Artificial insemination of sheep: Effects on fertility of number of spermatozoa inseminated and of storage of diluted semen for up to 18 hours at 5°C

Ram semen was prepared in a buffered glucose-saline solution containing 3% (v/v) egg yolk so that insemination doses of 25 or 100 million spermatozoa in volumes of 50 or 250 μl could be given per ewe at artificial insemination (AI). Fertility was significantly reduced by dilution and, within the treatments of diluted semen, significantly higher lambing rates followed the use of doses of 100 million spermatozoa. The volume of the AI dose had no significant effect on fertility.Of 945 inseminations performed using diluted semen, 388 were with samples that had been cooled to 5°C and stored chilled for 5 or 18 hr. The mean lambing result of 40% for freshly diluted semen was significantly higher than 31.6% and 30.2% for samples stored chilled for 5 and 18 hr respectively. Ewes inseminated with doses of chilled semen containing 25 million spermatozoa had a low lambing rate of 21.3%. The presence of 7.5% glycerol (v/v) in the diluent did not significantly affect the fertility of chilled semen.     

The motility of ram and bull spermatozoa in dilute suspension

1. Ram and bull spermatozoa suspended in a glucose-sodium chloride solution rapidly lose motility at relatively high dilutions. The substitution of chloride-free diluents does not alter the phenomenon. 2. The rapid immobilization of ram and bull spermatozoa due to high dilution may be partially prevented by the addition of supernatants of either ram or bull semen, although motility is not maintained at the same level as in a more concentrated specimen. Various other substances which also partially protect spermatozoa are egg albumin, plasma albumin, plasma gamma globulin, starch, and glycogen. 3. Washing ram spermatozoa six times greatly reduces motility. This is not restored by the addition of ram seminal plasma which, however, reverses the concurrent head agglutination. 4. Washing ram and bull spermatozoa four times results in considerable loss of motility and head agglutination both of which may be reversed by the addition of seminal plasma. 5. Potassium chloride at 0.005 M concentration partially restores the motility of four times washed ram spermatozoa at 24 degrees C. or 37 degrees C. but not that of similarly treated bull spermatozoa.     

Effect on turkey spermatozoa of a frothy fluid derived from the cloaca of a male turkey

The influence on turkey spermatozoa of a frothy fluid derived from the cloacal region of a male turkey was investigated. The frothy fluid was collected from the turkey tom during mounting, and semen for the experiment was obtained from the ductus deferens removed after necropsy. Spermatozoa diluted with frothy fluid were examined for motility, viability, and fertilizing capacity and compared with semen diluted with phosphate buffer or undiluted ductal semen. The life-span of spermatozoa suspended in frothy fluid was slightly prolonged during in vitro storage as compared with the undiluted semen or the semen diluted with phosphate buffer; however, a rapid increase of the number of deformed spermatozoa during storage was observed in the semen diluted with frothy fluid. The fertilizing ability of spermatozoa was not influenced by the dilution with frothy fluid when the diluted spermatozoa were inseminated intravaginally immediately after the dilution. On the contrary, when spermatozoa suspended in frothy fluid were preserved at 0 C for 24 h, their fertilizing capacity decreased drastically, probably due to the increased number of abnormal spermatozoa during in vitro preservation.     

Optimal physicochemical conditions for the manipulation and short-term preservation of koala (Phascolarctos cinereus) spermatozoa

Protocols for the successful manipulation and preservation of semen in a given species depend upon a fundamental knowledge of how spermatozoa respond to the physicochemical conditions of the extension media; methods developed for the preservation of eutherian spermatozoa may not necessarily be suitable for marsupial semen. The aim of this study was to investigate the effects on koala sperm motility of serial dilution, changes in temperature, diluent pH and osmolality to establish the optimal physicochemical conditions for short-term semen storage. This study showed that electroejaculated koala semen diluted 1∶1 (v/v) with PBS frequently coagulated after incubation at 35 degrees C, but that further dilution and incubation resulted in a corresponding increase in the percentage of spermatozoa swimming in a non-linear trajectory. The effect of rapid temperature change on the motility of koala spermatozoa was investigated by exposing semen, initially diluted at 35 degrees C, to temperatures of 45, 25, 15 and 5 degrees C. Although sperm motility was reduced after incubation at 45 degrees C, a rapid decrease in temperature of up to 20 degrees C did not result in a significant reduction in sperm motility. However, contrary to evidence in other marsupials, there was a small but significant decrease in sperm motility after rapid cooling of diluted semen from 35 to 5 degrees C. The effects of diluent pH and osmolality on the motility of koala spermatozoa were investigated. These experiments indicated that diluents for koala sperm manipulation should buffer in a pH range of 7-8 and have an osmolality of approximately 300 mmol kg(-1). The final experiment compared the relative effectiveness of Tris-citrate buffer (1% glucose) and PBS to maintain koala sperm motility over a range of incubation temperatures (5-35 degrees C) for up to 8 days. Reduction in sperm motility was directly related to temperature, and motility was sustained for the longest duration when stored at 5 degrees C. The Tris-citrate buffer solution was superior to PBS as a preservation diluent at all temperatures, and koala spermatozoa remained motile even after 42 days storage at 5 degrees C. Spermatozoa diluted in PBS (with Ca(2+) or Mg(2+)) and cooled to 5 degrees C showed evidence of an unusual motility pattern, similar to that of hyperactivated eutherian spermatozoa. This study showed that koala spermatozoa respond to different physicochemical conditions associated with short-term liquid storage in essentially the same way as the spermatozoa of eutherian mammals, although koala spermatozoa appear to be more tolerant of rapid temperature shock. The results of this study can be used to make informed selections with regard to appropriate diluent composition and improved short-term sperm preservation protocols and represent the first such database for any species of marsupial.     

Development of a chemically defined ram semen diluent (RSD-1)

A chemically defined ram semen diluent (RSD-1) has been developed. RSD-1 maintained spermatozoal motility of diluted semen containing approximately 800 million spermatozoa ml⁻¹ during cooling to 15°C and its storage for 1 h. Motility was further maintained when the cooled semen was diluted to 100 million spermatozoa ml⁻¹ and incubated at 38°C for about 24 h. In contrast, a conventional milk-based diluent supported motility for less than 6 h at 38°C. Spermatozoal motility was influenced by the buffering capacity, osmolarity and the presence or absence of macromolecules and calcium in the chemically defined diluent. Among the organic buffers tested, MOPS (3-(N-morpholino)propanesulphonic acid) had a marked influence on the maintenance of spermatozoal motility. The presence of MOPS also overcame the detrimental effects of 2 mM calcium in Krebs Ringer improved (KR-I) buffer.     

Attempts on freezing the Greylag (Anser anser L.) gander semen

Semen of Greylag (Anser anser L.) ganders was frozen according to a method previously elaborated by the authors for freezing the White Koluda gander semen. Semen was collected from five to eight Greylag ganders, twice a week during three succeeding reproductive cycles, by dorso-abdominal massage. Semen samples were diluted in the ratio of 1:1 or 2:1 (two parts semen: one part diluent) with EK diluent, supplemented by 6% DMF, equilibrated and pre-frozen to -140 degrees C at a rate 60 degrees C/min, before being transferred into liquid nitrogen container. Semen samples thawed in a water bath of 60 degrees C were used for twice a week insemination in a volume of 200 microl. Three Greylag and three White Koluda geese were involved in frozen-thawed semen fertilizing ability test. The reproductive cycle of wild geese lasts usually about 6-7 weeks. The ejaculate volume (30-140 microl) and sperm concentration (10x10(6) to 150x10(6) ml(-1)) are much lower than these of domestic ganders, but spermatozoa morphology is similar, particularly while compared to 1-year-old White Koluda ganders semen. There are about 90% of live spermatozoa and about 30% of live morphologically normal cells in Greylag gander fresh semen. The Greylag gander spermatozoa susceptibility to cryopreservation procedure is as high as in domestic ganders. Dilution ratio 2:1 resulted in higher number of live spermatozoa, which withstood cryoinjury stress. In relation to fresh semen about 60% of spermatozoa remained intact (on the basis of light microscope examination) in the frozen-thawed semen. Insemination of frozen-thawed semen resulted in 37.5% of fertile eggs in Greylag and 25.0% in White Koluda geese. Low fertility rate was caused by an insufficient number of live normal spermatozoa used for insemination (about three million in every dose).     

Delayed insemination is successful with a new extender for storing fresh equine semen at 15 degrees C under aerobic conditions

Milk-based semen diluents are known to be practical and effective in protecting equine spermatozoa during storage before artificial insemination. Milk is a biological fluid with a complex composition and contains components which are beneficial or harmful to spermatozoa. The aim of this study was to test the fertility of stallion semen after long-term storage using different milk diluents (INRA 82 or Kenney's diluent) vs one diluent chemically defined (INRA 96), which is composed of efficient milk components and optimized for sperm survival and storage temperature. The milk fraction used was that which best maintained spermatozoal survival based on motility measured in previous studies. Four breeding trials were conducted to determine the influence of combination of new diluent and storage conditions on fertility of the stallion. We compared the standard protocol of storing semen in a skim milk diluent (INRA 82 or Kenney's diluent) at 4 degrees C under anaerobic conditions with the experimental protocol which consisted of storing in a chemically defined, milk-free diluent (INRA 96), at 15 degrees C, under aerobic conditions. After 4 breeding trials, in which the semen was stored for 24 h under the 2 protocols, we obtained 57% (n = 178) and 40% (n = 173) of fertility per cycle using the experimental and the standard protocol respectively (p < 0.001). Another breeding trial was conducted to determine the influence of storage time on the fertility of spermatozoa. We have compared the fertility of semen inseminated immediately (68% of fertility per cycle, n = 50) vs the fertility of semen stored under the experimental protocol for 72 h before insemination (48% of fertility per cycle, n = 52). The experimental protocol improved sperm fertility compared to the standard protocol and seems to be a particular alternative for stallions with cold shock sensitive spermatozoa. Storing semen for 72 h under the experimental protocol seems to be useful in the field.     

Effects of vitamin E on fowl semen storage at 4 degrees C

Vitamin E was assayed for either in chicken spermatozoa or seminal plasma. Effects of vitamin E on the motility and fertilizing ability of chicken semen stored for 24 hours at 4 degrees C were also studied. A mean of 0.25 mug vitamin E 10 (9) cells was found in spermatozoa and 0.074 mug in seminal plasma. When the medium for in vitro storage of semen was supplemented with vitamin E the motility of spermatozoa was not affected. However, vitamin E improved the fertilizing ability of semen stored for 24 hours at 4 degrees C, especially at the dose of 8 mug/ml of semen diluent.     

The possibility of obtaining intergeneric hybrids via White Kołuda (Anser anser L.) goose insemination with fresh and frozen-thawed Canada goose (Branta canadensis L.) gander semen

The objective of the present experiments was to produce the intergeneric hybrids of domesticated and wild goose via artificial insemination with fresh and frozen-thawed semen. The experiments were carried out during two successive goose reproductive seasons, on eight five-year-old Canada Goose (Branta canadensis L.) males used as semen donors and 16 two-year-old White Ko?uda geese designated to fertility tests. Pooled semen was collected twice a week by the dorso-abdominal massage. In freshly collected semen, ejaculate volume, color, consistency, degree of fecal or blood contamination, spermatozoa concentration, motility, and morphology were evaluated. Part of the semen collected in the first year of the experiment (Experiment 1) was used for geese insemination with fresh semen, while the remainder was frozen. In Experiment 2 all samples were subjected exclusively to freezing procedure. Geese were inseminated once a week with fresh semen in a dose of 80 μl or 160 μl, and twice a week with frozen-thawed semen in a dose of 80 μl (160 μl per wk) or 100 μl (200 μl per wk). Eggs were set weekly and incubated up to hatching.The volume of ejaculates varied from 0.100 to 0.470 ml; spermatozoa concentration from 140 to 310 million ml⁻¹; progressive movement was observed in 40 to 60% of spermatozoa; the percentage of total live spermatozoa ranged from 69.3 to 92.0%, the highest percentage (34.0-68.3) was represented by live normal spermatozoa and those with bulb-head (13.3-41.0). Cryopreservation caused a decrease in percentage of motile cells to 30%; total live spermatozoa contribution by 27.2%p, including those live normal by 15.9%p (in relation to the fresh semen), bulb-head spermatozoa by 10.9%p, and increase (by 5.9%p) in number of spermatozoa with other deformations. Goose insemination 1×/week with fresh semen containing about 10.3 million live normal spermatozoa resulted in 66.7% of fertile eggs and with dose higher by 2.8 million spermatozoa (on average) the fertility increased by 20.9%p (up to 87.6% on average). Hatchability from set and fertile eggs was 55.9% and 83.9% vs. 66.3% and 75.6%, respectively. After twice a week insemination with frozen-thawed semen containing about 10.2 million live normal cells 58.2% eggs were fertile; hatchability from set eggs was 42.8% and from fertile eggs 71.7%, while insemination dose increase by 2.7 million spermatozoa per week caused a fertilization increase by 3.8%p (62.0% on average), this increase was not statistically significant, but hatchability from the fertile eggs (95.4%), was significantly (P < 0.05) higher.The use of AI with fresh semen in the creation of intergeneric hybrids of Canada goose males and White Ko?uda females allows a high level of egg fertility to be obtained. Furthermore, one limitation which is the short reproductive season of the Canada goose may be overcome by the use of cryopreserved semen.     

Chilled storage of semen from Atlantic halibut, Hippoglossus hippoglossus L. I: optimizing the protocol

Asynchrony in gamete production between females and males, and decrease in semen quality towards the end of reproductive season make chilled short-term storage of Atlantic halibut, Hippoglossus hippoglossus, semen a desirable method to apply for artificial propagation of this fish species. The goal of the present study was to determine the critical physiochemical factors that affect the success of chilled storage of halibut spermatozoa, and to develop a reliable, simple and efficient protocol for the storage. The presence and type of gaseous atmosphere, dilution and type of diluent, dilution ratio, and additional factors including spermatozoa sedimentation and replenishing the storage medium were tested in relation to spermatozoa motility parameters. Also, fertilization tests were performed with stored semen. Normoxia (air atmosphere) conditions were superior to both hyperoxia (pure oxygen) and no gaseous atmosphere for chilled storage. Dilution of semen with a diluent was superior to incubating undiluted semen. A dilution factor of between 6 and 10 times the original semen volume resulted in the longest viability of stored spermatozoa. Preventing spermatozoa sedimentation through daily swirling of the samples was superior to weekly swirling, however the effect was negligible for the first month of storage. Replenishing the storage medium showed no advantage to incubating in unchanged medium. Semen diluted in modified Hanks' balanced salt solution 1:5-1:9, supplemented with antibiotics, and kept at 0-1 degrees C in Ziploc bag filled with air retained its viability for exceptionally long time. A decrease in the percentage of motile spermatozoa was observed after 43 days of storage, and a decrease in curvilinear velocity occurred after 15 days. Samples remained motile for at least 79 days of storage and the fertilization ability was retained for at least 70 days of storage. The results demonstrate a high potential of application of chilled storage of semen into reproduction programs in Atlantic halibut aquaculture.     

An effective method for freezing White Italian gander semen

Efficiency of freezing method, worked out for the White Italian gander semen was evaluated by comparing motility, morphology and fertilizing ability of spermatozoa in fresh and frozen-thawed semen. A part of pooled semen, collected from 25 White Italian ganders by dorso-abdominal massage was used immediately for artificial insemination of 10 geese (the control group) with a dose of 80 microl. This insemination was performed six times at weekly intervals. The remainder of the semen was diluted 1:0.5 (v/v) with EK diluent, equilibrated for 15 min at +4 degrees C, mixed with 6% (v/v) of dimethylformamide (DMF) and frozen to -140 degrees C at a rate of 60 degrees C/min. Frozen semen was thawed in a 60 degrees C water-bath and inseminated twice weekly in a dose of 100 microl (10 females of the experimental group, 12 inseminations were made). The freezing process affected spermatozoa motility and morphology, but had no effect on their fertilizing ability. Positive movement was observed in 50-60% of the spermatozoa in fresh semen and about 40% of the frozen-thawed cells. The average percentage of total live and live normal spermatozoa decreased due to freezing from 92.2 to 68.4% and from 34.7 to 14.1%, respectively. After the fresh semen insemination with average 12 million of the live normal spermatozoa per week average fertility was 88.24%; hatchability of set eggs was 80.88% and hatchability of fertile eggs was 91.67%. For frozen-thawed semen inseminated with average 9.5 million of the undamaged spermatozoa per week, the average fertility and hatchability rate was 83.78, 73.87, and 88.17%, respectively. Fecundity rates obtained after insemination with the frozen-thawed gander semen allow for the application of the freezing technique into breeding practice, in place of natural mating or to assist natural mating in periods of lowered fertility level.     

The effect of glycerol-related osmotic changes on post-thaw motility and acrosomal integrity of ram spermatozoa

Ram semen, collected by artificial vagina, was diluted and processed for long-term storage as described by P. S. Fiser, L. Ainsworth, and R. W. Fairfull (Canad. J. Anim. Sci. 62, 425-428, 1982). The concentration of the cryoprotectant, glycerol, was adjusted to 4% in the diluted semen prior to freezing by a one-step addition at 30 degrees C (Method 1), by cooling the semen to 5 degrees C and addition of the glycerol gradually over 30 min (Method 2), by one-step addition of glycerol prior to equilibration for 2 hr (Method 3), or by cooling to 5 degrees C, followed by a holding period of 2 hr at 5 degrees C, and the one-step addition of glycerol just prior to freezing (Method 4). After thawing, the glycerol concentration of the semen was reduced by stepwise dilution from 4 to 0.4% over 15 or 30 min or by a one-step ten-fold dilution. The average post-thaw percentage of motile spermatozoa was significantly lower after addition of glycerol by Method 1 (39.9%) than when the glycerol was added by the other three methods (range, 44.0-46.4% averaged over the glycerol dilution). The average post-thaw percentage of intact acrosomes (61.2%), highest in semen in which the glycerol was added by Method 2, was not significantly different from those in which glycerol was added to semen by Methods 3 and 4, but it was significantly higher than that found in semen in which the glycerol was added by Method 1 (54.4%). However, when averaged over the method of glycerolation, the post-thaw percentage of motile spermatozoa (range, 43.7-44.2%) and the percentage of intact acrosomes (range, 56.8-59.5%) did not differ significantly in semen subjected to gradual decrease in glycerol concentration and diluent osmolality (over 15 and 30 min) or by a one-step, 10-fold dilution. These data indicate that post-thaw survival of spermatozoa can be influenced by the way in which glycerol is added prior to freezing. However, post-thaw spermatozoa motility and acrosomal integrity can be maintained even after a rapid decrease in glycerol concentration such as that which accompanies insemination or dilution of semen for assessment of motility.     

Comparison of three diluents for the storage of fresh bovine semen

In New Zealand, 95% of the semen used for artificial insemination in cattle is processed as liquid semen. Storage of liquid semen for up to 3 days in Caprogen) diluent enables a 10-fold reduction of the insemination dose, compared to frozen-thawed semen, without a reduction in fertility. In this Caprogen) diluent spermatozoa are stored under N2 gas in the presence of catalase. However, a new diluent (CEP-2), which was originally based on the biochemical composition of bovine cauda epididymal plasma, could become an appropriate alternative to Caprogen. In this study, the effect of addition of catalase to bovine spermatozoa stored for 6 days in CEP-2 diluent under aerobic and anaerobic conditions was evaluated and compared with a Tris diluent. Additionally, the quality and in vitro fertilizing capacity of fresh bovine semen stored for 6 days at 5 degrees C in the Triladyl, CEP-2 (without catalase and N2 gas) and Caprogen diluent were compared. Addition of 4.5 mg/mL catalase to CEP-2 diluent under aerobic and anaerobic conditions had no effect on sperm quality. Spermatozoa stored in CEP-2 diluent moved faster and straighter than spermatozoa stored in Triladyl or Caprogen diluent. The in vitro fertilization and polyspermy rates did not differ significantly between spermatozoa stored for 6 days at 5 degrees C in CEP-2 and Caprogen diluent, but were significantly lower for spermatozoa stored in Triladyl diluent. We can conclude that based on the in vitro results, the CEP-2 diluent is a better diluent than Triladyl and a good alternative to the Caprogen diluent for long term storage of fresh bovine semen at 5 degrees C. To confirm these promising in vitro results further in vivo experiments are required.     

Artificial insemination of sheep: the fertility of semen extended in diluents containing egg yolk and inseminated soon after dilution or stored at 5 degrees C for 24 or 48 hours.

In an experiment involving the artificial insemination (AI) of 1175 ewes, ram semen was diluted 10- or 30-fold in a buffered glucosesaline solution containing either 1.5% or 6% (v/v) egg yolk. Part of each semen collection was used undiluted for control AI of 10⁸ sperm/dose. Diluted samples were reconcentrated to 10⁹ sperm/ml by centrifugation and, from these preparations, 10⁸ spermatozoa were inseminated in a standard volume of 100 μl. Fertility was assessed by 28–45 day non-returns to oestrus.The processes of dilution and reconcentration caused a significant drop in the non-return rate (NRR) and cooling to 5°C and storage for up to 48 hrs at this temperature gave a further large, and highly significant, reduction in NRR. There was no significant effect of level of egg yolk in the diluent on NRR.     

Electroejaculation of the coyote

Two electroejaculators were used to collect semen from 40 adult male coyotes. The most effective apparatus used a two-ring rectal probe and an AC voltage of 18 (Vrms) at 1000 Hz. With this ejaculator, 11 of 15 coyotes produced a satisfactory semen sample, which averaged 0.9 ml in volume and 70 million spermatozoa per ml.     

Effect of bovine serum albumin on motility and fecundity of turkey spermatozoa before and after storage.

Motility characteristics of turkey spermatozoa before and after storage for 24 h at 7 degrees C in diluent with and without bovine serum albumin (BSA; 1% final concentration) were measured by computer-assisted semen analysis. BSA significantly increased the percentage of motile spermatozoa and sperm velocity, linearity, lateral head displacement and beat frequency in each treatment, but BSA in fresh or stored semen in diluent did not augment hen fertility over 15 weeks of egg production. Fatty-acid-free BSA, globulin-free BSA and Fraction V BSA all significantly increased each sperm motility characteristic compared with semen in diluent alone. The lack of correlation between sperm motility and fecundity emphasizes the need to develop procedures for semen evaluation that accurately predict the fertilizing capacity of an aliquot of semen.     

Examination of some processing methods for freezing boar semen.

Five experiments were conducted to examine the effect of processing methods and diluents on survival and morphology of boar spermatozoa after freezing. Post-thawing survival of spermatozoa was better for Beltsville-F3 (BF3) than for tris-fructose-EDTA freezing diluent when the seminal plasma and glycerol were removed prior to freezing (method A). Both freezing diluents yielded similar viability results when the spermatozoa were frozen in the presence of siminal plasma and glycerol (method B). Viability of spermatozoa after thawing was better when glycerol concentration in the prefreezing diluent (method A) or in the freezing medium (method B) was 2-5 and 5-0 rather than 7-5%. Cooling of diluted semen to 5 degrees C beyond 4 h decreased the post-thawing survival of spermatozoa. The proportion of spermatozoa with undamaged acrosomes after processing and thawing by different methods was indistinguishable and relatively low. When the semen was frozen at cell concentrations ranging from 0-25 to 2-0 X 10(9)/ml, the viability of spermatozoa declined with increasing concentration following freezing in BF3, and S-1 diluents. Viability results were very similar for all cell concentrations examined when tris-fructose-EDTA diluent was used, indicating the possibility of freezing boar semen in a concentrated state.     

Effect of initial freezing temperature, addition of glycerol and dilution on the survival and fertilizing ability of deep-frozen ram semen.

The influence oftemperature, addition of glycerol, initial freezing temperature, method of dilution, level of glycerol in the diluted semen, equilibration time and type of diluent on the survival and fertilizing capacity of deep-frozen according to the best conditions was compared with that of "fresh" semen. The addition of glycerol at plus30 degrees C resulted in a highly significant decrease in the mean proportion of motile spermatozoa immediately after thawing compared with the effect of addition at plus 4 degrees C. The immersion of the straws at minus55 degrees C significantly reduced the revival of the spermatozoa compared with initial freezing at lower temperatures. The exposure time to glycerol had no significant effect on the survival of spermatozoa after thawing and incubation, but fertility was significantly higher with 4% than with 2% glycerol. The I. N. R. A. diluent provided better sperm survival and a significantly higher conception rate than did lactose-egg yolk extender. The semen frozen according to the best conditions (about 50% of the samples) had a fertilizing ability similar to that of "fresh" semen when the proportion of motile spermatozoa before, and after 1 or 3 hr of incubation was equal to or above 45, 40 and 30% respectively.     

Freezability and Fertility Results with Uncentrifuged Stallion Semen

The first (1 to 3) sperm-rich fractions of the ejaculate were collected from 4 stallions using an open-ended vagina. The volume of the collected fractions was 12 ± 8 ml with a density of 475 ± 200 million spermatozoa/ml. Before freezing, the semen was diluted with a skim-milk based extender 1:1 to 1: 8 (volume of semen: volume of extender), depending on the initial sperm concentration to achieve a final concentration of 100 million/ml. The total number of spermatozoa in an insemination dose ranged from 0.7 to 1 billion spermatozoa. Within 12 h after ovulation, 48 mares were inseminated in 70 cycles. The total single-cycle pregnancy rate at day 21 was 24%, but varied from 10% to 33% per cycle among the stallions.     

Effects of semen filtration and dilution rate on morphology and fertility of frozen gander spermatozoa.

Feces, urates or dirt originating from feathers often contaminate gander semen during collection, threatening its fertilizing ability. Seminal plasma used as a diluent has a similar effect, particularly on spermatozoa subjected to cryopreservation or short-term storage under refrigeration. The aim of the experiments was to evaluate the effects on spermatozoa motility, morphology and fertilizing ability after minimizing the influence of the contaminants by semen filtration or dilution prior to freezing. Pooled semen, collected twice a week from 9 White Italian ganders by dorso-abdominal massage, was divided into two parts. One sample was filtered and both were diluted in 1:1 or 1:0.5 (v/v) with EK diluent, equilibrated for 15 min at +4 degrees C, mixed with dimethyl-acetamide (DMA) in the final concentration 6% (v/v) and frozen to -140 degrees C in a computerized freezer, at a rate of 60 degrees C/min. In fresh and processed (filtered, freeze-thawed) semen were examined the spermatozoa motility and morphology, and fertilizing ability for freeze-thawed semen, both for unfiltered and filtered. In freeze-thawed semen no tangible differences due to experimental factors were observed in motility and percent of live spermatozoa in total. On average 35 to 42% of the spermatozoa survived the freezing process, but only 10 to 15% were normal, without any damage visible under the light microscope. The fertility of unfiltered freeze-thawed semen inseminated twice a week in a 0.2 mL dose (about 3 to 5 x 10(6) of live normal spermatozoa each) averaged 66.1% and hatchability of the set eggs 57.1 and 86.5% of the fertile eggs. The fertility obtained after the insemination with semen filtered prior to freezing was lower (64.3%), but hatchability was slightly higher (58.6 and 91.1% of set and fertile eggs, respectively). The duration of fertility for filtered semen was longer than that for unfiltered, 10 days after the last insemination the eggs were still fertile. The fertility results of freeze-thawed gander semen were very promising taking into consideration the small amount of inseminated live normal spermatozoa and it is possible to improve this result by increasing the number of spermatozoa in the insemination dose.