中国江蓠的商品生产及其与对虾混养

以江蓠和对虾混养预防虾病。试验和生产实践表明，江蓠和对虾混养能明显地改善虾池南，防止对虾细菌性病害，除江蓠有一定产量外。可使对虾产量比单养增加６０％以上。并论述了中国江蓠人工的种类，生长条件和主要生产方式。     

中国江蓠的商品生产及其与对虾混养(英文)

以江湾和对虾混养预防虾病。试验和生产实践表明，江蒿和对虾混养能明显地改善虾池水质，防止对虾细菌性病害，除江南有一定产量外，可使对虾产量比单养增加60％以上。并论述了中国江蓠人工栽培的种类、生长条件和主要生产方式。     

凡纳滨对虾与点带石斑鱼的混养模式

对凡纳滨对虾(Litopenaeus vannamei)与点带石斑鱼(Epinephelus malabaricus)进行90 d的混养试验,研究点带石斑鱼混养密度、规格对凡纳滨对虾生长、成活率和产量的影响。结果表明,点带石斑鱼混养密度、规格均对凡纳滨对虾生长、成活率和平均产量的影响有统计学意义(P0.05)。在混养密度相同的条件下,混养小规格点带石斑鱼的凡纳滨对虾成活率比混养大规格点带石斑鱼提高15.1%~23.2%,平均产量比混养大规格点带石斑鱼提高19.0%~40.6%。随着点带石斑鱼混养密度增加,凡纳滨对虾成活率和平均产量呈下降趋势。小规格点带石斑鱼混养密度分别为0.4尾·m-2时,凡纳滨对虾成活率和平均产量最高,分别为66.25%%±7.24%、(1 181.0±101.8)kg,较单一养殖凡纳滨对虾成活率提高5.46%,平均产量提高16.2%;大规格点带石斑鱼混养密度为0.2尾·m-2时,凡纳滨对虾成活率和平均产量最高,分别为(52.04±6.11)%、(959.8±89.1)kg,但较单一养殖凡纳滨对虾成活率下降8.75%,平均产量下降5.88%     

生物生态防治虾病研究

本文探索虾病防治新途径,采用低值海藻江蓠和对虾混养的生态学方法,江蓠吸收水中二氧化碳进行光合作用,产生大量氧气;同时吸收有机物的分解物 NH_3—N,加速有机物分解。减少 H_2S 积累;从而消除水中紧迫因子威胁,大大减少池水自污及病害,起到抑菌、抑虫、净化水质作用,提高成活率,试验圹对虾成活率达95.1%,对照圹56.6%。试验结果表明,虾病防治效果显著,经济效益明显。     

低产老化虾池的生态养殖的探讨

针对目前大批低产老化虾池的改造和可持续生产的问题，设计了一个自然生态养虾新模式。利用长期不能清淤的低产老化虾池和已造成生态失衡的虾池，实行疏放苗，精管理，综合利用、立体开发，混养、轮养。试验结果表明，养殖周期为 ８０～９０ ｄ，对虾成活率６０．５％ ～７６％ ，体长达１０．１～１３．２ ｃｍ ，平均体重 １７．２～１９．２ ｇ／尾，饵料系数 ０．７７～０．８０，平均产量 ６４５～７８０ ｋｇ／ｈｍ ２，鲻鱼产量 ４２０～４６５ ｋｇ／ｈｍ ２ 。整个养殖过程虾池的各种水质理化因子基本符合要求，从而使对虾养殖在一种相对稳定的生态环境中进行     

虾—鱼—贝—藻多池循环水生态养殖模式的研究

建立了一种虾、鱼、贝、藻多池循环水生态养殖及水质生物调控系统 ,该系统包括对虾养殖、鱼类养殖、贝类养殖、大型海藻栽培等 4个功能不同的养殖区 ,1个水处理区及 1个应急排水渠。通过在封闭循环系统内不同池塘中放养生态位互补的经济动植物 ,对虾池水质环境进行生物调控。结果表明 ,循环系统内虾池水层悬浮物数量、COD值、氨态氮含量比对照组单养对虾池明显降低 (t检验 ,P <0 .0 1)。养殖后排放水不处于富营养化状态 (E <1)。投入每千克对虾饲料生产0 .6 6 7kg对虾 ,同时生产 0 .0 37kg罗非鱼、0 .738kg牡蛎、0 .4 37kg江蓠 ,饲料利用率和经济效益显著增加。该养殖模式还具有防病性、环保性、高效性等优点     

对虾与锯缘青蟹混养的可行性及其增产措施

对虾与锯缘青蟹 Scylla serrata(Forskal)混养(下称虾蟹混养)国内、外尚未见有系统的理论研究资料。作者经过几年研究,证实虾蟹混养非但可行,而且可以提高海水池塘综合经济效益。本文从理论与实践的结合上论述虾蟹混养的可行性及其增产措施。     

凡纳滨对虾与金钱鱼混养模式水质理化因子及浮游生物群落结构的变化

以凡纳滨对虾(Litopenaeus vannamei)与金钱鱼(Scatophagus argus)混养池塘和凡纳滨对虾单养池塘为研究对象,对两池塘水体的理化因子及浮游生物进行测定。结果显示:混养池塘水体的溶解氧与单养池塘相比均无显著性差异;混养和单养池塘的化学需氧量(COD)、亚硝酸盐和氨氮的含量在实验过程中均呈现持续上升趋势,但混养池上升趋势较缓,两池塘的上述指标在养殖前期差异不显著,养殖后期有显著差异(P<0.05)。在养殖后期,混养池塘的浮游植物丰度显著大于单养池塘(P<0.05),而浮游动物丰度显著低于单养池塘(P<0.05)。结果表明,混养金钱鱼可有效改善凡纳滨对虾精养池塘的水质,降低亚硝酸盐、氨氮及COD的含量,稳定浮游植物种群结构,控制池塘中浮游动物的过度繁殖。     

海水池塘鲻鱼、斑节对虾混养的初步研究

鲻科鱼类在世界热带和亚热带水域中分布较广,是水产养殖的重要对象。特别是鲻鱼(Mugilcephalus)适合于池塘混养,但混养对象一直是多年来养殖者关注的问题。近年来,随着我国海洋滩涂养虾业的发展,池塘养虾趋于精养和半精养,以提高单位面积的产量。由于盲目投放饵料,致使剩余饵料不断积累并腐烂,加上对虾自身的排泄物,池底因有机质腐败分解和耗氧而处于嫌气状态,同时底质中还产生还原物质,所有这些都将影响对虾的生长和发育[1]。而鲻鱼素有“清道夫”之称,它可以有效清除池底剩余的颗粒饵料及排泄物,并作为鲻鱼的补充饵料,这样既可改善池塘的…     

异枝江蓠与凡纳滨对虾室内零换水混养

【目的】通过模拟养殖系统,在零换水条件下研究虾藻混养模式中藻体与对虾的生长。【方法】将异枝江蓠(Gracilaria bailinae)与凡纳滨对虾(Litopenaeus vannamei)混养,设置对虾混养密度(114±5)g/m~2,以及0、114、228、456、926 g/m~2 5个藻体密度梯度,混养时间为20 d,测定藻体和对虾的特定生长率,藻的光合特性参数,NH_4~+-N、NO_2~--N和NO_3~--N浓度。【结果】混养密度对藻体和对虾生长,藻的光合特性参数,NH_4~+-N、NO_2~--N和NO_3~--N浓度有显著影响(P0.05)。异枝江蓠密度为456g/m~2时,藻和对虾的特定生长率最高,分别为(1.63±0.04)%/d、(1.82±0.21)%/d;叶绿素荧光参数Fv/Fm和Y(Ⅱ)最高,分别为(0.61±0.00)μmol·m~(-2)·s~(-1)、(0.64±0.00)μmol·m~(-2)·s~(-1);NH_4~+-N、NO_2~--N和NO_3~--N浓度最低,较单养组分别降低27.7%、46.9%和45.1%。【结论】在零换水条件下,异枝江蓠混养密度为456 g/m~2时,更有利于藻体和凡纳滨对虾的生长,对水体中氮浓度的稳定效果最佳。     

TOXIC EFFECTS OF Zn~(2+), Cu~(2+), Cd~(2+)and NH_3 ON CfflNESE PRAWN

This study deals with the toxic effects of Zn2+, Cu2+, Cd2+ and NH3 on Chinese prawn (Penaeus orientalis). The median lethal concentrations of the toxic matters on Chinese prawn were determined. Cd2+>Cu2+>Zn2+>NH3-Nm is the toxic order of these chemicals to Chinese prawn. The toxic order of concentrated Zn2+ and Cd2+ in tissues and organs of Chinese prawn is in the order gill > shell + appendage>viscera > muscle..     

Effect of co-culture of Chinese shrimp (<Emphasis Type="Italic">Fenneropenaeus chinensis</Emphasis>) and sea cucumber (<Emphasis Type="Italic">Apostichopus japonicus</Emphasis> Selenka) on pond environment

Monoculture of sea cucumber (pond S) and polyculture of shrimp with sea cucumber (pond SS) were established to evaluate the effect of shrimp on the environmental conditions of sea cucumber farming pond. Contributions of sediment organic matter (SOM2) resuspended from benthic sediment and the suspended particulate organic matter (SPOM) deposited from the water column to the precipitated organic matter (SOM1) collected with sediment traps were estimated with carbon stable isotope analysis. The results showed that the levels of SPOM and SOM2 in pond SS significantly decreased in comparison with those in pond S at the end of experiment (P < 0.05), indicating that co-culturing shrimp in sea cucumber farming pond could purify the farming water. Carbon stable isotope analysis showed that the proportion of SOM2 in SOM1 in pond SS (84.97% ± 0.38%) was significantly lower than that in pond S (95.20% ± 0.30%) (P < 0.05), suggesting that the resuspension of organic matter from benthic sediment into overlying water was reduced in polyculture pond. In contrast, the proportion of SPOM in SOM1 in pond SS (15.03% ± 0.38%) was significantly higher than that in pond S (4.80% ± 0.30%) (P < 0.05), indicating that the sedimentation of SPOM from water column was enhanced in pond SS owing to the biodeposition effect of shrimp.     

ONTOGENIC STUDY OF ISOZYMES IN GIANT TIGER PRAWN,PENAEUS MONODON (CRUSTACEA:DECAPODA)

The patterns of isozyme variation throughout the life cycle of the giant tiger prawn, Penaeusmonodon were described for ten enzyme systems (G3PD, MDH, LGG, GPI, MPI, FBP, PGM, LDH,PGD, and PROT). The zymograms showh little variation in the number of isozymic loci expressed duringlarval development compared with results reported for other penaeid prawns. There were specific ontogenicpatterns at some loci. As larvae developed beyond the embryonic stage, there was tendency for intensityof staining and complexity of banding patterns to increase.     

Ecological effects of co-culturing sea cucumber Apostichopus japonicus (Selenka) with scallop Chlamys farreri in earthen ponds

Monthly changes in sedimentation and sediment properties were studied for three different culture treatments: sea cucumber monoculture (Mc), sea cucumber and scallop polyculture (Ps-c) and scallop monoculture (Ms). Results indicated that the survival rate of sea cucumber was significantly higher in Ps-c cultures than in Mc cultures. Sea cucumber yield was 69.6% higher in Ps-c culture than in Mc culture. No significant differences in body weight and scallop shell length were found between Ps-c and Ms cultures. The mean sedimentation rate of total particulate matter (TPM) was 72.2 g/(m2 d) in Ps-c cultures, with a maximum of 119.7 g/(m2 d), which was markedly higher than that of Mc (mean value). Sedimentation rates of organic matter (OM), total organic carbon (TOC), total nitrogen (TN) and total phosphorus (TP) in Ps-c cultures were also significantly higher than those in Mc cultures. TOC and TN contents of sediment increased rapidly in the first 5 months in Ms cultures and remained at a high level. TOC and TN contents in Mc and Ps-c cultures decreased during sea cucumber feeding seasons and increased during sea cucumber dormancy periods (summer and winter). The study demonstrates that co-culture of sea cucumber and scallop in earthen ponds is an alternative way to alleviate nutrient loads and improve water quality in coastal aquaculture systems. Moreover, it provides the additional benefit of an increased sea cucumber yield.     

墨吉对虾体长与体重关系的计算及其在生产中的应用

本文研究墨吉对虾(Penaeus merguiensis)体长(L)与体重(W)的关系,经回归分析得其关系式。根据此关系式计算得体长和体重换算表,对指导生产具有现实意义。     

Heavy metal concentration and its evaluation in the organisms from Meizhou Bay

The present paper reports Zn,Cu,Pb,Cd,Ni,Fe,Mn and Co contents in the tissues of oyster,solen,red-tail prawn,sea eel and kelp,taken from Meizhou Bay(and analysed by flame atomicabsorption spectrophotometry after wet digestion)in June 1992,and also the concentration factors esti-mated from the mean metal concentrations in the organisms and water there.Heavy metal concentrationsin every species of the organisms followed the pattern:Fe,Mn,Cu,Zn>Pb,Cd,Ni,Co and in variousorganisms showed considerable variation.In general,levels of most of these metals were in the order:softtissues of the bivalves>the kelp>muscles of the red-tail prawn,the sea eel.The greatest concentrationof most metals was found in the gill or viscera of the sea eel,whereas the muscle tissues,in general,con-tained only low concentrations of them.The Cu,Zn concentration factors of the oyster were higher by1—2 orders of magnitude than that of the other organisms.The observed heavy metal levels were closeto those reported from various waters     

COMPARATIVE STUDIES ON NITROGEN BUDGETS OF CLOSED SHRIMP POLYCULTURE SYSTEMS＂

April to October, 1997 comparative studios on the nitrogen budgets of closed shrimp polyculture systems showed that, in all the studied polyculture systems, nitrogen from feeds and fertilizers were the main input items, which comprised 70.7% - 83.9% of the total input nitrogen, 3.2% - 7.4% of which was provided by nitrogen fixation. It was in monoculture enclosures (Y-4, Y-11 and Y-12) that the percentage reached the maximum value. The output nitrogen in harvested products comprised 10.8% - 24.6% of total input nitrogen, and the highest percentage, 24.6%, was found in shrimp-fish-tagelus polyculture systems. In shrimp monoculture and shrimp-fish polyculture systems, they were 19.1% and 21.9%, respectively. The nitrogen utilization efficiency was different and varied from 12.2% to 20.1%. The highest, 20.1%, was found in shrimp-fish-tagelus polycultttre systems, and the average of 20.0% was found in shrimp-tagelus polyculture systems. The lowest, 12.2%, was found in shrimp monoculture systems.All the nitrogen utilization efficiencies in shrimp-fish systems or shrimp-scallop systems seemed to be higher than that of the monoculture system, but they showed little statistical difference. The main outputs of nitrngen were found in sediment mud, and comprised 48.2% -60.8% of the total input, the lowest percentage was found in shrimp-fish-tagelus polyculture systems, and the highost percentage in shrimp-scallop systems.During the experiment, nitrogen lost through denitrification and ammonia volatilization comprised 1.9% - 6.2%, averaged 2.8%, of the total input, and the loss through seepage comprised 5.9% - 8.9% of the total.The estimated nitrogen attached to the enclosure wall comprised 3.7% - 13.3% of the total, and was highest in shrimp monoculture systems. Compared with the classic shrimp farming industry, the closed shrimp polycul-ture systems may improve the nitrogen utilization efficiency, and hence reduce the environmental impacts on coastal waters. The nitrogen discharging rates for all the studied polyculture systems ranged from 3.0% to 6.0% of total input nitrogen.