Ruminant breeding management

Question 1

Goal of dairy breed management

Answer 1

Purpose is year-round production of milk

Lactation follows parturition

Goal is to maintain a 13 month calving interval per cow

Question 2

The goal in the dairy industry is to maintain a ______ ________ calving interval per cow

Answer 2

13 month

2 months Voluntary wait period + ~9m pregnant + ~2m to get pregnant again (ideally less than 30 days) = 13 month calving interval

Question 3

AI more commonly performed in which type of cow?

Answer 3

Dairy
Easy to handle for heat detection and/or estrus synchronization
Don’t require a bull on site
Able to use sexed semen (if need replacement females)

Question 4

Main factors that affect reproductive performance in dairy cattle

Answer 4

Voluntary waiting period (VWP)
Insemination rates
Pregnancy per AI
Pregnancy loss

Question 5

Voluntary Waiting Period in dairy cows

Answer 5

Set amount of time post-partum that an animal is not being bred
Usually around 60-80 days
Factors: herd pregnancy rates, parity, milk production

Allows uterus to recover from infection & involute

Allows cow to achieve positive energy balance and resume cycling

Question 6

The Voluntary Waiting Period in dairy calves is typically ___-___ days

Answer 6

60-80

Question 7

~90-95% of all cows should be inseminated within 30 days of the VWP if combining….

Answer 7

Estrus detection and timed AI

Dairy Records Management System (DRMS) important for tracking

Question 8

Purpose of Beef Breeding Management

Answer 8

Purpose is sale of calves at weaning

Defined breeding seasons – aide with marketing
Spring calving – breed May to August
Fall calving – breed December to January
Easier to identify herd problems (calving distributions)

Question 9

Beef cattle are commonly bred in the ______ and calve in the _____

Answer 9

Spring calving – breed May to August
Fall calving – breed December to January
Easier to identify herd problems (calving distributions)

Question 10

Breeding methods commonly used in beef breeding management

Answer 10

Natural – most commonly used
Limit bull exposure to 60-75 days (3 opportunities to breed)
Can market calves in “groups”

AI (+/- estrus detection) + clean-up bull
Still need to limit bull exposure
Advantages & disadvantages to including AI

Question 11

Disadvantages of AI use in Beef Herds

Answer 11

Requires estrus synchronization for timed AI (labor & drug expenses)

Handeling

Question 12

Advantages of AI use in Beef Herds

Answer 12

Easier introduction of desirable genetics

Shortened calving season (50-60% preg rate)

Increased calf uniformity (calving at same time)
-Earlier births during calving season = heavier weaned calves
–Potential increased return of $25-$40 per calf

Question 13

Beef Herd Reproductive Profile Components

Answer 13

Length of calving season
# days from birth of first calf to the birth of final calf

of calves born in the calving season divided by the # of cows exposed during the previous breeding season
-Total # of calves born in a breeding group, including mortalities
-Total # cows exposed in a breeding group

Distribution of births in the calving season
-Timing of births throughout the calving season aggregated to 21-day intervals

Question 14

Reproductive Goals for Beef Cows

Answer 14

≥ 95% pregnancy success (total)

1st 21 days: 60-65% pregnant (2/3)

2nd 21 days: ~23% pregnant; bull can pick up fertile cows that failed to conceive or maintain pregnancy that have 60-70% chance of getting pregnant still

3rd 21 days: ~7-8% pregnant (remaining cows that have a 60-70% chance of becoming pregnant

% open ≤ 5%

Question 15

Importance of estrus detection in cattle

Answer 15

To determine when to AI (dairy cattle, beef cattle [rarely], small ruminants, swine)

To confirm that females are in heat before performing AI (i.e., if breeding in large groups); assess response to synch protocols
-Beef cattle, small ruminants

Question 16

How estrus is detected in cattle

Answer 16

Direct observation of eligible females showing signs together or with a teaser male (behavior)

Detection aids: heat mount detectors, pedometers, etc.

Increased movement & standing

Hormonal assessment
Not practical in production setting

Question 17

Behavioral estrus signs in cow

Answer 17

Tail twitching or walking with tails elevated
Clear, thick mucous discharge from vulva
Mounting (females in heat should stand to be mounted)

Question 18

Dairy Cattle: Trained observer should be able to detect heat efficiently by observing the herd for ____-___ min in the morning and evening

Answer 18

30-60
(May want to increase frequency with heifers)

Question 19

Small ruminants/ swine can check for behavioral estrus 1-2x per day with…

Answer 19

fence line male exposure

Question 20

Teaser Male Preparation

Answer 20

Vasectomized or Epididectomized
Blocks transport of sperm from testes to urethra/ductus deferens
Advantage: Retains sexual behavior
Disadvantage: Risk of venereal disease transmission

Penile translocation (“Gomer” Bull)
Surgical procedure that transplants the sheath/penis to the fold of the flank to prevent female penetration (usually)
Advantages: Normal erection & behavior; Decreased risk of venereal disease transmission
Disadvantage: bull may become frustrated & lose sexual drive; can “figure out” out to penetrate female (oftentimes performed with a vasectomy)

Question 21

Factors that affect heat detection in cattle

Answer 21

Adverse weather conditions or sudden change in weather
Malnutrition
Stress (rough handling, transportation, noise, overcrowding, heat/cold stress)

Question 22

two primary causes of poor reproductive performance and low reproductive efficiency in dairy cattle are…

Answer 22

Failure to detect heat and errors in heat detection

Question 23

Results of Inadequate Heat Detection

Answer 23

Undetected heats = longer calving intervals, lower lifetime milk production, fewer calves
Breeding cows unsuitable for insemination -> ↓ conception rates and wasted semen and time ($$$)
Combinations of unrecognized estrus and low conception rates may result in inappropriate culling of normal cows
Insemination of pregnant cows mistakenly identified in heat can result in abortion

Question 24

Heat Detection Rate (HDR) equation

Answer 24

Number of cows bred divided by the number of cows eligible to get bred over a 21 day period

100 cows in a herd are eligible for breeding
35 cows submitted for AI
(35)/100=
Heat Detection Rate = 35%

Question 25

Conception Rate (CR) equation

Answer 25

The percentage of the number of cows that conceive (actually get pregnant) divided by the number bred at the time of pregnancy check 35 cows submitted for AI 14 cows that were bred become pregnant (14/35)= Conception Rate = 40%

Question 26

Pregnancy Rate equation

Answer 26

The percentage of cows eligible to become pregnant, in a given time frame, that actually become pregnant Time frame = 21 days (dairy) Can apply to bull bred herds, AI bred herds, or a combination of both PR = HDR x CR 14 cows become pregnant Pregnancy rate = 35% x 40% = 14% OR 14 cows pregnant/ 100 eligible cows

Question 27

Artificial Insemination Timing in ruminants

Answer 27

AM-PM rule If a female is observed in estrus in the AM, she should be bred via AI in the PM Conversely, if observed in the PM, breed in the AM Females will be bred via AI and semen placed in the uterine body ~ 12-20 h before ovulation occurs Sperm placed 12-24 h prior to ovulation Viability of sperm 24-30 h Egg viability 8-12 h after ovulation

Question 28

Reasons for manipulation of the estrous cycle

Answer 28

Convenience (do it all at same time) Fertility control Management procedures (know when they calve) Artificial insemination/embryo transfer techniques

Question 29

2 main options of manipulating estrus cycle

Answer 29

Shorten the luteal phase Lengthen the luteal phase

Question 30

Prostaglandin (PGF2α) agonists can be used to...

Answer 30

Lyse the CL and shorted the luteal phase to get animal cycling and in heat faster (estrus ~3days post admin) Effective 5-17 of the estrous cycle during diestrus (CL MUST be present and have the receptors present) Lutalyse (dinoprost) & Estrumate (cloprostenol) Labor intensive- heat detection is required

Question 31

Progestins can be used to...

Answer 31

Lengthen the luteal phase (prevent ovulation) - Mimics the luteal phase (makes body THINK there is CL) (Negative feedback of GnRH) MGA – oral Progesterone in oil - injectable CIDR pessaries – most commonly used

Question 32

GnRH agonists can be used to...

Answer 32

Stimulates LH/FSH from anterior pituitary “Resets” follicular wave OR triggers ovulation Administration AFTER dominant follicle selection- Ovulation Emergence of new wave in 1.5-2 days- “Resets” the follicular wave Administration BEFORE selection -No effect on progression of existing follicular wave Cystorelin and Factrel most commonly used

Question 33

OV-Synch protocol

Answer 33

Commonly used in dairy cows 4 handlings GnRH on Monday (d 0) PGF on following Monday (d 7) GnRH again on Wednesday (d 9) Breed 8-18 hours later Alterations: + CIDR (between GnRH and PGF) (improve efficacy)

Question 34

CO-Synch protocol

Answer 34

Commonly used in beef cows Less handling (3) GnRH on Monday (d 0) PGF on following Monday (d 7) GnRH and AI ~54-66 hours later Alterations +/- CIDR

Question 35

Select-Synch protocol

Answer 35

GnRH on Monday (d 0) PGF on following Monday (d 7) Heat detect and AI day 6 – 13 (if CIDR not being used) Alterations +/- CIDR Give GnRH and TAI all non-responders 72-84 h after PGF

Question 36

Artificial Insemination techniques in cattle

Answer 36

Uterine body deposition: 15 million sperm (most common) Cornual insemination: 2 million sperm (less common unless high value sperm)

Question 37

Sheep and goats at beginning and ending of breeding season or post-partum will have increased...

Answer 37

Frequency of cycles More commonly seen in goats than sheep Photoperiod or nutrition

Question 38

Estrus duration in sheep

Answer 38

30-36h

Question 39

Estrus duration in goats

Answer 39

24-48h

Question 40

Sheep and goat behavior when coming into estrus

Answer 40

Expression of immobilization reflex in response to male nudges, including serial mounting and copulation Swollen vulva, mucoid discharge turning cloudy

Question 41

In goats and sheep, When double ovulations occur, usually derived from...

Answer 41

The same follicle wave Sometimes, can come from two consecutive follicle waves

Question 42

In More prolific breeds of sheep and goats the dominant astral follicle achieves....

Answer 42

Smaller maximum sizes

Question 43

Ovulation rate in small ruminants is affected by....

Answer 43

Breed Season Nutrition

Question 44

Estrous Cycle Manipulation in small ruminants is useful for...

Answer 44

Allows for distribution of milk and meat production throughout the year Labor saving for breeding and kidding Induction of estrus in transition periods and during winter anestrous Synchronization for breeding (AI or natural)

Question 45

Estrous Cycle Manipulation in small ruminants

Answer 45

Photoperiodic Treatments Male Effect Dormitory Effect Adapted Nutrition Hormonal treatments NOTE: most drugs not approved for use in goats in U.S. Combination of all of these

Question 46

Photoperiodic Treatments in small ruminants

Answer 46

Altering the length of the daylight (need facilities) Begin with long days to prepare for stimulatory effects of short days (otherwise become photo-refractory) Decreasing day length will trigger melatonin release from the pineal gland *works best during transition periods not to keep them cycling because they can have a photo refractory period and stop cycling Field conditions: melatonin implants Synergistic with progesterone to induce cyclicity and pregnancy in the anestrous animal Not available in U.S.

Question 47

Goats and sheep are more complicated to synchronize since...

Answer 47

They have on average 3-4 waves per cycle

Question 48

The Male Effect

Answer 48

Brings sheep/ewes out of anestrus period quicker Ewe and goat isolated for 30 days (no sight, smell, sound) then male introduced Male introduced abruptly for 48h Ewes and does pick up pheromones and trigger LH secretion and induces "silent" ovulation (no estrus behavior since no progesterone priming on hypothalamus has occurred) Works to up regulate estrogen receptor production on hypothalamus so she can respond and show estrus behavior Ovulation occurred so there is now a CL present to prime the hypothalamus to create more estrogen receptors Likely short cycle but after she should be able to show estrus behaviors on next cycle since estrogen receptors formed

Question 49

The Dormitory Effect

Answer 49

Introduction of ewe in estrus 25% of other ewes will respond and come into estrus Remaining 80% will respond in a few weeks Great to advance breeding season without the expense of drugs or a ram

Question 50

Adapted Nutrition "Flushing"

Answer 50

↑ nutrition (energy) before/ early breeding season -> ↑ ovulation rate -> ↑ twinning rate Feed 1 lb of high-energy supplement (corn, oats, barley etc.) per day @ 2-3 weeks BEFORE BREEDING Success affected by age, genetics, body condition, time of year -Best response with marginal body condition

Question 51

Hormone Treatments in ewe/goats- Prostaglandins

Answer 51

Lyses the CL Single or double injections, 11-12 days apart- Estrus in 24-72 hours 2nd dose will result in tighter synchrony *Must be cycling (i.e., in season)

Question 52

Hormone Treatments in ewe/goats- Progesterone/progestins

Answer 52

Sponges – various products Medroxyprogesterone acetate Flurogesterone acetate CIDR (330 mg) progesterone Most commonly used in the U.S. Melengesterol acetate (MGA) in feed 0.25 mg/hd once per day x 14 days -Legality concerns (extra-label usage) Length of time is usually 5 or 14 days Estrus shown in 24 to 96 hours after withdrawal (varies with other components in protocol)

Question 53

Ovulation Induction during in small ruminants

Answer 53

eCG/PMSG (equine chorionic gonadotropin/ pregnant mare serum gonadotropin) **FSH-like activity (superovulation) Acts directly on the OVARY to stimulate ovulation PG-600: eCG/hCG combined Longer half-life (36 h) compared to GnRH agonists (0.5-1 h) GnRH agonists Acts on the anterior PITUITARY to stimulate LH/FSH activity Short half-life

Question 54

eCG in the ewe/sheep acts on the ________ while GnRH agonists act on the _________ _______.

Answer 54

eCG- Acts directly on the ovary FSH like activity (longer T1/2) GnRH agonist- Acts on anterior pituitary to stimulate LH and FSH (shorter T1/2)

Question 55

Ovulation Induction during Early Seasonal Transition

Answer 55

Early Transition Progestin for >14 d (18-21) + PG600® on the day of or 24-48 h before progestin removal Ewes – 5 day progestin treatment

Question 56

Ovulation Induction during later Seasonal Transition

Answer 56

Late Transition Ram/Buck Effect Progestin treatment similar to early transition Photoperiod manipulation (begin during summer)

Question 57

Ovulation Induction Outside of Breeding Season

Answer 57

Progestin for >14 d (18-21)+ PG600® the day of or 24-48 h before progestin removal – sheep 5 days Artificial lighting programs Mimic long days for ~ 60 d followed by short days for 60 days or natural light (Administration of melatonin (not available in U.S.))

Question 58

Sheep Reproduction Goals

Answer 58

easy management to provide lambs for year-round marketing and increasing production per ewe Cornell star system- peak efficiency (not done in small settings) There are three groups of ewes during any 73-day period. The groups of ewes are those that are: Lambing (first 30 days) and lactating ewes. Breeding (first 30 days) and gestating ewes. In the last half of gestation.

Question 59

Small Ruminant Natural Breeding most commonly used for production of...

Answer 59

Meat and fiber

Question 60

Small Ruminant Natural Breedings should be planned around desired date(s) of...

Answer 60

Parturition Male should be left in for 1.5 cycles (32 days in goats or 27 days in sheep)

Question 61

Male-to-female ratios in small ruminant natural breeding will vary based on...

Answer 61

Age/SC of male size of mating area whether females are synchronized (higher male to female if all sync) Markers useful to keep records for lambing/kidding

Question 62

Small Ruminant Artificial Insemination deposition

Answer 62

Natural- semen deposited in Vagina For AI usually use frozen, thawed semen and smaller dose so uterine body deposition preferred Used mostly for breeding stock producers, hobby farms, and show animals Fresh semen can be deposited intravaginal, cervical, or transcervical intrauterine Laparoscopic intrauterine insemination recommended for frozen semen (though acceptable rates can be obtained in goats with transcervical; NOT SHEEP) Recommended to check quality of frozen semen before use due to lack of standards for quality control

Question 63

Advantages of AI in small ruminants

Answer 63

Maximal use of superior sires Elimination of need for males on farm Inexpensive semen costs Decreased risk for venereal diseases Improved herd management

Question 64

Disadvantages of AI in small ruminants

Answer 64

Cost for AI and semen equipment (LN2) Increased labor for estrus detection/synchronization/ insemination Lack of standardized procedures for cryopreservation of semen Lack of suitable sire proofs for production traits (risk of spreading less desirable traits)

Question 65

In small ruminants (esp. sheep) need to use _________ for intrauterine insemination

Answer 65

Laparoscopy Goats may be able to get acceptable rates but not in sheep (cervical ring) Cervical Rings: Ewe: 2-7 (avg.5) Doe: 4