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在水温14~33℃(盐度34)、盐度18-40(水温25.5-26℃)范围内各设12个梯度,采用突变法进行温、盐度对方斑东风螺[Babylonia areolata(Link)]卵囊孵化及幼虫生长实验。结果显示:(1)方斑东风螺胚胎发育适宜水温为23~31℃,最适水温为25-30℃;适宜盐度为28-38,最适盐度为30~38。在适宜水温和盐度范围内,孵化速度随水温和盐度升高而加快,但以水温的影响效应最明显;温度或盐度超过其适宜范围时,孵化率明显下降或幼虫畸形率明显增大。(2)幼虫适宜水温及最适水温与胚胎发育的基本一致;适宜盐度和最适盐度存在向高盐度延伸的现象,其适宜和最适盐度下限分别为30和32。温盐度超过适宜范围时,死亡率明显增大,生长受到抑制。 相似文献
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在有实验装置的人工控制环境条件下,以每批100尾大黄鱼幼鱼进行光照强度、水温、溶氧量、盐度等的单因子适应性实验以及对温度、溶解氧和盐度正交适应性实验。其结果是:全长29~44mm,平均全长为39mm的幼鱼.适光范围为520~5500lx,最适范围为780—1830lx;适宜温度为21.4~24.9℃,最适温度为22.4~24.9℃;适宜盐度为25.5~28.8,最适盐度为26.8~28.8;适宜溶氧量为4.70~5.38mg/L,最适溶氧量为4.76~5.15mg/L。全长为59~86mn,平均全长为75mm的幼鱼,适光范围为620~5500lx,最适光照强度为850~1820lx;适宜温度为22.3~25.0℃,最适温度为22.3~24.3℃;适宜盐度为26.5~28.5,最适盐度为26.7~27.8;适宜溶氧量为4.65~5.38mg/L,最适溶氧量为4.75~5.21mg/L。温度对幼鱼的影响极为显著,盐度和溶解氧的影响次之。 相似文献
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温度对方斑东风螺生长与摄食影响的初步试验 总被引:2,自引:1,他引:1
本文是在小水体、自动控温的条件下,研究不同水温方斑东风螺(B.areolata)的生长、摄食和存活.2种不同时间的对比试验,分别为约1个月和3个月,不同时间的试验结果相近.在22~32℃的水温范围,水温22℃和32℃方斑东风螺的生长速度略有降低.但在此范围内,不同水温方斑东风螺的生长差异不明显.根据试验结果和养殖生产的实际情况,可以认为,方斑东风螺人工养殖适宜水温22℃~28℃,最适水温24℃~28℃.另外,方斑东风螺耐受的高温是34℃,35.5℃出现死亡.能耐受7~8℃的低温. 相似文献
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盐度对日本鬼鲉受精卵发育及仔鱼生长的影响 总被引:1,自引:0,他引:1
研究了盐度对日本鬼鲉(Inimicus japonicus)受精卵发育及仔鱼生长的影响,并测定了仔鱼不投饵存活系数(SAI)。结果表明:(1)鬼蚰受精卵盐度在19—35均可孵化,最适盐度为27—31。盐度高于31,孵化率随盐度的升高而降低;盐度低于27,孵化率随盐度的下降而降低。(2)试验盐度范围内鬼铀仔鱼SM值为3.49~22.12,仔鱼生长和存活的最适盐度范围为23~27,适宜盐度范围为19—31。 相似文献
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本文以泥东风螺(Babylonia lutosa)幼螺为实验材料,设置几种不同饵料、盐度和酸碱度,对泥东风螺幼螺生长适应性进行探讨和研究,采用单因素方差分析方法进行数据分析.实验结果表明,最适宜泥东风螺幼螺生长的饵料为太平洋牡蛎(Crassostrea gigas),适宜幼螺生长的盐度范围在26 ~ 31之间,幼螺培育环境的酸碱度不应低于pH6.5或高于pH8.5.研究发现,在适宜生长的条件下进行培育,泥东风螺摄饵率相对较高,生长速度具有显著性差异(P<0.01).本文的研究结果可以应用于泥东风螺规模化生态健康养殖,为泥东风螺养殖产业发展和创新提供理论依据. 相似文献
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泥东风螺(Babylonia lutosa)隶属软体动物门、腹足纲、前鳃亚纲、新腹足目、蛾螺科、东风螺属。在我国主要分布在福建、广东、广西。泥东风螺是肉食性贝类,生活在5m~70m海底,自然栖息区为泥沙质底,适温范围为13~33℃,最适生长水温25~30℃,盐度适应范围为20~34,最适盐度是25~32,为广盐广温贝类,酸碱度适应范围为pH值7.5~8.4。 相似文献
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为营造东风螺水泥池养殖经济、高效的底质环境,进行了水泥池两种铺沙方式东风螺养殖效果的比较试验。结果表明,在不同年份的相同季节,养殖水温无明显差异,养殖密度大致相同的情况下,同一铺沙方式方斑东风螺(B.aerolataLink)和波部东风螺(B.formosaehabei)的生长无明显差异。而离底铺沙,方斑东风螺和波部东... 相似文献
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温度与盐度和缢蛏幼体生存、生长及发育的关系 总被引:12,自引:0,他引:12
本文以长期生活在较高盐度(26—28‰)海域的亲蛏所繁衍的幼体为材料,探索温度和盐度单因子及双因子结合与幼体生存生长、发育的相互关系。浮游幼虫期适盐范围为8.4—32.4‰,最适盐度为12.4‰,稚贝适盐范围为8.4—28.4‰,最佳盐度为12.4‰。温度对幼体的影响,是受盐度高低所支配。在盐度为28.4‰生境中培育,浮游幼虫期适温范围为17—25℃,最适温度为21℃,稚贝适温范围为13—25℃,最适温度为17℃,幼体对25℃以上的较高温度的忍耐力较差。若在最适盐度(12.4‰)中培育,浮游幼虫期最适水温为25℃,稚贝最适水温为21℃。幼虫对较高盐度的忍耐力比对较低盐度的忍耐力来得强。 相似文献
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温度和盐度对鞍带石斑鱼受精卵发育及仔鱼成活率的影响 总被引:4,自引:0,他引:4
研究了在8个盐度梯度(18.3‰、19.7‰、21.2‰、23.5‰、25.6‰、27.1‰、29.5‰和31.7‰)下鞍带石斑鱼Epinephelus lanceol受精卵和仔鱼在水中的分布状态、出膜率和仔鱼存活率;在9个温度梯度(18℃、20℃、22℃、24℃、26℃、28℃、30℃、33℃和35℃)下,其受精卵孵化率、畸形率和仔鱼成活率。结果表明:(1)在水温为25~26℃,当盐度≤25.6‰时,受精卵表现为沉性;当盐度≥27.1‰时,受精卵表现为浮性。仔鱼的分布与受精卵有相似的特点,当盐度≤21.2‰时仔鱼分布在底层水体;当盐度≥27.1‰时,仔鱼集中分布在上层水体。(2)以孵化率和成活率为指标,鞍带石斑鱼孵化的适宜盐度范围为21.2‰~31.7‰,最适盐度范围为25.6‰~31.7‰。在盐度为31.7‰时仔鱼成活率最高达到75.9%。(3)鞍带石斑鱼胚胎发育的适温范围是26~30℃。28℃时受精卵孵化率、仔鱼成活率均最高,畸形率最低。 相似文献
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盐度对斑节对虾蜕壳、存活、生长和饲料转化率的影响 总被引:3,自引:0,他引:3
对平均体重1.20±0.05g的斑节对虾(Penaeus monodon)稚虾进行为期30d的养殖试验,分别测定其在不同养殖盐度条件下的蜕壳间期、成活率、特定增长率和饲料转化率。斑节对虾的成活率在盐度5时最低,低于60%,与其它盐度试验组差异显著,而其它试验组之间差异不显著。在5~25盐度范围内,蜕壳间期随着盐度升高而延长,盐度达30以上后又缩短,25时为最大值;盐度5、10和15之间差异显著,15、20、30和35之间差异不显著。特定增长率和饲料转换率随盐度升高呈现双峰的波浪式变化趋势;特定增长率在盐度20(3.18±0.14)%·d^-1和25(2.98±0.26)%·d^-1时达到最高。蜕壳间期与生长率存在极显著的正相关关系(P〈0.001)。在盐度20、25、30时饲料转化率高,分别为(52.76±3.06)%、(54.90±5.14)%和(51.56±7.58)%,与其它盐度试验组之间差异显著。因此,斑节对虾养殖的适宜盐度应为20~30,在此条件下可实现较高的成活率、特定增长率和饲料转换率。 相似文献
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Larvae of Metapenaeus monoceros (Fabricius) at protozoea 1 (PZ1) stage were stocked in 2‐L glass flasks to investigate the effects of various salinities (25, 30, 35, 40, 45, 50 and 55 ppt) on growth and survival until the post‐larval (PL) stages. The PZ larvae were not able to tolerate a sudden salinity drop of over 10 ppt. Yet, an abrupt salinity increase of over 10 or even 15 ppt did not cause mortality. The PZ larvae were successfully acclimated to different test salinities at a rate of 4 ppt h?1. The larvae displayed better tolerance to high rather than low salinities. The lowest and highest critical salinities appeared to be 22 and 55 ppt respectively. Taking into account survival, growth and development results, the optimal salinity for the larval culture of M. monoceros inhabiting the Eastern Mediterranean was 40 ppt. At this salinity, the PZ1 larvae were successfully cultured until PL1 stage within 11 days with 68% survival on a feeding regime of Tetraselmis chuii Kylin (Butcher) (20 cells μ L?1), Chaetoceros calcitrans Paulsen (50 cells μ L?1), Isochrysis galbana Parke (30 cells μL?1) and five newly hatched Artemia nauplii mL?1 from M1 onwards at 28 °C. 相似文献
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为探究我国北方海域花鲈繁育适宜盐度和pH处理的设定,及促进早期花鲈苗种推广,本研究针对不同盐度(0、15、20、25、30、35和40)与pH(5.5、6.5、7.5、8.5和9.5)条件下,北方人工繁殖花鲈受精卵的孵化率、畸形率及饥饿10 d后的存活情况进行了分析,并对花鲈初孵仔鱼进行不投饵耐饥饿实验,记录每日存活率(SR)及最终生存活力指数(SAI)。最后观测低盐0、养殖盐度30与高盐45对花鲈早期幼鱼生长性能的影响。结果显示,北方海域花鲈受精卵适宜孵化盐度为20~35,以盐度25组孵化率最高,适宜pH为6.5~7.5,以pH 6.5组孵化率最高。低盐15组中,具最低的孵化率及最高的畸形率,但在最终饥饿SR的统计中,低盐15组的SR及SAI明显高于盐度30与35组,推测低盐15接近花鲈体液等渗点,降低了渗透调节中的能量消耗,更利于存活。初孵仔鱼饥饿实验中,盐度20组SR下降相对平缓,在第8天仍有12.66%的SR(其他组已为0)。饥饿1 d时,各pH组SR均小于90%,以pH 6.5组SR最高,为89.11%。与盐度处理组相比,花鲈初孵仔鱼对pH变化较为敏感,其孵化率及最终SR显著低于盐度处理组。花鲈早期幼鱼盐度处理组中,低盐0与高盐45将对此规格花鲈幼鱼产生较大损伤,以高盐45抑制最显著,应为苗种盐度推广的上限,而花鲈生长盐度30与各处理盐度相比,较适合花鲈早期幼鱼的生长。研究结果将为北方海域花鲈繁育适宜盐度和pH处理的设定,及提高花鲈孵化率、育苗成活率与早期苗种推广提供基础资料。 相似文献
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Mark E. Meade Jeanette E. Doeller DavidW. Kraus Stephen A. Watts 《Journal of the World Aquaculture Society》2002,33(2):188-198
Abstract.— Weight gain and metabolic rates, as determined by oxygen consumption rates, were examined in juvenile Australian red-claw crayfish Cherax quadricarinatus exposed to different temperatures (16–32 C in 2 C increments) or salinities (0–30 ppt in 5 ppt increments). Mean weight gain, molting frequency, and survival (%) were dependent on temperature and salinity. In freshwater (0 ppt), maximal weight gain and molting frequency were observed at 28 C with maximal survival observed over the temperature range of 24–30 C. Metabolic rates in freshwater were temperature dependent (mean Q10 = 2.44). Maximal weight gain and molting frequency were observed at salinities of 0 and 5 ppt (28 C); however, survival was reduced at salinities ≥ 5 ppt. Metabolic rates were not salinity dependent and did not differ significantly over the salinity range from 0–20 ppt. Growth efficiencies, calculated by dividing weight gain by total metabolic energy expenditure (i.e., weight gain + metabolic rate), were highest at a temperature of 20 C (0 ppt) and at salinities of 0 and 5 ppt (28 C). These data suggest that, at higher culture temperatures, maximal weight gain of red-claw juveniles may be reduced when food resources are limited. Maximal weight gain, at optimal temperatures (28 C) with unlimited food supply, does not appear to be effected by low salinity conditions. Because of the potential commercial value of red-claw, culturists, should be aware of the relationship between environmental condition and metabolic energy requirements to ensure maximal weight gain and survival of juveniles. 相似文献
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在水温22~25℃的条件下,研究不同盐度、碱度水体对大鳞(Barbus capito)幼鱼生长、摄食和鳃组织的影鲃响,探索了幼鱼生长的最适条件.单因素盐度梯度值设置为0(对照组)、2.0、4.0、6.1、7.8、10.0和11.9,实验结果表明,当盐度高于6.1时,大鳞幼鱼的体长和体质量受到显著影响(P<0.05);盐度2.0时幼鱼的终末体质量值最鲃大;盐度4.0时体质量特定增长率和饵料转化效率最高,盐度11.9时均降至最低;盐度到达7.8时对幼鱼生长有抑制作用,依据理论公式推算,幼鱼的最适生长盐度应为1.88.单因素碱度梯度值为10.00、15.83、25.10、39.80和63.12 mmol/L,碱度高于25.10 mmol/L时对幼鱼的体质量、饵料转化效率及总摄食量均有显著影响(P<0.05);碱度15.83 mmol/L时幼鱼的终末体质量、体质量生长率和饵料转化效率值最高,碱度63.12 mmol/L时最低.碱度到达39.80 mmol/L时对幼鱼生长有抑制作用,依据理论公式推算,幼鱼的最适生长碱度为20.57 mmol/L.从鳃组织的显微结构观察结果来看,随着盐度和碱度的升高,鳃小片上皮细胞出现肿胀、脱落和坏死的现象,泌氯细胞的体积膨胀,从而影响了幼鱼的生长.综上所述,大鳞幼鱼期,养殖盐度不宜超过6.1,碱度不超过25.10 mmol/L.鲃 相似文献
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The combined effects of temperature and salinity on larval survival and development of the mud crab, Scylla serrata, were investigated in the laboratory. Newly hatched larvae were reared under 20 °C temperature and salinity combinations (i.e. combinations of four temperatures 25, 28, 31, 34 °C with five salinities 15, 20, 25, 30, 35 g L−1). The results showed that temperature and salinity as well as the interaction of the two parameters significantly affected the survival of zoeal larvae. Salinity at 15 g L−1 resulted in no larval survival to the first crab stage, suggesting that the lower salinity tolerance limit for mud crab larvae lies somewhere between salinity 15 and 20 g L−1. However, within the salinity range of 20–35 g L−1, no significant effects on survival of zoeal larvae were detected (P>0.05). The combined effects of temperature and salinity on larval survival were also evident as at low salinities, both high and low temperature led to mass mortality of newly hatched larvae (e.g. 34 °C/15 g L−1, 34 °C/20 g L−1 and 25 °C/15 g L−1 combinations). In contrast, the low temperature and high salinity combination of 25 °C/35 g L−1 resulted in one of the highest survival to the megalopal stage. It was also shown that at optimal 28 °C, larvae could withstand broader salinity conditions. Temperature, salinity and their interaction also significantly affected larval development. At 34 °C, the mean larval development time to megalopa under different salinity conditions ranged from 13.5 to 18.5 days. It increased to between 20.6 and 22.6 days at 25 °C. The effects of salinity on larval development were demonstrated by the fact that for all the temperatures tested, the fastest mean development to megalopa was always recorded at the salinity of 25 g L−1. However, a different trend of salinity effects was shown for megalopae as their duration consistently increased with an increase in salinity from 20 to 35 g L−1. In summary, S. serrata larvae tolerate a broad range of salinity and temperature conditions. Rearing temperature 25–30 °C and salinity 20–35 g L−1 generally result in reasonable survival. However, from an aquaculture point of view, a higher temperature range of 28–30 °C and a salinity range of 20–30 g L−1 are recommended as it shortens the culture cycle. 相似文献
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A Preliminary Study on the Effects of Salinity on Growth and Survival of Mulloway Argyrosomus japonicus Larvae and Juveniles 总被引:1,自引:0,他引:1
Abstract.— Tko experiments were conducted to determine the effects of salinity on growth and survival of mulloway Argyrosomus japonicus larvae and juveniles. First, 6-d-old larvae were stocked into different salinities (5, 12.5, 20, 27.5 and 35 ppt) for 14 d. Larvae grew at all salinities, but based on results for growth and survival, the optimum range of salinity for 6-d-old to 20-d-old larvae is 5–12.5 ppt. During this experiment larvae held in all experimental salinities were infested by a dinoflagellate ectoparasite, Amyloodinium sp. Degree of infestation was affected by salinity. There were very low infestation rates at 5 ppt (0.2 parasites/larva). Infestation increased with salinity to 20 ppt (33.1 parasites/larva), then declined with salinity to 35 ppt (1.5 parasites/larva). For the second experiment, juveniles (6.1 ± 0.1 g/fish) were stocked into different salinities (0.6, 5, 10, 20 and 35 ppt) for 28 d. Juveniles were removed from freshwater 3 d after transfer as they did not feed, several fish died and many fish had lost equilibrium. However, when transferred directly to 5 ppt. these stressed fish recovered and behaved normally. Trends in final mean weight and food conversion ratio of juvenile mulloway suggest that fish performed best at 5 ppt. Although salinity (5 to 35 ppt) had no significant ( P > 0.05) effect on growth, survival, or food conversion ratio of juveniles, statistical power of the experiment was low (0.22). Based on these results we recommend that mulloway larvae older than 6 d be cultured at 5 to 12.5 ppt. Optimum growth of juveniles may also be achieved at low salinities. 相似文献
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This study aimed at evaluating the ploidy effects on growth performances of Chinese shrimp ( Fenneropenaeus chinensis Osbeck, 1765) reared in different salinities under laboratory conditions. In the acute salinity experiment, there was no difference ( P >0.05) in tolerance observed in triploid and diploid shrimp due to abrupt salinity changes. The lethal salinity for 50% of the individuals in 96 h at 23–25 °C was about 2 g L−1 in both triploids and diploids. While for the chronic salinity experiment, statistical analyses confirmed that the differences in growth performances including the specific growth rate (SGR), the feeding rate (FR), feed conversion efficiency (FCE) and intermoult period (IP) between triploid and diploid were related to salinity. Diploid shrimp reared in 20 g L−1 exhibited highest SGR ( P <0.05), while triploids performed well in 20 and 30 g L−1 salinities ( P <0.05). Based on the survival and growth data, the optimal salinity for the culture of diploid F. chinensis should be 20 g L−1 and for triploids it should be between 20 and 30 g L−1 . 相似文献