不同饵料对中华绒螯蟹幼体发育和存活的影响

采用高度不饱和脂肪酸（ＨＵＦＡ）营养强化的轮虫、轮虫与卤虫组织投喂中华绒螯蟹幼体,以各项幼体的存活率为评判指标,对不同饵料及其组合的投喂效果进行了探讨。研究结果表明：轮虫是中华绒螯解早期幼体（Ⅰ、Ⅱ期）的适口饵料,幼体存活率随轮虫密度的增加而逐渐上升,但当轮虫数量超过最适密度时,幼体存活率反而有所下降。其中,未强化的轮虫达投喂密度为６０ｉｎｄ．ｍＬ＾－１,强化轮虫最适密度为４０ｉｎｄ．ｍＬ＾－１。Ｚａｏ状Ⅰ、Ⅱ期投喂４０ｉｎｄ．ｍＬ＾－１轮虫,从Ⅲ期开始投喂１０ｉｎｇ．ｍＬ＾－１卤虫无节幼体,能较好地满足中华绒螯蟹幼体发育的营养需求,提高大眼幼体的存活率。表明强化幼体饵料ＨＵＦＡ特别是ＥＰＡ和ＤＨＡ能有效地促进幼体的发育与存活和脱壳率。     

甲醛对中华虎头蟹Ⅱ期潘状幼体的急性毒性

在盐度28．0～29．0、水温23—24℃和pH8．6～8．7条件下,采用急性毒性试验方法研究了甲醛溶液（37．O％～40．0％）对中华虎头蟹（Orithyia sinica）Ⅱ期溢状幼体的急性毒性。结果表明,甲醛溶液对溢状幼体的24h、48h,及96h的半致死质量浓度分别为131．0μL·L-1、110．3μL·L-1,及98．7μL·L-1;安全浓度为23．4μL·L-1。     

中华虎头蟹人工育苗技术研究

2011年辽宁省营口市水产科学研究所承担了中华虎头蟹人工育苗技术研究项目,对亲蟹的采捕运输、暂养、孵化、培育等各个环节进行了深入探索和研究,于100m3水体中育出I-Ⅲ期仔蟹1．15×10^6只,不仅完成了项目指标,还填补了中华虎头蟹人工育苗技术的空白。     

4组生物饵料对中华绒螯蟹Z↓（4）到大眼幼体生长发育和脂肪酸组成的影响

采用卤幼(Artemia sp.)、强化卤幼、背刺胸刺水蚤(Centropages dorsispinatus)、背刺胸刺水蚤 日本新糠虾(Neomysis japonica)4组生物饵料投喂4组中华绒螯蟹(Eriocheir sinensis)Z4幼体,以大眼幼体的成活率、Z4→大眼幼体变态时间、头胸甲长度和大眼幼体中脂肪酸组成作为评价指标,探讨了4种生物饵料对大眼幼体生长发育及其脂类含量和脂肪酸组成的影响.结果表明:(1)背刺胸刺水蚤(C组)、背刺胸刺水蚤 日本新糠虾(D组)投喂组的中华绒螯蟹幼体可以获得较高的成活率(70%左右),幼体发育时间缩短1～2 d,大眼幼体头胸甲长度显著大于卤幼组(A组)和强化卤幼组(B组)(P＜0.01),各组大眼幼体头胸甲长度由大到小依次为C组、D组、B组、A组;(2)强化卤幼可以提高其总脂、磷脂及DHA含量,背刺胸刺水蚤和日本新糠虾具有较高的AA、DHA和HUFA含量;(3)各组大眼幼体中脂肪酸组成差异显著(P＜0.05),DHA和HUFA含量随着饵料中含量的上升而上升(n=9,P＜0.01),饵料中的DHA含量和大眼幼体的头胸甲长度呈显著正相关(n=9,P＜0.05).由此可见,背刺胸刺水蚤和日本新糠虾可以作为中华绒螯蟹Z4到大眼幼体阶段的优质活饵料,可以提高其成活率和头胸甲长度.     

不同饵料对毛蚶幼体发育的影响

在毛蚶人工育苗过程中,使用球等鞭金藻、角毛藻、小球藻、扁藻4种藻类的不同组合投喂毛蚶幼体。结果表明,饵料种类越多,变态率越高,生长速度越快;球等鞭金藻、角毛藻、小球藻、扁藻搭配(体积比1:1:1:1)变态率为30%,出库需(壳长1 mm)27 d;球等鞭金藻、角毛藻、小球藻搭配(体积比1:1:1)变态率为29%,出库需29 d;球等鞭金藻、小球藻搭配(体积比1:1)变态率为24%,出库需31 d;角毛藻、小球藻搭配(体积比1:1)变态率为19%,出库需33 d;单一投喂小球藻,变态率为3%,出库需44 d。说明不同饵料间的营养可以互补,多种饵料搭配能为幼体发育提供更全面的营养,饵料多样性是影响幼体培养效果的重要因素。     

中华绒螯蟹幼体及仔蟹阶段肝胰腺发育的组织学研究

通过对中华绒螯蟹幼体及仔蟹进行连续采样和组织切片,系统地研究了该阶段中华绒螯蟹肝胰腺的发育情况。结果表明,中华绒螯蟹的肝胰腺前体出现于心跳期胚胎,由卵黄囊特化而来,为1对囊状结构,此阶段首次出现肝胰腺细胞(柱状上皮细胞)。胚胎孵化后,随着幼体的发育,肝胰腺由最初的1对囊状结构逐渐分叶生长。从Ⅰ期溞状幼体至Ⅴ期溞状幼体,肝胰腺分叶数量分别为4-6-8-12-12,肝胰腺细胞高度由(12.63±4.91)μm增至(44.16±13.57)μm。肝胰腺中的细胞组成也随着幼体的发育逐渐完善,Ⅱ期溞状幼体的肝胰腺中首次出现E细胞和B细胞,Ⅲ期溞状幼体肝胰腺中首次出现F细胞,而R细胞直到Ⅱ期仔蟹才首次出现。从大眼幼体到Ⅲ期仔蟹,肝胰腺细胞高度由(44.93±18.27)μm增至(56.38±5.69)μm。     

ω_3HUFA对中华绒螯蟹幼体存活率及体脂肪酸组成的影响

分别以经海水小球藻、牟氏角毛藻和５０ＤＥ－Ｇ强化剂强化的轮虫投喂中华绒螯蟹早期幼体,至Ｚａｏ状Ⅲ期后改喂卤虫无节幼体,探讨了饵料ω－３系列高度不饱和脂肪酸对幼体发育和存活的影响。结果表明：小球藻轮虫组的幼体发育至第Ⅰ期幼蟹的存活率最高,为１２．００％,强化剂轮虫组和角毛藻轮虫组次之,分别为１０．６７％和９．６７％,而酵母轮虫组最低,仅为３．６７％;结合分析Ｚａｏ状Ⅴ期幼体脂肪酸组成可知,幼体发育至第Ⅰ期幼蟹的存活率与其总脂含量和ω－３ＨＵＦＡ含量密切相关,而Ｚａｏ状Ⅴ期幼体总脂含量与ω－３ＨＵＦＡ含量随饵料轮虫总脂和ω－３ＨＵＦＡ含量的增加而提高,表明早期幼体所摄取的ω－３ＨＵＦＡ对后期幼体发育和存活有明显的促进作用。     

不同饵料对三疣梭子蟹幼体发育和成活率的影响

三疣梭子蟹(Portunus trituberculatus Miers)肉质鲜美,营养丰富(含蛋白质15％、脂肪3.1％、糖0.9％、各种维生素和矿物质),可食比例大(占49％),还有清热、散血和滋阴等药用价值,是我国重要的养殖蟹类。但是,人工育苗中仍存在着许多问题,如适应各期幼体摄食方式和能力、且可满足其营养需要的系列饲料不足,常导致人工青苗中幼体成活率低,单产不稳定,经济效益不高。     

不同饵料对锯缘青蟹幼体发育的影响

锯缘青蟹幼体培育实验表明在幼体培育过程中,单投轮虫、卤虫、人工饵料及藻类幼体的发育并不理想,均在某个变态阶段受阻.人工饵料和藻类在投喂的第四天已全部死亡.但适当添加人工饵料及藻类以几种饵料混合投喂方式可有效地提高幼体成活率.轮虫、丰年虫、裸腹蚤均是幼体良好的生物饲料.     

Effects of ammonia and nitrite on survival, growth and moulting in juvenile tiger crab, Orithyia sinica (Linnaeus)

The effects of ammonia and nitrite on survival, growth and moulting were investigated in juvenile tiger crab, Orithyia sinica (carapace length 3.91±0.15 mm, carapace width 3.84±0.23 mm, n=440), after 30 days exposure to ammonia‐N (0, 20, 50, 100 and 150 mg L^?1) and nitrite‐N (0, 50, 100, 150, 200 and 250 mg L^?1) using a continuous flow system. Survival rates of tiger crab exposed to ammonia and nitrite decreased linearly with the exposure time and concentration. The growth rate of tiger crab exposed to 50, 100 and 150 mg L^?1 ammonia was significantly lower than that of control crabs. The growth rate of tiger crab exposed to nitrite decreased at 150, 200 and 250 mg L^?1 nitrite. During the ammonia and nitrite exposure, the intermoult period of the juveniles of tiger crab O. sinica was shortened between the first and second moult, and the number of moulting of crabs exposed to a higher concentration were significantly higher than that of control crabs.     

Effects of diet and sediment type on survival, growth and moulting of juvenile tiger crab, Orithyia sinica L.

This study investigated the effects of different types of diet and sediment on the growth parameters of juvenile tiger crab Orithyia sinica under laboratory conditions, focusing on survival, growth and moulting. In the first set of experiments, juvenile tiger crabs were reared with five different types of sediment, i.e., soft sand, coarse sand, soft sand mixed with coarse sand, mud or bare bottom. Soft sand resulted in not only the highest survival rate of 78% but also the best rate of growth and feed intake. Crabs reared with a mud substrate showed the worst results in these parameters. The intermoult period, however, was not affected by sediment types. In the second set of experiments, crabs were fed different types of diet to determine their effects on the same growth parameters. Diets were composed of different combinations with Manila clam (Ruditapes philippinarum), brine shrimp (Artemia nauplii), microencapsulated feeds and marine diatom (Chaetoceros gracilis). Survival and growth in crabs fed Manila clam as a diet component were significantly higher than in those on other diets. The highest survival and growth were achieved with a diet that included all four components. These results provide valuable information on the appropriate bottom substrates and diet types necessary for artificial mass culture of the tiger crab.     

Effects of temperature and salinity on the survival and development of mud crab, Scylla serrata (Forsskål), larvae

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.     

4种饵料对玉足海参幼体生长和发育的影响

为了解单一饵料或混合投喂对玉足海参(Holothuria leucospilota)幼体生长的影响,采用2种单胞藻(牟氏角毛藻、球等鞭金藻)和2种酵母(酿酒酵母、海洋红酵母)单一或组合搭配投喂玉足海参耳状幼体,测定并比较海参幼体的体长、胃宽、水体腔长、变态成活率等指标。试验结果显示：单一饵料组中,牟氏角毛藻对玉足海参幼体体长的生长及变态存活最有利,而球等鞭金藻对其脏器(胃、水体腔)的发育最有利;综合所有处理组的投喂效果看,混合投喂组比单一饵料组更有利于玉足海参幼体的生长和存活,其中酿酒酵母+海洋红酵母的混合投喂组合得到了最高的体长、胃宽和水体腔长特定生长率,牟氏角毛藻+海洋红酵母投喂组的变态成活率最高,变态发育速度最快。结果表明,在玉足海参幼体培养早期适合以混合酵母为主投喂,后期则可较多投喂牟氏角毛藻和海洋红酵母。     

Effects of tank colour on larval survival and development of mud crab Scylla serrata (Forskål)

Hatchery culture of mud crabs has not yet achieved commercial viability despite decades of research efforts. Further research is therefore needed to better understand larval culture requirements of the crab. Based on anecdotal observations, an experiment was carried out to test whether the background colour of the culture vessel affected larval culture success. Newly hatched larvae of Scylla serrata were reared in culture vessels of five colours, i.e., black, dark green, maroon, sky blue and white. Larval survival and development were monitored daily until all of them either moulted to the first crab stage or died. The results showed clear effects of background colour on larval survival. A general tendency of higher larval survival in darker‐coloured backgrounds was evident. In particular, overall zoeal survival for larvae reared in black vessels was significantly higher than those reared in white ones. Background colour also appeared to affect larval development. Larvae reared in darker backgrounds generally had shorter development times and more synchronized moulting. A significant delay in zoeal development was observed in larvae reared in white vessels. Dark backgrounds possibly facilitated more efficient feeding, reduced settlement of larvae at the bottom of the vessels as well as minimized stress. This result appears to be the first to demonstrate that background colour can significantly affect larval survival and development of a crustacean species.     

盐度对山西盐池卤虫群体的影响

盐度对山西盐池卤虫群体的影响贾沁贤，王贻义，卢敬让，周望舒，杨孟科（青岛海洋大学，２６６００３）（山西省水产科学研究所，太原０３０００６）关键词盐度，卤虫，孵化率，存活率ＥＦＦＥＣＴＳＯＦＳＡＬＩＮＩＴＹＯＮＡＲＴＥＭＩＡＳＩＮＩＣＡＰＯＰＵＬＡＴＩ...     

Effect of Bacillus subtilis on growth development and survival of larvae Macrobrachium rosenbergii (de Man)

A feeding experiment was conducted to investigate the effect of Bacillus subtilis bacterium, on larval growth and development rate of Macrobrachium rosenbergii (de Man) during February 28 to April 8, 2005 in University Putra Malaysia hatchery. Newly hatched larvae of M. rosenbergii were reared with two dietary treatments consisting of newly hatched Artemia salina nauplii with B. subtilis (10⁸ cells ml⁻¹), and newly hatched A. salina nauplii without B. subtilis carried out in triplicate in 60‐L aquarium (50 L⁻¹). After trial, the larvae that fed B. subtilis‐treated Artemia naupli were found to have higher survival and a faster rate of metamorphosis than larvae that were fed with nontreated Artemia naupli. There were significant differences between B. subtilis‐treated Artemia naupli and nontreated Artemia diet in larval growth and development rate of metamorphosis (P < 0.05). Larval survival after 40 days was significantly greater (P < 0.05) in the B. subtilis‐treated groups (55.3 ± 1.02) compared with the nontreated groups (36.2 ± 5.02%).     

Momma's larvae: Maternal oceanographic experience and larval size influence early survival of rockfishes

Identifying factors that affect larval mortality is critical for understanding the drivers of fish population dynamics. Although larval fish mortality is high, small changes in mortality rates can lead to large changes in recruitment. Recent studies suggest maternal provisioning can dramatically affect the susceptibility of larvae to starvation and predation, the major sources of early-life mortality. We measured otolith core width-at-extrusion and validated that this is a proxy for larval size-at-extrusion for eight species of rockfishes (genus Sebastes) to examine the influence of initial larval size on larval growth and survival and to understand how oceanographic conditions experienced by gestating females affect larval size (i.e., quality). Otolith core width-at-extrusion was significantly positively related to larval rockfish recent growth rate (5/7 species with sufficient sample size) and survival (all eight species). This suggests that individuals that are larger at extrusion generally grow faster and are more likely to survive early life stages. Otolith core width-at-extrusion was positively related to higher presence of Pacific Subarctic Upper Water and was negatively related to warmer, saline waters at the depths gestating mothers inhabited during the months prior to larval collection. In addition, otolith core width was larger further from fishing ports, possibly because these locations were historically less fished, contained more older, larger females, and/or had inherently better habitat quality (higher Pacific Subarctic Upper Water) than sites closer to shore. These results indicate that the environmental conditions female rockfish experience during gestation drive the size of the larvae they produce and impact larval growth and survival.     

Larval survival,development and growth in the horsehair crab,Erimacrus isenbeckii,cultured under different photoperiod conditions

Larval sinking causes larval mass mortality during seed production in the horsehair crab, Erimacrus isenbeckii. Under normal light conditions, horsehair crab larvae generally show negative phototactic behaviour and sink in their rearing seawater. It has been proposed that culturing larvae in the dark may prevent larval sinking. Herein, we examined the effect of photoperiods on horsehair crab larval survival and development to facilitate the development of larval rearing techniques that prevent sinking. Newly hatched larvae were reared with Artemia to the first crab stage in 2‐L beakers under five photoperiods: 0L:24D, 6L:18D, 12L:12D, 18L:6D and 24L:0D. Larvae survived and molted to the first crab stage under all tested photoperiod conditions. The survival rate improved with increasing light period, whereas the developmental period for each larval stage decreased with increasing light period. Longer light periods increased the carapace length at the first crab stage. Our results suggest that larvae could be cultured to the first crab stage in large‐scale tanks under constant darkness. However, significantly improved larval performance under longer photoperiodic conditions indicates a need for developing alternative culture techniques to control larval behaviour in the seed production tank.     

The effect of poly‐β‐hydroxybutyrate on the performance of Chinese mitten crab (Eriocheir sinensis Milne‐Edwards) zoea larvae

Two experiments were conducted regarding the effect of poly‐β‐hydroxybutyrate (PHB) on the survival and development of Chinese mitten crab (Eriocheir sinensis Milne‐Edwards) larvae. Different PHB delivery approaches (particulate, enriched in filter feeding prey, or a combination of both) and feeding levels were applied to crab larvae from the zoea 2 (Z2) up to the megalopa stage. Bio‐encapsulation into rotifers and Artemia at a PHB dose of 100 mg L^?1 seemed an efficient approach to deliver PHB to the larvae and resulted in a significantly enhanced survival, development rate and osmotic tolerance. The results indicate that PHB should only be applied as a feed additive rather than as a food source, and that the availability of an adequate amount of nutrients seems to be of major importance for the PHB to induce these beneficial effects.