Animal Physiology III BIOL 1500 PDF

Summary

This document is a lecture presentation on animal physiology, covering topics such as the digestive system, reproductive systems, different forms of reproduction, the nervous and endocrine systems, and more. It includes diagrams and examples related to these concepts.

Full Transcript

Animal Physiology III
BIOL 1500
Dr. Emlyn Resetarits
Physiology III:
 Today’s Learning Objectives
Identify different feeding methods
Explain how the human digestive system works
Apply knowledge of human digestive system to compare
digestive systems of different animals
Define different modes of reproduction across animal
kingdom
Compare the nervous and endocrine systems
Explain how Menstrual and Ovarian Cycles are coordinated
by hormones
Explain the role of the placenta for pregnancy and of
oxytocin for birth
Digestive System
 Food processing
Ingestion- The act of eating or feeding
Digestion – food is broken down into molecules small
enough for the body to absorb
Absorption – animal cells take up small molecules such as
amino acids and simple sugars
Elimination – undigested material passes out of the
digestive system
 Ingestion – Different feeding methods
Filter feeders – strain
small organisms or
food particles from the
surrounding medium

Fluid feeders – suck
nutrient-rich from a
living host (parasitic)

Bulk feeders –
eat relatively
large pieces of
food
 How do animals digest animal cells (food) without
digesting themselves?
Evolutionary
adaptation to avoid
self-digestion is
processing food within
specialized extracellular
compartments
1) Gastrovascular cavity
– digestive
compartment with a
single opening that
functions for digestions
and distribution of
nutrients throughout
the body
 How do animals digest animal cells (food) without
digesting themselves?
2) More complex animals have a digestive tube with two
openings, a mouth and an anus
This digestive tube is called a complete digestive tract, or an
alimentary canal
It can have specialized regions that carry out digestion and
absorption in a stepwise fashion – which means an animal
can ingest a food while an earlier meal is being digested!
 Human Digestive System
Oral cavity – teeth break
food into smaller pieces ->
increasing surface area for
chemical digestion and
facilitating swallowing

Saliva is produced by
salivary glands that
lubricates food and makes
it easier to swallow
(mucus)
 The stomach stores food and processes it into a
liquid suspension through mechanically and
chemical processes
Mechanical
The stomach secretes gastric juice and mixes it with food
through a churning action
The mixture of ingested food and gastric juice is called
chyme

Chemical
Gastric juice has a low pH of about 2, which kills bacteria
and denatures proteins
Gastric juice is made up of hydrochloric acid (HCl) and
pepsin
Pepsin is a protease, which breaks peptide bonds to cleave
proteins into smaller polypeptides
The stomach breaks food down mechanically and
chemically
The stomach breaks food down mechanically and
chemically
 Why don’t HCl and pepsin eat through stomach
lining?
1) Mucus secreted by cells in gastric glands protects against
self-digestion
2) Cell-division adds a new epithelial layer every three days,
replacing cells before they are eroded by digestive juices
 Small intestine is the site of most digestion
First part of small
intestine, the Duodenum,
is the location where most
digestion (breakdown of
molecules into absorbable
components) takes place
Longest compartment of
alimentary canal
Chemosensory cells assess
its nutrient composition
and elicit secretion of the
appropriate enzymes from
the pancreas, gallbladder,
and liver
Pancreas produces
bicarbonate (basic), which
neutralizes acidic chyme
 Small intestine is the site of most absorption as
well!
The small intestine has a huge surface area due to villi and microvilli
that are exposed to the intestinal lumen, maximizing rates of absorption
Most nutrients are absorbed into the capillaries
Fats are too big to diffuse into capillaries, and are instead absorbed in
the lymphatic vessels
The hepatic portal vein carries all nutrients, except
fats, to the liver for processing
 Large intestine is in charge of excretion preparation

Absorption of water condenses
and compacts the digestive
contents into a solid mass, the
feces
In vertebrates, 30-50% of the dry
matter of feces consists of
intestinal bacteria, which
metabolize difficult-to-digest
carbohydrates into fatty acids and
produces vitamins. These
nutrients are absorbed by the
large intestine.
The cecum aids in the
fermentation of plant material
and connects where the small
and large intestines meet
 Longer intestines and cecums aid in digestion and
absorption of hard-to-digest materials (such as
Carnivores like dogs,
plants) Herbivores like
which feed primarily rabbits, which feed on
on highly digestible difficult-to-digest plant
foods such as meat tissues, have a
and fruits, have a relatively long
short intestine (~ 6 intestinal tract (up to
times body length) 10x body length).
and small cecum They also have
specializations of the
cecum or stomach to
accommodate a large
microbiome that helps
break down complex
carbohydrates like
cellulose
Animal Reproduction
Types of reproduction across animals
 Asexual vs Sexual Reproduction

Asexual reproduction is creation of Sexual reproduction is the creation of an
offspring without the fusion of egg and offspring by fusion of haploid gametes, male
sperm sperm and female eggs, to form a diploid
zygote
 Examples of Asexual Production

Budding – new individuals arise from Fission – parent splits roughly into two
outgrowth (e.g., Hydra) (e.g., Sea cucumber)

Parthogenesis – development of new Fragmentation - breaking of the body into
individual from unfertilized egg pieces followed by regeneration (e.g., Sea
(e.g., bee drones) Stars)
 Hermaphroditism vs Two Sexes

Hermaphroditism - Each individual Separate sexes – Individuals are
has both male and female either male or female
reproductive systems
 Types of hermaphroditism

Sequential hermaphrodism – Simultaneous hermaphrodism –
individuals have both reproductive individuals have both reproductive
systems at some point but not at systems at the same time
the same time (e.g., Nudibranchs)
(e.g., Clownfish male->female) - Some can self-fertilize
- Some cannot self-fertilize
 Internal vs External Fertilization

External fertilization – Eggs and Internal fertilization – sperm and egg
sperm are released into an aqueous come together inside (generally) the female
environment where they form zygotes reproductive tract, where the zygote
and develop. develops.
- Low parental investment - High parental investment
- Many gametes, few survive - Few gametes, most survive
- Requires aqueous environment - Does NOT require aqueous environment
- Does not require movement (good - Requires movement
for sessile organisms)
 External Fertilization

Frogs Corals

Mollusks Fish
 Mechanisms of Internal Fertilization – How to get
sperm into female reproductive system (to meet
eggs)
Males have an insertable organ
(usually called a penis) that delivers
sperm into the female reproductive
tract.
To be insertable, it needs to be
sufficiently stiff. Different methods!
1) Erectile tissue - When an erection
occurs, blood fills the hollow
spaces, causing the tissue to
expand and become rigid. E.g.,
Humans, Cetaceans, Ungulates
2) Baculum – A penis bone that
keeps penis rigid (e.g., Apes, Cats,
Dogs)
3) Many other crazy strategies that
we don’t have time to talk about
today!
Human Reproduction
 Endocrine system communicates via hormones

Hormones are molecules produced by endocrine cells. They
are transported to tissues via the blood or extracellular fluid
(ECF)
Each hormone can only influence its target cells—i.e., the
cells that express receptors for it
 Comparison between nervous and endocrine
systems

Nervous Endocrine
Organization Wired system. There is a Wireless system. There is no
specific anatomical anatomical connection between
connection (i.e. synapse) each endocrine (or
between each nerve cell and neuroendocrine) cell and its
its target cell target cell

Transport of Neurotransmitters diffuse Hormones usually transported
chemical over short distance (e.g., over long distances in blood
messengers synaptic cleft)
Response msec Hours, days, or months
latency &
duration
Action Coordinates rapid and Produces slower, more general
specific responses (e.g., responses (e.g., stimulating
knee-jerk reflex, or growth, ovulation, or stress
maintaining balance
Major endocrine glands
 Major endocrine glands for female reproduction
Hypothalamus
1) GnRH – Gonadotropin-
Releasing Hormone

Anterior pituitary
1) FSH – Follicle-stimulating
hormone
2) LH – Luteinizing hormone

Posterior pituitary
1) Oxytocin

Ovaries
1) Estradiol –
2) Progestin -

Placenta
1) hCG – human chorionic
gonadotropin
 Female Reproductive Tract

Ovaries Oviduct

Follicles

Uterus Uterine wall
Endometrium

Cervix

Vagina

A follicle is a small, fluid-filled sac within the ovary that contains an immature egg
(oocyte)
 Menstrual and Ovarian Cycles (Days 1-13)
Hypothalamus produces
Hypothalamus GnRH which stimulates the
GnRH Anterior pituitary to
produce small amounts of
Anterior pituitary FSH and LH
FSH LH FSH and LH together
stimulate follicle growth
Follicle The follicle produces
Estradiol, which initiates
Estradiol Initiates buildup the buildup of the uterine
of uterine lining lining
 DAY 0 7 14 21 28
OVARIAN Pituitary gonadotropin
CYCLE levels

FSH
LH Corpus luteum Degenerating
Growing follicle corpus luteum

Follicular phase Ovulation Luteal phase

UTERINE Ovarian hormone
CYCLE levels

Estradiol
Progesterone Endometrium

Menstrual flow Proliferative Secretory
 Menstrual and Ovarian Cycles (Days 14)
High levels of estradiol
Hypothalamus produced by the follicle
Stimulated
by high levels stimulate the Hypothalamus
GnRH
of estradiol to release more GnRH
Anterior pituitary GnRH stimulates Anterior
Triggers
pituitary to produce high
FSH LH amounts of LH, which triggers
ovulation
ovulation.
Follicle Ovulation
Ovulation – the process in
which a mature egg is
Estradiol released from an ovary and
into the abdominal cavity
+
 DAY 0 7 14 21 28
OVARIAN Pituitary gonadotropin
CYCLE levels

FSH
LH C Degenerating
Growing follicle or corpus luteum
p
us
lu
te
Follicular phase Ovulation Luteal phase
u
UTERINE m
Ovarian hormone
CYCLE levels

Estradiol
Progesterone Endometrium

Menstrual flow Proliferative Secretory
 Menstrual and Ovarian Cycles (Days 15-28)
LH stimulates the remaining
DAYS 15-28: follicular tissue to form the
Hypothalamus corpus luteum
−
Inhibited by The corpus luteum secretes
GnRH Combination of progesterone and estradiol
estradiol and
Anterior pituitary progesterone These exert negative feedback
on the hypothalamus and
FSH LH pituitary to greatly reduce LH
and FSH secretion, preventing
Follicle Corpus luteum maturation of another egg

Estradiol
These also stimulate
maintenance and
Progesterone development of uterine lining
 Menstruation occurs if egg is not fertilized
The corpus luteum disintegrates, causing the production of
progesterone and estradiol to stop.
This causes the shedding of the endometrial tissue, resulting
in menstruation from days 1-5
 DAY 0 7 14 21 28
OVARIAN Pituitary gonadotropin
CYCLE levels

FSH
LH Corpus luteum Degenerating
Growing follicle corpus luteum

Follicular phase Ovulation Luteal phase

UTERINE Ovarian hormone
CYCLE levels

Estradiol
Progesterone Endometrium

Menstrual flow Proliferative Secretory
 Male Reproductive Tract
The male gonads, or testes, produce sperm
The testes of many mammals are held outside the abdominal cavity in
the scrotum, where the temperature is lower than in the abdominal
cavity, allowing for production of normal sperm
Semen is composed of sperm plus secretions from three sets of
accessory glands that aid the sperm in successfully reaching an egg
Egg moves through fallopian tubes (where it MAY
encounter sperm) towards uterus
 Pregnancy occurs if egg is fertilized
Corpus luteum does NOT disintegrate, but continues to
produce progesterone and estradiol, which:
Prevents maturation of another egg
Maintains and readies uterus for implantation and
pregnancy
 First trimester
The implanted embryo secretes hormones that signal its
presence and regulate the mother’s reproductive system
Human chorionic gonadotropin (hCG), maintains secretion
of progesterone and estrogens during early pregnancy
Organogenesis, the development of the body organs,
occurs
Placenta begins to form
 Placenta – organ that facilitates gas and nutrient
exchange with fetus
Around 12 weeks,
placenta takes over
making
progesterone to
support pregnancy

Why are umbilical
arteries
deoxygenated?
Delivery