黑鲍育苗技术

黑鲍是用从日本引进的盘鲍(Haliotis discus discus)与我国的皱纹盘鲍(Haliotis discus hannai)杂交所产生的新品种,其个体大,适应性强,易于养殖。随着浅海养鲍的发展,对其种苗的需求量逐步加大。笔者近年在罗源县兴源水产育苗场进行黑鲍育苗,现将其育苗技术介绍如下。一、亲鲍来源     

皱纹盘鲍与绿鲍杂交种生长比较

为探明皱纹盘鲍(Haliotis discus hannai)与绿鲍(Haliotis fulgens)种间杂交的受精、孵化和苗种发育规律,对皱纹盘鲍和绿鲍进行种间杂交,检测了不同组合受精率和孵化率,并以同期培育的皱纹盘鲍与绿鲍种间杂交F1(DF)、自繁F1(DD、FF)及回交F1(DD×DF、DD×FD)为研究对象。在相同养殖条件下,本文对皱纹盘鲍与绿鲍杂交、回交后代的生长、存活差异及相应的优势进行研究,为进一步探讨皱纹盘鲍与绿鲍的杂交效果、准确评价杂种优势提供理论依据。     

光照强度对皱纹盘鲍杂交鲍幼鲍行为和生长的影响

为优化海上养鲍设施,特别是养鲍网箱结构,开展了40 d的皱纹盘鲍杂交鲍幼鲍(Haliotis discus hannai♀×Haliotis discus discus♂)在0 Lx(暗光照)、0~500 Lx(弱光照)、0~6 500 Lx(强光照)3组不同光照强度下的生长与活动试验。结果显示,壳长(4.86±0.17)cm、体重(15.08±1.07)g的幼鲍,壳长平均日增长和体重平均日增长分别为(0.014 1±0.003)cm/d和(0.054 9±0.011)g/d(暗光组)、(0.008 3±0.003)cm/d和(0.046±0.013)g/d(弱光组)、(0.007±0.001)cm/d和(0.028 4±0.016)g/d(强光组),二者均与光照强度呈反比,且光照对鲍壳生长的影响大于对质量的影响。暗光照环境下,幼鲍活动时间提前30 min,活动时间增加0.5~1 h,且进食量大、进食速度快。研究表明,强光照会对鲍形成光压抑的生活环境,影响鲍的正常行为与生长。海上养鲍应根据鲍对光照刺激的反应,选择适宜的水层,并优化网箱和匍匐基结构。     

黑鲍苗种繁育技术

黑鲍是福州市水产科学研究所从日本引进的盘鲍(Haliotis discus discus)与我国的皱纹盘鲍(Haliotis discus hannai)杂交所产生的新品种。黑鲍具有生长快、抗逆性强、肉质好等杂交优势，它的选育成功促进了我省鲍养殖业的发展。目前我省黑鲍养殖发展迅速，已形成一大产业，是沿海渔民发家致富的生财之道。现将黑鲍人工苗种繁育技术介绍如下：     

配合饲料投喂量和粒径对绿盘鲍稚鲍生长和存活的影响

在水温15.8～24.7℃下,将小规格(壳长为1.03±0.02 cm)和中规格(壳长为1.57±0.03 cm)绿盘鲍(GS-02-003-2018)(皱纹盘鲍Haliotis discus hannai Ino♀×绿鲍H.fulgens♂)稚鲍分成A、B、C和D 4个组,饲养在240 mm×170 mm×285 m...     

长岛皱纹盘鲍产业现状与发展对策研究

溯源长岛鲍鱼增养殖历史,分析产业现状,从种质、栖息地生境、产业化和品牌化建设四个方面查摆制约因素,并针对性提出政产学研金协同推动皱纹盘鲍(Haliotis discus hannai)种质保护和持续发展,建立长岛皱纹盘鲍标准体系,推进长岛皱纹盘鲍种业发展,推动皱纹盘鲍资源快速恢复,推进皱纹盘鲍生态养殖产业发展,加快品牌建设和宣传推介,加强资金保障的对策建议。     

诱导异源三倍体鲍的初步研究

用细胞松弛素B（CB）处理九孔鲍♂×盘鲍♀受精卵,分别抑制其第一极体和第二极体、以及第二极体释放诱导异源三倍体。水温24℃,九孔鲍♂×盘鲍♀授精后10min,用浓度0.6～1.0mg/L的CB持续处理受精卵20～25min,抑制其第一极体的排放。而九孔鲍♂×盘鲍♀在受精后27min,当40%～50%受精卵排出第一极体时,用浓度0.6～1.0mg/L的CB持续处理受精卵10～15min,分别统计对照组和药物处理组的担轮幼虫率,并用倍体分析仪检测各组稚鲍的倍性。结果表明：对照组和药物处理组担轮幼虫的倍性较复杂,起始处理时间为10min,CB药物处理浓度为0.6mg/L,持续处理时间为25min,其三倍体率可达40.67%,担轮幼虫的孵化率为26.44%。起始处理时间为27min,CB药物处理浓度0.6mg/L,处理持续时间为10min,其三倍体率可达48.11%,担轮幼虫率的孵化率为29.86%。     

三倍体皱纹盘鲍活体倍性检测

以皱纹盘鲍的血细胞为材料，采用植物血球凝集素(PHA)体外浸泡法，运用正交实验设计，探讨PHA处理时间、PHA浓度、抽血时间对细胞分裂频度的影响。根据正交实验直观分析结果，得出用血细胞直接制备染色体标本进行三倍体皱纹盘鲍活体倍性检测的最优组合：PHA处理时间18h、PHA浓度0．04％，抽血时间22：00-24：00，3因素的主次顺序：PHA处理时间→PHA浓度→抽血时间。并可获得大量图象清晰、长度适中、分散良好的中期分裂相，是皱纹盘鲍活体倍性检测的最佳方法。同时，通过流式细胞仪测定皱纹盘鲍血细胞DNA相对含量进行三倍体皱纹盘鲍活体倍性检测，该方法制样简单，测试速度快。     

皱纹盘鲍三倍体诱导条件及其室内饲育试验

皱纹盘鲍(Haliotis discus hannai)是我国重要的海洋经济贝类之一,近年来北方沿海已开展了人工养殖。但普通二倍体鲍需生长3—4年才能达到商品规格,养殖周期长。由于三倍体的不育性,其能量可全部用于生长,这对改善鲍的生长,缩短养殖周期有着积极的意义。有关鲍三倍体的研究起步较晚,在国外,Arai等[1986]、林崎孝志[1989]分别报道了用温度休克和静水压法及细胞松弛素B诱导皱纹     

小型底栖硅藻的定向培养技术

皱纹盘鲍（Haliotis discus hannai）在育苗生产过程中,底栖硅藻的种类、质量,直接影响到鲍苗的附着率、成活率及生长速度,关系到整个育苗生产的成败。     

Effect of salinity change and exposure time on the egg stages of two abalone species Haliotis discus discus and H. gigantea

Fisheries Science - The embryonic developmental response of two abalone species (disk abalone Haliotis discus discus, giant abalone Haliotis gigantea) to a drop in salinity with different exposure...     

用流式细胞仪检测活体鲍倍性

分别取皱纹盘鲍（Ｈａｌｉｏｔｉｓ ｄｉｓｃｕｓ ｈａｎｎａｉ）足肌和血液制样，经ＤＡＰＩ染色后，用ＰａｒｔｅｃＰＡＳ－Ⅲ型流式细胞仪测定其倍性，试验证明三倍体鲍的ＤＮＡ相对含量是二保体的１．５倍，切足法和抽取血液法两种制样方法均得到满意结果，用流式细胞仪法检测鲍倍性适应鲍多倍体产业化的需要。     

Genetic characterization and gonad development of artificially produced interspecific hybrids of the abalones, Haliotis discus discus Reeve, Haliotis gigantea Gmelin and Haliotis madaka Habe

Hybridization among abalone species has been suggested as a possible means to increase their growth rates for aquaculture. As a first step to test the usefulness of the hybrids of Japanese abalone species (Haliotis discus discus, Haliotis gigantea and Haliotis madaka) for aquaculture, we characterized the genetic background and gonad development of hybrids that were produced by artificial insemination. The hybrid status of the resulting offspring was confirmed by assaying 14 allozymes and by RFLP analysis of the 16s rRNA and cytochrome oxidase I (COI) regions of mtDNA using 13 restriction enzymes. Histological examination of the gonads of the hybrids was conducted in comparison with those of the parental species. Cross‐breeding among the three species was conducted successfully in all combinations although with lower fertilization rates (means of 1.3–60.8%) than the parental species (34.3–90%). Crosses between H. discus discus and H. madaka had higher fertilization rates (22.4–60.8%) than those involving H. gigantea (1.3–19.9%). The hybrids were ascertained by the presence of both parental genotypes at the LDH‐A, ME‐A, MDH‐A and GPI loci. The maternal origin of the hybrid mtDNA was confirmed by digestion with DdeI, TaqI, HpaII of the COI region. No polymorphism was observed in the 16S rRNA region. The hybrids had gonadal development and maturity stages similar to the parental species up to fully mature oocytes and sperm. They spawned upon stimulation and produced viable offspring with high fertilization rates and successful development to the juvenile stage in back‐ and homologous hybrid crosses.     

Characterisation of cell types in abalone (Haliotis spp.) tissues using immunohistochemical techniques

The increasing popularity of abalone as a seafood delicacy has led to the rapid development of abalone aquaculture worldwide. The commercial and economic importance of this industry has resulted in an increasing interest in the biology of this particular shellfish genus. In this study we focus on the identification of structural, functional and proliferative proteins in two species of abalone shellfish, Haliotis discus hannai and Haliotis tuberculata. Monoclonal and polyclonal antibodies that react with proteins in vertebrate and invertebrate tissues were selected and applied to abalone tissues. Cross sections of whole animals were analysed using avidin-biotin immunoperoxidase staining protocols. In total, twenty-four antibodies were tested on shellfish tissues. Six antibodies out of twenty-four detected antigens in Haliotis spp. Cytokeratins, proliferating cell nuclear antigen (PCNA), neuron specific enolase (NSE), laminin and vimentin were detected in abalone tissues. Positive immunohistochemical results were confirmed using western blot. The expression of these proteins aids in the characterisation of cell types present in abalone tissues, which contributes to a better understanding of the fundamental biology of this shellfish genus.     

Karyotype analysis of interspecific hybrids between Haliotis rufescens and Haliotis discus HANNAI

Evidence of hybridization in Haliotis has been mainly supported by hatchery experiences and collection of wild hybrid abalones among several species from natural populations worldwide. However, despite the importance to understand the role of the hybridization process through Haliotidae evolution, and also its impact on the abalone aquaculture, genetic studies in hybrid abalones have been poorly developed. Herein, cytogenetic approach allows studying the genetic conformation in hybrid organisms at the chromosome level. This paper reports a quantitative karyotype analysis in Haliotis rufescens, Haliotis discus hannai and their interspecific hybrid. Thus, to characterize chromosome pairs and establish cytogenetic comparisons, chromosome banding with distamycin‐A/4,6‐diamidino‐2‐phenylindole fluorochromes and morphologic measurements were performed. The results showed that the hybrids are successfully viable and their karyotypes evidenced a conservative chromosome number of 2n=36. The karyo‐idiogram showed a high correspondence in chromosome pair morphology among the hybrids and their parental species, except for a single heteromorphic pair that corresponds to the chromosome 16 from H. rufescens andH. d. hannai respectively. The implications of the abalone hybrid viability derived from its chromosome composition are discussed.     

Hybridization between Haliotis rufescens and Haliotis discus hannai: evaluation of fertilization,larval development,growth and thermal tolerance

Two introduced abalone species are currently produced in Chile, red abalone Haliotis rufescens and Japanese abalone Haliotis discus hannai. However, red abalone accounts for 99% of total production, while the Japanese abalone has not adapted well to Chilean coastal waters. This study reports the hatching, growth and thermal tolerance performance in interspecific hybrids produced between red (R) and Japanese (J) abalone. Our results show that egg age and sperm concentration were critical factors to produce hybrids. The cross R♀ × J♂ showed a fertilization rate of 55.3 ± 3.5% using 20‐min‐old eggs and sperm concentrations of 14 × 10⁶ cells mL^?1, while the reciprocal cross (J♀ × R♂) was not successful. Further, larval development stages were similar in RR, JJ and RJ hybrid abalones. Among the experimental trials, settlement rate varied from 12.3% to 18.6% and final survival from 20.1% to 31.7%, being the RJ hybrid rates intermediate between parental species. The final shell lengths were similar between RR and RJ hybrids, but significantly higher in JJ abalones. In addition, thermal tolerance was ascertained due its pivotal role for the abalone physiology. Thus, RJ hybrids showed the highest HSP70 gene expression and offers new possibilities to expand Chilean abalone production in warm waters zones.     

Effect of Hybrid Abalone,Haliotis discus hannai × Haliotis discus discus,Cultivation on the Carbon Cycle: Carbon Source/Sink

Respiration, calcification, and bio‐deposition of hybrid abalone, Haliotis discus hannai × Haliotis discus discus, fed on different foodstuffs have been measured to evaluate the effect of hybrid abalone culture on carbon source/sink in coastal areas. Fed with Laminaria japonica, Undaria pinnatifida, Gracilaria lemaneiformis, U. pinnatifida, and Ulva pertusa, alternated mutually, the carbon bio‐deposition rate of hybrid abalone was 24.29 ± 6.39, 65.40 ± 10.55, 21.48 ± 5.99, and 29.28 ± 6.47 µg/g/h, respectively. Hybrid abalone fed on U. pinnatifida had a higher carbon bio‐deposition rate compared to that fed on other foodstuff (P < 5%). Rate of CO₂ released by respiration of hybrid abalone fed on the experimental foodstuff was 24.53 ± 8.57, 32.73 ± 7.99, 29.31 ± 6.39, and 33.67 ± 12.37 µg/g/h, respectively. Results indicated that calcification presented less relationship with body weight type of the foodstuff. The rate of CO₂ released by calcification into seawater and atmosphere was 2.77 ± 1.89 and 6.53 ± 3.36 µg/g/h, respectively. The total rate of CO₂ released because of bio‐deposition, respiration, and calcification processes was 16.19 ± 4.67 µg/g/h, while the total rate of carbon sequestered in shells and tissues was 8.94 ± 2.07 µg/g/h. The study revealed that hybrid abalone culture is a source of CO₂.     

Rheological properties and structural changes in raw and cooked abalone meat

SUMMARY: In a study of the relationship between structural changes and rheological parameters of raw and cooked abalone meat, abalone Haliotis discus was cooked in boiling water for 3 h, then cut up and separated into cross- and vertical sections. Structural change was observed using a light microscope and scanning electron micrography. The rheological parameters were obtained by stress-relaxation experiments. Microscopic photography revealed that structural change between muscle fibers in both sections of the cooked meat was greater than that in the raw meat. The elastic modulus and rupture strength in both sections of cooked meat showed no difference between the cross- and vertical sections, and were smaller than those for the raw meat. The relaxation time for the cooked meat was also greater than for the raw meat. These results were mainly because of collagen being gelatinized during heating. These changes were also observed by staining collagen and differential scanning calorimetry.     

鲍遗传育种研究进展

Abalones are important farming species with a high economic value. They have already been farmed for more than 50 years. As problems and new requirements rose continuously in culture industry of abalone, studies on genetic and breeding techniques are needed to improve characteristics and to gain new traits. This review concentrates on advances in genetics and breeding techniques in abalone. As for genetic studies, karyological analyses, allozyme, DNA markers and genetic diversity were reviewed. So far, karyological analyses in abalone have been performed in 12 species that can be divided into three groups according to the chromosome number. In some economically important species, loci of allozymes and. microsatellites have been isolated and applied to investigate the genetic structure of natural and hatchery populations and to identify the result of chromosome set manipulation, but the related reports are only a few yet. The resultsof investigation with DNA markers and allozymes showed that the genetic structure of natural populations presents two characteristics: excessive homozygosity and subdivision. Advances of various breeding techniques, including introduction, selection,hybridization, polyploidy, gynogenesis and gene manipulation, were reviewed in the other part. Although Haliotis discus discus, introduced from Japan, has become one of the most important culture species in China, the economic, social and environmental effects of introduction have been rarely studied. Selection is one of the most important and basic breeding techniques, but the studies on selection are only a few and preliminary, referring to the relations between genetic characteristics and the traits of growth and resistance, genetic diversity and heritability of quantitative traits, and the effect of selection. Interspecific hybridization was the first breeding program carded out in abalone. Experimental hybridization have been carded out for about 20 crosses. Heterosis,such as faster growth and high survival rate, has been observed in some crosses. Triploids have been successfully induced in many species of abalone with physical or chemical shock, e.g.H, discus hannai, H. rufescens, H.diversicolor diversicolor and H. rnidae. Field experiments were conducted in some species of triploid abalone. In comparison with triploid, the research on tetraploid is still in quest stage. The progress of induction of gynogenesis in abalone is quite slow. Conditions of sperm inactivation, diploid restoration and nuclear behavior of gynogenetically activated eggs have been researched on in H. discus han nai. Notwithstanding the gene transfer technology in abalone is in the quest stage, the research have already involved preparation of exogenic DNA,means of gene transfer, identification integration and expression of target gene, etc. Three research directions in these topics were proposed : to investigate the germplasm resources of abalone deeply and widely, to make use of traditional breeding methods and modem biotechnique synthetically, and to combine the science research with production practice.