Quality Of Pe Buck Sperm Stored In Different Packaging

AI for cattle has been develop in Indonesia in contrast, AI for small ruminants (sheep and goat) are less developed. Its due to the lack of facilities, processing and packaging during storage. This research aims to compare the effectivity and efficiency of two different packaging technique (test tube and straw). Test tube and 0.25 ml mini straw were tested . Semen was obtained from adult PE buck (3 yr) after collection by using  artificial vagina. The fresh semen was then evaluated and diluted 5 folds with 2.9 percent Na-citrate. Diluted semen then packed in test tube and mini straw, and stored in refrigerator (100C) for 7 days. Observations were done everyday on sperm motility, abnormality and percentage of  live sperm. Observation were made at 370C. Observation on fresh ejaculate showed that semen has 6x 109/ml concentration, 90 percent motility, 8 percent abnormality and  95 percent  live sperm. Five folds dilution reduced sperm concentration to 1.2 x 109/ml, but did not change sperm motility, abnormality and percent of live sperm. Sperm was then packed according  to the treatments. Storage in both packaging did significantly reduce  (P<0.01) sperm motility and percent live sperm, but not for sperm abnormality. All sperm stored in test tube were classified death at day 5 storage. However, sperm in the straw were remain live eventhough the percentages was low. It can be concluded that straw has a better result than test tube. Eventhough sperm motility was extremely low, it remains valuable for cervical insemination. (Animal Production 1(1) : 24-29 (1999).  Key Words : Sperm, PE Buck, Straw, Test Tube

The Effects of Superovulation Prior to Mating and Zinc Supplementation on Milk Yields in Etawah-Grade Does

Thirty six Etawah-grade does (BW ranged from 20.4 to 44.2 kg and age ranged from 2.5 to 7 years) were used to study the effects of superovulation prior to mating and zinc supplementation on milk yields. The experimental does were assigned into a randomized block design with a 2 x 3 factorial arrangement. The first factor was PMSG (pregnant mare serum gonadotrophin) injection with 2 levels (0 IU/kg BW [nonsuperovulation–NSO] and 15 IU/kg BW [Superovulation–SO]). The second factor was zinc concentration in the diet with 3 levels (40 mg/kg DM [Z-40], 60 mg/kg DM [Z-60], and 80 mg/kg DM [Z-80]). Intravaginal sponge (60 mg medroxyprogesterone acetate) was applied for 14 days to synchronize estrus cycle. Twenty four  hours prior to sponge removal, PMSG was injected  to  stimulate superovulation. After  sponge removal,  5 experimental does  were mixed with 1 buck for natural mating. During  pregnancy  the experimental does were fed and  raised in   individual stables. Udder volume  was measured every other week from weeks 12 to 21 of  pregnancy.  During lactation  (one week to  5 months post partum) kids were separated from the does, and   milk was harvested by hand milking. Milk samples were taken every other week for determination of milk quality. The results  indicated that  superovulation increased udder differential growth  by 80% (822.85 vs 1481.25 cm3/head), milk yield by  32% (567.14 vs 746.52 g/head/day).  Zinc concentration  increased udder differential growth and milk yield. Milk productions for does receiving 40, 60 and 80 mg/kg DM were 565.68, 737.88 and 666.92 g/day, respectively.It was concluded that  superovulation and zinc supplementation  increased milk  yield in Etawah Grade does. (Animal Production 6(2): 86-94 (2004) Key Words:  Superovulation, Zinc, Milk  Yield, Etawah-Grade