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Heterotrophic Nutrition

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Title: Heterotrophic Nutrition


1
Heterotrophic Nutrition
  • By Abdul Manap Mahmud

2
Introduction
  • Definitions of heterotrophic on the Web
  • Refers to organisms, such as animals, that depend
    on preformed organic molecules from the
    environment (or another organism) as a source of
    nutrients/energy.www.emc.maricopa.edu/faculty/far
    abee/BIOBK/BioBookglossH.html
  • Requiring organic substrates for growth and
    development being incapable of synthesizing
    required organic materials from inorganic
    sources. (20)ppathw3.cals.cornell.edu/glossary/De
    fs_H.htm
  • obtaining nourishment from organic substances,
    not from food produced within the
    organism.www.dfo-mpo.gc.ca/canwaters-eauxcan/bbb-
    lgb/library-bibliotheque/glossary-glossaire/index_
    e.asp

3
Introduction
  • unable to derive energy from photosynthesis or
    from inorganic chemical reactions, and so
    dependent on energy-containing organic compounds
    derived from the current or prior existence of
    other organisms, cf. AUTOTROPHIC.www.mycolog.com/
    GLOSSARY.htm
  • Describing consumers, organisms that cannot
    synthesize food from inorganic materials and
    therefore must use the bodies of other organisms
    as a source of energy and body-building
    materials.biology.usgs.gov/st/noframe/z999.htm
  • An organism incapable of producing organic
    compound from inorganic materials and thus must
    rely on other living or dead organisms for its
    food supply.www.botanyvt.com/pages/dictionary.shtm
    l
  • requiring ready formed organic food.gmbis.marineb
    iodiversity.ca/BayOfFundy/glossE-H.html

4
Source of Carbon
5
Source of Carbon
6
Source of Carbon
  • The concentration of carbon in living matter
    (18) is almost 100 times greater than its
    concentration in the earth (0.19).
  • So living things extract carbon from their
    nonliving environment. For life to continue, this
    carbon must be recycled.

7
Source of Carbon
  • Carbon exists in the nonliving environment as
  • Carbon dioxide (CO2) in the atmosphere and
    dissolved in water (forming HCO3-)
  • Carbonate rocks (limestone and coral CaCO3)
  • Deposits of coal, petroleum, and natural gas
    derived from once-living things
  • Dead organic matter, e.g., humus in the soil

8
Source of Carbon
  • Carbon enters the biotic world through the action
    of autotrophs
  • primarily photoautotrophs, like plants and algae,
    that use the energy of light to convert carbon
    dioxide to organic matter.
  • and to a small extent, chemoautotrophs bacteria
    and archaeans that do the same but use the energy
    derived from an oxidation of molecules in their
    substrate.

9
Source of Carbon
  • Carbon returns to the atmosphere and water by
  • Respiration (as CO2)
  • Burning
  • Decay (producing CO2 if oxygen is present,
    methane (CH4) if it is not.

10
Source of Carbon
11
Source of Carbon
12
Source of Carbon
  • Definitions of Chemoheterotroph on the Web
  • A chemoheterotroph is an organism that must
    consume organic molecules for both energy and
    carbon. en.wikipedia.org/wiki/Chemoheterotroph

13
Omnivores
14
Omnivores
  • Definitions of Omnivores on the Web
  • Animals that feed on material of both plant and
    animal originwww.ecifm.rdg.ac.uk/glossary.htm
  • Animals that eat many different kinds of foods,
    including plants, insects, and other
    animals.www.nps.gov/olym/edgloss.htm
  • Eats live prey and plantsboxturtlesite.org/glos.h
    tml
  • The category of animals that feed on both plants
    and animals. (omni-, all -vore,
    eater)www.dfr.state.nc.us/stewardship/wwwildlife/
    www13.htm
  • such as bears and humans, eat both meat and
    plants.www.teachervision.fen.com/page/5485.html
  • Omnivores are organisms that consume both plants
    and animals. en.wikipedia.org/wiki/Omnivores

15
Omnivores
  • Omnivores eat plants, but not all kinds of
    plants.
  • Omnivores can't digest some of the substances in
    grains or other plants that do not produce fruit.
  • They can eat fruits and vegetables, though. Some
    of the insect omnivores in this simulation are
    pollinators, which are very important to the life
    cycle of some kinds of plants.

Large Omnivores
16
Omnivores
17
Omnivores
  • Some animals dont fit neatly into a single
    category because they have wider tastes. These
    animals, that feed on a combination of plants and
    animals, are called Omnivores.

18
Carnivores
19
Carnivores
  • Definitions of carnivores on the Web
  • Term applied to a heterotroph, usually an animal,
    that eats other animals. Carnivores function as
    secondary, tertiary, or top consumers in food
    chains and food webs.www.emc.maricopa.edu/faculty
    /farabee/BIOBK/BioBookglossC.html
  • Animals that feed on other animals or material of
    animal origin.www.ecifm.rdg.ac.uk/glossary.htm
  • Organisms that mainly prey upon
    animals.highered.mcgraw-hill.com/sites/0070294267
    /student_view0/glossary_a-d.html

20
Carnivores
  • Animals and a few plants that consume dead or
    living animal food.museum.gov.ns.ca/mnh/nature/nh
    ns2/glossary.htm
  • carnivores feed strictly on meatwww.fi.edu/fellow
    s/fellow6/feb99/terms1.html
  • The category of animals that prey or feed upon
    animals and insects. (carni-, flesh vore-,
    eater)www.dfr.state.nc.us/stewardship/wwwildlife/
    www13.htm
  • Meat eaterswww.promotega.org/uga30006/Vocabulary.
    htm

21
Carnivores
  • are flesh-eating animals, like lions.www.teacherv
    ision.fen.com/page/5485.html
  • These are animals and mammals that eat other
    animals and mammals, also called flesh-eaters
    see food chainwww.recycle4schools.org.uk/ecodic
    t_c.htm
  • Animals that have meat as the main part of their
    diet.www.tictoc.co.uk/Phase3/Resource/glossary.ht
    ml
  • Carnivores are animals that eat a diet consisting
    mostly of meat. en.wikipedia.org/wiki/Carnivores

22
Symbiosis
23
Symbiosis
  • Definitions of symbiosis on the Web
  • A mutually beneficial association of two
    different kinds of organisms.www.planthealthcare.
    com/terms.html
  • To live together a condition in which two
    animals, two plants, or a plant and an animal
    live in partnership. The relationship can be that
    of commensalism, where one organism benefits from
    activities of the other parasitism, where one
    organism lives on another to the detriment of its
    host or mutualism, where both organisms benefit
    from the association.www.fish.washington.edu/natu
    remapping/mollusks/glossary.html
  • the living together of unlike organisms in a
    close, long-lasting association.www.anbg.gov.au/g
    lossary/webpubl/lichglos.htm

24
Symbiosis
  • The intimate living together of two dissimilar
    organisms in a mutually beneficial
    relationship.www.visionlearning.com/library/pop_g
    lossary_term.php
  • An interactive association between two or more
    species living together may be parasitic,
    commensal, or mutualistic. The relationship
    between two organisms.www.emc.maricopa.edu/facult
    y/farabee/BIOBK/BioBookglossS.html
  • An ecological relationship between organisms of
    two different species that live together in
    direct contact.nationalzoo.si.edu/Animals/Primate
    s/glossary.cfm

25
Symbiosis
  • A mutually beneficial relationship between two
    organisms.www.powen.freeserve.co.uk/Reference/Glo
    ssary/gloss-s.htm
  • A close, prolonged association between two or
    more different organisms of different species
    that may, but does not necessarily, benefit each
    member.www.freakinfucus.co.uk/primers/prm_gloss.h
    tm

26
Symbiosis
  • Most of the interactions between species involve
    food
  • competing for the same food supply
  • eating (predation)
  • avoiding being eaten (avoiding predation)

27
Symbiosis
  • In symbiosis, at least one member of the pair
    benefits from the relationship. The other member
    may be
  • injured parasitism
  • relatively unaffected ( commensalism)
  • may also benefit ( mutualism).

28
Symbiosis
  • Mutualism
  • Symbiotic relationships in which each species
    benefits are mutualistic. There are hundreds of
    examples of mutualism between a heterotroph and
    an alga.

29
Symbiosis
  • Paramecium bursaria is a ciliate that engulfs
    unicellular green algae into vacuoles within its
    cell.
  • The paramecium certainly benefits from the food
    synthesized by the alga. It can be cultured apart
    from the alga but then must be given extra food.
  • The alga presumably benefits from the carbon
    dioxide produced by its host as well as the
    host's ability to transport it to a spot where
    there is ample light.

30
Symbiosis
  • Many other aquatic heterotrophs
  • sponges
  • sea anemones
  • planarians
  • clams
  • also harbor algae within their cells.

31
Symbiosis
  • liberating toxins, for example,
  • Tetanus bacilli secrete tetanus toxin which
    interferes with synaptic transmission.
  • Diphtheria bacilli secrete a toxin that inhibits
    protein synthesis by ribosomes.
  • The relationship between parasite and host varies
    along a spectrum that extends from

32
Symbiosis
  • Mutualistic relations between plants and fungi
    are very common. The fungus invades and lives in
    or among the cortex cells of the secondary roots.
    The association is called a mycorrhiza.

33
Symbiosis
  • The fungus helps the host plant absorb inorganic
    nitrogen and phosphorus from the soil. Some
    mycorrhizal fungi also secrete antibiotics which
    may help protect their host from invasion by
    parasitic fungi and bacteria.

34
Symbiosis
  • Many mushrooms are the spore-forming bodies of
    mycorrhizal fungi. The truffle View is often
    found in oak forests because the fungus that
    produces it establishes mycorrhiza on oak roots.

35
Symbiosis
  • Parasitism
  • A parasite is an organism that
  • lives on or in the body of another organism (the
    host)
  • from whose tissues it gets its nourishment, and
  • to whom it does some damage

36
Symbiosis
  • "hit and run" parasites that live in their host
    for a brief period and then move on to another
    with or without killing the first to
  • parasites that establish chronic infections. Both
    parasite and host must evolve to ensure the
    survival of both because if the parasite kills
    its host before it can move on, it destroys its
    own meal ticket.
  • Link to further discussion.

37
Symbiosis
  • Animals are parasitized by viruses, bacteria,
    fungi, protozoans, flatworms (tapeworms and
    flukes), nematodes, insects (fleas, lice), and
    arachnids (mites).
  • Plants are parasitized by viruses, bacteria,
    fungi, nematodes, and a few other plants.
  • Parasites damage their host in two major ways
  • consuming its tissues, e.g., hookworms

38
Symbiosis
  • Commensalism
  • A symbiotic relationship in which one species
    benefits and the other is not affected.www.emc.ma
    ricopa.edu/faculty/farabee/BIOBK/BioBookglossC.htm
    l
  • Commensalism is a situation in which two
    organisms are associated in a relationship in
    which one benefits from the relationship and the
    other is not affected much. The two animals are
    called commensals. An example pf commensalism is
    vermiliads (plants living on trees in
    rainforests) and frogs the frogs get shelter and
    water from the vermiliad but the vermiliad is
    unaffected. Commensalism is a type of symbiosis.
    COMPANION CELL A companion cell is a type of cell
    that pumps nutrients (sugars) into phloem
    cells.www.enchantedlearning.com/subjects/plants/g
    lossary/indexc.shtml
  • When two organisms coexist, one organism
    benefits, the other is not affected.www.alken-mur
    ray.com/glossarybug.html

39
Symbiosis
  • A symbiotic relationship in which one member is
    benefited and the second is neither harmed nor
    benefited.highered.mcgraw-hill.com/sites/00702942
    67/student_view0/glossary_a-d.html
  • A form of symbiosis in which only one of the
    animals benefits from the relationship.www.reefed
    .edu.au/glossary/c.html
  • One organism benefits while the other is neither
    harmed nor benefits. Example Moss growing on
    trees benefits by being raised above the forest
    floor competition, while the tree doesn't get
    anything out of the deal either
    way.www.nps.gov/olym/edgloss.htm
  • The interaction of two or more dissimilar
    organisms where the association is advantageous
    to one without

40
Symbiosis
  • Definitions of Amensalism on the Web
  • An inter-organism interaction in which one
    organism negatively impacts another organism
    without receiving any direct benefit
    itself.www.sustainableag.net/glossary_a-d.htm
  • A type of symbiotic relationship in which one of
    the partners in the interaction is inhibited and
    the other is unaffected.www.pestmanagement.co.uk/
    lib/glossary/glossary_a.shtml
  • Amensalism is an interaction between two species
    where one impedes or restricts the success of the
    other while not being affected, positively or
    negatively, by the presence of the other. Usually
    this occurs when one organism exudes as part of
    its normal metabolism a chemical compound
    detrimental to another organism.
    en.wikipedia.org/wiki/Amensalism

41
Feeding Mechanism
42
Feeding Mechanism
  • Definitions of Filter feeding on the Web
  • Straining food particles from water that is
    pumped through or over a gill surface.www.seagran
    t.wisc.edu/outreach/nis/Attack_Pack/Fact20Sheets/
    terms.htm
  • feeding by taking sea water into the mouth then
    forcing it out through the matted, sieve-like
    bristles of the baleen plates. Food suspended in
    the water, such as small schooling fish and
    plankton, is trapped inside the mouth cavity as
    the water exists.gmbis.marinebiodiversity.ca/BayO
    fFundy/glossE-H.html
  • filtering suspended food particles from water
    current by means of the gill rakerswww.deh.gov.au
    /coasts/species/marine-fish/glossary.html
  • Obtaining food by passing water through a
    filtering mechanism.www.50ftdredge.com/EIS/EIS_19
    .1.html
  • Filter feeders (also known as suspension feeders)
    are animals that feed by straining suspended
    matter and food particles from water, typically
    by passing the water over a specialized
    structure, such as the baleen of baleen whales.
    en.wikipedia.org/wiki/Filter_feeding

43
Feeding Mechanism
  • How a filter feeder obtains food
  • Stream of water carries particles/food
  • In through siphon
  • Mucus on gills traps particles
  • Cilia transport particles/water current (along
    food groove) towards mouth
  • Enzymes in intestine breakdown food
  • Carbohydrates absorbed as monomers

The Antarctic krill manages to directly utilize
the minute phytoplankton cells
44
Feeding Mechanism
  • How a filter feeder creates a feeding current
  • Cilia
  • Beating/ moving rhythmically

45
Feeding Mechanism
  • Extra-cellular digestion
  • Body consists of thin threads (hyphae)
  • Hyphae secrete enzymes that diffuse through wall
    onto food
  • Enzymes hydrolyse materials in food to monomers
  • Monomers then absorbed into hyphae by F.D. and
    A.T.
  • In fungi (e.g. saprophytic fungi), cilia not
    involved in moving food

46
Feeding with Tentacles
  • When feeding, these animals project tentacled
    structures out of the tube to catch food
    particles in the flowing water. By using cilia on
    their tentacles, these worms select particles
    based on size.

47
Detritus feeding
  • detritus, consists of bacteria and the remains of
    finely chopped up algae and decaying fragments of
    animals, as well as countless numbers of stranded
    microscopic, one-celled green plants which are
    called diatoms.

48
Biting Chewing Mouthpart
  • Biting and chewing food is a multisensory task
    that requires a high level of coordination of all
    parts of the mouth.

49
Biting Chewing Mouthpart
  • chewing mouthparts have toothed jaws that bite
    and tear the food (beetles, cockroaches, ants,
    caterpillars, and grasshoppers).
  • piercing-sucking mouthparts are usually long
    slender tubes that are forced into plant or
    animal tissue to suck out fluids or blood.
    (mosquitoes, aphids).
  • sponging mouthparts are tongue-like structures
    that have spongy tips to suck up liquids or food
    that can be made liquid by the insect's vomit
    (house flies, blow flies).
  • siphoning mouthparts are long tubes used for
    sucking nectar (butterflies, moths).

50
Fluid feeding
  • An external type of digestion is sucking or fluid
    feeding. A wide variety of animals and insects
    are adapted to take in liquid food, either from
    plants or animal juices. All spiders use sucking
    as their digestive means. They inject digestive
    enzymes into the prey and allow the exoskeleton
    to contain the juice as internal body parts are
    liquified.

51
Herbivorous
  • Definitions of Herbivorous on the Web
  • plant-eating.www.mountedsquadhorses.com/glossary.
    html
  • describes an organism that eats plant
    matterwww.bigelow.org/edhab/glossary.html
  • Feeding primarily on vegetation.www.uvm.edu/jdec
    her/GoT.html
  • her-BIV-or-us feeding on plants (see also
    phytophagous and carnivorous).members.aol.com/YES
    edu/glossary.html
  • Feeding on plants. For example, animals such as
    moose and snowshoe hares are herbivorous.www.hubb
    ardbrook.org/education/Glossary/Glossary.htm

52
Herbivorous Strategies
  • Cranial fermentors or ruminants have a large,
    multicompartmented section of the digestive tract
    between the esophagus and true stomach. These
    forestomachs house a very complex ecosystem that
    supports fermentation. Examples of ruminants are
    cattle, sheep and deer.
  • Caudal fermentors, also known as cecal digestors,
    are similar to dogs and humans through the
    stomach and small intestine, but their large
    intestine, where fermentation occurs, is complex
    and exceptionally large. Examples of cecal
    digestors include horses and rabbits.

53
Herbivorous
  • Ruminants can utilize dietary starch, but very
    little of it is absorbed as glucose.
  • Rather, starch and other soluble carbohydrates
    are fermented to volatile fatty acids in the
    forestomachs.
  • In contrast, starch fed to a horse is digested to
    glucose by amylase and maltase in the small
    intestine, and that glucose is absorbed across
    the epithelium into blood.

54
Herbivorous
55
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