Reproduction

Question 1

What are the four main factors of reproduction?

Answer 1

1. gamete production: production of egg and sperm
2. gamete maturation: ability of the gametes to be functional
3. embryo development: after fertilization, growth of the embryo
4. delivery of the young animal: parturition

Question 2

Where are the testicles located and where do they migrate?

Answer 2

The testicles descend through the inguinal canal to the scrotum around the time of birth.

an exception includes chickens and other birds, as their testes remain inside of their bodies

Question 3

What types of tissue are in the testicles?

Answer 3

interstitial tissue and seminiferous tubules

Question 4

Describe interstitial tissue

Answer 4

within these tissues, cells of leydig produce testosterone which gives male characteristics (ex. antlers on deer, crested neck of a bull)

Interstitial tissue is found between the seminiferous tubules

Question 5

Describe the seminiferous tubules

Answer 5

this is the site where spermatogenesis (sperm formation) occurs

these tubes are very long when uncoiled, stretching from a half a mile to a mile if they come from a bull

Question 6

What are the functions of the scrotum?

Answer 6

1. house and protect the testicles
2. regulate temperature of the testicles (usually 3-13 degrees F lower than body temperature)

Question 7

What is cryptorchidism and what types are there?

Answer 7

Cryptorchidism is a condition in which one or both of the testes fail to descend from the abdomen into the scrotum.

Unilateral or bilateral cryptorchidism can occur.

It can be genetically transmitted.

Question 8

Describe unilateral cryptorchidism

Answer 8

one testicle does not descend through the inguinal canal

this somewhat reduces fertility

Question 9

Describe bilateral cryptorchidism

Answer 9

neither testicle descends from the inguinal canal

This causes a definite reduction of testosterone levels and results in much lower fertility.

Question 10

What is BSE in relation to reproduction?

Answer 10

BSE is a breeding soundness exam, where an animal’s reproductive capabilities and potential are examined.

Cryptorchid animals are not used to breed since the condition can be passed on genetically.

Question 11

Describe the structure of the epididymis

Answer 11

There is a head at the top of the testicle, a body, and a tail at the bottom of the testicle

Question 12

What are the functions of the epididymis?

Answer 12

1. storage of sperm cells
2. provision of maturation space for sperm cells
3. nutrition of sperm cells through secreted substances

Question 13

What is the anatomical relationship of the epididymis to the testicles?

Answer 13

The head of the epididymis connects the seminiferous tubules through efferent ductules

Question 14

What is the Vas deferens?

Answer 14

The Vas deferens is a structure that carries sperm cells and substances from the epididymis to the urethra.

Some species, like bulls, have an enlarged portion of the vas deferens called the ampulla, which is located near the end of the vas deferens.

Question 15

Describe some of the accessory sex glands and their functions

Answer 15

Accessory sex glands contribute to reproduction, but sperm do not travel through them. Size of these glands varies by species.

1. seminal vesicle: (vesicular gland) two of them
2. prostate: one
3. bulbo-urethral (Cowper’s): two

Question 16

What are the functions of the accessory sex glands?

Answer 16

1. secrete nutrients
2. secrete buffers
3. secrete substances to cleanse and lubricate urethra
4. volume of semen produced depends of the size of the glands (ex. boars have large accessory glands and therefore ejaculate larger amounts of semen)

Question 17

What are the functions of the penis and urethra?

Answer 17

The penis is the organ of copulation for males.

The urethra is a large canal in the penis that semen passes through during ejaculation.

Question 18

What is sigmoid flexure?

Answer 18

This is a retractable, muscle controlled presentation of the penis seen in pigs, sheep, cattle, and goats. There is a “S” shaped movement.

Question 19

Describe the composition of semen.

Answer 19

1. Spermatozoa
2. Secretions - quantities and concentrations varies by species
   accessory glands
   vas deferens
   epididymis

Question 20

What is the relationship between sperm concentration and volume of semen ejaculation?

Answer 20

Higher volumes of semen have lower concentrations of sperm per mL of ejaculatory fluids.

Question 21

How does the male reproductive system in avian species differ from that of mammals?

Answer 21

There is variation in specific structures like the testicles, epididymis, and vas deferens. There is also variation in semen.

Question 21

How do the testicles of avian species compare to those of mammals?

Answer 21

The testicles are the same as mammals, but are located inside of the body.

Question 22

How does the epididymis of avian species compare the structure in mammals?

Answer 22

The epididymis is birds is the same as in mammals, but it is located inside of the body.

Question 23

How does the vas deferens in avian species compare to this structure in mammals?

Answer 23

The vas deferens conducts semen into the cloaca instead of a urethra.

Question 24

How does semen from avian species compare to semen from mammals?

Answer 24

Semen in avian species is more concentrated and has a lower volume than ejaculations from mammals. This is because birds lack accessory sex glands, so less is contributed to the seminal fluid.

Question 25

Where are the ovaries located?

Answer 25

just behind the kidneys

Question 26

What are the functions of the ovaries?

Answer 26

1. Oogenesis: production of eggs
2. Hormone production

Question 27

What are the hormones produced by the ovaries and what are their functions?

Answer 27

1. Estrogen: from growing (graafian) follicles, produces most of the female characteristics
2. Progesterone: from corpus luteum; formed after ovulation when the follicle collapses, helps maintain pregnancy
3. Relaxin: loosens pelvic area during parturition

Question 28

What is the oviduct and what are the functions?

Answer 28

The oviduct is also known as the fallopian tube.

1. After ovulation, the egg is caught by the infundibulum (catcher’s mitt) at the part closest to the ovary
2. fertilization occurs in the oviduct, and the zygote is then transported to the uterus

Question 29

Describe the structure of the uterus.

Answer 29

The uterus has a body and two horns.

The uterine lining is largely muscle.

Longer uterine horns are characteristic of animals that give birth to litters.

Question 30

What are the functions of the uterus?

Answer 30

1. Sperm movement
2. nourishment via uterine milk
3. attachment and nourishment of fetus via placenta
4. contractions force fully developed fetus outside (parturition)

Question 31

What is the cervix and what are its functions?

Answer 31

The cervix is the lower outlet of the uterus, and it is made up of connective tissue.

Functions:
1. changes along with stages of estrous and pregnancy
2. open when the animal is in heat (wants to mate) and closed (plug) during pregnancy to prevent invasion of bacteria, etc.

The mucous layers help regulate the cervix. Animals in heat have a thinner mucous layer, while pregnant animals have a thick cervical mucous layer.

Question 32

What is the function of the vagina?

Answer 32

Female organ of copulation and birth canal

Question 33

What is the purpose of the vulva?

Answer 33

It is the external opening to the female reproductive system

Question 34

Where are the ovaries of a female avian species, and what are the functions?

Answer 34

The ovaries are close to the kidneys.

Function:
Only the left ovary functions, and it has many follicles in different stages that are present at the same time.

Question 35

What are the components of the oviduct in avian species?

Answer 35

1. Infundibulum (3 in)
2. Magnum (15 in)
3. Isthmus (4 in)

Question 36

What are the functions of the infundibulum in avian species?

Answer 36

It receives yolk, secretes chalaziferous layer and vitelline membrane

Question 37

What is the function of the magnum in avian species?

Answer 37

secretes most of the albumen layers

Question 38

What is the function of the isthmus in avian species?

Answer 38

secretes inner and outer shell membranes

Question 39

What is the shell gland and what does it do?

Answer 39

The shell gland is the uterus, and it secretes the shell in about 12 hours (varies by bird)

Question 40

What is the difference between the vagina in avian species and mammals?

Answer 40

The vagina secretes substances that act as the cuticle.

It also contains crypts to catch sperm and stores them.

Question 41

How long does egg formation take?

Answer 41

25-26 hours

Question 42

Why does sperm in the avian reproductive system live longer in the female reproductive tract?

Answer 42

It lives longer because the sperm is similar in temperature to the female reproductive system.

Question 43

What is mitosis?

Answer 43

Asexual division of body cells where the number of chromosomes stays constant (diploid)

Question 44

What is meiosis?

Answer 44

Occurs in the seminiferous tubules or ovaries, and the resulting cells are haploid. (gametogensis)

Question 45

Describe spermatogenesis

Answer 45

Spermatogenesis is constant after the onset of puberty, and billions of sperm are produced

Question 46

Describe oogenesis

Answer 46

The number of eggs is set before birth, and it is cyclic after the onset of puberty. Conservation of cytoplasm in an important factor because the majority of the cytoplasm is directed to one large cell, the egg.

Question 47

Describe copulation

Answer 47

In most species, the females permit copulation during receptive periods (estrus).

Visual cues to males include tail wagging, elevated tails, etc.

Pheromones are volatile chemical products that can trigger mating behaviors in animals of the same species. They are usually scents or smells released into the air.

Question 48

How many sperm are produced by a primary spermatocyte?

Answer 48

4 sperm produced from each

Question 49

How many sperm are produced by secondary spermatocytes?

Answer 49

2 sperm formed from each

Question 50

How many egg cells are produced by a primary oocyte?

Answer 50

1 functional egg is produced.

Question 51

What else is formed during oogenesis besides the egg?

Answer 51

polar bodies

Question 52

Describe where semen deposition occurs in common species.

Answer 52

Uterus in swine or horses

Vagina in most animals, including cattle, sheep, and goats

Cloaca-vagina in birds: females assume a mating crouch and the cloacas make contact to deposit the sperm. Male birds tend to not have a well developed copulatory organ

Question 53

Describe sperm storage

Answer 53

In most species, sperm has a short lifespan. The exception is birds, as they can store sperm in their vaginal crypts.

Question 54

Describe sperm transport

Answer 54

From the vagina to the uterus, sperm travel by their own motility using their tails.

From the uterus to the oviduct, sperm use their own motility, but are also aided by muscular contractions by the female.

Question 55

Describe capacitation and fertilization

Answer 55

Sperm must develop the capacity to fertilize mature eggs.

Capacitation is when the acrosome (head) of the sperm undergoes changes and it able to penetrate the egg’s outer coating (zona pellucida). The purpose of this is to make sure only one sperm penetrates the egg.

As soon as fertilization occurs, the fertilized egg becomes known as a zygote, and it gets nourishment from the egg’s cytoplasm.

Question 56

Describe prenatal development

Answer 56

Within the oviduct, the zygote divides and travels toward the uterus.

It receives nourishment from the egg’s cytoplasm, is free floating, and rapidly divides.

Within the uterus, the blastocyst develops.

Formation of extra-embryonic membranes.

Question 57

What is the blastocyst?

Answer 57

blastocyst: zygote that has been dividing as it goes down the oviduct and enters the uterus

Question 58

What are the extra-embryonic membranes?

Answer 58

yolk sac
amnion
chorion
allantois
allantochorion

Question 59

What is the yolk sac?

Answer 59

an extra-embryonic membrane that provides early nutrients (uterine milk) and degenerates after a few days

Question 60

What is the amnion?

Answer 60

the sac that surrounds the fetus, and is filled with fluid

it protects the fetus and absorbs shock

it does not fuse with anything

Question 61

What is the chorion?

Answer 61

a layer that surrounds the amnion sac

Question 62

What is the allantois?

Answer 62

The allantois is the structure that takes on the role of nutrient absorption after the yolk sac degenerates

Question 63

What is the allantochorion?

Answer 63

The allantois and the chorion membranes fuse together and attach to the uterine lining.

Question 64

What is implantation?

Answer 64

occurs when the allantochorion attaches to the uterus

one of the leading causes of infertility is inability to implant

implantation does not occur until about 1/3 of the way though pregnancy

heat stress is a major cause of implantation failure

Question 65

What is the placenta?

Answer 65

The exchange organ between the mother and fetus that allows for the exchange of nutrients and waste. There is no direct blood exchange.

The types of placentae are diffuse and cotyledonary

Question 66

Describe a diffuse placenta

Answer 66

The entire surface of the allantochorion attaches to the uterus. This type is present in horses

Question 67

Describe the cotyledonary placenta

Answer 67

The attachment of the allantochorion takes place in specialized areas. Curuncles from the uterine wall fuse with cotyledons from the placenta to form placentomes.

This type of placenta is present in ruminants.

Question 68

What are the sources of nutrients for the fetus during prenatal stages?

Answer 68

Before implantation: uterine milk in yolk sac or the allantois

After implantation: mother’s blood supply, as nutrients are exchanged through the placenta (no direct blood exchange)

Question 69

Define gestation

Answer 69

the period from conception until parturition

Question 70

Describe the hormones involved with parturition

Answer 70

Prenatal development is terminated by parturition.

1. Initiation - cortisol from fetal adrenal cortex; hormone levels change and uterus contracts
2. Relaxin: from ovary, helps relax cartilage and ligaments in pelvis
3. Oxytocin from posterior pituitary causes uterine contractons
4. Membranes - placenta vs. afterbirth

Question 71

What are the differences in prenatal development in female avian species?

Answer 71

During incubation, formation of the extraembryonic membranes occurs (yolk sac, amnion, allantois, chorion)

The length of incubation varies by species and temperatures. Chickens have an incubation period of 20-21 days while it is 28 days in turkeys. High humidity and a temp of 100 degrees F is ideal.

Unlike mammals, the allantois and chorion do not fuse in an egg, and most nutrients come from the yolk sac.

Prenatal development is terminated by hatching. Vasotocin is a hormone that functions like oxytocin during egg laying. Chicks can use their egg tooth to break out of a shell, and the egg can sustain life up to three days after hatching due to the shell membranes.

Question 72

What is the function of follicle stimulating hormone in male mammals?

Answer 72

FSH stimulates spermatogenesis in the seminiferous tubules

Question 73

What is the function of luteinizing hormone in male mammals?

Answer 73

LH stimulates the production of testosterone in the interstitial tissue.

Question 74

What controls the release of the gonadotropins FSH and LH?

Answer 74

GnRH - gonadotropin releasing hormone - from the hypothalamus stimulates the anterior pituitary to secrete FSH and LH

Question 75

How is the release of hormones in avian species different than in mammalian species?

Answer 75

Birds are receptive to a photoperiod, where the length and light exposure helps control hormone release. The length of the photoperiod determines when the anterior pituitary releases the gonadotropins.

Question 76

What is the function of follicle stimulating hormone in female mammals?

Answer 76

stimulates development of graafian follicles and estrogen production (secreted by AP)

Question 77

What is the function of luteinizing hormone in female mammals?

Answer 77

Triggers ovulation and stimulates growth and development of the corpus luteum (secreted by AP)

Question 78

What is the function of estrogen?

Answer 78

Estrogen is secreted by the graafian follicles in the ovaries, and it causes sexual excitability and development of female characterisitics

Question 79

What is the function of progesterone?

Answer 79

Progesterone is secreted by the corpus luteum in the ovaries, and it maintains pregnancy

Question 80

What is the estrous cycle?

Answer 80

This is the period between ovulations.
It lasts 21 days in cows, sows, and mares. It lasts 16 days in ewes.

The phases are: proestrus, estrus, metestrus, diestrus

Question 81

Describe the proestrus phase

Answer 81

follicles are developing on the ovary; estrogen levels are increasing

Question 82

Describe the estrus phase

Answer 82

The estrus phase is what we call “heat”; female is receptive to the male; high estrogen levels and surge of LH; release of ovum

Question 83

Describe the metestrus phase

Answer 83

corpus luteum is forming and begins to produce progesterone

Question 84

Describe the diestrus phase

Answer 84

functioning corpus luteum produces a lot of progesterone

Question 85

What happens if pregnancy occurs during the estrous cycle?

Answer 85

Corpus luteum is maintained and further estrus(heat) is inhibited

Question 86

What happens if no conception occurs during the estrous cycle?

Answer 86

Prostaglandin from the uterus causes regression of the corpus luteum (known as the corpus albicans), and proestrus begins

Question 87

How does progesterone act as a negative feedback mechanism?

Answer 87

High levels of progesterone feed back to the hypothalamus and inhibits the release of GnRH, preventing the animal from going back into heat if they are pregnant.

Question 88

Role of follicle stimulating hormone?

Answer 88

stimulates sperm and follicle development

Question 89

Role of estrogen?

Answer 89

brings animal into heat

Question 90

Role of LH?

Answer 90

stimulates ovulation and development of the corpus luteum; testosterone production

Question 91

Role of progesterone?

Answer 91

maintains pregnancy

Question 92

What are some additional functions of estrogen?

Answer 92

1. development of female reproductive system
2. causes tissue lining the uterus to thicken and increase blood supply
3. production of thin mucous in the cervix
4. makes uterus sensitive to oxytocin
5. makes uterus more resistant to infection

Question 93

What are some additional functions of progesterone?

Answer 93

1. increases growth and blood supply to lining of uterus
2. secretion of uterine milk
3. prevent muscle contractions of uterus
4. production of thick mucous by cervix

Question 94

What is the function of prostaglandin?

Answer 94

Prostaglandin is a hormone produced by the uterus, and it targets the corpus luteum to become non-functional if fertilization does not occur.

Question 95

What is the role of follicle stimulating hormone in female avian species?

Answer 95

associated with follicular growth - fairly constant

Question 96

What is the role of luteinizing hormone in female avian species?

Answer 96

causes ovulation - cyclic - partially stimulated by light intensity and length (photoperiod)

Question 97

How are eggs released?

Answer 97

Eggs follow a hierarchical order, that is, they are released in order of size.

Question 98

How do neurohormonal signals play a role in avian reproduction?

Answer 98

1. First, the egg is in the clutch (or after an egg leaves the magnum): nerves signal a hormonal response so an egg is sent to the magnum
2. While the egg is in the magnum: nerve signals prevent another egg from going to the magnum

Question 99

Discuss egg abnormalities

Answer 99

Double yolks: 2 eggs released at the same time or one yolk is lost and then “found” the next day

Soft shelled eggs: egg is laid prematurely and shell is not fully formed (usually caused by the bird itself)

Thin shelled eggs: dietary deficiency

Question 100

What does it mean to be a continuous breeder?

Answer 100

Continuous breeders have no distinct mating season and are polyestrous.

Cows and sows are examples of continuous breeders.

Question 101

What does it mean to be a seasonal breeder?

Answer 101

The animal will only mate at certain times of the year. These females only have their estrous cycles during certain times.

Examples are sheep, mares, and birds.

Question 102

What is the difference between sterility and sub-fertility?

Answer 102

Sterile animals cannot reproduce while sub-fertile animals may reproduce, but not at an optimal rate.

Question 103

What are some causes of sterility and sub-fertility?

Answer 103

Anatomical defects like cryptorchidism can be a cause.
Freemartins are sterile females born twin to a male.

Endocrine malfunctions can also be a cause.
Cystic ovaries can occur, preventing the follicle from rupturing, leaving the animal in constant estrus (heat).
A persistent corpus luteum that will not regress can also prevent the animal from entering estrus.

Question 104

How can reproductive efficiency be measured?

Answer 104

1. conception rate
   (# pregnancies/ # of breedings)
2. number of live births
3. pregnancy rate (heat detection rate x conception rate)

Question 105

What major factors influence fertility?

Answer 105

1. failure to mate to fertile male
2. fertilization failure
3. early embryonic death
4. fetal death - rare, except for disease
5. nutrition, disease, etc.

Question 106

Why is artificial insemination (AI) used?

Answer 106

1. breeds more females
2. more genetic progress
3. more economical
4. safety
5. disease control

Question 107

What animals are commonly bred via AI?

Answer 107

90% turkey broilers
70% dairy cows
< 10% beef cows

Question 108

Why are horses rarely bred via AI?

Answer 108

Some horses, especially racehorses, would have their value decrease if their sperm was sold for AI.

Question 109

How is semen collected for AI?

Answer 109

Artificial vaginas can be used for bulls, stallions, rams, goats etc.

The male will mount the female or another object and the artificial vagina will collect the ejaculate.

Other methods are also available.

Question 110

What is electroejaculation?

Answer 110

This is when a low grade electric current is ran through the accessory sex glands of the male, causing ejaculation. This method is typically used as a last resort, and is used on older males that may have trouble mounting for other methods of semen collection.

Question 111

How is semen handled immediately after it’s acquired and what risks are involved?

Answer 111

The semen could experience temperature shock if the temp is too high or too low.

It must avoid contamination and be placed in some clean equipment appropriate for its volume.

Concentration, motility, and structure can be measured.

Question 112

Why is sperm diluted when it is collected for AI, and what diluents are used?

Answer 112

Sperm is diluted to increase its volume and prolong the lifespan of it.

Some diluents used are egg yolk citrate or tris buffers. Milk and glycerol can also be utilized. The glycerol is added to prevent to formation of ice crystals during storage because milk has a lower phospholipid count than glycerol.

The diluent usually has a nutrient source and a buffer to control the pH so the sperm don’t die.

Question 113

How is semen collected for AI stored?

Answer 113

Storage vessels like straws are common.

Some semen is frozen in liquid nitrogen for longer term storage.

Fresh semen can also be maintained around 40 degrees F.

Question 114

How is the semen utilized for conception in AI and what must be considered?

Answer 114

The duration of estrus and ovulation are variable. Some times during the cycle have a higher chance of conception.

For instance, in cattle, estrus lasts around 12-18 hours, with ovulation occurring 12 hours after the end of estrus. The best time to inseminate the cow is mid-estrus to end of estrus, as their is an 86% conception rate during this window.

Question 115

How is the semen deposited during AI depending on the animal?

Answer 115

In cattle, the insemination tube is passed through the cervix and semen is deposited in the uterine body.

For goats or sheep, the semen is deposited in the uterus or cervix.

In mares, the semen is deposited in the uterus or the last part of the cervix.

In turkey, it is deposited in the oviduct because only the left one is functional, and we want to ensure that fertilization has the best chances to occur.

Question 116

How is estrus detected among certain animals?

Answer 116

In cattle, they should be checked daily. They display “standing heat,” restlessness, or clear discharge.

In swine, they take on a rigid stance, and have a red, swollen vulva.

Mares will frequently urinate, or have contractions of the vulva (winking).

Question 117

What factors influence conception rate?

Answer 117

1. semen quality
2. receptivity of female
3. ability of inseminator
4. nutritional plane, disease, status, stress level of female

Question 118

What is estrus synchronization?

Answer 118

Controlling the estrous cycle so that a herd or flock of females come intro estrus (heat) at approximately the same time.

advantages:
1. reduces labor for heat detection
2. helpful in embryo transfer programs

Question 119

How can estrus synchronization be accomplished?

Answer 119

The females can be injected with prostaglandin, which destroys the corpus luteum and brings the animal back into estrus after some time.

Question 120

How does embryo transfer occur?

Answer 120

An egg is removed from a mother’s (donor) reproductive tract and transferred to another female’s (recipient) tract.

The embryo may be fresh or frozen.

The purpose of embryo transfer is to increase the number of offspring from outstanding females.

Question 121

What other actions are performed for the donor animal during embryo transfer?

Answer 121

The donor is superovulated, receiving hormone injections like FSH to increase egg production.

The female is bred with two doses of semen, and fertilized eggs are recovered by flushing the uterus with a buffered solution.

Question 122

What is the difference between fresh and frozen embryos?

Answer 122

Fresh embryos have a higher conception rate than frozen ones.

Frozen embryos are easier to ship and transport, and can be stored to react to market conditions.

Question 123

What is in-vitro fertilization and what are some of the advantages that accompany it?

Answer 123

IVF is a biotechnology procedure where immature oocytes can be harvested, mature, and then be mated with sperm outside of the body.

Advantages:
1. Oocytes easily obtained from high value animals, both living and recently deceased
2. a good alternative to superovulation - embryos can be collected almost anytime

Question 124

How is semen sexed?

Answer 124

A centrifuge is used to separate the sperm cells, but this is not the preferred method.

Dyes and lasers can be used to separate semen based on the weight of their chromosomes.

Question 125

What are the four stages of the reproductive life cycle?

Answer 125

1. before puberty
2. puberal
3. adult
4. senescent

Question 126

Describe the prepuberal stage

Answer 126

Primary follicles have been formed (number set before birth); basis for adult behavior may be forming

Question 127

Describe the puberal stage

Answer 127

Endocrine changes; reproductive competence acquired

Influenced by age and weight

Question 128

Describe the adult stage

Answer 128

Capacity to produce and release gametes for extended periods

Females: available follicles decreased by atresia (shrinkage of follicles)

Question 129

Describe the senescent stage

Answer 129

Reproductive capacity decreases due to direct and indirect effects (deterioration of the reproductive tract or poor nutrition, etc.)

Question 130

What are some critical nutrients in reproduction?

Answer 130

protein: sperm, ova, epithelial lining of reproductive tracts

Vitamin A: helps maintain epithelial linings (too low - linings harden, inhibiting fluid and sperm/ova movements)

Vitamin E: helps maintain fertility

Calcium: needed in birds for shell formation

Positive energy levels are needed - low energy levels may cause females to not have estrous cycle or to not conceive

Question 131

What are some effects of good reproductive practices in production fields?

Answer 131

1. more total offspring
2. more females conceive in specific time periods
3. less feed, labor, and breeding costs
4. lower cull rate
5. more total production