Title: Shark embryo, Squalus acanthias
1Fundamentals of Biology
Shark embryo, Squalus acanthias
2What does it mean to be alive??
- You may find that your definition, or view, of
life differs radically from your neighbors. - You wouldnt be alone there. Most scientists
cant agree on it either! - Todays material will cover the basics of
biology.
3What Scientists Do Agree Upon
- Life uses energy for metabolism
- Life maintenances itself (homeostasis).
- Life grows
- Life reproduces
- Life reacts to changing conditions
- Life finds a way!!
4What does it take?
- If you are trying to determine what it takes to
be alive what would you do? - Water would be a good starting point.
- Most organisms are composed largely of water.
5Where to go next?
- Organic molecules also play a major role in life
processes. - Organic molecules are those which contain a
source of carbon (except CO2 which is still
considered inorganic), hydromen, and oxygen.
6- Most of these simple
- organic molecules
- are organized into more
- complex molecules
- such as proteins,
- carbohydrates,
- and lipids (fat).
- This is done in order to
- manipulate energy stored
- within the molecules.
7Just imagine how much energy is stored in this
whale blubber (fat).
8- Conversely, equal
- amounts of energy may
- be stored within the cellulose
- walls of this giant kelp in the form
- of carbohydrates (sugar).
- Carbohydrates are common in
- the marine environment for energy
- and for structure.
- They are also found inside and
- outside of animals (chitin in shells).
-
9- Other organic compounds of great importance are
proteins. - Proteins consists of
- amino acids which
- contain nitrogen.
- Proteins are used as
- building blocks for
- tissues such as
- muscles and nerves.
- They are also used for
- hormones
10 11Other necessities
- In addition to proteins, carbs., and lipids,
organisms rely on DNA, RNA, and ATP to transfer
genes, build proteins, and store energy,
respectively. - ATP is extremely important because it serves as
energy currency for most cells.
12 Most energy used by organisms originates from
photosynthesis.
13- Photosynesis makes it and respiration takes it!!
- Each process is essentially the reverse of the
other.
14Photosynthesis and respiration combine to
facilitate primary production. Primary producers
are photosynthetic organisms for the most
part. Each relys on Nitrates (NO3-1), phosphates
(PO4-2), and occasionally silica (SiO2).
15Cells, or the basic unit of life, contain a
nucleus, and various cellular organelles which
carry out cell specific functions. In addition
to the organelles listed certain bacteria also
contain motility structures called flagella or
cilia.
16Sometimes, all you need in life is one cell,
especially if youve got 10,000 buddies just like
yourself!! (The first labor unions???)
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18Challenges to life!
19Introduction
- Maintaining steady-state equilibrium in the
internal environment of aquatic and marine
organisms is challenging. - Much is done involuntarily (hormones, enzymes,
osmoregulation, etc.) so little physical action
is required, however - Pick-up-and-move still an option!
- (Poor environment.)
20Definitions
- Homeostasis maintaining steady state
equilibrium in the internal environment of an
organisms - Solute homeostasis maintaining equilibrium with
respect to solute (ionic and neutral solutes)
concentrations (i.e. salts) - Water homeostasis maintaining equilibrium with
respect to the amount of water retained in the
body fluids and tissues
21Osmoregulation in different environments
- Challenge to homeostasis depends on
- Solute concentration of body fluids and tissues
- concentration of environmental solutes
- marine 34 ppt salinity 1000 mosm/l
- freshwater lt 3 ppt salinity 1 - 10 mosm/l
22Osmoregulation in different environments
- Each species has a range of environmental osmotic
conditions in which it can function - stenohaline - tolerate a narrow range of
salinities in external environment - euryhaline - tolerate a wide range of salinities
in external environment - short term changes estuarine - 10 - 32 ppt,
intertidal - 25 - 40 - long term changes diadromous fishes (salmon)
23Four osmoregulatory strategies in fishes
- 1. Isosmotic (nearly isoionic, osmoconformers)
- 2. Isosmotic with regulation of specific ions
- 3. Hyperosmotic (fresh H20 fish)
- 4. Hyposmotic (salt H2O fish)
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25Osmoregulation Strategies
- Osmoconforming (no strategy) Hagfish internal
salt concentration seawater. However, since
they live IN the ocean....no regulation required!
26Osmoregulation Strategies
- Elasmobranchs (sharks, skates, rays, chimeras)
- Maintain internal salt concentration 1/3
seawater, make up the rest of internal salts by
retaining high concentrations of urea
trimethylamine oxide (TMAO). - Bottom linetotal internal osmotic concentration
equal to seawater! - How is urea retained?
- Gill membrane has low permeability to urea so it
is retained within the fish. Because internal
inorganic and organic salt concentrations mimic
that of their environment, passive water influx
or efflux is minimized.
27Osmotic regulation by marine teleosts...
-
- ionic conc. approx 1/3 of seawater
- drink copiously to gain water
- Chloride cells eliminate Na and Cl-
- kidneys eliminate Mg and SO4
- advantages and disadvantages?
28Saltwater teleosts
kidneys
chloride cells
29Osmotic regulation by FW teleosts
- Ionic conc. Approx 1/3 of seawater
- Dont drink
- Chloride cells fewer, work in reverse
- Kidneys eliminate excess water ion loss
- Ammonia bicarbonate ion exchange mechanisms
- advantages and disadvantages?
30Freshwater teleosts
Ion exchange pumps beta chloride cells
kidneys
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32Thermoregulation in Fishes
33Temperature is always an issue.
It affects metabolism, digestion, and
reproductive behavior
34Fish are conformers (well, sort of...)
- Body temperature is that of the environment
(poikilothermic ectothermy) - Each species has particular range of temperatures
that they can tolerate and that are optimal - Big difference!
35Behavioral Thermoregulation in Fishes
- Although fish are ectotherms, they can alter
their body temperature by moving to habitats with
optimal temperature - Some fish can maintain body temperature greater
than ambient - tunas, billfishes, relatives
(nearly endothermic)
36Hot Fishes
- Billfishes have warm brains excess heat
production from muscles around eye
37Size matters...when youre small!!! Animals with
high surface-to-volume ratios dont hold heat.
38- Floyd, I am soooooooo tired, how long can this
go on? - -Heavy Metal (80s)
- Life moves pretty fast, if you blink you just
might miss it. - -Ferris Buhlers Day Off (90s)
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40Budding in coral allows multiple replications of
the same entity. Since coral uses itself as a
template, this is a form of asexual reproduction.
41Rhizomes (runners) sent from sea grass is another
example of asexual reproduction.
42Sexual reproduction Union of two gametes.
43Reproductive strategies mayinvolve mass
production of younglike this jawfish.Advantage
???
44or single offspring with a high degree of
parental care.
45Next timereal animals and real names.