Point of Emphases PDF

Summary

The document provides an overview of the points of emphasis in the study of fishes, covering topics such as fins, buoyancy, and external anatomy. It's likely part of study material rather than a completed exam.

Full Transcript

Point of Emphases d17 Nicole A.

Chondrichthyes (Cartilaginous Fishes) Fins
- Cartilaginous fishes have a variety of fins that
Internal Line System help them to swim, maneuver, and maintain
- It consists of a series of sensory receptors balance:
located along the sides of the body. These o Dorsal Fins: These fins are located
receptors detect changes in water pressure, on the back of the fish and help to
movement, and vibrations. This system helps stabilize the body.
the fish to: o Caudal Fin: This is the tail fin, which
o Navigate: By sensing water currents is used for propulsion.
and obstacles. o Pectoral Fins: These fins are located
o Hunt: By detecting the movement of on the sides of the body and are used
prey. for steering and braking.
o Avoid predators: By sensing the o Pelvic Fins: These fins are located on
approach of danger. the underside of the body and are
used for balance and reproduction.
Buoyancy
- Cartilaginous fishes lack a swim bladder, which Cloaca
is a gas-filled organ that helps bony fishes - single opening that serves as the exit for the
maintain buoyancy. Instead, they rely on other digestive, urinary, and reproductive tracts. It
strategies to control their buoyancy: is located near the base of the tail.
o Large Liver: Many cartilaginous fishes
have a large, oily liver that helps them Osteichthyes (Bony Fishes)
maintain neutral buoyancy.
o Active Swimming: By constantly External Anatomy
swimming, they can generate lift and - Bony fishes exhibit a diverse range of external
prevent sinking. features, but some common characteristics
include:
External Anatomy o Bony Skeleton: Unlike cartilaginous
- The external anatomy of a cartilaginous fish is fishes, bony fishes possess a skeleton
characterized by several key features: composed of bone, providing greater
o Cartilaginous Skeleton: Their strength and support.
skeleton is made of cartilage, which is o Operculum: A bony flap that covers
lighter and more flexible than bone. and protects the gills.
o Placoid Scales: Their skin is covered o Swim Bladder: A gas-filled sac that
with tiny, tooth-like scales called helps regulate buoyancy.
placoid scales, which reduce drag and o Scales: Bony scales cover the skin,
offer protection. providing protection and reducing
o Gill Slits: They have multiple gill slits water resistance.
on each side of their head, which allow o Fins: Various fins aid in swimming,
them to breathe underwater. steering, and balance. These include
o Mouth: The mouth is located on the Dorsal, Caudal, Pectoral, Pelvic
underside of the head and is often
equipped with sharp teeth. Swim Bladder
o Nostrils: They have two pairs of - is a gas-filled sac that allows bony fishes to
nostrils, which are used for smelling. adjust their buoyancy. By regulating the
o Eyes: Their eyes are well-developed amount of gas in the bladder, a fish can
and provide them with a good sense of control its depth in the water column without
sight. expending significant energy.
Point of Emphases d17 Nicole A.
- Ovoviviparity (Egg-hatching Inside the
Scales Mother):
- Bony fishes have several types of scales, o Female reptiles retain fertilized eggs
including: inside their bodies until they hatch.
o Cycloid Scales: Thin, flexible scales o The embryos receive nourishment
with smooth edges found in many fish from the yolk of the egg.
species. o Examples: Some snakes and lizards.
o Ctenoid Scales: Similar to cycloid
scales but with tiny spines on the outer
Type of Fertilization
edge.
- Reptiles exclusively exhibit internal
o Ganoid Scales: Thick, bony scales
fertilization. This means that the male's
with a diamond-like pattern found in
sperm fertilizes the female's eggs inside her
some ancient fish groups.
body.
These scales provide protection against predators,
reduce water resistance, and help maintain the
Orders of Reptiles
fish's body shape.
- There are four main orders of reptiles:
o Testudines: Turtles and tortoises
Amphibian
o Squamata: Lizards and snakes
o Crocodilia: Crocodiles, alligators,
Three Main Order of Amphibian
caimans, and gavials
- Anura: This order includes frogs and toads.
o Sphenodontia: Tuataras (a unique
They are characterized by their lack of tails
group of reptiles found only in New
in adulthood and their long, powerful hind
Zealand)
legs adapted for jumping.
- Caudata: This order includes salamanders
Parthenogenesis in Reptiles
and newts. They are characterized by their
- form of asexual reproduction where an
elongated bodies, tails, and four limbs.
unfertilized egg develops into an offspring.
- Gymnophiona: This order includes
While rare, it has been observed in some
caecilians, which are legless, worm-like
species of lizards and snakes.
amphibians that live in burrows.
Internal Anatomy of Reptiles
Reptile
- Reptiles have a complex internal anatomy,
similar to other vertebrates. Key features
How Reptiles Give Birth
include:
- Oviparity (Egg-Laying):
o Digestive System: Includes a mouth,
o Female reptiles lay fertilized eggs with esophagus, stomach, intestines, and
hard or leathery shells. cloaca.
o The eggs are incubated externally, o Respiratory System: Lungs are the
often in nests or buried in soil. primary respiratory organs.
o Examples: Most snakes, lizards, turtles, o Circulatory System: A closed
and crocodilians. circulatory system with a heart that
- Viviparity (Live Birth): typically has three chambers (two
o Female reptiles give birth to live young. atria and one ventricle).
o The embryos develop inside the o Excretory System: Kidneys filter
mother's body and receive nourishment waste products from the blood.
through a placenta-like structure or yolk o Nervous System: A well-developed
sac. brain and spinal cord.
o Examples: Some snakes, lizards, and o Reproductive System: Internal
fertilization and various reproductive
sea snakes.
strategies
Point of Emphases d17 Nicole A.
Carapace and Plastron (in Turtles and
Tortoises) - Nervous System
- These are the bony structures that form the o Brain: Relatively large brain,
shell of turtles and tortoises: especially the cerebellum, which is
o Carapace: The dorsal (upper) part of important for coordination and
the shell. balance.
o Plastron: The ventral (lower) part of o Keen Senses: Well-developed
the shell. senses of sight and hearing,
essential for navigation,
These structures provide protection for the turtle's
communication, and prey detection.
vital organs and help to regulate body temperature.
Class Aves (Birds) - Muscular System
o Powerful Flight Muscles: Large
Internal Anatomy of Birds pectoral muscles power wing
- Respiratory System movement for flight.
o Lungs and Air Sacs: Birds have a o Leg Muscles: Strong leg muscles
highly efficient respiratory system that are essential for walking, hopping,
involves lungs and air sacs. and perching.
o Unidirectional Airflow: Air flows
through the lungs in one direction, Groups of Birds and Examples
ensuring a continuous supply of 1. Passeriformes (Perching Birds):
oxygen-rich air. o Sparrows: House Sparrow, Song
o High Oxygen Exchange: This system Sparrow
allows for efficient oxygen uptake, vital o Finches: Goldfinch, House Finch
for the high metabolic demands of o Crows: American Crow, Raven
flight. o Robins: American Robin, European
Robin
- Circulatory System
o Four-Chambered Heart: This 2. Anseriformes (Waterfowl):
ensures complete separation of o Ducks: Mallard Duck, Wood Duck
oxygenated and deoxygenated blood, o Geese: Canada Goose, Snow
maximizing oxygen delivery to Goose
tissues. o Swans: Mute Swan, Trumpeter
o Rapid Heart Rate: Birds have a high Swan
heart rate, especially during flight, to
support their high metabolic needs. 3. Galliformes (Ground Birds):
o Chickens: Domestic Chicken,
- Digestive System Junglefowl
o Beak: Adapted for various feeding o Turkeys: Wild Turkey, Domestic
behaviors, such as pecking, tearing, Turkey
or filtering. o Pheasants: Ring-necked Pheasant,
o Crop: A storage organ in the Lady Amherst's Pheasant
esophagus for food.
o Gizzard: A muscular organ that 4. Falconiformes (Birds of Prey):
grinds food with the help of small o Hawks: Red-tailed Hawk, Cooper's
stones. Hawk
o Intestines: Absorb nutrients from o Eagles: Bald Eagle, Golden Eagle
digested food. o Falcons: Peregrine Falcon, Merlin
o Cloaca: A single opening for the
digestive, urinary, and reproductive
systems.
Point of Emphases d17 Nicole A.

5. Strigiformes (Owls): o Specialized Teeth: Different types of
o Barn Owl: Tyto alba teeth for various functions like cutting,
o Great Horned Owl: Bubo tearing, and grinding.
virginianus o Well-Developed Brain: Larger brains
o Snowy Owl: Bubo scandiacus compared to other vertebrates,
leading to complex behaviors and
6. Apodiformes (Swifts and Hummingbirds): intelligence.
o Swifts: Common Swift, Chimney
Swift Ways of Giving Birth
o Hummingbirds: Ruby-throated - Placental Mammals:
Hummingbird, Anna's Hummingbird o Young develop inside the mother's
uterus, nourished through a placenta.
7. Charadriiformes (Shorebirds): o Examples: Humans, dogs, cats,
o Gulls: Herring Gull, Laughing Gull elephants, whales, bats.
o Terns: Common Tern, Arctic Tern - Marsupials:
o Sandpipers: Sanderling, o Young are born underdeveloped and
Semipalmated Sandpiper complete their development in a
pouch on the mother's body.
8. Pelecaniformes (Pelicans and o Examples: Kangaroos, koalas,
Relatives): opossums.
o Pelicans: American White Pelican, - Monotremes:
Brown Pelican o Lay eggs.
o Cormorants: Double-crested o Young hatch and are nourished with
Cormorant, Great Cormorant milk.
o Herons: Great Blue Heron, Great o Examples: Platypus, echidna.
Egret
Main group of Mammals
9. Sphenisciformes (Penguins): - Rodentia:
o Emperor Penguin: Aptenodytes o Characteristics: Rodents are the most
forsteri diverse group of mammals,
o King Penguin: Aptenodytes characterized by their continuously
patagonicus growing incisor teeth.
o Adélie Penguin: Pygoscelis adeliae o Examples: Rats, mice, squirrels,
guinea pigs, hamsters
Mammals
- Chiroptera:
General Characteristics of Mammals o Characteristics: Bats are the only
- Mammals are a diverse group of vertebrates mammals capable of true flight.
characterized by several key features: o Examples: Bat, Flying fox
o Hair or Fur: A unique characteristic
that helps in insulation and sensory - Carnivora:
perception. o Characteristics: Carnivores are
o Mammary Glands: Produce milk to meat-eating mammals with
nourish their young. specialized teeth for tearing flesh.
o Endothermy: They are warm- o Examples: Dogs, cats, bears, seals,
blooded, regulating their internal wolves
body temperature.
o Four-Chambered Heart: Efficiently
separates oxygenated and
deoxygenated blood.
Point of Emphases d17 Nicole A.

- Primates: - Sirenians (Manatees and Dugongs):
o Characteristics: Primates are o Herbivorous diet
characterized by their relatively o Slow-moving lifestyle
large brains, opposable thumbs, o Paddle-shaped tails for propulsion
and forward-facing eyes.
o Examples: Humans, monkeys, apes
GOOD LUCK AND GOD BLESS!!!!
- Artiodactyla:
o Characteristics: Even-toed
ungulates, with hooves on an even
number of toes.
o Examples: Cows, deer, pigs, sheep,
goats

- Cetacea:
o Characteristics: Fully aquatic
mammals adapted for life in the
water.
o Examples: Whales, dolphins,
porpoises

- Perissodactyla:
o Characteristics: Odd-toed
ungulates, with hooves on an odd
number of toes.
o Examples: Horses, zebras,
rhinoceroses

Respiratory System of Aquatic and Marine
Mammals
- Aquatic and marine mammals, despite living
in water, breathe air through the lungs.
They have evolved specialized adaptations
to efficiently use oxygen while underwater
and to minimize the time spent at the
surface.

Examples of Aquatic and Marine Mammals:
- Cetaceans (Whales, Dolphins, Porpoises):
o Highly streamlined bodies
o Complex social structures
o Echolocation for navigation and
hunting
- Pinnipeds (Seals, Sea Lions, Walruses):
o Flippers for swimming and
maneuvering on land
o Thick blubber for insulation
o Strong jaws and teeth for capturing
prey