Chilled storage of Asian seabass,Lates calcarifer Bloch semen: Effects of ions,extenders and storage periods on sperm quality and fertilization ability

The development of a chilled storage protocol of fish sperm requires an understanding of sperm biology and function as the activation/inhibition of fish sperm is greatly affected by several environmental factors. This study aimed to determine the effects of ionic and non-ionic solutions, extender types (Ringer's solution, Ca-F HBSS solution, HBSS solution, He and Wood solution, Saline solution, and Modified Cortland solution), and chilled-storage period on sperm quality and fertilization ability of Asian seabass, Lates calcarifer semen. Regulation of Asian seabass sperm motility was dependent on the osmolality of both ionic and non-ionic activation media. The threshold levels on the initiation of sperm motility were detected in KCl (>100 mM), NaCl (>50 mM), CaCl₂ (>50 mM), glucose (>300 mM), and mannitol (>100 mM) solutions. Relatively high percentages of sperm motility (>80%) were observed when activated with KCl, NaCl, CaCl₂, glucose, and mannitol solutions at above 700, 600, 350, 1,000, and 1,000 mM, respectively. Ringer's solution was the most optimal extender for chilled storage of Asian seabass semen at 2–4°C supported by the retention of sperm motility and viability for 6 days. Semen diluted in Ringer's solution and chilled-stored for 2 days exhibited acceptable fertilization (66.1% ± 6.2%) and hatching (56.4% ± 2.9%) rates. This report, for the first time, describes the ionicity and non-ionicity effects on the motility of Asian seabass sperm.     

Optimization of short-term storage of pikeperch semen: an applicable approach

Contamination of semen with urine and asynchronous maturation of males and females are main obstacles in artificial reproduction of pikeperch Sander lucioperca. The objective of this study was to overcome these obstacles using optimization of a procedure for short-term storage of pikeperch semen at 4 °C using two immobilizing media (IM): (a) IM1, 180 mM NaCl, 2.68 mM KCl, 1.36 mM CaCl₂ ⋅ 2H₂O and 2.38 mM NaHCO₃, 343 mOsm/kg; and (b) IM2, 200 mM NaCl, 2.68 mM KCl, 1.36 mM CaCl₂ ⋅ 2H₂O and 2.38 mM NaHCO₃, 381 mOsm/kg. Undiluted sperm was used as the control. At 6 h poststorage, there were no substantial changes in spermatozoa motility and velocity at 30 s postactivation in all groups. Over 48 h of storage, the highest spermatozoa motility and velocity were obtained in sperm diluted in IM2 compared to the other groups. IM2 could maintain a significantly higher ATP content of diluted sperm than IM1 and undiluted treatment for 2 days. Similarly, the highest values of eyeing and hatching rates were observed in sperm diluted in IM2 compared to sperm in the other studied groups. It can be concluded that the obtained result is a novel and applicable approach to maintain semen quality of pikeperch during short-term storage, suggesting IM2 as a promising medium for short-term storage. The present study also opens possibilities for ensuring a reliable source of semen as a convenient approach for increasing genetic diversity in hatcheries.     

Changes in extracellular osmolality initiate sperm motility in freshwater teleost rosy barb Puntius conchonius

The objective was to investigate the effects of extracellular osmolality and membrane osmotic-sensitive channels on the initiation of sperm motility and to explore mechanisms of sperm initiation in rosy barb (Puntius conchonius). We found that (1) sperm were immotile in seminal plasma and remained quiescent in electrolyte or nonelectrolyte solutions isotonic to seminal plasma; (2) sperm movement was initiated when the sperm were exposed to hypo-osmotic electrolyte or hypo-osmotic nonelectrolyte solutions, and that the responsiveness of sperm to changes in the extracellular osmolalities (100, 200, 250, 270, and 300 mOsm/kg) differed among sperm cells (P < 0.05); (3) sperm movement could be initiated and terminated repeatedly by decreasing and increasing the osmolality (in increments of 100 and 300 mOsm/kg) of a nonelectrolyte mannitol solution, respectively (P < 0.05); (4) gadolinium (20, 40, and 80 μM) inhibited the initiation of sperm motility and abolished the sperm activation caused by the hypo-osmotic media treatment in dose- and time-dependent manners (P < 0.05); and (5) sperm activation in a hypo-osmotic medium and inhibition in an isotonic solution were associated with swelling and shrinkage of the sperm sleeves, respectively. Therefore, we concluded that osmolality was a critical physiologic signal in regulating the initiation and termination of sperm motility in freshwater teleost rosy barb. Furthermore, we inferred that rosy barb sperm were hypo-osmotic–dependent conformers, and the osmotic-sensitive channel could be involved in the mechanism of sperm initiation.     

Sperm motility initiation and duration in a euryhaline fish, medaka (Oryzias latipes)

The medaka, Oryzias latipes, is a well-recognized fish model for biomedical research. An understanding of gamete characteristics is necessary for experimental manipulations such as artificial fertilization and sperm cryopreservation. The goal of this study was to investigate sperm characteristics of motility initiation, duration, and retention in medaka. First, motility was initiated by osmolality values ranging from 25 to 686 mOsm/kg, which included deionized water and hypotonic, isotonic, and hypertonic Hanks’ balanced salt solution. The percentage of motile sperm was >80% when osmolality was <315 mOsm/kg and decreased as osmolality increased. This is different from most fish with external fertilization in which sperm motility can be initiated by hypotonic (for freshwater fish) or hypertonic (for marine fish) solutions or by altering the concentration of specific ions such as potassium (e.g., in salmonids). Second, upon activation, the sperm remained continuously motile, with reserve capacity, for as long as 1 wk during storage at 4 °C. This was also different from other externally fertilizing fish, in which motility is typically maintained for seconds to several minutes. Third, after changing the osmolality to 46 to 68 mOsm/kg by adding deionized water, the motility of sperm held at 274 to 500 mOsm/kg was higher than the original motility (P ≤ 0.035) after 24, 48, and 72 h of storage at 4 °C. Fourth, the addition of glucose had no effect on maintaining sperm motility during refrigerated storage. To our knowledge, this combination of sperm motility characteristics is reported for the first time in fish and may be unique to medaka or may represent an undescribed modality of sperm behavior within euryhaline fish.     

Relationship between semen characteristics and body size in Barbus barbus L. (Teleostei: Cyprinidae) and effects of ions and osmolality on sperm motility

The objectives of the present study were to determine the relationships among length and weight of males, sperm volume, spermatozoa concentration, total number of spermatozoa, ionic contents and osmolality of seminal plasma in Barbus barbus. The effect of osmolality on sperm motility parameters after activation in NaCl, KCl, or sucrose solutions was also examined. There were significant correlations between spermatozoa concentration – length (R = + 0.7) and – weight (R = + 0.8) of males. No significant correlations were observed between the total number of spermatozoa, sperm volume, and length and weight of males. Seminal plasma osmolality was higher when the total number of spermatozoa (R = + 0.6) and sperm volume (R = + 0.6) were higher. Sperm motility and velocity was positively correlated with osmolality (R = + 0.5). The correlation between sperm motility and K⁺ was negative (R = 0.5), but positively correlated with Ca²⁺ (R = 0.8), Na⁺ (R = 0.8), and Cl⁻ (R = 0.8). There was a rapid decrease (P < 0.05) in sperm motility parameters after sperm activation. Just after sperm activation, beating waves propagated along the full length of flagella. At latter stages post sperm activation, the waves appeared only in proximal part of the flagellum. The highest spermatozoa velocity and percentage of motility were observed at 215–235 mOsmol kg^− 1 in NaCl, KCl or sucrose. The tip of the flagellum became curled into a loop shape which shortened the flagellum after activation of sperm in distilled water. B. barbus sperm is very similar to that of other cyprinids in terms of ionic contents and osmolality of the seminal plasma, mechanism of sperm activation and behavior and motility of sperm during swimming period.     

Effect of different calcium concentration on sperm motility and fertilisation capacity of rainbow trout (Oncorhynchus mykiss)

Calcium is a prerequisite factor for triggering the sperm activation in salmonids. The aim of this study was to test different concentrations of Ca²⁺ on sperm motility activation and fertility of rainbow trout (Oncorhynchus mykiss). Semen samples activated with calcium free activator (0.0 mM) and increasing concentrations of CaCl₂ (6.3, 7.9, 9.5 and 11 Mm) were evaluated by computer-assisted sperm analysis (CASA). To assess fertility, eggs from three females were fertilized with semen and activated with each of the five solutions and incubated until four-cell stage when the rate fertility and the symmetry of the first blastomeres were evaluated. The results show that eliminating calcium from the activator solution significantly reduced the motility rate and fertility in comparison with the other treatments, while increasing the CaCl₂ from 6.3 to 11 mM generated high sperm motility (78.5 ± 5.8–95.4 ± 4.0%) and fertility (85.0 ± 9.3–96.0 ± 6.51%) rates, and low symmetry rates in the first blastomeres (<20%). No significant differences were found between solutions for the latter two variables, suggesting that the calcium concentrations were in balance with the other components of the medium and within the requirements for the fertilization of rainbow trout.     

Effect of basic factors of extender composition on post-thawing quality of brown bear electroejaculated spermatozoa

The improvement of freezing extenders is critical when defining sperm cryopreservation protocols for wild species, in order to create germplasm banks. The aim of this study was to evaluate the effect of additives (Equex Paste and EDTA) supplementation, egg-yolk (10 and 20%) and glycerol (4 and 8%) concentrations and extender osmolality (300 and 320 mOsm/kg) on the post-thawing quality of brown bear semen. Semen was obtained from 20 adult males by electroejaculation, and centrifugated individually (600 × g for 6 min). The pellets were diluted 1:1 in the corresponding extender TTF (TES-Tris-Fructose with the aforementioned variants) and cooled to 5 °C. Then, it was diluted down to 100 × 10⁶ spz/mL, loaded in 0.25 mL straws and frozen at −20°C/min. After thawing (in water at 65 °C for 6s), the semen samples were assessed for motility (CASA), viability (SYBR-14 with propidium iodide), acrosomal status (PNA-FITC with propidium iodide) and mitochondrial activity (JC-1). Extender supplementation with additives rendered significantly higher results for these sperm parameters. Comparing the two percentages of egg yolk, 20% egg yolk showed the highest motility results, percentages of viable spermatozoa and viable spermatozoa with intact acrosome. No differences were detected among samples frozen using 4 or 8% glycerol. For extender osmolality, 300 mOsm/kg showed higher values of VAP, VCL, VSL, and ALH than 320 mOsm/kg. Based on the best performance of sperm motility, viability and acrosome status, we conclude that the most suitable extender to cryopreserve brown bear spermatozoa was TTF adjusted to 300 mOsm/kg, supplemented with 20% egg yolk, 4-8% glycerol, and the additives 1% Equex paste and 2% EDTA.     

Effects of different artificial motile activating media on sperms motility of Waigieu seaperch Psammoperca waigiensis throughout a reproductive season

We previously determined changes in sperm quality of Psammoperca waigiensis during its spawning season and the optimal cation concentrations and osmolality for sperm preservation of this species at the peak of the reproductive season. In this study, we went one important step further by assessing the effects of the most adequate medium, considering the dilution ratio, osmolality, and cations (Na⁺, K⁺, Mg²⁺, and Ca²⁺) on the motility of P. wasigiensis sperm collected during the early, peak, and late spawning season. We determined the maximum velocity (VAP), and percentage of sperm motility (MOT), and the duration of sperm motility (DSM). Under optimal dilution, temperature, pH and osmolarity, MOT, VAP, and DSM did not statistically differ during early, peak, and late spawning season. However, under suboptimal external conditions, MOT, VAP, and DSM showed inconsistent trends during different spawning periods. We recommend using one of three different artificial motile activating media: (1) 0.55 M Na⁺, (2) 0.6 M K⁺ or (3) 1200 mOsm/kg for early; or (1) 0.6 M Na⁺, (2) 0.6 M K⁺ or (3) 1100 mOsm/kg for the peak; and (1) 0.65 M Na⁺, (2) 0.55 M K⁺ or (3) 1200 mOsm/kg for late spawning season; all at the dilution of 1:150 (v:v of semen: artificial motile activating medium).     

Survival and Growth of Tetrahymena thermophila in Media that are Conventionally Used for Piscine and Mammalian Cells

The transfer of Tetrahymena thermophila from normosmotic solutions (~20–80 mOsm/kg H₂O) to hyperosmotic solutions (> 290 mOsm/kg H₂O) was investigated. During the first 24 h of transfer from proteose peptone yeast extract (PPYE) to either 10 mM HEPES or PPYE with added NaCl to give ~300 mOsm/kg H₂O, most ciliates died in HEPES but survived in PPYE. Supplementing hyperosmotic HEPES or PPYE with fetal bovine serum (FBS) enhanced survival. When ciliates were transferred from PPYE to a basal medium for vertebrate cells, L‐15 (~320 mOsm/kg H₂O), only a few survived the first 24 h but many survived when the starting cell density at transfer was high (100,000 cells/ml) or FBS was present. These results suggest that nutrients and/or osmolytes in either PPYE or FBS helped ciliates survive the switch to hyperosmotic solutions. FBS also stimulated T. thermophila growth in normosmotic HEPES and PPYE and in hyperosmotic L‐15. In L‐15 with 10% FBS, the ciliates proliferated for several months and could undergo phagocytosis and bacterivory. These cell culture systems and results can be used to explore how some Tetrahymena species function in hyperosmotic hosts and act as opportunistic pathogens of vertebrates.     

Use of NaCl prevents aggregation of recombinant COMP–Angiopoietin-1 in Chinese hamster ovary cells

To investigate the effect of hyperosmotic medium on production and aggregation of the variant of Angiopoietin-1 (Ang1), cartilage oligomeric matrix protein (COMP)–Ang1, in recombinant Chinese hamster ovary (CHO) cells, CHO cells were cultivated in shaking flasks. NaCl and/or sorbitol were used to raise medium osmolality in the range of 300–450 mOsm/kg. The specific productivity of COMP–Ang1, q_COMP–Ang1, increased as medium osmolality increased. At NaCl-450 mOsm/kg, the q_COMP–Ang1 was 7.7-fold higher than that at NaCl-300 mOsm/kg, while, at sorbitol-450 mOsm/kg, it was 2.9-fold higher than that at sorbitol-300 mOsm/kg. This can be attributed to the increased relative mRNA level of COMP–Ang1 at NaCl-450 mOsm/kg which was approximately 2.4-fold higher than that at sorbitol-450 mOsm/kg. Western blot analysis showed that COMP–Ang1 aggregates started to occur in the late-exponential phase of cell growth. When sorbitol was used to raise the medium osmolality, a severe aggregation of COMP–Ang1 was observed. On the other hand, when NaCl was used, the aggregation of COMP–Ang1 was drastically reduced at NaCl-400 mOsm/kg. At NaCl-450 mOsm/kg, the aggregation of COMP–Ang1 was hardly observed. This suggests that environmental conditions are critical for the aggregation of COMP–Ang1. Taken together, the use of NaCl-induced hyperosmotic medium to cell culture process turns out to be an efficient strategy for enhancing COMP–Ang1 production and reducing COMP–Ang1 aggregation.     

Activation of sperm motility in striped bass via a cAMP-independent pathway

The objective of the present study was to identify the effect of osmolality, ions (K+, H+, Ca2+, Mg2+) and cAMP on the initiation of sperm motility in striped bass (Morone saxatilis). Striped bass spermatozoa remained motile in solutions isotonic to seminal plasma (350 mOsm/kg) until osmolality reached 600 mOsm/kg. K+ (0-100 mM) had no effect ( p>0.05 ) on sperm motility, and sperm displayed a high percentage of motility over a wide range of pH (6.0-8.5). Sperm motility could be initiated in Ca2+-free solutions. In contrast, sperm motility was inhibited (P<0.01) by solutions containing > or =10 mM Ca2+, and sperm could not be reactivated by a Ca2+-free solution. This Ca2+ inhibition was not affected by verapamil, a Ca2+ channel blocker. However, if sperm motility was first initiated in a Ca2+-free solution, the addition of Ca2+ solutions, up to 80 mM, failed to inhibit sperm motility, suggesting that Ca2+ inhibited the initiation of motility, but had no control of motile spermatozoa. Mg2+ solutions had similar inhibitory effects on sperm motility as Ca2+ solutions. Therefore, initiation of motility in striped bass sperm may be related to voltage-gated channels across the cell's plasma membrane. Membrane permeable cAMP did not initiate motility of quiescent, intact striped bass spermatozoa, and motility of demembranated sperm could be activated in the absence of cAMP.     

The role of osmotic resistance on equine spermatozoal function

Cryopreservation requires exposure of sperm to extreme variations in temperature and osmolality. The goal of this experiment was to determine the osmotic tolerance levels of equine sperm by analyzing motility, viability, mitochondrial membrane potential (MMP), and mean cell volume (MCV). Spermatozoa were incubated at 22 degrees C for 10 min in isosmolal TALP (300 mOsm/kg), or a range of anisosmolal TALP solutions (75-900 mOsm/kg), for initial analysis, and then returned to isosmolal conditions for 10 min for further analysis. Total sperm motility was lower (P < 0.05) in anisosmolal conditions compared to sperm motility in control medium. When cells were returned to isosmolal conditions, only sperm previously incubated in 450 mOsm/kg TALP were able to recover to control levels of motility. Sperm viability and MMP were lower (P < 0.05) when exposed to hypotonic solutions in comparison to control solutions. Sperm suspensions that were returned to isosmolal conditions from 75, 150, and 900 mOsm/kg had lower (P < 0.05) percentages of viable sperm than control suspensions (300 mOsm/kg). MMP was lower (P < 0.05) in cells previously incubated in 75 and 900 mOsm/kg when returned to isosmolal, as compared to control cells. MCV differed (P < 0.05) from control cell volume in all anisosmolal solutions. Cells in all treatments were able to recover initial volume when returned to isosmolal medium. Although most spermatozoa are able to recover initial volume after osmotic stress, irreversible damage to cell membranes may render some sperm incapable of fertilizing an oocyte following cryopreservation.     

Spermatozoa from the maned wolf (Chrysocyon brachyurus) display typical canid hyper-sensitivity to osmotic and freezing-induced injury,but respond favorably to dimethyl sulfoxide

We assessed the influences of medium osmolality, cryoprotectant and cooling and warming rate on maned wolf (Chrysocyon brachyurus) spermatozoa. Ejaculates were exposed to Ham’s F10 medium (isotonic control) or to this medium plus NaCl (350–1000 mOsm), sucrose (369 and 479 mOsm), 1 M glycerol (1086 mOsm) or dimethyl sulfoxide (Me₂SO, 1151 mOsm) for 10 min. Each sample then was diluted back into Ham’s medium and assessed for sperm motility and plasma membrane integrity. Although glycerol and Me₂SO had no influence (P > 0.05), NaCl and sucrose solutions affected sperm motility (P < 0.05), but not membrane integrity. Motility of sperm exposed to <600 mOsm NaCl or sucrose was less (P < 0.05) than fresh ejaculate, but comparable (P > 0.05) to the control. As osmolality of the NaCl solution increased, motility decreased to <5%. In a separate study, ejaculates were diluted in Test Yolk Buffer containing 1 M glycerol or Me₂SO and cooled from 5 °C to −120 °C at −57.8 °C, −124.2 °C or −67.0 °C/min, frozen in LN₂, thawed in a water bath for 30 s at 37 °C or 10 s at 50 °C, and then assessed for motility, plasma- and acrosomal membrane integrity. Cryopreservation markedly (P < 0.05) reduced sperm motility by 70% compared to fresh samples. Higher (P < 0.05) post-thaw motility (20.0 ± 1.9% versus 13.5 ± 2.1%) and membrane integrity (51.2 ± 1.7% versus 41.5 ± 2.2%) were observed in samples cryopreserved in Me₂SO than in glycerol. Cooling rates influenced survival of sperm cryopreserved in glycerol with −57.8 °C/min being advantageous (P < 0.05). The findings demonstrate that although maned wolf spermatozoa are similar to domestic dog sperm in their sensitivity to osmotic-induced motility damage, the plasma membranes tolerate dehydration, and the cells respond favorably to Me₂SO as a cryoprotectant.     

Maintenance of fertility in cryopreserved Indian gerbil (Tatera indica) spermatozoa

This study is the first attempt at sperm cryopreservation, as well as a further examination of frozen sperm fertility by the hamster test, applied to the maintenance of an Indian gerbil (Tatera indica) colony, which is a newly developing experimental animal.The osmotic tolerance of the spermatozoa was initially investigated by subjection to hypertonicity, up to 620 mOsm/kg, for 5 min at room temperature prior to freezing. Although the percentage of total motile sperm was not affected, that of progressive motile spermatozoa began to drop at 400 mOsm/kg, and a significant decrease was observed at 620 mOsm/kg (p < 0.01). According to these results, the osmolality of the solutions for the freezing experiment, in which 6–22% raffinose was present, was fixed at approximately 400 mOsm/kg. Sperm, suspended in a plastic straw, were frozen in liquid nitrogen vapor for 5 min, followed by immersion in liquid nitrogen. Motile sperm were recovered from all freezing conditions, and high survival was obtained when sperm were frozen in the presence of 14% and 18% raffinose, with a normalized motility higher than 40%. Fertility of cryopreserved Indian gerbil sperm was examined by the zona-free hamster test. Thawed sperm adhered to 88% of the zona-free hamster oocyte surface, and some oocytes were penetrated and exhibited swollen sperm heads or male pronuclei, which we used to define fertilization. Although the fertilization rate of cryopreserved sperm to zona-free hamster eggs was significantly lower than that of fresh sperm (6% vs. 30%, p < 0.01), we demonstrated that thawed Indian gerbil spermatozoa have the ability to maintain their fertility.     

Influence of osmolality and ions on the activation and characteristics of zebrafish sperm motility

Despite the prevalence of zebrafish as a model scientific organism, understanding sperm function in this species is essentially limited to observations that osmotic shock initiates motility. During natural spawning, sperm encounter a range of environmental salinities as well as freshwater mixed with egg-associated ovarian fluid (OF), thus sperm are likely to be exposed to saline prior to egg contact. Effects of saline on sperm function in this model species are unknown, but likely to be important. Using computer assisted sperm analysis, this study addressed the effects of osmolality of spawning media and ionic composition and pH on the proportion of sperm becoming motile at activation (motility), as well as sperm velocity and path. When activated with tap water, motility was maximal (80%) at 10 s (earliest time measured), declining to 5% by 87 s postactivation. With activation at moderate osmolalities (∼160-200 mmol/kg) initial motility was decreased relative to low osmolality, increased from 10 to 30 s, and subsequently declined less rapidly (motility in 80 mM NaCl was 35%, 80%, and 60% at 10, 30 and 147 s, respectively). Thus, moderate osmolality increased duration, but introduced a temporal lag in motility onset. With moderate osmolalities, the rate of velocity decay was less than that with tap water activation. Sodium chloride and sucrose similarly impacted both motility and velocity. Replacement of NaCl with KCl, pH values ranging from 6.8 to 8.4, or the presence of gadolinium were without effect. Motility, but not velocity, was slightly supressed by Ca²⁺. Therefore, whereas pH and concentrations of Ca²⁺ or K⁺ of OF are unlikely to impact fertility via sperm motility, the OF contribution to spawning media osmolality may have pronounced effects on motility and velocity of sperm, factors previously correlated with fertility in other species.     

Regulation of spermatozoa motility in response to cations in Russian sturgeon Acipenser gueldenstaedtii

The aim of this study was to investigate the response of Russian sturgeon (Acipenser gueldenstaedtii) sperm to external cations (Na⁺, K⁺, Ca²⁺, and Mg²⁺) and their susceptibility on the induction of motility and swimming behavior. An in vitro spermatozoa motility assay was used by a computer-aided Motion-Analysis system. Sperm motility was inhibited by 60 mm NaCl (∼140 mOsm/kg) and 0.7 mm KCl solutions (∼ 21.4 mOsm/kg). The Ca²⁺ and Mg²⁺ ions were not able to inhibit spermatozoa motility. By contrast, Na⁺ within a limited concentration range (between 45 and 55 mm) was able to reverse the inhibitory effect of K⁺ at the critical concentration (0.7 mm). Ca²⁺ and Mg²⁺ were also able to reverse the K⁺-mediated spermatozoa motility restriction at concentrations starting at 0.01 and 0.1 mm, respectively. These results provide evidence for the role of K⁺ in suppressing spermatozoa motility, and suggest that Ca²⁺, Mg²⁺, and possibly Na⁺ trigger motility in Russian sturgeon sperm.     

Fertilization environment of the non-copulating marine sculpin, Hemilepidotus gilberti

To clarify the extracellular environment for external fertilization in the non-copulating marine sculpin Hemilepidotus gilberti, sperm motility was measured in NaCl, KCl, mannitol solutions, seawater, and ovarian fluid. Spermatozoa of H. gilberti actively moved in seminal plasma the moment they were removed from the genital papilla. Spermatozoa showed higher motility in NaCl solution at osmolalities between 300–400 mOsmol kg^-1. In KCl and in mannitol solutions, spermatozoa actively moved at osmolalities between 500 and 800 mOsmol kg^-1, and at osmolality 300 mOsmol kg ^-1, respectively. The ovarian fluid was a transparent and viscous gelatinous material, rich in sodium with an osmolality of 340 mOsmol kg^-1. Sperm motility in the ovarian fluid lasted more than 90 min, which was six times longer than in seawater. This sperm motility under conditions isotonic to body fluid is similar to that of copulating marine sculpins rather than to other non-copulating marine fishes. In addition, eggs of H. gilberti could be fertilized in the ovarian fluid. This suggests that external fertilization takes place under physiological conditions similar to the internal conditions of the ovary provided by the ovarian fluid, which isolates the eggs from sea water for several hours after spawning. This manner of fertilization is thought to be one of the evolutionary pre-adaptations allowing copulation among marine sculpins.     

DNA integrity of Polyodon spathula cryopreserved sperm

Comet assay was used to detect DNA integrity of paddlefish (Polyodon spathula) sperm following cryopreservation. At the same time, sperm velocities prior to freezing and post‐thawing were also assessed by the computer‐assisted sperm analysis (CASA) system. Significant differences (P < 0.05) were detected in the degree of DNA damage in cryopreserved sperm using different extenders. According to osmolality of the extenders, DNA damages of Sb (20 mm Tris, 75 mm sucrose, 0.5 mm KCl, pH 8.5) sperm was the least, which showed that the percentage of tail DNA of Sb (17.87–35.28%) was lower than those of Sa (20 mm Tris, 50 mm sucrose, 0.5 mm KCl, pH 8.5) and Sc (20 mm Tris, 100 mm sucrose, 0.5 mm KCl, pH 8.5). Moreover, A and B class sperm cells provided most of the Sb sperm (>50%). However, in light of the concentration of methanol, DNA damages of M8 (8% methanol concentration) sperm were the least, including a lower percentage of the tail DNA (21.56–30.86%), and C and D class sperm cells (<30%), regardless of the osmolality of the extenders. In conclusion, when the dilution was 20 mm Tris, 75 mm sucrose, 0.5 mm KCl, pH 8.5 and the concentration of methanol was 8%, the extenders were the best for cryopreservation of paddlefish sperm. In addition, the results indicated that the extent of damage to sperm motility caused by freeze‐thawing (VCL, VSL) was correlated with DNA breakage (|r| > 0.8). This implied that cryopreservation could damage sperm DNA of paddlefish and affect the sperm velocities when the osmolality and the concentrations of the cryoprotectants of the extender were inappropriate.     

Initiation of sperm motility depending on a change in external osmotic pressure in the noncopulatory marine cottid fish Gymnocanthus herzensteini

 The initiation of sperm motility in a noncopulatory marine cottid fish, Gymnocanthus herzensteini, was examined. The spermatozoa, which were immotile in seminal plasma, initiated motility at osmolalities of more than 500 mOsm kg⁻¹ in NaCl solution and 400 mOsm kg⁻¹ in KCl and mannitol solutions, indicating that the initiation of sperm motility depends on changes in external osmolality, in contrast with that of the sperm of other marine cottid fish, which are motile in seminal plasma. This study revealed that there are plural manner of initiation of sperm motility in marine cottid fish, which are oviparous but include both copulatory and noncopulatory modes. Received: May 24, 2001 / Revised: December 19, 2001 / Accepted: January 8, 2002     

Characterization of lake minnow Eupallasella percnurus semen in relation to sperm morphology,regulation of sperm motility and interpopulation diversity

Sperm morphology and regulation of sperm motility of lake minnow Eupallasella percnurus, an endangered cyprinid, were investigated. Milt characteristics from two isolated populations of E. percnurus were compared to characterize the interpopulation diversity. Electron microscopic studies revealed that E. percnurus spermatozoa comprise simple, uniflagellate, anacrosomal aquasperm with species‐specific features as an eccentrically located implantation of nuclear fossa and eccentric insertion of flagellum. Sperm motility was significantly inhibited by relatively low ion concentrations (150, 150 and 8 mM for NaCl, KCl and CaCl₂, respectively). Sperm maintained a high motility rate over a wide pH range (5·5–10·5), which may reflect adaptation to a highly variable environment. The two E. percnurus populations were markedly different in milt volume, sperm concentration, seminal plasma pH, sperm motility and beat cross frequency, which may result from genetic differences and environmental conditions.