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July 7 (evening)
Garrett College
McHenry, Maryland
Contact: Willie Lantz at wlantz@garrettcollege.edu
or Ann Sherrard at anns@umd.edu or (301) 334-6963
August 3 (twilight)
St. Mary’s County Fairgrounds
Leonardtown, Maryland
Contact: Ben Beale at (301) 475-4484 or or bbeale@umd.edu.
September 7 & 8 (evenings)
Washington County Ag Expo
Boonsboro, Maryland
Contact: Jeff Semler at (301) 791-1404 or jsemler@umd.edu
Additional workshops will be held in other counties and states. Contact the
extension agent in your county if you're interested in attending a workshop
in your county/region.
In 2005, the minimum standard for tail length for lambs shown in Maryland 4-H
shows will be 0.7 inches. The tool which will establish whether a lamb
meets the minimum standard is called a "DeTail Device." There are
two lines on the barrel or trough of the device: 0.7 inches and 1.4 inches from
the end of the barrel.
With the lamb standing, the DeTail Device is placed under the tail, with the
tail contained in the trough. If the end of the tail at least meets the edge
of the 0.7 inch recessed line closest to the lamb, it is deemed to have met
the minimum standard. Enforcement of the 0.7 inch minimum standard will be done
at the time of weigh-in at shows. Use of the Detail Device at initial weigh-in
and/or at the start of the project can identify animals that might have problems
meeting the 0.7 inch minimum standard at show time.
It is recommended that exhibitors use the DeTail Device as they search for prospective
show animals. Based on a five-state study, if a lamb measures 1.4 inches at
"weaning," there is a 99 percent probability that the lamb will measure
at least 0.7 inch at market (show). The device is not a guide for docking lambs.
It is still advised to dock all lambs at the distal end of the caudal tail fold.
In a five-state study involving 782 lambs, 99 percent of lambs docked at the
distal end of the caudal tail fold measured 0.7 of an inch or longer at market,
as measured by the DeTail Device.
A Small Ruminant Nutrition and Feeding Short Course will be held on October 28, November 4, and November 18 (all Thursday evenings) at the Frederick County Extension Office. The short course will combine lectures with hands-on activities and will stress practical information that producers can use to feed and manage their flocks. Registration information will be available from Terry Poole, tel. (301) 694-1594 ext. 13577 or tepoole@umd.edu.
Willie Lantz has been hired as a Faculty Extension Assistant for Agriculture and Natural Resource Programs in Garrett County, filling the vacancy left by the retirement of long-time county agent Jim Simms. Willie was previously an instructor for the Alternative Agriculture Program at Garrett College, where he oversaw the college's 2-year agricultural education program, which included a meat goat herd. Willie currently provides leadership to the MPWV¹ Meat Goat Producers Association and serves as its vice president. Willie can be reached at the Garrett County Extension Office at (301) 334-6960 or by e-mail at wlantz@garrettcollege. edu.
¹Maryland-Pennsylvania-West Virginia
A grant proposal entitled, "The Mid-Atlantic Sheep & Goat Marketing
Project" has received funding from Northeast SARE¹. The intent of the
grant project is to build on the accomplishments of the Northeast Sheep &
Goat Marketing Program (NESGMP) and extend its benefits further south into the
Mid-Atlantic states: Maryland, Delaware, Virginia, Pennsylvania, West Virginia,
and North Carolina. The NESGMP was originally funded by a USDA grant received
and administered by Cornell University.
The new grant will provide funding to revise and expand the Northeast Sheep
& Goat Marketing Program’s web site --sheepgoatmarketing.org
-- previously based at Cornell University. Funding will also be available for
educational programs on marketing sheep and goats to the ethnic/religious markets.
¹Sustainable Agriculture Research & Education Program
Sixty-five (65) Boer x Spanish doelings arrived at the University of Maryland's
Western Maryland Research and Education
Center (WMREC) in Keedysville (9 miles south of Hagerstown) on May 3, marking
the start of the applied small ruminant research program at the facility. This
is the first time that sheep and/or goats have been at the 500-acre research
facility. The goats will graze at the facility through the end of October and
are being used in various internal parasite studies. Sheep will be incorporated
into the research program in the future.
In addition to being a research facility, WMREC is the administrative home for
the Western Region of Maryland Cooperative Extension. Six regional extension
specialists are housed at WMREC. Their expertise covers such diverse topics
as nutrient management, viticulture, fruit crops, forestry, and farm management,
in addition to small ruminants. Numerous research projects are conducted at
WMREC.
Of greatest interest to sheep and goat producers is the cool season grass variety trials being conducted by agricultural extension agents, Don Schwartz (Washington County) and Stan Fultz (Frederick County). The grass plots have been managed to simulate intensive grazing by livestock. Three years of yield and stand persistence data has been collected and are available to the public. The grass plots were replanted this year.
Editor’s note: Producers are encouraged to provide input as to the type of sheep and goat research they would like to see conducted at WMREC. Contact Susan with your ideas.
Dr. Niki Whitley
University of Maryland Eastern Shore
Giving beneficial microorganisms called probiotics (or direct-fed microbials)
orally to animals has become quite popular in livestock production. Commercial
probiotics are usually combinations of good microbes ("bugs") that
are already present in the digestive tract (stomach and/or intestines) to some
degree along with other microbes that are beneficial to the existing microbes.
Examples of microbes (probiotics) commonly used in commercial probiotic mixtures
are yeast and lactobacillus (acid-loving) species.
A couple of years ago, we began using probiotic paste to treat sick animals
on the university farm and found that it cleared up diarrhea quickly. Then,
we began using it as a preventative any time we knew animals would be stressed
(weaning, moving, changing feeds) and bought some in the form of a feed additive
to make it easier to administer. Because bottle babies commonly have stomach
disruptions, we also began to put a dispersable powder form of probiotics in
milk replacer as well. Since then, many commercial companies have realized how
well probiotics work and have included them in their milk replacers already,
so we do not have to add more.
Since probiotics have been found to increase feed efficiency and rate of gain
in cattle and sheep, we conducted a study to see if it would do the same for
goats in a feedlot. Forty-four female and castrated male crossbred meat goats
approximately 135 days old and weighing approximately 50 lbs. were used. They
had been weaned at an average of 80 days and placed on pasture until the study.
All animals were fed the manufacturer suggested labeled dose for goats of probiotics
(Fastrack, Conklin Co.) as part of our standard operating procedures until 21
days before the study began. Then, half the goats (22) had the labeled dose
(.5 oz/head/day) of probiotics added to their diet while the other half was
fed the same diet without probiotics (15% Meat Goat Ration, medicated; Southern
States, Inc., Richmond, VA). There were 3-4 goats per pen with at least one
female per pen and the study lasted 8 weeks. Goat body weight and feed intake
(weighing uneaten portions of pre-weighed feed) was measured every 7 days. Feed
efficiency was calculated as feed:gain (lb feed consumed/lb BW gain).
Overall body weight gain for the entire treatment period was higher for probiotic-treated
animals than for untreated (control) animals, however, average daily gain (approximately
0.4 lb per day) and feed efficiency (approximately 5.8 lb feed/lb gain) were
not influenced by probiotic treatment. The goats on this study were older than
might normally be introduced into a feedlot situation. However, towards the
end of the study, weights seemed to be diverging, with the probiotic group gaining
faster than the control animals. In addition, standard operating procedures
for this farm are to use probiotics when introducing animals to the feedlot,
therefore, untreated animals had previously been treated with probiotics. If
this had not been the case, the results may have been different. Therefore,
more research is needed to determine the effectiveness of probiotics in meat
goat feedlot diets.
Editor’s note: UMES will be conducting another studying utilizing probiotics. Both lambs and kids will be fed probiotics. Look for the results of the study in future issues of the newsletter.
Researchers at Langston University
(Oklahoma) studied the effect of short-term consumption of a forage containing
condensed tannins (Sericea Lespedeza) on gastro-intestinal worms in goats. Groups
of Spanish wethers (avg. wt. 47 kg) were utilized for the experiment. They grazed
Sericea Lespedeza (46 g extractable condensed tannin per kg) for 15 days. The
control diet was rye and crab grass (6 g extractable condensed tanning per kg).
After 15 days, the groups of goats were switched to the alternative diet for
another 15 days.
The mean fecal egg count and total fecal egg output was reduced in goats consuming
Sericea Lespedeza compared to the goats grazing rye and crab grass: 2,500 vs.
750 eggs/gram and 173 vs. 45 x 104 eggs per day. The percentage of eggs developing
to L-3 larvae was also reduced from 99 to 58.2 percent in the goats grazing
Sericea Lespedeza.
The researchers concluded that the grazing of Sericea Lespedeza, a forage containing
condensed tannins, reduced fecal egg output from gastro-intestinal worms and
reduced hatching and development of larvae, which would reduce pasture contamination
by infective larvae, thereby reducing the need for anthelmintics to control
parasites.
Source: Small Ruminant Research. March 2004.
Conducted every five years by the U.S. Department of Agriculture's National Agricultural Statistics Service (NASS), the Census of Agriculture attempts to reach every agricultural operator in America through a mail survey. Follow-ups by telephone or personal interview are conducted for those who do not respond by mail. Data represent all agricultural operations, defined as any place which sold or normally would have sold more than $1,000 worth of agricultural products during the census year.
According to the census, the U.S. sheep and lamb inventory declined from 8,083,457 head in 1997 to 6,341,799 head in 2002. There were 77,112 sheep farms in 1997 compared to 73,814 in 2002. While sheep production continues to decrease in traditional sheep-raising areas such as the West and Midwest, sheep numbers increased in Ohio, Pennsylvania, New York, New Jersey, and most of the southern states.
| State | 1997 |
2002 |
||
| Farms |
Head |
Farms
|
Head |
|
| Delaware | 58 |
1,276 |
54 |
1,028 |
| Maryland |
685 |
23,552 |
655 |
22,702 |
| Pennsylvania | 3,385 |
100,375 |
3,504 |
102,890 |
| Virginia | 1,777 |
83,138 |
1,697 |
71,819 |
| West Virginia | 1,184 |
46,317 |
1,153 |
38681 |
2002 Maryland Sheep/Lamb Inventory
The Maryland sheep population declined slightly over the five-year
period from 23,552 head in 1997 to 22,707 head in 2002. The number of sheep
operations in the state went from 685 to 655. The counties in Maryland which
have the most sheep and lambs are Carroll, Frederick, and Harford.
| County |
Farms |
Head |
| Allegany | 8 |
264 |
| Anne Arundel | 12 |
261 |
| Baltimore | 46 |
1,977 |
| Calvert | 13 |
132 |
| Caroline | 6 |
248 |
| Carroll | 91 |
3,759 |
| Cecil | 26 |
1,732 |
| Charles | 21 |
368 |
| Dorchester | 3 |
*** |
| Frederick | 104 |
2,646 |
| Garrett | 38 |
1,399 |
| Harford | 46 |
3,406 |
| Howard | 34 |
780 |
| Kent | 11 |
1,068 |
| Montgomery | 47 |
952 |
| Prince George's | 13 |
285 |
| Queen Anne's | 14 |
459 |
| Somerset | 2 |
*** |
| Talbot | 9 |
276 |
| Washington | 55 |
1,489 |
| Wicomico | 11 |
469 |
| Worcester | 2 |
*** |
U.S. Goat Inventory
According to the Ag Census, there were 2,530,466 goats in the United States in 2002, of which 1,938,924 were classified as meat or “other” goats. Texas has the most goats by far: 1,194,289. The second biggest state for goat production is Tennessee, which has 114,664 head of goats. States having more than 50,000 goats include Georgia, Kentucky, North Carolina, Oklahoma, Alabama, and California.
| State | All goats
|
Meat and
other goats |
||
| Farms |
Head |
Farms
|
Head |
|
| Delaware | 106 |
1,521 |
99 |
1,372 |
| Maryland |
702 |
9,601 |
520 |
6,715 |
| Pennsylvania | 3,213 |
39,932 |
2,426 |
26,257 |
| Virginia | 2,376 |
41,275 |
2,035 |
35,710 |
| West Virginia | 1,428 |
17,484 |
1,166 |
14,326 |
2002 Maryland Goat Inventory
Seventy (70) percent of the goats in Maryland were categorized as meat or other goats. The counties in Maryland which have the most goats are Carroll, Frederick, and Garrett.
| County | Farms |
Head |
| Allegany | 8 |
114 |
| Anne Arundel | 15 |
116 |
| Baltimore | 49 |
448 |
| Calvert | 11 |
196 |
| Caroline | 18 |
170 |
| Carroll | 90 |
1,026 |
| Cecil | 32 |
913 |
| Charles | 31 |
280 |
| Dorchester | 6 |
15 |
| Frederick | 97 |
1,182 |
| Garrett | 44 |
1,183 |
| Harford | 55 |
528 |
| Howard | 21 |
164 |
| Kent | 6 |
91 |
| Montgomery | 39 |
622 |
| Prince George's | 15 |
286 |
| Queen Anne's | 15 |
108 |
| Somerset | 12 |
260 |
| Talbot | 7 |
72 |
| Washington | 49 |
639 |
| Wicomico | 26 |
453 |
| Worcester | 13 |
310 |
What is it?
The meningeal worm is an internal parasite (nematode) of the white-tailed deer.
It usually completes its life cycle in deer without causing noticeable problems.
However, when unnatural hosts, such as sheep and goats, become infested with
meningeal worm, the parasite moves into the brain and/or spinal cord and causes
neurological problems and can be fatal. Llamas and alpacas are even more susceptible
to meningeal worm infection than sheep or goats. Cattle and horses are not affected.
The life cycle of the meningeal worm requires terrestrial snails or slugs as
intermediate hosts. White-tailed deer become infested with P. tenius
by eating snails or slugs that contain the infective stage of the larvae which
migrate through the deer’s gut and eventually move into the central nervous
system where they mature into adults, produce eggs, and the life cycle begins
again. However, when P. tenius-infected snails and slugs are ingested
by aberrant hosts, the larvae migrate into the brain and/or spinal cord. They
do not mature into adults, but rather the immature larvae wander through the
central nervous system causing inflammation and swelling which damages sensitive
nervous tissue producing a variety of neurologic symptoms. Experimental evidence
suggests that it takes 10 to 14 days for the parasite to reach the brain and/or
spinal cord after the animal eats the infected snail or slug.
Symptoms.
The neurologic signs observed in infected sheep and goats depend upon the number
of larvae present in the nervous tissue and the portion of the brain or spinal
cord that has been affected. A mild infection may produce a slight limp or weakness
in one or more legs, while a more severe infection may cause an animal to be
partially or completely paralyzed. When larvae migrate to the brain, they may
cause blindness, a head tilt, circling, disinterest in or inability to eat,
or other signs that mimic brain diseases. Affected animals may get progressively
worse, remain static, or in some cases improve without therapeutic involvement.
In most cases, infected animals remain alert and continue to eat and drink normally.
Click HERE to see QuickTime movie (1.9 mb) of a goat displaying symptoms of meningeal worm infection.
Diagnosis.
Meningeal worm infection cannot be diagnosed in the live animal. Sheep and goats
are “dead end” hosts for the parasite, and since the larvae do not
produce eggs or pass larvae into the feces, a fecal examination is not useful.
The parasites cannot be detected by blood testing. The only way to confirm diagnosis
is to find the parasite in the nervous system, which requires a necropsy examination.
Testing the cerebrospinal fluid, which requires the animal to be tranquilized
or anesthetized for extraction, may also help to support suspicions of brain
worm infection.
Diagnosis in the live animal is based on symptoms and clinical history. Usually
animals have been grazing for at least two months and there is a history of
deer in the area. Diseases which look similar to meningeal worm infection include:
listeriosis, CAE, scrapie, rabies, trauma, copper deficiency, vitamin
E/selenium deficiency, spinal cord or brain abscess, or polioencephalomalacia.
Treatment.
Many different drugs including thiabendazole (TBZ), levamisole (Tramisol®),
fenbendzole (SafeGuard®/Panacur®), albendazole (Valbazen®), and
ivermectin (Ivomec®) have been used in an attempt to treat meningeal worm
infection. It is believed that some anthelmintics can kill P. tenius
larvae while they migrate from the stomach to the brain or spinal cord, but
are unable to enter the central nervous system because of a structure called
the blood-brain barrier. Other anthelmintics may be able to kill the larvae
regardless of their location in the body.
To date, no controlled studies have confirmed or refuted the efficacy of different
treatment recommendations. In addition, treatment does not repair nervous tissue.
Further, some animals with mild clinical signs may recover without treatment.
Producers who suspect meningeal worm in their animals should consult a veterinarian
for treatment recommendations.
Prevention.
Prevention is difficult, but the key to controlling meningeal worm infection.
While reducing deer population is rarely effective since a single deer can shed
several thousand eggs per gram of feces, and the larvae are highly resistant
to environmental forces, small ruminants should not be grazed in areas receiving
high deer utilization. Controlling livestock access to the intermediate hosts
may prove to be the most effective means of preventing meningeal worm infection.
Ponds and swamps should be fenced off so sheep and goats do not become exposed
to snails and slugs. It may be helpful to limit sheep and goat pasturing to
fields without contiguous woodlands and to pastures that are on high ground
and well-drained.
When feasible, sheep and goats should be removed from pasture earlier in the
grazing season before the weather turns wet and cool. Animals kept in pastures
that have wetlands and white-tailed deer should be removed from these pastures
in the late summer and until the first hard freeze. If this is not possible,
strategic deworming is another approach by continuously providing an anthelmintic
in the feed or mineral mix or by deworming with an injectable or oral product
every 10 to 14 days starting in late summer and continuing in early to mid-winter,
depending upon the severity of the freezing temperatures.
Meningeal worm is not a health concern to humans.
References: P. tenuis - The White-tailed Deer Parasite, Michigan State University College of Veterinary Medicine and Goat Medicine (1994) by Smith and Sherman.
The "male (ram or buck) effect" is when anestrus (non-cycling) females
are stimulated to ovulate by the sudden introduction of males (or teasers¹).
The male effect relies on females and males being totally isolated from each
other for at least one month. Females must be sufficiently away from males so
that there is no contact by either sight or smell. The introduction of a "novel"male
can circumvent the need to isolate females.
The male effect works because rams or bucks produce chemical substances called
pheromones, the smell of which changes the reproductive physiology of the female
and stimulates her to begin cycling. The ram's scent glands are located in the
suint of his wool, while the buck's scent glands are located behind the base
of the horns.
The initial ovulation will be a non-detectable "silent heat,"at 3
to 4 days after the introduction of the ram. Two peaks of estrus activity follow
this around days 18 and 25. Ewes that do not conceive may cycle again in 17
days. Sixty to 70 percent of ewes conceive at the first normal estrus. Sixty
to 70 percent of the remainder conceive at the next cycle. In goats, ovulation
occurs 2 to 10 days after introduction of the buck.
The great value of the male effect is in the synchronization of estrus activity.
Large numbers of females ovulate, conceive, and subsequently lamb or kid over
a short period of time. However, the response to the male effect can be quite
variable. The male effect works best in breeds which are less seasonal and during
the transitional breeding season (July-August) when most ewes have not yet begun
to cycle, but are almost ready to. In seasonal breeds, the male effect may only
be able to advance the breeding season by about six weeks. Nutrition and body
condition play a role in female responsiveness to the male, especially during
the postpartum period
In order for the male effect to work, sexually active males are a must and adequate
ram/buck power is required. A teaser male can be used for the first several
weeks, saving the ram/buck power for the fertile mating period. The use of a
sterile male does not increase the response, but may shift the lambing period.
The male effect is easier and more economical than using exogenous hormones
for synchronizing estrus and/or inducing non-cycling females to ovulate; however
it may be used in conjunction with estrous synchronization programs to improve
results.
¹A teaser is a sterile male that has been vasectomized or epididectomized.
Reference: Sheep Production Handbook, American Sheep
Industry Association. 2002 Edition, Vol. 7.
The first confirmed case of scrapie was recently found in a commercial hair
sheep, proving that hair sheep will develop scrapie if they are exposed to the
infective agent. Previously, scrapie had never been found in a hair sheep, and
some hair sheep producers argued that hair sheep should be excluded from scrapie
eradication efforts.
The incidence of scrapie in the U.S. sheep flock was recently determined to
be 1 in 500 sheep. The incidence in the U.S. Suffolk breed is estimated to be
1 in 100 Suffolk sheep. However, most sheep that are exposed to the scrapie
agent are slaughtered before they are old enough (> 18 months) to develop
scrapie.
The prevalence of scrapie in goats is unknown, but goats are included in the
scrapie eradication regulations because they will develop scrapie if they are
exposed to the infective agent.
Source: KHSI Spring 2004 Newsletter
On January 22, 2004, The Animal and Plant Inspection Service certified BioServe Biotechnologies, Ltd. as an official USDA sheep scrapie testing laboratory. BioServe has recently launched www.scrapietesting.com dedicated their scrapie testing services. Currently BioServe Biotechnologies, Ltd. provides three Scrapie Susceptibility Tests. The tests include Codon 171, Codon 154, and Codon 136. At this time, they are able to process 2 ml blood vials. Check out www.scrapietesting.com or www.bioserve.com/scrapie/ for more information about their services and pricing.
Source: Mike Seddon, BioServe Biotechnologies, Ltd.
Sheep producers are eligible to receive up to $18 for each ewe lamb they purchase
or retain from August 31, 2003, to July 31, 2004. Eligible ewe lambs must be
kept in the flock for at least one lambing cycle. Producers are required to
keep records to document the purchase or retention of ewe lambs in their flock.
The purpose of the USDA Ewe Lamb Replacement Retention Program is to provide
an incentive for producers to purchase or retain ewe lambs to help rebuild the
national ewe flock. The $18 payment rate is subject to available program funds.
Producers should contact their local FSA
office for additional information or to make application. The deadline for application
has not yet been announced by FSA.
The 2004 Maryland Sheep & Wool Festival
held its first lamb carcass contest in which lambs were scanned using realtime
ultrasound to determine back fat and rib eye measurements. Jim Pritchard from
West Virginia University did the scanning. Seventeen (17) lambs competed. Lambs
ranged in age from 3 to 12 months and represented the Texel, Suffolk, and Merino
breeds as well as various crossbreeds.
The Champion Carcass Lamb was a 92-lb. Texel exhibited by Bev and Sherm Pearsall
from Thurmont. The Pearsalls have won the lamb carcass contest at the Festival
for the past six years. A 144-lb. Dorper ram lamb exhibited by Rainbow
Meadow Farms from Snow Hill, NC, had the largest average rib eye (3.7 square
inches) but was disqualified from the contest because it had insufficient fat
cover (< 0.10 inches). The Reserve Champion Lamb was a 97-lb. Suffolk exhibited
by Kelly Mansfield from West Virginia.
Ultrasound scanning gives producers the opportunity to get carcass data on their
lambs without having to sacrifice them. Scanning is ideal for evaluating potential
flock sires. Next year, ram evaluation will be incorporated into the contest.
Contact Susan if you are interested in learning more about carcass evaluation
at the Maryland Sheep & Wool Festival.
Sheep 101.info
Sheep101.info is a new web site to teach students, teachers, 4-H and FFA members, and beginning shepherds about sheep and sheep raising. The web site contains images and easy-to-understand text. The web site attempts to answer such questions as . . .
American Lamb Board
The American Lamb Board has launched its newly designed web site at www.americanlambboard.org. This comprehensive site provides valuable information for multiple-interest levels from stakeholders to chefs. From board information, promotional and public relations efforts to recipes and nutritional data, it can all be located on this easy-to-navigate site.
July 10
Ultrasound Workshop
University of Maryland Eastern Shore
Info: Dr. Niki Whitley at (410) 651-6194 or nwhitley@mail.umes.edu.
July 17-23
World Sheep and Wool Congress
Quebec City, Quebec, Canada
Info: (418) 832-9922 or vbernier@worldsheep.com
or http://www.worldsheep.com.
July 31
Ownership deadline for USDA ewe lamb retention program.
Info: local FSA offices.
August 7
Pennsylvania Performance Tested Ram and Buck Sale and Field Day
Pennsylvania Livestock Evaluation Center, Furnace, PA
Info: (814) 238-2527
August 27
Maryland State Fair 4-H/FFA Meat Goat Show
Maryland State Fairgrounds, Timonium, Maryland.
Info: Susan Schoenian at (301) 432-2767 x343 or sschoen@umd.edu.
August 28
Virginia Performance Tested Ram Lamb Sale
Steeles Tavern, VA. Info: Scott Greiner at (540) 231-9163 or sgreiner@vt.edu.
October 28, November 4 & 18
Sheep and Goat Nutrition/Feeding Short Course
Frederick County Extension Office
Contact: Terry Poole at (301) 694-1594 ext. 13577 or tepoole@umd.edu
October 30
Sheep and Goat Genetics Conference
Western Maryland Research & Education Center
Keedysville, Maryland
Info: Susan Schoenian at (301) 432-2767 x343 or sschoen@umd.edu
Links are provided as an information service. They do not constitute an endorsement of any non-affiliated organizations, businesses, products or content of these pages by Maryland Cooperative Extension or the University of Maryland. Mention of product names is for information purposes only. It is the policy of Maryland Cooperative Extension that no person shall be subjected to discrimination on the grounds of race, color, sex, disability, age, religion or national origin.
 The
Maryland Sheep & Goat Producer is published bi-monthly by
University of Maryland Cooperative Extension. It is written and edited
by Susan Schoenian, Area Agent for Sheep and Goats at the Western Maryland
Research & Education Center. Contributors include Dr. Niki Whitley
from the University of Maryland Eastern Shore (UMES) tel. (410) 651-6194,
e-mail: nwhitley@mail .umes.edu
and Willie Lantz from Garrett County Extension, tel. (301) 334-6963, e-mail:
wlantz@garrettcollege. edu.
To receive the newsletter, contact Susan at the Western Maryland Research
& Education Center, 18330 Keedysville Road, Keedysville, MD 21756,
(301) 432-2767 ext. 343, fax (301) 432-4089; e-mail: sschoen@umd.edu.
The cost of receiving the newsletter by mail is $10 per year, payable
to the University of Maryland. Internet access is FREE and you can be
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been posted to the web at http://www.sheepandgoat.com/news/.
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