            • Decreasing size
          • Sexual
            • Oogamy (centric) or isogamy (pinnate)
            • Zygote is resting cell (auxospore)
            • Gametic meiosis
        • Representative genera
          • Synedra (unicellular pinnate)
          • Fragilaria (filamentous (side-by-side) pinnate)
          • Asterionella (“wagon-wheel” pinnate colony)
          • Cyclotella (unicellar discoid centric)
          • Melosira (barrel-shaped filamentous centric)
    • Division Pyrrhophyta (dinoflagellates)
      • Properties
        • Chlorophyll a, c
        • Peridinin as xanthophylls
        • Starch as storage
        • Naked or cellulose shell (theca)
        • Distinctive cell structure
          • All unicells
          • 2 flagella: 1 girdle whiplash, 1 trailing whiplash
        • Analogous non-photosynthetic cells in Subkingdom Protozoa
        • Some may secrete toxins and form “red tides”
      • Reproduction
        • Asexual
          • Binary fission
        • Sexual
          • Cells function as gametes
          • Zygotic meiosis
      • Representative taxa
        • Ceratium (very large “Eifel tower” form)
        • Peridinium (spherical unicell with plates)
        • Gymnodinium (naked unicell, “gymno-” means naked)
    • Division Cryptophyta
      • Properties
        • Chlorophyll a, c
        • Phycobilins
        • Starch as pigment
        • All are naked flagellated unicells
        • Reproduce by cell division, no sexual reproduction
      • Representative taxon (very few genera)
        • Cryptomonas