Flow cytometric sexing of X- and Y-chromosome-bearing sperm in Sika deer (Cervus nippon)

The objectives of the study were to determine a practical method of using predetermined sexed semen in Sika deer (Cervus nippon). Semen was collected by electro-ejaculation from two Sika stags and transported to the laboratory and separated into X- and Y-chromosome-bearing sperm after analysis and re-analysis (using a modified high-speed cell sorter), or control (unsorted) semen. Eighty-four Sika hinds were inseminated with 2.8 × 10⁷ unsorted (control) or 2.3 × 10⁶ sorted (X or Y) frozen-thawed semen via intra-uterine laparoscopy 58–66 h after removal of intra-vaginal progesterone-impregnated CIDR devices and the administration of 330 IU PMSG at the time of CIDR removal. No significant differences in the post-thaw motility of control (43.4 ± 4.4%), X- (45.3 ± 4.5%) and Y-sorted (43.5 ± 3.2%) samples were recorded. The sorted frozen-thawed sperm (X, 72.5 ± 6.4%: Y, 75.2 ± 5.5%) recorded significantly (P < 0.05) more intact acrosomes following thawing than the unsorted frozen-thawed (68.2 ± 10.2%) sperm. The individual Sika stags had no effect on the post-thaw sperm motility. Sorted frozen-thawed sperm demonstrated a significantly shorter survival time after thawing than the control sperm (P < 0.05). The number of Sika hinds pregnant following insemination with unsorted or control thawed sperm was significantly higher (33/42; 78.6%) than for hinds inseminated with either X- (5/11; 45.5%) or Y-sorted sperm (15/31; 48.4%). Ultimately 14 out of the 15 calves produced by Sika hinds inseminated with Y-sorted sperm were male (92.9%) and 5/5 calves (100%) from Sika hinds inseminated with X-sorted sperm were female. The sex ratio of the calves born to hinds inseminated with sex-sorted sperm significantly (P < 0.05) deviated for the 48.5% (female, 16/33) and 51.5% (male, 17/33) in the control group. All calves were born between 230 d and 243 d of gestation. Male and female calves in the control group had similar birth and weaning weights as calves from hinds inseminated with X- or Y-sorted sperm. In conclusion it can be said that normal calves of the predicted sex may be produced after intra-uterine insemination conducted by laparoscopy with low numbers of sex-sorted cryopreserved Sika sperm.     

Embryo transfer and sex determination following superovulated hinds inseminated with frozen-thawed sex-sorted Y sperm or unsorted semen in Wapiti (Cervus elaphus songaricus)

The aim of this study was to evaluate embryo production in superovulated wapiti hinds inseminated with either Y-sorted or unsorted semen. Eighteen hinds were allocated to three treatment groups: AI following multiple ovulation (CIDR/FSH) with 10×10(6) Y-sorted frozen-thawed semen (Y group, n=6), or 10×10(6) and 100×10(6) unsorted frozen-thawed semen for the unsorted (n=6) and the control group (n=6). The embryos from the sixth day following insemination were collected and classified. Fifteen embryos from the unsorted or the control group, and four embryos from the Y group were sex determinated based on DNA analysis of the amelogenin gene. Twenty-one embryos from the Y group and 42 embryos from the unsorted or the control group were transferred into 21 and 42 synchronized recipients via standard procedures on 6th day post estrus, respectively. There were no significant differences in the number of recovered eggs, transferable embryos, degenerated embryos or unfertilized oocytes per hind among the three groups of the control (9.2±3.6, 4.7±1.9, 3.0±2.0, 1.5±1.4), the unsorted (8.2±1.9, 4.8±0.7, 1.7±1.0, 1.7±1.0) and the Y group (8.8±4.2, 4.2±1.8, 2.2±1.2, 2.5±2.1), respectively (P>0.05). The sex ratio of embryos from the Y group (4M/0F) was significantly (P<0.05) distinct from that of the unsorted and control group (8M/7F). The sex ratio of the offspring from sexed embryos (8M/0F) was deviated significantly (P<0.05) from that of the non-sexed embryos (11M/9F). In conclusion, the results suggested that the male embryos of predicted sex can be achieved with AI of sex-sorted cryopreserved sperm. PCR amplification using the amelogenin gene primers can be applied to DNA analysis of micro samples from wapiti embryo biopsies for sex identification. The male offspring can be produced after transferred with the male embryos of predicted sex.     

The reproductive performance of female Formosan sambar deer (Cervus unicolor swinhoei) in semi-domesticated herds

This study documented the reproductive performance of 210 adult female Formosan sambar deer (FSD, Cervus unicolor swinhoei) from four semi-domesticated deer herds in Taiwan. An extensive analysis of 525 reproductive records from 2000 to 2008, including the conditions of estrus, gestation, and parturition was conducted. The mean ± S.E.M. lengths of the estrous cycle, gestation, and fawning interval were 18.2 ± 0.5 d (n = 56), 258.6 ± 0.3 d (n = 160), and 369.9 ± 2.3 d (n = 122), respectively. Hand breeding was performed between June and December (n = 494), with the majority (93.1%) occurring between July and October (P < 0.05). Fawning occurred from February to September (n = 318), and most frequently (83.0%) between April and June (P < 0.05). Pregnancy rate per mating in FSD hinds was 64.4%. There was a 1.3:1 male-to-female ratio at birth (P < 0.05) among 320 fawns, and only two cases of twinning (0.63%). The postnatal mortality rate was 6.6% (21/320), and the mortality rate in fawns before weaning did not exceed 8% on any farm. Fecundity was enhanced by high pregnancy rates and high offspring survival rates. This study provides baseline information on reproductive performance of FSD, which should be valuable to veterinarians and deer industry personnel for management of FSD on farms in subtropical countries.     

Pregnancy loss in heifers after artificial insemination with frozen-thawed,sex-sorted,re-frozen-thawed dairy bull sperm

The use of sex-sorted sperm by the dairy industry is often limited by the geographical distance between potential sires and the sex-sorting facility. One method that may be used to overcome this limitation is sex-sorting sperm that have been previously frozen, or transported to the sorting facility as cooled liquid semen. In this study the in vivo fertility of frozen-thawed, sex-sorted, re-frozen-thawed (FSF) and cooled, sex-sorted, frozen-thawed (CSF) bull sperm was determined after artificial insemination (AI) of Holstein heifers. Semen from two bulls was frozen in straws, or transported to the sorting facility in an egg yolk diluent at 5 °C over 24 h. Thawed or re-warmed semen was processed through a PureSperm^® density gradient, and sperm were sorted for sex and frozen (2 or 4 × 10⁶ sperm/straw). Synchronised heifers (n = 183) were inseminated with either non-sorted control sperm (Control; 20 × 10⁶ dose) or with FSF or CSF ‘X’ sperm (2 or 4 × 10⁶/dose). Pregnancy rates (detected at 7–9 weeks) after AI with control sperm were higher than with FSF or CSF sperm (57.4 vs. 4.1 and 7.3% respectively; p < 0.001). There was a significant difference between bulls (Bull 1: Control 63.0%, FSF 8.6%, CSF 10.0%; Bull 2: Control 45.5%, FSF 0%, CSF 4.8%; p = 0.001). Five out of six (83.3%) pregnancies produced with sexed sperm were lost after pregnancy diagnosis. The exception was one heifer inseminated with CSF sperm (2 million sperm dose), which produced a heifer calf. In the non-sorted control group, three pregnancies were lost (8.3%) and three stillbirths occurred (8.3%). The low fertility and high rate of pregnancy loss in the sexed groups, in addition to environmental influences, may be attributed to impaired sperm function caused by sex-sorting and re-freezing, leading to poor embryo quality or altered gene expression. More precise timing of insemination and higher sperm doses might improve the fertility of FSF sperm. Moreover, the in vitro function of double-frozen sexed compared with non-sorted sperm requires further investigation.     

Artificial insemination of red deer (Cervus elaphus) with frozen-thawed wapiti semen

Semen collected from wapiti (Cervus elaphus) in Canada in 1983 was frozen in two extenders. In 1988, the semen was used to inseminate 200 red deer hinds on 2 farms in New Zealand. Oestrus was synchronized in the hinds with progesterone-impregnated intravaginal devices (CIDR); 200 iu pregnant mares' serum gonadotrophin was given to each hind on Day 11. The CIDRs were removed on Day 12 at 20/h, as the numbers of the hinds were recorded. On Day 14, 54-56 h after CIDR removal, the hinds were brought into the yards in the same batches and laparoscopically inseminated. Semen from three sires was used. The overall conception rate was 51%. Gestation length ranged from 239 to 247 days. One hind was lost at calving, 3 calves had to be hand raised and there were 2 neonatal calf deaths.     

The effect of addition of equine chorionic gonadotropin to a progesterone-based estrous synchronization protocol in buffaloes (Bubalus bubalis) under tropical conditions

Poor estrus expression and anestrus decrease the reproductive efficiency of buffaloes. The objective of this study was to determine whether the addition of equine chorionic gonadotropin (eCG) to an estrous synchronization protocol and timed insemination could improve ovulation and pregnancy rates of anestrous buffalo cows under tropical conditions. The study population comprised 65 lactating Murrah buffalo cows which were assigned to CIDR (n = 33) or CIDR + eCG (n = 32) treatment groups. Cows in the CIDR group were fitted for 8 d with a controlled intravaginal drug release (CIDR) device containing 1.38 g progesterone, received GnRH (10 μg i.m.) on D 0, PGF_2α (750 μg i.m.) on D 7, and GnRH (10 μg i.m.) on D 9; whereas cows in the CIDR + eCG group received the same treatment plus eCG (500 IU, i.m.) at the time of PGF_2α treatment. All cows were inseminated 16-20 h after the second GnRH treatment. Blood samples were obtained 10 d before the start of synchronization treatment (Day -10) and at the onset of treatment (Day 0). Cows with plasma progesterone concentrations <1 ng/mL recorded in both samples (Low-Low levels of P4) were classified as non-cyclic cows. Similarly, when either one or both of the sample pair contained concentrations of serum progesterone ≥1 ng/mL (High-High, Low-High, or High-Low levels of P4), the buffaloes were classified as cyclic cows. Ovulation rate, defined as the number of buffaloes with at least one corpus luteum 10 days after insemination, was significantly higher (P = 0.018) in the CIDR + eCG (84.4%) cows than in the CIDR cows (57.6%). Pregnancy rate was numerically lower in CIDR (27.3%) than CIDR + eCG (40.6%) cows, though differences were not significant (P = 0.25). Pregnancy rates for CIDR + eCG cows were similar to that of cows inseminated after natural estrus (40.9%; 29/71). In the non-cyclic animals, higher ovulation rates (P = 0.026) were recorded for the CIDR + eCG (81%) than for the CIDR cows (47.4%). Our results indicate that the addition of eCG to a progesterone-based estrous synchronization regimen substantially improves the ovulation rate in non-cyclic buffaloes. When this treatment is followed by timed AI, pregnancy rates achieved in anestrous buffaloes, whether cyclic and non-cyclic, may approach the rates observed in cows inseminated at natural estrus.     

Fixed-time AI pregnancy rate following insemination with frozen-thawed or fresh-extended semen in progesterone supplemented CO-Synch protocol in beef cows

The objective of this study was to compare fixed-time AI pregnancy rate in Angus crossbred beef cows inseminated with frozen-thawed or fresh-extended semen. Two ejaculates from each of two Angus bulls were collected by artificial vagina and pooled for each bull. The pooled semen from each bull was divided into two aliquots; Aliquot 1 was extended using Caprogen^® (LIC, Hamilton, New Zealand) to a concentration of 3 × 10⁶ sperm/straw and Aliquot 2 was extended using egg-yolk-glycerol extender to a concentration of 20 × 10⁶ sperm/straw. Semen extended with Caprogen^® was maintained at ambient temperature and semen extended with egg-yolk-glycerol extender was frozen and maintained at −196 °C until insemination. In each of two breeding seasons (Fall 2007 and Spring 2008), Angus-crossbeef cows (N = 1455) at 12 locations were randomly assigned within location to semen type [Fresh (N = 736) vs. Frozen (N = 719)] and sire [1 (N = 731) vs. 2 (N = 724)]. All cows were synchronized with 100 μg of GnRH im and a progesterone Controlled Internal Drug Release insert (CIDR) on Day 0, and on Day 7, 25 mg of PGF2_α im and CIDR removal. All cows received 100 μg of GnRH im and were inseminated at a fixed-time on Day 10, 66 h after CIDR removal. Timed-AI pregnancy rates were influenced by season (P < 0.05), cows detected in estrus prior to and at AI (P < 0.001), and dam age (P < 0.01). Pregnancy rates were not affected by semen type (Fresh = 51.5% vs. Frozen = 50.4%; P = 0.66) and there were no significant interactions of semen type by estrus expression, semen type by sire, or semen type by season (P > 0.1). In conclusion, commercial beef cows inseminated with fresh-extended semen (3 × 10⁶ sperm/straw) yielded comparable pregnancy rates to conventional frozen-thawed semen in a progesterone supplemented, CO-Synch fixed-time AI synchronization protocol and may provide an alternate to frozen semen for more efficient utilization of superior genetics.     

First live offspring born in superovulated sika deer (Cervus nippon) after embryo vitrification

The rapid growth in sika deer (Cervus nippon) farming and interest in their conservation is an impetus for development of embryo transfer (ET) procedures. However, a paucity of research has prevented widespread application of ET in this species. The objective of the present study was to establish a multiple ovulation and ET procedure with both fresh and vitrified embryos in sika deer. Multiparous weaned hinds (N = 18) were used as embryo donors during the reproductive season of 2008 at a local breeding farm in China. Estrus was synchronized in donors and recipients (N = 38) by inserting a controlled internal drug release for 12 days (insertion = Day 0). Superovulation was induced with a total of 320 mg of NIH-FSH-P1 (Folltropin-V; Bioniche, Belleville, ON, Canada) given as 40 mg im every 12 h from the afternoon of Day 9 to the morning of Day 13. After estrus was detected, donors were artificially inseminated using a transcervical technique. The embryo recovery rate was 76.8% (63/82), including 1.6% (1/63), 77.8% (49/63), and 1.6% (1/63) blastocysts, morula, and eight-cell embryos, respectively. After transfer of fresh and vitrified embryos, pregnancy rates were 85.7% and 61.6% and birth rates were 64.3% and 53.9% (P > 0.05). In conclusion, we developed a satisfactory multiple ovulation and ET procedure in farmed sika deer using vitrified embryos.     

Pregnancy rate and birth rate of calves from a large-scale IVF program using reverse-sorted semen in Bos indicus, Bos indicus-taurus, and Bos taurus cattle

Obtaining sexed sperm from previously frozen doses (reverse-sorted semen [RSS]) provides an important advantage because of the possibility of using the semen of bulls with desired genetic attributes that have died or have become infertile but from whom frozen semen is available. We report the efficiency of RSS on the pregnancy rate and birth rate of calves in a large-scale program using ovum pick-up and in vitro embryo production (IVEP) from Bos indicus, Bos indicus-taurus, and Bos taurus cattle. From 645 ovum pick-up procedures (Holstein, Gir, and Nelore), 9438 viable oocytes were recovered. A dose of frozen semen (Holstein, Nelore, Brahman, Gir, and Braford) was thawed, and the sperm were sex-sorted and cooled for use in IVF. Additionally, IVF with sperm from three Holstein bulls with freeze-thawed, sex-sorted (RSS) or sex-sorted, freeze-thawed (control) was tested. A total of 2729 embryos were produced, exhibiting a mean blastocyst rate of 29%. Heifers and cows selected for adequate body condition, estrus, and health received 2404 embryos, and 60 days later, a 41% average pregnancy rate was observed. A total of 966 calves were born, and 910 were of a predetermined sex, with an average of 94% accuracy in determining the sex. Despite the lower blastocyst rate with freeze-thawed, sex-sorted semen compared with sex-sorted semen, (P < 0.05), the pregnancy rate (bull I, 45% vs. 40%; II, 35% vs. 50%; and III, 47% vs. 48% for RSS and control, respectively; P > 0.05) and sex-sorted efficiency (bull I, 93% vs. 98%; II, 96% vs. 94%; and III, 96% vs. 97% for RSS and control, respectively; P > 0.05) were similar for each of the three bulls regardless of the sperm type used in the IVF. The sexing of previously frozen semen, associated with IVEP, produces viable embryos with a pregnancy rate of up to 40%, and calves of the desired sex are born even if the paternal bull has acquired some infertility, died, or is located a long distance from the sexing laboratory. Furthermore, these data show the feasibility of the process even when used in a large-scale IVEP program.     

Successful laparoscopic insemination with a very low number of flow cytometrically sorted boar sperm in field conditions

The aim of this study was to develop a useful procedure for laparoscopic insemination (LI) with sex-sorted boar spermatozoa that yields adequate fertility results in farm conditions. In experiment 1, we evaluated the effects of single (oviducts) and double (oviducts and tips of the uterine horns) LI with X-sorted sperm on the reproductive performance of sows. Sows (N = 109) were inseminated once as follows: (1) single LI with 0.5 × 10⁶ unsorted sperm per oviduct; (2) single LI with 0.5 × 10⁶ sex-sorted sperm per oviduct; or (3) double LI with 0.5 × 10⁶ sex-sorted sperm per oviduct and 0.5 × 10⁶ sex-sorted sperm per uterine horn. The farrowing rates were lower (P < 0.05) in sows inseminated with sex-sorted sperm (43.2% and 61.9% for the single and double insemination groups, respectively) than in sows from the unsorted group (91.3%). Within the sex-sorted groups, the farrowing rate tended (P = 0.09) to be greater in sows inseminated using double LI. There were no differences in the litter size among groups. In experiment 2, we evaluated the effect of the number of sex-sorted sperm on the reproductive performance of sows when using double LI. Sows (N = 109) were inseminated with sex-sorted sperm once using double LI with: (1) 0.5 × 10⁶ sperm per oviduct and 1 × 10⁶ sperm per uterine horn; or (2) 1 × 10⁶ sperm per oviduct and 2 × 10⁶ sperm per uterine horn. Similarly high pregnancy (90%) and farrowing (80%) rates were achieved in both groups. The sows inseminated with the highest number of sperm tended (P = 0.09) to have more piglets (10.8 ± 0.7 vs. 9.2 ± 0.6). A high female proportion (number of female births divided by the total of all births ≥0.92) was obtained in both experiments using X-sorted sperm. Our results indicate that the double LI procedure, using between 3 and 6 × 10⁶ sex-sorted sperm per sow produces adequate fertility at the farm level, making sperm-sexing technology potentially applicable in elite breeding units.     

Expression and relevance of dominance in farmed Rusa deer (Cervus rusa timorensis)

A group of 50 hinds and four Rusa stags (Cervus rusa timorensis) were observed over a 2-year period under farming conditions. The aim of the study was to investigate the expression and relevance of dominance. A dominance order was calculated for the hinds. No significant influence of dominance value in relation to calving time, presence or absence of calf, mating time for the following season or the age of the hinds was found. The number of victories in comparison to the total number of interactions between stags was influenced by possession of a full set of antlers for young as well as old stags. However, the antler size or shape did not affect successful participation in the rutting activities of the stags. Hinds did not show a preference for stags based on antler appearance. It is recommended that stags should be velveted so as to minimize differences in antler shape and consequently to reduce dominance interactions between them.     

The effect of insemination time and sperm dose on pregnancy rate using sex-sorted ram sperm

The objective was to determine the optimum timing of insemination and minimum effective dose rate of sex-sorted ram sperm. Semen from three Merino rams was sorted into high purity X- and Y-chromosome bearing sperm populations. Ovulation was controlled in 732 Merino ewes using PMSG at progestagen pessary removal and GnRH 36 h later. Sorted (S) and non-sorted (NS) doses of 1 or 15 × 10⁶ motile, frozen-thawed sperm were inseminated laparoscopically at 50, 54, 58, 62, and 66 h after progestagen withdrawal. An additional treatment dose of 0.5 × 10⁶ S or NS sperm was inseminated at the 58 h time point (n = 60). Pregnancy was diagnosed by ultrasound at 60-62 d gestation. Both 1 × 10⁶ and 15 × 10⁶ sperm achieved similar pregnancy rates, regardless of sperm type, at 58 h (S1: 46 ± 9.4%; S15: 43 ± 9.3%; NS1: 41 ± 9.2%; NS15: 49 ± 9.4%). However, pregnancy rates were lower (P < 0.05) for doses of 1 than 15 × 10⁶ sperm inseminated at 50 (15 ± 6.3% vs. 36 ± 9.1%), 54 (14 ± 4.4% vs. 55 ± 7.3%), 62 (33 ± 6.9% vs. 54 ± 7.3%), and 66 h (29 ± 8.6% vs. 56 ± 9.5%). There was no difference between S and NS sperm for inseminations with 0.5 × 10⁶ motile sperm at 58 h after PR (15 ± 3.6% vs. 14 ± 3.3%), nor with 15 × 10⁶ motile sperm at all insemination times (49 ± 6.3% vs. 49 ± 6.3%). However, fertility was higher for S than NS sperm at the 1 × 10⁶ dose level (37 ± 6.1% and 16 ± 4.0%). More than 90% of lambs born were of the predicted sex. We hypothesise that the sorting process selects a homogeneous, fertile sub-population of sperm, removing those that are dead, damaged and morphologically abnormal.     

四川梅花鹿繁殖行为

2006年4—12月和2007年3—11月在四川省铁布自然保护区观察和统计了野生梅花鹿的繁殖行为,包括发情交配、产仔、发情吼叫、爬跨及其昼夜节律行为等。结果表明,四川梅花鹿为季节性发情动物,发情交配行为发生在9月上旬至12月中旬,集中在10—11月(占(86.99±3.24)%)。四川梅花鹿发情交配日期最早见于9月8日,最晚为12月16日,跨度约90—100 d(±6 d,n=90)。雌鹿交配日期与其繁殖经历具有低度正相关性(Kendall's tau-b和Spearman's rho,0.3r0.5,P0.05),成体雌鹿交配日期稍微早于初次配种雌鹿。雄鹿发情吼叫和爬跨行为具有明显的昼夜节律性,各有2个高峰期(05:00—08:00和18:00—21:00),夜间有小节律的发情吼叫和爬跨时期。U-test检验表明发情吼叫频次和爬跨频率在昼夜间有极显著差异(P0.01)。雄鹿吼叫行为与其交配行为具有高度正相关性(Kendall's tau-b和Spearman's rho,0.8r1.0,P0.05),主雄、次雄和群外单身雄鹿的昼夜吼叫次数有极显著差异(P0.01)。雌鹿产仔期从4月下旬开始到7月下旬结束,集中在5—6月(占(91.51±4.96)%),产仔日期最早见于4月29日,最晚为7月28日,跨度约80—90 d(±5 d,n=130)。梅花鹿产仔日期与其分娩经历具有低度正相关性(Kendall's tau-b和Spearman's rho,0.3r0.5,P0.05),成体雌鹿产仔日期早于初次繁殖雌鹿。雌鹿每胎产1—2个幼仔,单双胎率分别为98.86%(±6.96%,n=129)和1.01%(±0.07%,n=1)。妊娠期和哺乳期梅花鹿采食行为分配占较大比率,其次是卧息和移动,哺乳期采食行为分配低于妊娠期,这与妊娠期正逢冬季,食物资源相对匮乏有关,而哺乳期恰逢夏季,植物生长旺盛,食物资源相对丰富。     

Superovulation and embryo transfer in Holstein cattle using sexed sperm

The use of sexed bull sperm in multiple ovulation and embryo transfer (MOET) programs for Holsteins was evaluated for (1) heifers housed at a commercial embryo transfer (ET) facility (Experiments 1 and 2), and (2) heifers and cows on dairy farms (Experiment 3). In Experiment 1, superstimulated heifers were inseminated with 5 × 10⁶ sexed (X-sorted; n = 5) or unsexed (n = 5) frozen-thawed sperm from one bull at 12 and 24 h after estrus detection. No difference was observed in the rates of transferable embryos (53.4% vs 68.1%), degenerate embryos (24.8% vs 26.6%) and unfertilized ova (21.8% vs 5.3%) between sexed and unsexed sperm, respectively, except for the percent of female transferable embryos diagnosed by embryo sexing (100% vs 49.3%, P < 0.0001). In Experiment 2, donors were inseminated twice with 5 × 10⁶ sexed unfrozen sperm (n = 10) or sexed frozen-thawed sperm (n = 9). Embryo production rates for both treatments were similar to that observed on a commercial ET facility using unsexed sperm. Pregnancy rates for frozen-thawed embryos were similar for sexed and unsexed sperm (70.4% vs 72.4%, respectively). In Experiment 3, 99 flushes were conducted using sexed frozen-thawed sperm from nine bulls but an overall statistical analysis was not completed because the use of bulls was not balanced. However, for one bull with balanced usage, the rate of transferable embryos was higher in heifers than in cows (P < 0.05) inseminated twice with 5 × 10⁶ sperm/dose (10 × 10⁶ total). We concluded that the use of sexed frozen-thawed sperm (≥90% X-sperm biased and 10 × 10⁶ total sperm) may be economically viable for commercial MOET programs in Holstein heifers.     

Fixed-time artificial insemination with estradiol and progesterone for Bos indicus cows I: Basis for development of protocols

Five experiments were conducted on commercial farms in Brazil aiming to develop a fixed-time artificial insemination (TAI) protocol that achieved pregnancy rates between 40% and 55% in Bos indicus cows. These studies resulted in the development of the following protocol: insertion of an intravaginal device containing 1.9 g of progesterone (CIDR) plus 2.0 mg im estradiol benzoate on Day 0; 12.5 mg im dinoprost tromethamine on Day 7 in cycling cows or on Day 9 in anestrous cows; CIDR withdrawal plus 0.5 mg im estradiol cypionate plus temporary calf removal on Day 9; TAI (48 h after CIDR withdrawal) plus reuniting of calves with their dams on Day 11. Reduced dose of prostaglandin F_2α (PGF_2α; 12.5 mg im dinoprost tromethamine) effectively caused luteolysis. In cycling cows, fertility was greater when the treatment with PGF_2α was administered on Day 7 than on Day 9, but in anestrous cows, no effects of time of the PGF_2α treatment were found. Estradiol cypionate effectively replaced estradiol benzoate or gonadotropin-releasing hormone as the ovulatory stimulus, reducing labor and cost. In this protocol, CIDR inserts were successfully used four times (9 d each use) with no detrimental effects on fertility.     

The gestation length of wapiti (Cervus elaphus) revisited

As an ancillary activity to an artificial insemination program in farmed wapiti, the length of gestation of 28 wapiti hinds that delivered single calves of established parentage was calculated. Estrus was synchronized in 47 wapiti using progesterone impregnated devices (controlled internal drug release, CIDR) and an injection of PMSG. All hinds were artificially inseminated between 60 and 63h after CIDR removal. Pregnancy was determined between 45 and 65 days by ultrasound. A verifiable figure for gestation length was obtained based both upon timed-artificial insemination, date of parturition, and confirmation of sire identity through microsatellite DNA technology. The calculated gestational length of 247 +/- 5 days was significantly (P < 0.0001) shorter than the generally quoted figure of 255 +/- 7 days.     

Effective degradation of tannic acid by immobilized rumen microbes of a sika deer (Cervus nippon yesoensis) in winter

In winter seasons, wild sika deer (Cervus nippon yesoensis) inhabiting the Shiretoko Peninsula of Hokkaido Island, Japan, mainly graze woody materials (bark and twigs, etc.) as their feed source. Most of the tree species that they feed upon contain a high level of hydrolysable tannins within the inner bark. Tannins generally lead to low protein digestion and nutrient loss to these herbivorous mammals due to tannization of proteins. In winter months, it is speculated that wild sika deer develop a mechanism to degrade the tannins which are contained in their feed sources, but rumen fluid obtained from sika deer in winter months did not exhibit any ability to degrade tannins in liquid culture medium. However, constant degradation of hydrolysable tannin was observed when Ca-alginate gel beads were used for microbial immobilization and culturing. The gel beads that had been impregnated with 0.6×10⁴ fold-diluted rumen fluid of sika deer in winter and pre-incubated for 24 h under anaerobic conditions supplemented with a 1.5 g/L sugar were reacted with 5 g/L tannic acid solution. Under these conditions, the immobilized rumen bacteria grown in the macrogel beads effectively hydrolyzed tannic acid to release gallic acid monomers. Major bacterial colonies emerging in the Ca-alginate gel beads were identified as Streptococcus macedonicus and this bacterium (EC-D140) was regarded as the most likely candidate as the tannin-degrading bacterium.     

Optimization of the cryopreservation of African clawed frog (Xenopus laevis) sperm

Cryopreservation of testicular sperm in the African clawed frog, Xenopus laevis, was tested using three penetrating cryoprotectants (DMSO, methanol, and glycerol) and three semen diluents (300 mmol/L glucose, 300 mmol/L sucrose, and a motility inhibiting saline [MIS] solution [150 mmol/L NaCl, 3 mmol/L KCL, 1 mmol/L Mg₂SO₄, 1 mmol/L CaCl₂, and 20 mmol/L Tris, pH 8.0]). Three freezing rates and four thawing rates were also tested, and the best freezing/thawing conditions have been determined. The responses of sperm motility, viability, and fertility were assessed. Incubation of the sperm macerates with penetrating cryoprotectants showed that DMSO was the least toxic and methanol the most toxic. Semen in cryodiluents frozen 10 cm above the surface of liquid nitrogen (freezing rate of 20 to 25 °C/min) and thawed at room temperature for 40 sec had significantly higher percentages of motile and viable sperm than that of semen frozen 5 cm or 8 cm above the surface of liquid nitrogen and thawed at 5, 25, or 30 °C for 10, 15, or 60 sec, respectively. Sperm frozen in MIS containing 5% DMSO had a higher hatching rate than that of sperm frozen in sucrose and glucose diluents containing 5% or 10% DMSO and in MIS containing 10% DMSO. Addition of 73 mmol/L sucrose to the sperm extender MIS + 5% DMSO could improve the postthaw sperm motility and fertility. In conclusion, dilution of collected sperm in MIS solution (to have a final concentration of 6.5 × 10⁶ to 8 × 10⁶/mL) containing 5% DMSO and 73 mmol/L sucrose, freezing in a vapor of liquid nitrogen at 10 cm above the surface, and thawing at room temperature for 40 sec was the best cryopreservation protocol. This protocol gave 70% hatching rate, 80% motility rate, and 75% viability rate of fresh hormonally induced sperm.     

Pregnancy rates in heifers and cows with cryopreserved sexed sperm: Effects of sperm numbers per inseminate, sorting pressure and sperm storage before sorting

Field trials were conducted to increase fertility with AI of flow-sorted, sexed bovine sperm. In the first trial, a novel competitive fertilization approach was used to compare pressures (30 psi vs 50 psi) for sorting sperm. Both X- and Y-sperm were sorted to approximately 95% purity at 30 and at 50 psi; X-50 + Y-30 (and the converse) were mixed in equal numbers for AI of heifers. Fetal sex divulged which treatment produced the pregnancy; 82% of pregnancies resulted from the 30 psi treatment (P < 0.05). Based on a similar approach, a new-pulsed laser did not damage sperm any more than the previous standard continuous wave laser. In a large field trial, sorting sperm at 40 psi increased pregnancy rates in heifers relative to 50 psi (42.3% vs 34.1%, n = 367/group, P < 0.05). Storing sperm for 20 h before sorting at 40 psi decreased pregnancy rates from 42.3% (n = 367) to 36.8% (n = 368; P < 0.05). Breeding heifers with sexed sperm 55-56 h after CIDR removal and PGF_2α resulted in 34% (n = 32) pregnant, compared to 49% (n = 35) with fixed-time insemination 67-68 h after CIDR removal (P > 0.1). Lactating dairy cows pre-screened for normal reproductive tracts when OvSynch injections (GnRH, prostaglandin, GnRH) were initiated, had similar (P > 0.1) pregnancy rates to timed AI, with 10 × 10⁶ sexed sperm (43.9%, n = 57), 2 × 10⁶ sexed sperm (40.5%, n = 57) and 10 × 10⁶ unsexed control sperm (55.6%, n = 58). A final field trial with unselected, lactating dairy cows resulted in similar pregnancy rates for 2 × 10⁶ sexed sperm in 0.25 mL straws (25.0%, n = 708) and 0.5 mL straws (24.4%, n = 776), but lower (P < 0.05) than unsexed control sperm (37.7%, n = 713). Younger cows and those >84 days in milk had the highest pregnancy rates for both sexed and unsexed sperm. These studies improved sperm sexing procedures, and provided insight into appropriate commercial use of sexed sperm.     

Protective effects of propolis on cryopreservation of common carp (Cyprinus carpio) sperm

Cryopreservation of sperm is common procedures in aquaculture, particularly used for routine in artificial insemination. However, these application cause damages and adversely affected sperm motility, viability and consequently lower hatching rates. The objective of this study is to determine whether propolis has an effect on cryopreservation and fertilization ability and to investigate the potential protective effect of propolis on spermatozoa of Cyprinus carpio. Many studies have been done in cryopreservation offish spermatozoa, but none of them contain propolis in extender composition. The extenders were prepared by using modified Kurokura Solution to which 10% Me₂SO added with different levels of propolis (0.2, 0.4, 0.6, 0.8 and 1 mg ml⁻¹) and 10% egg yolk (as a control without propolis). The pooled semen samples diluted at the ratio of 1:9 by the extenders were subjected to cryopreservation. The percentage and duration of motility and fertilization tests of cryopreserved sperm samples have been done immediately after thawing and compared with control and fresh semen. The extenders containing propolis exhibited higher percentage motility and motility duration than control group (P < 0.05). Especially the group IV (0.8 mg ml⁻¹ propolis) and the group V (1 mg ml⁻¹ propolis) showed significant positive effects on both post thaw motility and hatching ability. The propolis maintained the integrity of the spermatozoa during the cryopreservation process. Evaluating with its contents, it has been shown that propolis is an appropriate cryoprotective agent in fish semen.