Effects of Pentoxifylline on Equine Epididymal Sperm

This study evaluated whether pentoxifylline (PTX) present in the flushing extender influenced the function of equine epididymal spermatozoa after recovery and after thawing. For this experiment, 58 testicles from 29 Brazilian Jumping Horses were used. Cauda epididymides of each stallion were separated and flushed with a skim milk extender, with or without 7.18 mM PTX and then subjected to the freezing process. Samples flushed with the extender containing PTX showed a significant increase in total motility, progressive motility, straight line velocity, curvilinear velocity, and percentage of rapid sperm immediately after the recovery of epididymal sperm and after 15 minutes of incubation at 37°C (P < .05). However, the presence of PTX in the flushing extender did not affect the post-thaw motility parameters or plasma membrane integrity (P > .05). The results of this study showed that the PTX present in the flushing extender improved motility parameters of recently recovered epididymal sperm and had no deleterious effects on plasma membrane integrity and freezability of equine epididymal sperm.     

Comparison of Apoptotic Cells Between Cryopreserved Ejaculated Sperm and Epididymal Sperm in Stallions

The development of a reliable technique to freeze epididymal semen would provide a unique opportunity to preserve valuable genetic material from unexpectedly lost stallions. The aim of this study was to compare the apoptotic indices of sperm obtained from ejaculate, sperm recently recovered from the epididymides (EP), and sperm recovered from epididymides stored at 5°C for 24 hours (EP-stored). For the first category, two ejaculates from seven stallions were collected and then submitted to cryopreservation using an egg yolk-based extender. One week after the last semen collection, the stallions were submitted to bilateral orchiectomy, and sperm from one of the cauda epididymis was harvested immediately after castration (EP). The remaining testicle was stored in a passive refrigeration container at 5°C for 24 hours before the cauda epididymal sperm was harvested (EP-stored). Sperm harvesting from the epididymis for EP and EP-stored was performed by retrograde flushing of the caudal portion of the epididymis using a skim milk-based extender. The recovered sperm was then cryopreserved using the egg yolk-based extender. Sperm motility parameters were studied by computer-assisted semen analysis, and apoptosis was estimated by measuring caspase activity and membrane phospholipid translocation using epifluorescence microscopy. The samples were evaluated immediately (0 hour) and 8 hours after thawing. At 0 hour, no differences in sperm parameters were observed among the groups, but after 8 hours, significant statistical differences were observed in sperm motility parameters and plasma membrane integrity among the treatment groups. In addition, viable cells with no apoptotic signs were more prevalent in EP and EP-stored, suggesting that epididymal sperm is less sensitive to the cold shock caused by sperm cryopreservation.     

Effects of Two Different Cooling Devices for Testicles Transport on Stallion Epididymal Sperm Quality

This study evaluates the effects of two cooling devices and temperature for testicles storage on epididymal sperm quality after 24 hours; different levels of seminal plasma (0% and 10%) were evaluated on sperm after recovering. Testicles from six stallions were recovered immediately after castration (2) or at the slaughterhouse (4); of the same animal, one testicle was placed in Equitainer (+8°C), the other in a styrofoam box with ice (+3°C). After 24 hours, the temperature of parenchyma was measured, and testicles and epididymal were weighted. Sperm were flushed from the cauda epididymides with Kenney extender, total sperm number recorded and motility and viability evaluated immediately after flushing (T0) with or without 10% SP (G1 Eq 0%, G2 Eq 10%, G3 Ice 0%, G4 Ice 10%). Motility and viability were evaluated after 24 hours and 48 hours of storage at +4°C. Temperature of the parenchyma was lower in testicles stored in ice compared to Equitainer (3.2 ± 0.6°C and 8.6 ± 2.5°C, respectively; P < .05). Motility and viability at T0 were similar (P > .05) in G1 and G3, whereas addition of SP after recovery significantly improved motility only in samples stored in Equitainer (G2). Viability was higher (P < .05) in G2 than in G4. At T24 and T48, no differences (P > .05) in sperm quality were found between storage methods or samples with or without SP. In conclusion, equine testicles can be safely stored either at lower (+3°C) or higher (+8°C) temperature than +5°C. This can be useful, especially when testicles are shipped in a hot climate, where devices cannot guarantee optimal refrigeration conditions.     

Measurement of Concentration and Viability in Stallion Sperm

Sperm concentration and sperm membrane intactness (SMI) or viability are two measures of sperm quality that provide important but different information about a stallion's reproductive capability. Sperm concentration is a measure that, by itself, informs little about the reproductive status of either the stallion or the ejaculate. Nevertheless, it is part of the product, along with semen volume, that determines total sperm number. The correct calculation of total sperm number directly affects the number of mares a stallion can breed and therefore, fertility. If either sperm concentration or semen volume is incorrectly measured, both the number of mares that a stallion can breed and the fertility of those breedings are affected. Although considerable between-stallion variation exists, sperm concentration, semen volume and total sperm number tend to be seasonal and vary with ejaculation frequency.     

Effect of Removing Seminal Plasma Using a Sperm Filter on the Viability of Refrigerated Stallion Semen

Cooling of equine semen obtained from some stallions results in lower seminal quality and viability when the seminal plasma (SP) is present. The objective of this study was to evaluate the effect of the removal of SP using a Sperm Filter on the viability of cooled stallion semen. For this purpose, 31 stallions were used. Their ejaculates were divided into three groups: CN, semen was diluted with an extender; FLT, SP was removed by filtration; and CT, SP was removed by centrifugation and cooled to 15°C for 24 hours. Sperm kinetics and plasma membrane integrity were evaluated immediately after collection (T0) and after 24 hours of refrigeration (T1). No difference (P > .05) was noted at T1 for total sperm motility (TM), progressive sperm motility, or plasma membrane integrity when semen samples from all the stallions were analyzed. However, when samples from stallions termed “bad coolers” were analyzed (TM = <30% at T1), a difference was observed in TM and progressive sperm motility for CN compared with FLT and CT at T1. Sperm recovery was greater when SP was removed using the filter (FLT) to that when the SP was removed by centrifugation (CN) (89% vs. 81%). Thus, we concluded that filtering with a Sperm Filter is an efficient and practical method for removal of SP from stallion ejaculates, with lower sperm loss than centrifugation. We also found that the presence of SP reduces the quality and viability of cooled semen from stallions whose semen is sensitive to the process of refrigeration.     

The Effects of Refrigeration Temperature and Storage Time on Apoptotic Markers in Equine Semen

Evaluation of the damage caused by the sperm preservation process is crucial to improving fertilization rates. The objective of this study was to evaluate the effects of refrigeration temperature (5°C and 15°C) and storage time (0, 12, 24, 48, and 72 hours) on apoptotic markers in equine semen. Membrane phosphatidylserine translocation index, caspase activation index, and DNA fragmentation index were analyzed using epifluorescence microscopy. Analysis of variance was used for statistical analysis, and Tukey test was used to compare means. The significance level was set at P < .05. The results demonstrated that for transport duration shorter than 24 hours, semen quality was maintained when stored at either 5°C or 15°C. A storage temperature of 5°C should be used when it is necessary to transport semen for longer than 24 hours. There was a significant decrease in semen quality after 48 hours of refrigeration.     

The Effects of an Oxygen Scavenger and Coconut Water on Equine Sperm Cryopreservation

Alternative sources of lipoproteins in semen extenders could replace animal by-products. We hypothesized that: (1) post-thaw semen parameters and fertility would not be different in coconut water (CW)–treated samples compared with egg yolk (EY)–treated samples and (2) the use of an oxygen scavenger (Oxyrase) would improve post-thaw sperm motility and membrane integrity and decrease lipid peroxidation. Experiment 1: three ejaculates each from five stallions were split into four treatments: EY, CW, egg yolk with Oxyrase, and coconut water with Oxyrase. Computer-assisted sperm analysis measured progressive and total motility, velocity, and linearity. Membrane integrity, apoptosis, and lipid peroxidation were evaluated using propidium iodide, annexin, and BODIPY fluorescent probes, respectively. Samples were cryopreserved, stored in liquid nitrogen, and then thawed to 37°C and analyzed again. Experiment 2: one ejaculate was divided into two aliquots and cryopreserved using either CW or EY. In a crossover design, 12 mares were bred on two consecutive cycles with either EY or CW. Pregnancy evaluations were at 14-day gestation. No differences were detected in sperm parameters between CW and EY (P > .05). Oxyrase did not improve sperm motility parameters in post-thaw samples, nor did it show protective effects for viability or against membrane damage (P > .05). More mares became pregnant using CW than EY (11/12 vs. 6/12, respectively; P = .013). Use of CW is a viable alternative to animal-based products in the cryopreservation of stallion semen.     

Effects of Hyaluronan Supplementation on Cryopreserved Equine Spermatozoa Hyaluronan and Cryopreserved Equine Spermatozoa

Addition of hyaluronan, a nonsulfated glycosaminoglycan, to fresh and frozen thawed human semen results in substantial retention of motility over time. Hyaluronan also has been reported to preserve postthaw viability and maintain membrane stability of boar spermatozoa. Therefore, experiments were designed to investigate the use of a commercially available hyaluronan (Map-5, Bioniche Animal Health, Inc., Athens, GA) in freezing extender for cryopreservation of equine spermatozoa. In experiment 1, aliquots from ejaculates were supplemented before freezing with one of four levels of hyaluronan: 100 μg/mL, 200 μg/mL, 400 μg/mL, and 1000 μg/mL along with an untreated control. No differences in sperm motility, assessed by computer-assisted sperm motility analysis (CASA), were found for any treatment at times 0, 30, or 60 minutes postthaw. Decreases in motility were noted in the highest hyaluronan group (1,000 μg/mL) after 90 and 120 minutes of incubation. Sperm viability, as assessed using SYBR-14/propidium iodide staining, was decreased (P < .05) when treated with 1,000 μg/mL compared with the control (37.1% and 46.1%, respectively). Motility parameters tended to remain elevated in those ejaculates treated with 200 μg/mL at various time points. Experiment 2, therefore, further investigated the effects of hyaluronan at 200 μg/mL on motility parameters and acrosome integrity and zona pellucida binding. Total (TM) and progressive (PM) motility of treated sperm immediately after thawing and at 60 minutes post-thaw were higher compared with control (P < .05). A tendency (P < .1) to maintain TM at 90 and 120 minutes post-thaw also was noted. No differences were noted for the mean number of spermatozoa bound to bovine oocytes for control or treated sperm (22 ± 14 vs 25 ± 17, respectively). Acrosome integrity also was unchanged between the two groups based on fluorescein isothiocyanate (FITC)−peanut agglutinin (PNA)/propidium iodide staining. All samples contained <1% live acrosome-damaged spermatozoa. In the final experiment, the effects of hyaluronan supplementation post-thaw was investigated using hyaluronan concentrations of 100, 200, and 400 μg/mL. Motility parameters studied over an 8-hour period at 37°C yielded no consistent differences. In conclusion, addition of hyaluronan at a concentration of 200 μg/mL before freezing increased spermatozoal post-thaw motility. High concentration of hyaluronan (1,000 μg/mL) appeared to be detrimental to post-thaw motility. Effects of hyaluronan on fertility are beyond the scope of this study and have yet to be determined.     

Effect of Seminal Plasma Components on the Quality of Fresh and Cryopreserved Stallion Semen

The importance of seminal plasma (SP) components for stallion semen quality and freezability is little known. This study aimed to evaluate the relationship between SP components and fresh/cryopreserved stallion semen quality. Semen of 30 stallions was collected, and then, SP was recovered and lyophilized. Total protein (TP), vitamin C (CVIT), vitamin E (EVIT), vitamin A (AVIT), iron (Fe), copper (Cu), magnesium, and zinc (Zn) in SP were assessed. Sperm was frozen in an extender supplemented with lyophilized SP. In fresh semen motility, abnormal morphology (AM), sperm vitality (SV), and plasma membrane integrity (PMI) were evaluated. In post-thaw semen, additionally, total motility (TM), progressive motility (PM), straight line velocity (VSL), curvilinear velocity (VCL), average path velocity (VAP), amplitude of lateral head displacement (ALH), and beat cross-frequency (BCF) were assessed. Levels of component of SP were established by a distribution analysis. Generalized linear models were fitted. Comparisons of means were done with Tukey's test. Correlation and regression analyses were performed. Vitamins and ions were found to be related to fresh semen quality. For post-thaw sperm, medium TP showed higher semen quality. Negative regression and correlation coefficients between CVIT and all post-thaw semen parameters were found. Low EVIT yielded the lowest PM, VSL, and VAP values, while a high level of AVIT yielded the best results for sperm quality. A high level of Cu yielded higher results for TM, PM, VCL, and ALH. Moreover, a negative correlation was found between Zn, SV, and PMI. In conclusion, SP composition influences fresh and post-thaw stallion semen quality.     

Effect of Centrifugation Technique on Post-storage Characteristics of Stallion Spermatozoa

Three ejaculates were collected from four stallions and used to compare the effects of three centrifugation methods on post-storage motility and recovery of available sperm. Two aliquots per ejaculate were diluted with skim milk-glucose (SKMG) extender to 50×10⁶ sperm/mL, placed in 50-mL conical bottom tubes, and centrifuged at either 700g for 15 minutes (700g) or 600g for 12 minutes (600g). A third aliquot was diluted 1:1 with SKMG, placed in 15-mL conical tubes, and centrifuged at 400g for 7 minutes (400g). Subsamples from each pre-treated diluted ejaculate were held at room temperature and evaluated for motility at the same time as the post-centrifugation pre-storage motility evaluation was made for treated aliquots. After centrifugation, samples from each aliquot were stored at 5°C for evaluation after 24 and 48 hours or frozen in liquid nitrogen. Percentage of available sperm harvested was higher (P ≤ .05) for aliquots centrifuged in 15-mL tubes at 400g versus 600g in 50-mL tubes. After centrifugation, total but not progressive motility of aliquots centrifuged at 700g was lower than that for noncentrifuged controls and sperm from aliquots centrifuged at 400g in 15-mL tubes. After cold storage, values for total but not progressive motility or velocity were higher (P ≤ .05) for aliquots centrifuged in 15-mL tubes at 400g compared with those centrifuged in 50-mL tubes at both 600g and 700g. Postthaw motility of frozen sperm was not different between centrifugation treatments. Poststorage percentages of intact acrosomes and detached heads did not differ because of centrifugation treatment.     

Colloidal Centrifugation of Stallion Semen: Changes in Sperm Motility,Velocity, and Chromatin Integrity during Storage

The current study investigated the changes in sperm quality (motility, velocity, and chromatin integrity) occurring during storage at room temperature or 5°C for up to 48 hours in spermatozoa after extension or single-layer centrifugation (SLC) through Androcoll-E. In unselected samples, all parameters of sperm quality deteriorated significantly during storage (P < .01), although the deterioration was faster at room temperature (22–30°C) than for cool storage (P < .01). The SLC-selected spermatozoa had higher motility, velocity, and chromatin integrity than the overall unselected population (motility: selected 85 ± 10%, unselected 56 ± 13%; P < .001; velocity: selected 85.1 ± 13 μm/second, unselected 63.5 ± 15 μm/second; P < .001; and DFI selected 12.2 ± 4.8 μm/second, unselected 23.6 ± 7.4 μm/second; P < .001). Furthermore, sperm quality did not deteriorate with storage in the SLC-selected samples, either at room temperature (22–30°C for 24 hours) or cooled to 4°C (for at least 48 hours), whereas a significant deterioration in sperm quality was observed in the unselected sperm samples (P < .01). Thus, room temperature storage of SLC-selected spermatozoa may be an option for insemination doses from stallions whose spermatozoa do not tolerate cooling. In addition, a new sperm analyzer, the Qualisperm, showed good correlation with subjective motility assessment (r = 0.8, P < .001), was user-friendly, and provided a reasonable volume of data. This instrument may be a useful adjunct to sperm quality assessment at the stud.     

The Effect of Cholesterol Addition,Buffer, and pH on Equine Sperm Stored at 5°C

Cooled stallion semen has a short viable life, which ranges with acceptable motility and viability from 24 up to 48 hours. The purpose of this study was to compare the effects of storage pH, the ability of three different zwitterionic buffers, and cholesterol-loaded cyclodextrins (CLC) to preserve the motility and integrity of stallion sperm cooled to 5°C for 48 hours. Fourteen ejaculates were collected and split to receive CLC or not (control group). After incubation, each sample was split into six subsamples and diluted in KMT extender containing 4-(2-hydroxyethyl)piperazine-1-ethanesulfonic acid (HEPES), N,N-bis(2-hydroxyethyl)-2-aminoethanesulfonic acid (BES), or 2-(N-morpholino)ethanesulfonic acid (MES) buffers, and the final pH was adjusted to either 7.0 or 6.6, totalizing 12 experimental groups as a function of CLC, buffer, and pH variables (2 × 3 × 2 factorial). The motility parameters and integrity of plasma and acrosome membranes (live cell index) were determined using computer-automated semen analysis and epifluorescence microscopy at 3, 6, 24, and 48 hours of cooling period. According to results, pH was not a significant source of variation for motility and live sperm over different cooling periods. However, samples diluted in BES exhibited higher progressive motility within 3 hours and higher percentages of total motile cells after 48 hours of incubation at 5°C (P < .05). After 24 hours of storage, CLC-treated sperm samples presented higher motility than control group (P < .05), and after 48 hours of incubation, CLC-treated sperm exhibited higher percentages of live, motile, and progressively motile sperms (P < .05). We inferred that equine semen diluted in KMT containing BES as buffer and CLC treatment improve the equine sperm survival during storage at 5°C for 48 hours.     

Effects of Sperm Concentration and Straw Volume on Motion Characteristics and Plasma, Acrosomal, and Mitochondrial Membranes of Equine Cryopreserved Spermatozoa

The advantages of using cryopreserved semen in equine reproduction are well known. During cryopreservation, spermatozoa undergo many changes that lead to a decrease in fertility. There is no agreement on the ideal sperm dose and concentration to maximize fertility rates. Thus, the objectives of this experiment were to evaluate sperm motion by computer-assisted analysis (CASA), sperm membrane integrity and function with fluorescence probes of cryopreserved sperm at three concentrations: 100 (C100), 200 (C200) and 400 × 10⁶ sperm/mL (C400), and two straw volumes (0.50 and 0.25 mL). There was no interaction between sperm concentration and storage volume (P > .05). Sperm motion characteristics were influenced by concentration (C100 > C200 > C400; P < .05). Curvilinear velocity (VCL) in 0.25-mL straws had higher average values (P < .05). Membrane integrity and function were not changed by straw volume (P > .05). However, sperm concentration changed the percentage of cells with intact plasma membrane (C100 > C200 > C400; P < .05) and the percentage of cells with high mitochondrial membrane potential (C100 = C200; P > .05 and C400 < C100 and C200; P < .05). According to this experiment, the best freezing method was that involving 100 × 10⁶ sperm/mL, regardless of straw volume.     

Effect of BAPTA-AM on Thawed Stallion Spermatozoa Extended in INRA 96 or Tyrode's Medium

We studied the effect of 1,2-bis-(o-aminophenoxy)-ethane-N,N,N′,N′-tetraacetic acid, tetraacetoxymethyl ester (BAPTA-AM) on the outcome of cryopreservation of stallion spermatozoa and whether reextension of thawed sperm in a more physiological and Ca²⁺-containing medium might improve the characteristics of thawed stallion spermatozoa. Individual ejaculates from six stallions were collected and split into three subsamples. The first two samples were supplemented with the membrane-permeable Ca²⁺ chelator BAPTA-AM at final concentrations of 5 and 10 μM, respectively, while the third subsample served as control. After 4 weeks of storage, samples were thawed in a water bath at 37°C and evaluated using flow cytometry and computer-assisted sperm analysis (CASA). In a second experiment, in order to determine whether restoring Ca²⁺ could improve sperm quality after cryopreservation, thawed semen was washed by centrifugation and resuspended in Tyrode's complete medium. BAPTA-AM supplementation did not modify the outcome of cryopreservation; however, changing the spermatozoa from INRA 96 to Tyrode's complete medium resulted in significant improvements in the percentages of live sperm and total motility post thaw.     

The Relationship of Mitochondrial Membrane Potential,Reactive Oxygen Species,Adenosine Triphosphate Content,Sperm Plasma Membrane Integrity,and Kinematic Properties in Warmblood Stallions

Equine sperm possesses a unique physiology because its energy supply is mostly dependent on oxidative phosphorylation of mitochondria as an aerobic source of adenosine triphosphate (ATP) generation. The present study was, therefore, conducted to investigate the relationship between sperm kinematic and functional variables in stallions. Semen samples were collected from five warmblood stallions (three ejaculates from each stallion), diluted with INRA96 and transferred to the laboratory. Next, sperm motility, mitochondrial membrane potential (MMP), production of superoxide anion (as a reactive oxygen species; ROS), ATP content, and plasma membrane integrity were assessed. Motion and functional characteristics differed among investigated stallions (P < .05). In addition, it was revealed MMP was positively correlated with the level of ROS and ATP content and progressive motility (P < .05). The level of ROS was positively correlated with ATP content and negatively correlated with plasma membrane integrity and straightness (P < .05). Adenosine triphosphate content was positively correlated with progressive motility, curvilinear velocity, average path velocity, and beat cross frequency and reversely correlated with plasma membrane integrity and straightness (P < .05). Plasma membrane integrity was positively correlated with straight line velocity, linearity, and straightness and negatively correlated with curvilinear velocity (P < .01). In conclusion, the present study substantiated that kinematic and functional characteristics varied among various warmblood stallions. Furthermore, the present study implicated although higher mitochondrial activity increases ATP synthesis, it leads to elevated superoxide anion production, which could culminate in disintegration of the sperm plasma membrane, thereby altering motion characteristics and swimming pattern of sperm.     

Preservation of Epididymal Stallion Sperm in Liquid and Frozen States: Effects of Seminal Plasma on Sperm Function and Fertility

Three separate experiments were conducted to improve preservation of stallion epididymal sperm. In the first one, two different cooling extenders (Kenney and Gent) were compared. Sperm viability and motility patterns were assessed in 10 different epididymal sperm samples after 0 hours, 24 hours, 48 hours, 72 hours, and 96 hours of preservation at 4°C. No significant differences were observed in any of the evaluated parameters either between extenders or throughout the storage period. The second set of experiments was designed to determine whether supplementing thawing medium (INRA Freeze) with seminal plasma had any impact on the quality of frozen-thawed epididymal sperm. Ten epididymal frozen-thawed sperm samples coming from separate stallions were used and different functional parameters (sperm membrane integrity and lipid disorder, motility, intracellular Ca²⁺ levels, and intracellular concentrations of peroxides and superoxides) were evaluated after incubation with or without 50% seminal plasma. Supplementing thawing medium with seminal plasma had no impact on sperm function and survival. The third experiment was an in vivo study. Twenty-five mares were inseminated with epididymal frozen-thawed sperm and seminal plasma, and 21 were bred with epididymal frozen-thawed sperm only. Pregnancy rates obtained for mares artificially inseminated with epididymal frozen-thawed sperm and seminal plasma were significantly (P < .05) higher than those observed when seminal plasma was not infused (64% vs. 19%). Taken together, our data indicate that the quality of epididymal stallion sperm can be maintained at 4°C for up to 96 hours. In addition, not only does supplementing frozen-thawed epididymal sperm with seminal plasma have any damaging effect on their quality but it may also improve pregnancy rates after artificial insemination.     

解冻温度和时间对牛精子活力的影响试验

[目的]为了找到较为理想的解冻温度与时间,为基层黄牛改良工作提供技术参考。在不同温度区、不同时间解冻牛细管冷冻精液,对解冻后的精子活力进行检测。[方法]采用50~90℃每隔10℃设一个温区解冻牛细管冻精,检测解冻后精液的活力。[结果]在50~90℃5个温度梯度下快速解冻不同时间后的精子活力均在0.35以上,其中90℃解冻3~4s,80℃解冻4~5s,70℃解冻4~6s,60℃解冻8~9s后的精子活力均大于0.4,显著高于其他时间解冻后的精子活力。[结论]不同温度、时间解冻后精子活力各异,其最佳解冻温度和时间为90℃解冻3~4s,80℃解冻4~5s,70℃解冻4~6s,60℃解冻8~9s。     

小鼠胚胎玻璃化冷冻保存及保存时间对其体内外发育率的影响

本试验采用乙二醇为主体的ＥＦＳ４０玻璃化溶液,对小鼠扩张囊胚实行二步法玻璃化冷冻保存。结果保存１小时、１年和２年的胚胎,在体内外的发育率无显著性差异（Ｐ＞０．０５）。与对照组相比较也无显著性差异（Ｐ＞０．０５）。     

贮藏时间对饲用燕麦种子寄藏真菌及真菌毒素的影响

为明确贮藏时间对饲用燕麦种子中寄藏真菌和真菌毒素的影响,本研究通过平板培养法、形态学观察和rDNA-ITS序列分析法,对3个燕麦（Avena sativa）品种种子携带的真菌进行了分离鉴定;通过高效液相色谱质谱联用法对优势菌属产生的毒性较强的3种真菌毒素细交链孢酮酸（TeA）、黄曲霉毒素B₁（AFB₁）和桔青霉素（CIT）进行了检测和分析。结果表明：饲用燕麦种子的带菌量随贮藏时间的增加总体呈降低趋势。从供试材料中共检出真菌16属34种,优势属为链格孢菌属、曲霉菌属和青霉菌属;带菌种类和分离率随贮藏年限的变化差异显著,不同品种的带菌情况也差异显著;3种真菌毒素随贮藏年限的延长基本呈先升后降的趋势,贮藏年限和品种间的互作对毒素含量的影响最大。综上,贮藏时间对饲用燕麦种子的带菌情况和真菌毒素检出量影响显著。