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研究了双斑东方鲀三倍体的诱导方法、技术参数的筛选及生产性育苗的模式.采用温度休克方法诱导双斑东方鲀三倍体,在水温18~20℃条件下,卵受精后5 min用40℃的水温处理双斑东方鲀受精卵10 min,三倍体诱导率100%,孵化率相对诱导量达25%;育苗采用前期室内工厂化培育与后期土池培育相结合方法,培育出全为三倍体(体长3 cm以上)苗种5.8万尾,对应孵出苗量,成活率为34.6%. 相似文献
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中间球海胆精子的超低温保存技术 总被引:1,自引:2,他引:1
20 0 0年 10~ 11月 ,对大连龙王塘海区成熟的中间球海胆 (Strongylocentrotusintermedius)精子进行超低温保存研究。结果表明 :不同的抗冻保护剂 ,不同的体积分数 ,不同的冷冻方式 ,精子冻存的效果不同。以自然海水为基础溶液 ,以 12 %的二甲亚砜或 9%的甘油作为抗冻保护剂 ,稀释精液至 8× 10 7~ 11× 10 7个 /ml,距液氮表面 10cm处预冷 8min ,再浸入液氮中保存 ,解冻时直接移出液氮于 17~ 18℃自来水流水解冻 ,精子存活率分别是 95 % ,90 % ;受精率分别为 94 0 % ,86 5 %。 相似文献
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为探究野生和养殖双斑东方鲀肠道微生物的群落结构,对厦门同安海域野生和养殖双斑东方鲀肠道内容物进行16S rRNA基因的V3~V4区测序,通过Illumina Miseq PE300高通量测序,对6份样品进行分析,共得到优质序列99 500条,相似度为97%的聚类分析显示,野生双斑东方鲀运算分类单元数目为524,其中独有的运算分类单元数目为68,养殖双斑东方鲀运算分类单元数目为576,其中独有的运算分类单元数目为120。通过计算Chao1、observed-species、PD_whole_tree、香农指数进行Alpha多样性分析,结果显示,养殖双斑东方鲀细菌多样性和丰富度高于野生双斑东方鲀。门水平分析表明,变形菌门为野生双斑东方鲀和养殖双斑东方鲀的优势菌。产河鲀毒素相关的希瓦氏菌属、纤毛菌属、发光杆菌属、假交替单胞菌属在野生双斑东方鲀肠道微生物中占有一定比例,而在养殖双斑东方鲀中未发现。所获结果揭示了野生和养殖双斑东方鲀肠道微生物中优势菌群的组成,为探究河鲀毒素的产毒机制提供科学证据。 相似文献
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双斑东方鲀低盐度人繁及苗种培育技术 总被引:1,自引:0,他引:1
近年来,双斑东方鲀野生资源锐减,价格高,人工养殖前景看好。双斑东方鲀在我国主要产于黄海、东海及南海部分水域,生长繁殖盐度为20~30。本人根据当地条件对双斑东方鲀进行了低盐度繁殖和苗种培育取得较好的效果,现将具体技术介绍如下。 相似文献
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<正> 双斑东方鲀(Fugu bimaculatus)是我国仅有的4种东方纯特有种之一。其体内有剧毒的河纯毒素(Hepatoxin),极具药用价值;同时双斑东方纯也是美味海鲜。由于其养殖特性突出,是近几年来倍受关注的纯类养殖种类,各地纷纷开展了人工育苗试验和养殖研究。 相似文献
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马氏珠母贝精子的超低温保存 总被引:6,自引:1,他引:6
通过比较不同pH值(5.5-9.5)、不同盐度的海水等作为基础液对马氏珠母贝精子保存的影响,选择其中无激活精子作用又对其生理特性(活力,寿命,受精能力等)无影响者,加入二甲亚砜抗冻剂配制成超低温保存的抗冻保护液,精液与保护液按1:10和1:20的比例混合,样品按4组不同的降温程序平衡后转入液氮冷冻,比较其超低温冻存的效果。结果表明:以海水(pH7.5—8.0)为基础液,配制10%DMSO作为抗冻保护液,精液与保护液比例为1:20,在低温(0-4℃)中平衡约30min,在距液氮面15cm、5cm处分别停留5min、10min后转入液氮(-196℃),冻存精子效果良好。冷冻24h、48h及5个月后,在38—40℃下水浴解冻复苏后,用终浓度0.25‰的氨海水刺激,精子存活率可超过60%,受精率可达80%。 相似文献
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双斑东方鲀(Fugu bimaculatus)是一种肉食性的凶猛鱼类,其肉质鲜美、生长快、个体较大,养殖前景好。此鱼在江苏、浙江地区十分畅销,是潜在的养殖优良种类之一。由于养殖规模受到苗种的限制,因此开展人工育苗的研究十分必要。2001年5月在玉环某地我校试验场进行双斑东方鲀人工育苗,培育出规格1.5cm鱼苗20万尾,育成率为60%。 1 基本情况 1.1 设备供排水和充气系统均用对虾育苗设施。育苗池规格4.7m×2.5m×1.4m,孵化池2.15m×1.35m×1.4m,孵化网箱直径85cm,深度95cm,网目80~120目。自然水温,幼体动、植物饵料——藻类、卤…… 相似文献
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双斑东方鲀[Fugu bimaculatus(Richardson)]属鲀形目,鱼鲀,东方鲀属,为近海暖温性底层鱼类,仅分布于我国南海、东海和黄海南部。双斑东方鲀肉鲜嫩可口,营养价值高。从其性腺、肝脏等体内器官提取的河鲀毒素国际市场售价昂贵,具有极高的农用和医用价值,综合深加工开发潜力极大。双斑东方鲀对盐度适应性强,可在河口咸淡水(盐度3~5)和海水环境中养殖,养殖区域遍布江苏、浙江、福建、广东、海南、广西等沿海水域。养殖方式目前主要为池塘单养、混养和网箱养殖。 相似文献
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双斑东方鲀[Fugu bimaculatus (Richardson)]属鲀形目、鲀科、东方鲀属,为近海暖温性底层鱼类,仅分布于我国南海、东海和黄海南部。双斑东方鲀肉鲜嫩可口。营养价值高。双斑东方鲀对盐度适应性强。可在河口咸淡水(3‰~5‰)和海水环境中养殖,养殖区域遍布江苏、浙江、福建、广东、海南、广西等沿海水域。养殖方式目前主要为池塘单养、混养和网箱养殖。为了适应双斑东方鱼屯在国内养殖的迅猛发展,有必要进行苗种长距离运输。以解决养殖发展的种源问题。笔者2004年6月下旬2次从上海运输苗种到福建.取得了很好的结果。现将运输情况报告如下。 相似文献
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Yibing Liu Tong Xu Nicholas Robinson Jianguang Qin Xiaoxu Li 《Aquaculture Research》2015,46(11):2628-2636
This study developed a technique of sperm cryopreservation using liquid nitrogen (LN) vapour in farmed blacklip abalone Haliotis rubra through evaluating the following five key factors: (1) cryoprotectant agent (CPA) toxicity; (2) cooling temperature; (3) thawing temperature; (4) sperm to egg ratio and (5) sugar addition, using sperm motility or fertilization rate as quality assessment indicators. The results demonstrated that 6% dimethyl sulfoxide (DMSO) was the best single CPA for sperm cryopreservation in this species. The highest post‐thaw sperm motility was achieved when sperm were exposed to LN vapour for 10 min at 5.2 cm above the LN surface and thawed at 60°C and recovered at 16°C in seawater baths. Post‐thaw sperm motility was found to be significantly higher when 6% DMSO was used in combination with 1% or 2% glucose than 6% DMSO alone. Further evaluation of fertilization rate between these CPAs showed that 6% DMSO+2% glucose achieved the highest fertilization rate of 70% at a sperm to egg ratio of 10 000:1. 相似文献
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Jianlin Pan Shuyan Ding Jiachun Ge Weihui Yan Chen Hao Jianxiu Chen Yahong Huang 《Aquaculture (Amsterdam, Netherlands)》2008,279(1-4):173-176
Yellow catfish (Pelteobagrus fulvidraco) is a candidate freshwater fish for aquaculture in China with its high consumer demand. The aim of this study was to examine the possibility of storage of the sperm of yellow catfish by cryopreservation in liquid nitrogen. Experiments were designed to investigate the effects of the different combinations of three extenders (Ringer extender, Kurokura-1 extender and D-15 extender) and three cryoprotectants (DMSO, Glycerol and Methanol) on the cryopreservation of yellow catfish sperm. Post-thaw sperm motility, fertilization and hatching rate were detected to evaluate the reliability of sperm cryopreservation. The results demonstrated that Ringer extender and 10% methanol was the best combination for protecting the sperm during freezing in liquid nitrogen by a three-step method and thawing in a water bath at 37 °C for 60 s. In this combination for cryopreservation, sperm maintained the highest post-thaw motility (65 ± 5%), fertilization (90.47 ± 3.67%) and hatching rate (88 ± 4%). And more interestingly, the fertilization and hatching rate were similar to those of fresh sperm (97.55 ± 2.74% and 92 ± 5%). Successful sperm cryopreservation techniques for yellow catfish have been developed for hatchery purpose. 相似文献
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The effects of extender composition and freezing rate on motility and fertility of frozen‐thawed Arctic char, Salvelinus alpinus, spermatozoa were investigated. Three freezing rates, two semen diluents and three cryoprotectants were tested. Semen frozen in 0.3 mol L?1 glucose diluent with 10% methanol as a cryoprotectant or in a diluent described by Lahnsteiner with 10%N,N‐dimethylacetamide (DMA) resulted in the highest sperm motility. Fertility was the highest for semen frozen in a glucose–methanol extender but was not significantly different than that for semen frozen in Lahnsteiner's diluent with 10% DMA. Dimethyl sulphoxide (DMSO) at 10% was a relatively ineffective cryoprotectant with either semen diluent. Semen frozen at 6 cm above the surface of liquid nitrogen resulted in a higher post‐thaw sperm motility and fertility than semen frozen at 5 cm. The addition of 7% fresh egg yolk to glucose diluent containing methanol or DMSO did not improve the fertility of frozen‐thawed spermatozoa. However, the addition of 7% fresh egg yolk to glucose–DMA extender significantly improved the fertilization percentages of frozen‐thawed spermatozoa. In conclusion, dilution of semen 1:3 in 0.3 mol L?1 glucose with 10% methanol and freezing 6 cm above the surface of liquid nitrogen (freezing rate of 40±8°C min?1, mean±SD from ?5 to ?55°C) is a promising protocol for cryopreservation of Arctic char semen. 相似文献
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Using the cryopreservation method of Lahnsteiner, Berger, Weismann & Patzner (1995, Aquaculture Research 26 , 801-807) the influence of allowable variations of methodical parameters (storage of semen before cryopreservation, dilution ratios in the extender, equilibration in the extender, cooling rates, storage of deep-frozen semen in liquid nitrogen, storage of frozen/thawed semen, minimal sperm/egg ratio) was investigated under the aspect of routine utilization. Under optimized experimental conditions, fertilization rates were 90-100% of controls in Oncorhynchus mykiss (Walbaum), Salmo trutta L. f. lacustrisSalmo truttaL.f. fario and Salvelinus fontinalis (Mitchill). The following results were obtained: 1. Storage of untreated semen for more than 1 h before cryopreservation decreased the postthaw fertility. 2. Equilibration of semen up to 20 min in the extender did not affect the postthaw fertility. 3. Optimal dilution ratio of semen in the extender was threefold in Oncorhynchus mykiss and Salvelinus fontinalis. Lower dilution ratios decreased the postthaw fertility, higher dilution ratios did not affect the postthaw fertility. In Salmo trutta f. lacustris and Salmo trutta f. fario, which have a higher sperm density, optimal dilution ratio of semen in the extender was fivefold to sevenfold. 4. In Oncorhynchus mykiss, as in Salmo trutta f lacustris and Salmo trutta f. fario, the optimal freezing height was at 1.5 cm above the level of liquid nitrogen (-110 ± 2oC); in Salvelinus fontinalis it was 2.5 cm above the level of liquid nitrogen (-92 ± 2oC). Changes in the freezing height of 0.5 cm (about 10oC) resulted in a significant decrease of postthaw fertility. 5. Storage of deep-frozen semen for up to 370 days in liquid nitrogen had no influence on its postthaw fertilization rate. 6. Storage of frozen/thawed semen for 30 s before insemination significantly decreased its postthaw fertility. 7. Reliable minimal sperm:egg ratio to obtain fertilization rates of 90-100% of control was 3-5 X 105 spermatozoa egg-1. 相似文献
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Patrícia Diogo Gil Martins Isa Quinzico Rita Nogueira Paulo J. Gavaia Elsa Cabrita 《Fish physiology and biochemistry》2018,44(6):1443-1455
Zebrafish sperm cryopreservation is a fundamental methodology to manage and back-up valuable genetic resources like transgenic and mutant strains. Cryopreservation usually requires liquid nitrogen for storage, which is expensive and hazardous. Our objective was to evaluate if electric ultrafreezers (??150 °C) are a viable alternative for zebrafish sperm storage. Zebrafish sperm was cryopreserved in the same conditions (??20 °C/min), stored either in liquid nitrogen or in an ultrafreezer, and thawed after 1 week, 1 month, and 3 months. Sperm motility, membrane integrity, and fertilization ability were assessed. There were no significant differences in motility and hatching rate throughout storage time. Additionally, we aimed at understanding if cryopreservation directly in an ultrafreezer (??66 °C/min) could improve post-thaw sperm quality. Freezing at ??20 °C/min was performed as before, and compared to samples cryopreserved with a fast cooling rate by placing directly in an ultrafreezer (??66 °C/min). Sperm quality was assessed according to motility, viability, DNA fragmentation, and apoptosis (annexin V). The ??66 °C/min cooling rate showed significantly higher membrane and DNA integrity, and lower number of cells in late apoptosis in comparison to the other treatments. This study showed that zebrafish sperm cryopreservation and storage in an ultrafreezer system is possible and a fast cooling rate directly in ultrafreezer improves post-thaw sperm quality. 相似文献
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Kyoung Ho Kang Kang Hee Kho Zong Tao Chen Jae Min Kim Young Hun Kim & Zhi Feng Zhang 《Aquaculture Research》2004,35(15):1429-1433
The present study examined the possibility of long‐term storage, by cryopreservation in liquid nitrogen, of the sperm of filefish (Thamnaconus septentrionalis). Changes in motility, survival rate, ultrastructure and fertilization rate of the sperm after freezing and thawing were tested. For selection of the immobilizing solution, artificial seawater (ASW) of 250, 350 and 450 mOsmol kg?1 were tested. Sperm motility was significantly inhibited in 350 mOsmol kg?1 ASW, and restored entirely after 100% ASW (1200 mOsmol kg?1) was added. Two cryoprotectants, dimethyl sulphoxide and glycerol, were employed. The sperm was diluted at the ratio of 1:6 with the extenders, and frozen at a freezing rate of ?40°C min?1 to ?100°C after equilibration for 10 min at room temperature, followed by plunging into liquid nitrogen. The highest post‐thawed sperm motility and survival rate were obtained with 5% glycerol. Afterwards, the effect of different freezing rates was examined using 5% glycerol as a cryoprotectant, and the rate of ?30°C min?1 to ?100°C showed the best result. 相似文献
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High‐throughput Cryopreservation of Sperm from Sex‐reversed Southern Flounder,Paralichthys lethostigma 
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下载免费PDF全文 E Hu Rafael Cuevas‐Uribe Huiping Yang Robin Sanderson Adriane O. Gill Harry Daniels Terrence R. Tiersch 《Journal of the World Aquaculture Society》2016,47(4):555-565
The Southern flounder, Paralichthys lethostigma, is a valuable aquaculture fish with established markets in the USA. All‐female production in this species is an important technology for aquaculture because the females usually have body sizes twice those of males at the same age, and sex‐reversed males (genotypic XX neomales) are used for all‐female production by crossing with genetically normal females. However, sperm volume from the neomales is usually small (<0.5 mL) and limits their application for all‐female fish production. Cryopreservation of sperm from these sex‐reversed neomales will provide access on demand with increased efficiency to extend the application of neomales. The goal of this study was to develop a protocol for cryopreservation of sperm from the Southern flounder by using an automated high‐throughput processing system. The objectives were to: (1) determine the effect of osmolality on activation of sperm motility; (2) evaluate the effect of extender solutions on sperm motility capacity; (3) evaluate the acute toxicity of cryoprotectants (dimethyl sulfoxide [DMSO], propylene glycol, and polyethylene glycol) on sperm motility, and (4) estimate the effect of cooling rate on sperm cryopreservation and post‐thaw fertilization. Sperm motility was activated when osmolality was 400 mOsmol/kg or higher. Of the three extender buffers tested, HEPES4‐(2‐hydroxyethyl)‐1‐piperazineethanesulfonic acid (HEPES) at 300 mOsmol/kg resulted in better protection for sperm motility than did Hanks' balanced salt solution and Mounib solution at 300 mOsmol/kg during 7 d of refrigerated storage. After 30 min equilibration with the cryoprotectant of 15% DMSO, sperm motility was 24 ± 21% (fresh sperm motility without any cryoprotectants was 42%). After cooling at a rate of 20 C/min, post‐thaw sperm motility was 8 ± 5% and fertilization was 63 ± 40% evaluated at the 32–64 cell stage (5 × 105 sperm per egg). Overall, a protocol was developed for sperm cryopreservation in the Southern flounder with high‐throughput processing, which provides a tool to preserve the valuable genetic resources from neomale flounders, and enables germplasm repository development for the Southern flounder. 相似文献
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以云纹石斑鱼精液为实验材料,对精子稀释液、抗冻剂种类和适宜浓度、冷冻保存液进行了筛选。结果表明,利用9g/L NaCl、10g/L KHCO3和10%小牛血清配制而成的稀释液EM1-2适宜于云纹石斑鱼精子冷冻保存,以2ml冷冻管为精子容器,在60L液氮生物保存罐中冷冻保存精子,冷冻解冻精子活力可达56.67%±5.77%,要优于TS-2、ES1-3和其他EM系列稀释液冷冻保存精子活力。利用EM1-2为基础液对抗冻保护剂进行筛选,结果显示,10%~20%的二甲基亚砜(DMSO)和1-2-丙二醇(PG)冷冻保存后精子活力无显著差异(P0.05),其中15%的DMSO和10%PG冷冻保存精子效果最优,解冻后精子活力分别可达54.52%±7.81%和57.24%±3.69%。利用冷冻保存1年的精液与云纹石斑鱼卵进行受精,受精率和孵化率均达到80%以上,与新鲜精子无显著性差异(P0.05)。本研究表明,利用EM1-2配制15%的DMSO或10%的PG可用于冷冻保存云纹石斑鱼精液。在此基础上,建立了精子冷冻库,保存精子130ml,为人工繁育和杂交育种提供了丰富的精子源。 相似文献
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选取6 ind健康的雄性俄罗斯鲟(Acipenser gueldenstaedti),经人工催产后获得成熟的精子,研究超低温冷冻(-196℃)对俄罗斯鲟精子顶体酶活性及DNA损伤影响。结果显示:俄罗斯鲟鲜精中顶体酶的平均活性为(36.18±2.54)μIU·10-6,经过超低温冷冻后,精子顶体酶活性显著降低,添加抗冻保护液精子中顶体酶活性降至(21.55±0.79)μIU·10-6,未添加抗冻保护液精子中顶体酶活性降至(9.58±1.08)μIU·10-6,且三者间有显著性差异(P0.05)。单细胞凝胶电泳结果表明,俄罗斯鲟鲜精彗星率为(37.33±7.77)%,添加抗冻剂后冻精的彗星率为(63.67±5.13)%,未添加抗冻剂直接冷冻彗星率高达(86.00±3.61)%,三者间有显著差异(P0.05)。用CASP分析软件分析测量彗星拖尾长度(L tail)、彗星尾部DNA的相对含量(Tail DNA)、尾动量(TM)、Olive尾动量(OTM)等各项表征DNA损伤的指标,发现冻精组的各项指标均显著高于鲜精组,未添加抗冻剂直接冷冻组又高于添加抗冻剂组,3组间有显著性差异(P0.05)。本研究结果表明:超低温冷冻能导致精子顶体酶活性下降和DNA损伤,抗冻剂对精子具有保护作用。 相似文献
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The present study investigated motility, acrosome reaction, fertility and cryobiological parameters of the semen of the sterlet, Acipenser ruthenus L. Sperm motility persisted for about 4 min in water, and the main swimming type was the linear motion. Motility was prolonged at osmolalities of 12.5 mosmol kg?1 and in the presence of magnesium ions, while calcium had no effect. Also a pH in the range of 7.0–9.0 had no effect on ` motility. At osmolalities of 25–50 mosmol kg?1 the sperm motility was partly inhibited, at osmolalities of 100 mosmol kg?1, completely and irreversibly. In 50 mosmol kg?1 solutions with 2.5–5 mM L?1 KCl the motility inhibition was total, but reversible. The acrosome reaction was not induced by one of the described solutions, but the percentage of spermatozoa with reacted acrosomes was low (<20%) and highly variable in all experiments. The optimal extender base for cryopreservation was a solution consisting of 50 mM L?1 NaCl, 5 mM L?1 KCl, 10 mM L?1 Tris (pH 8.5). From the tested cryoprotectants only dimethylsulphoxide (DMSO) and methanol provided sufficient cryoprotection. After freezing and thawing, the motility rates and swimming velocities were higher with DMSO than with methanol. However, the fertility was very significantly reduced with DMSO (10.3±0.5%) while with methanol fertilization rates in a similar range (32.7±4.4%) as with fresh semen (33.90±0.8%) could be obtained. Optimal freezing conditions for sterlet semen were in the vapour of liquid nitrogen 3–5 cm (?95°C to ?85°C) above its surface, the optimal thawing conditions at 25°C for 30 s. The acrosome reaction was not induced by these cryopreservation protocols. 相似文献