共查询到20条相似文献,搜索用时 171 毫秒
1.
壬基酚(NP)对罗氏沼虾幼虾生长和性别分化的影响 总被引:4,自引:0,他引:4
采用外部形态观察和性腺组织学连续切片方法,确定罗氏沼虾幼虾的性别分化时期,并探讨壬基酚(NP)对罗氏沼虾幼虾(体长约1.5 cm)生长和性别分化的影响。结果表明,罗氏沼虾仔虾后15 d出现生殖原基;仔虾后24 d,部分仔虾第四至第五步足基部明显凹陷,腹甲出现皱折和突起,并出现生殖管;仔虾后45 d,部分仔虾第二游泳足内侧出现雄性附肢,性腺明显区分为精巢和卵巢。处理时间短于15 d,NP对罗氏沼虾幼虾生长无显著影响;但处理超过20 d,NP以明显的剂量依存关系显著抑制罗氏沼虾体长和体重(P<0.05)。实验结束时(30 d),对照组个体均已完成性别分化,精巢和卵巢内分别出现大量精原细胞和卵原细胞,但NP处理组无法鉴定性别的幼虾比例随NP剂量增加而增加。研究表明,罗氏沼虾幼虾外部性征出现略早于内部性征的分化,早期性别分化发生在仔虾变态后21~45 d;此外,NP可能通过干扰蜕皮及卵黄蛋白原合成从而抑制罗氏沼虾幼虾生长和精巢发育。 相似文献
2.
为了解池塘养殖条件下罗氏沼虾雌、雄虾的生长差异,于2016年5月至10月定期测量池塘精养条件下罗氏沼虾的体长、体质量,期间采集样品1 040尾,对雌、雄罗氏沼虾的生长特性进行了研究。结果表明,罗氏沼虾的体长和体质量呈幂函数相关,其回归方程为:雌虾W=8×10~(-6)L~(3.262 4),(R~2=0.995 6,N=544);雄虾W=6×10~(-6)L~(3.320 8),(R~2=0.996 3,N=496)。应用Von Bertalanffy生长方程拟合罗氏沼虾雌、雄虾体长和体质量的生长过程,结果显示,雌、雄虾的渐近体长分别为103.05 mm和136.93 mm,渐近体质量分别为29.54 g和74.65 g。雌虾的生长拐点年龄为111.16 d,拐点体质量8.95 g;雄虾的生长拐点年龄为163.70 d,拐点体质量22.71 g。罗氏沼虾性成熟后,其雄性的个体显著大于雌性个体,可利用这一特性开展罗氏沼虾全雄性养殖,以获得更高的经济效益。 相似文献
3.
将罗氏沼虾、尼罗罗非鱼单养与混养进行了生长比较,每种养殖方式设3个重要。单养罗氏沼尾虾放养密度为7只/m^2,单养尼罗罗非鱼放养密度1尾/m^2。混养密度为罗氏沼虾7只/m^2和罗非鱼1尾/m^2。罗氏沼虾放养规格为1~1.3g/尾,尼罗罗非鱼放养规格7~8g/尾,养殖5个月捕获。结果表明:罗非鱼单养和混养产量与平均个体重无显著性差异,总产量分别为2952kg/hm^2和2779kg/hm^2,平均个体重分别为350g/尾和334g/尾。罗氏沼虾单养与混养产量分别为1377kg/hm^2和961kg/hm^2,平均个体重分别为56g/只和32g/只。鱼虾混养总产量为3730kg/hm^2,比单养鱼或虾增产。 相似文献
4.
将罗氏沼虾成虾浸浴于含三丁基锡(Tributyltin, TBT) (0.1、0.2、0.4mg/L)的水体中,研究TBT对其肝胰脏和性腺中卵黄蛋白原(VTG)表达和性腺发育的影响。结果表明,罗氏沼虾在TBT中浸浴10d,TBT能够诱导雌虾的肝胰腺VTG基因表达,而对卵巢VTG基因的表达则表现为抑制作用;TBT对雄虾的肝胰腺VTG基因表达有抑制作用,而对精巢VTG基因的表达无明显影响。性腺组织切片显示,TBT浸浴能够促进罗氏沼虾精巢的发育,且随浸浴剂量的增加对精巢发育的促进作用逐步增强,但TBT对罗氏沼虾卵巢发育无明显影响。 相似文献
5.
6.
在罗氏沼虾养殖过程中,普遍存在性早熟问题,很多体长在5~6cm的雌虾抱卵腔内已充满了卵。关于罗氏沼虾性早熟问题,一般认为是由以下两个原因造成的:(1)有效积温过高:在现行的池塘养殖过程中,由于水体较小,水位较低,水温的回升比河道、水库要快得多,而且罗氏沼虾的养殖一般都在高温季节,水温长时间过高,加速了罗氏沼虾的性腺发育,从而产生了性早熟现象;(2)营养过剩:营养过剩主要是指蛋白质过剩。在罗氏沼虾养殖过程中,所投喂的饵料几乎全部是高品质的商品饲料。投喂过多过精的商品饲料,一方面加速了罗氏沼虾的生长,另一方面… 相似文献
7.
8.
本文报导了7月底育成的0.7~0.9厘米罗氏沼虾苗,每平方米放养25尾左右,与鱼混养,经104天的饲养,达到了每公顷产罗氏沼虾1528公斤和鱼种2661公斤。平均每公顷经济效益达31315.5元,投入产出比为1:1.82。罗氏沼虾的成活率为67.9%。平均规格为9.1克/尾,雄虾最大个体重达24克,雌虾达15.8克。85%的虾体长在7~9.7厘米。文章还讨论了进一步提高规格和产量的可能性。 相似文献
9.
将单口面积1.33~2.33hm~2、环境相似的6口罗氏沼虾养殖池塘分为2组,3口池塘投喂蛋白质水平为35.4%的饲料,且每日适量泼洒糖蜜(试验组),3口池塘投喂蛋白质水平为41.9%的饲料,不泼洒糖蜜(对照组),常规管理。养殖期间,每隔15d取水样检测氨氮和亚硝态氮含量。156d的饲养结果表明,对照组和试验组罗氏沼虾的产量分别为6600kg/hm~2和6427.5kg/hm~2,降低饲料中的蛋白水平结合泼洒糖蜜不影响罗氏沼虾的生长(P0.05),养殖效益亦无显著差异(P0.05)。但试验组池塘水中氨氮较对照组低54.0%,亚硝态氮低21.0%,泼洒糖蜜显著降低了池塘氨氮和亚硝态氮含量(P0.05)。 相似文献
10.
11.
Maria Lourdes A Cuvin-Aralar Emiliano V Aralar Manuel Laron & Westley Rosario 《Aquaculture Research》2007,38(3):288-294
Macrobrachium rosenbergii (de Man 1879) juveniles (0.4 g) were cultured in experimental cages (L × W × H: 2.5 × 1 × 1 m) in Laguna de Bay, the largest lake in the Philippines. The following stocking densities at four replicates each were used: 15, 30, 60 and 90 prawns m−2 of cage bottom. The mean sizes at harvest after 5 months of culture ranged from 14.3 g for the highest stocking density to 26.3 g for the lowest. The mean size at harvest, daily growth rate and size class distribution were significantly influenced by stocking density, with those at the lowest stocking density showing significantly better growth and overall proportion of larger prawns. Heterogeneous individual growth (HIG) was fairly evident in all treatments. The percentage of blue‐clawed males was not influenced by treatment but the mean weight was significantly higher in the lower stocking densities. Both the percentage and mean weight of berried females were significantly higher in the lowest stocking density. Survival was the highest in the lower stocking densities (55.3%, 54.0%, 52.7% and 36.9% for 15, 30, 60 and 90 prawns m−2 respectively). Feed conversion ratio (FCR) improved with decreasing stocking density, ranging from 2.1 to 3. As expected, yield per cropping increased with stocking density and ranged from 450 to 1089 g m−2 yr−1 of actual cage area. Production values obtained in the cage cultured M. rosenbergii were comparable to or even higher than those reported from pond culture, given that the stocking densities used in this study were generally higher than in ponds. The results show that the farming of M. rosenbergii in cages in lakes is a viable alternative to pond culture and has the potential of improve aquaculture production in lakeshore fish farming communities. 相似文献
12.
An energetic method was used to investigate the effects of stocking density and dissolved oxygen (DO) concentration on the growth of juvenile Paralichthys olivaceus. Fish, with initial weights of 14±2.1 g, were exposed to a normal and a high DO of 5.5±0.5 and 14±2 mg L?1, as well as four stocking densities per DO concentration (100, 200, 300 and 400 ind m?2 for the normal DO and 200, 400, 600 and 800 ind m?2 for the high DO). The feed efficiency (FEW) decreased significantly with increasing stocking density and increased significantly with increasing DO concentration. The maximum weight was achieved at 400 ind m?2 under a high DO depending on our rearing conditions. The stocking density and DO concentration change energy ingestion and its allocation for respiration, growth and excretion lost in nitrogen excretion, but do not affect the energy loss through faeces. The results of the body composition of fish indicated that the stocking density and DO concentration had no significant effects on the moisture, lipid content and gross energy, but are affected by the same. Energetic analysis demonstrated that high DO concentrations could alleviate the growth depression caused by high stocking densities, decrease energy loss in respiration and nitrogen excretion and increase the energy proportion allocated to growth. 相似文献
13.
通过分析凡纳滨对虾单养及其与泥蚶混养实验的沉积物的理化特性、小型底栖动物种类组成及其生物量的变化,研究贝类对对虾池中小型底栖动物的影响。实验中对虾放养密度均为17×10~4个/hm~2,泥蚶密度分别为0粒/m~2(S)、60粒/m~2(SC1)、120粒个/m~2(SC2)和180粒/m~2(SC3)。结果显示,随养殖时间增加:(1)沉积物中有机物含量呈上升趋势,pH与氧化还原电位逐渐下降;随贝类放养密度增加,底质环境恶化程度趋缓;(2)小型底栖动物的丰度和生物量呈下降趋势,随着贝类放养密度增加,小型底栖动物的群落结构变化逐渐减少;(3)回归分析表明,介形类与线虫比值与对虾产量呈较好的相关性,一定密度贝类混养有利于底泥中介形类与线虫比值的提高,初步结果为养殖过程中该比值平均要达到6,单次值不低于3.5。研究表明,对虾与泥蚶混养有利于底质的改善和小型底栖动物的生长,较高密度的泥蚶(80~140个/m~2)有明显净化底质的作用。 相似文献
14.
本研究尝试将生物絮团养殖技术(Bio-floc aquaculture technology, BFA)应用到凡纳滨对虾高密度养殖系统中,研究生物絮团在凡纳滨对虾不同放苗密度下的水质调控、对虾生长及存活等方面的作用效果。试验将200、400和600尾/m2的放苗密度分为传统养殖组(TF200、TF400和TF600)和絮团养殖组(BFA)(BF200、BF400和BF600)共6组,分别在18个室内水泥池中进行,其中BFA组通过添加益生菌和赤砂糖培养生物絮团,并在养殖过程中极少换水,而传统养殖组进行传统换水养殖管理。经过113d的养殖试验,随着放苗密度的增加,水质、对虾存活率和对虾特定增长率逐步下降,然而BFA在400尾/m2的凡纳滨对虾封闭式养殖中有良好效果。与400尾/m2的传统养殖组(TF400)相比,400尾/m2的BFA组(BF400)在养殖过程中生物絮团平均形成量提升3.25倍;水体中的亚硝酸氮和氨氮平均含量分别降低67.9%和72.7%,而用水量只有传统养殖组的33%左右;对虾的体重、存活率、特定生长率及单位产量分别提高了14.5%、156.3%、2.4%和194.1%;400 尾/m2的BFA组对虾单位产量达到4.01±0.94 kg/m2,具有最好的环境和产出效应。 相似文献
15.
在35口面积均为30 m2的室内水泥池中,分7种规格、11个不同养殖密度组,共投放45.7万粒方斑东风螺苗进行养殖试验。经过151~216 d的养殖,共获商品螺2574.9 kg,平均单产2.5 kg/m2,平均规格146粒/kg(115~192粒/kg),成活率82.2%(48.4%~97.8%),饵料系数2.6。苗种规格为870~9200粒/kg的成活率较高且稳定,成活率超过86.5%,规格大于12170粒/kg的成活率明显下降,23400粒/kg的成活率仅为48.4%;投放密度为185.6~868.2粒/m2时,密度对养殖成活率影响不明显,但对养成规格影响较大,养殖密度超过542.6粒/m2时,生长速度明显下降。 相似文献
16.
Eduard M Rodriguez Fe D Parado-Estepa & Emilia T Quinitio 《Aquaculture Research》2007,38(14):1588-1592
To address the preference of mud crab farmers for larger size Scylla serrata juveniles (5.0–10 g body weight or BW; 3.0–5.0 cm internal carapace width or ICW), a study was conducted to compare the growth and survival of crab juveniles (2.0–5.0 g BW; 1.0–3.0 cm ICW) produced a month after stocking of megalopae in net cages when reared further in net cages installed in earthen ponds or when stocked directly in earthen ponds. In a 3 × 2 factorial experiment, three stocking densities (1, 3 and 5 ind m−2), two types of rearing units (net cages or earthen pond) were used. Megalopae were grown to juvenile stage for 30 days in net cages set inside a 4000 m2 brackishwater pond and fed brown mussel (Modiolus metcalfei). Crab juveniles were then transferred to either net cages (mesh size of 1.0 mm) or earthen ponds at three stocking densities. After 1 month, no interaction between stocking density and rearing unit was detected so data were pooled for each stocking density and rearing unit. There were no significant differences in the growth or survival rate of crab juveniles across stocking density treatments. Regardless of stocking density, survival in net cages was higher (77.11±6.62%) than in ponds (40.41±3.59%). Growth, however, was significantly higher for crab juveniles reared in earthen ponds. The range of mean BW of 10.5–16.0 g and an ICW of 3.78–4.33 cm obtained are within the size range preferred by mud crab operators for stocking grow‐out ponds. 相似文献
17.
Does space matter? Optimizing stocking density of Holothuria arguinensis and Holothuria mammata 
下载免费PDF全文
下载免费PDF全文 Stocking density is an important factor affecting growth in aquaculture. The main objectives of this study are to evaluate the effects of different stocking densities on Holothuria arguinensis and Holothuria mammata's growth and determine the optimal density. Four different stocking densities were selected for H. arguinensis (1, 3, 5 and 7 ind/0.2 m2) and three for H. mammata (6, 10 and 12 ind/0.5 m2). Growth (specific growth rate (SGR) and growth rate (GR)), weight change, coefficient of variation and productivity were estimated, additionally the feeding rate on H. mammata. Growth on H. arguinensis decreased as the stocking density increased, showing the higher growth at the stocking density of 1 ind/0.2 m2 (SGR: 1.24%/day ± 0.16 and GR: 0.94 g/day ± 0.05), with a 104.65% (±9.98) of weight change. The best H. mammata growth was registered at 10 ind/m2 (SGR: 0.56% ± 0.04%/day and GR: 0.48 ± 0.04 g/day) and 25.48% (±1.52) of weight change. H. mammata feeding rate decreased as stocking density increased. Crowding stress could be considered the main factor affecting the sea cucumbers growth and performance on our study. The optimal stocking density for H. arguinensis and H. mammata under tank‐based conditions were established as 1 ind/0.2 m2 and 5 ind/0.5 m2 respectively. The critic biomass for H. arguinensis (471.65 g/m2) and for H. mammata (988.11 g/m2) were reached during the experiment at the fourth and fifth weeks respectively. Therefore, to ensure and increase growth of these species under tank, their biomass should be maintained under those thresholds. 相似文献
18.
本文主要研究密度对网箱养殖硬头鳟Oncorhynchus mykiss存活和生长的影响。在水温8.2~19.1℃下,将体质量1.02 kg的硬头鳟鱼种养殖在5m×10m×6m网箱中,网箱放置在松花江上游的松山水库中,密度分别为5尾/m~2(Ⅰ组)、8尾/m~2(Ⅱ组)、11尾/m~2(Ⅲ组)和14尾/m~2(Ⅳ组),投喂粗蛋白含量为42%、粗脂肪22%的颗粒饲料,常规养殖。145d的养殖表明:网箱养殖的放养密度对硬头鳟的生长有一定影响。第Ⅳ组鱼的存活率显著低于其他3组(P0.05);放养密度为5~11尾/m~2时硬头鳟的生长与密度呈正相关,大于此密度范围则呈负相关。第Ⅲ组鱼的终末体质量、日增重、增重率、利润和利润率显著高于其余3组(P0.05);4个密度组硬头鳟的产量随放养密度增加而递增。本试验表明:网箱养殖硬头鳟的放养密度为11尾/m~2较适宜。 相似文献
19.
To investigate the influence of stocking density on the growth and non‐specific immune responses of juvenile soft‐shelled turtle, Pelodiscus sinensis, three groups of turtles (initial body weight 74.2±12.2 g) were reared in 80 cm (L) × 40 cm (W) × 30 cm (H) tanks for 35 days at three stocking densities (StD), which were 1 individuals (ind.) tank−1 (3.13 ind m−2) for D1, 4 ind. tank−1 (12.5 ind m−2) for D2 and 6 ind. tank−1 (18.75 ind m−2) for D3 respectively. D1 was the control group. Turtles were weighted individually at the beginning and at the end of the trial. At the end of the rearing trial, non‐specific immune parameters were determined. The results showed that the heterophil:lymphocyte ratio (HLR) increased and the total plasma protein decreased with increasing StD, suggesting a stress response. Specific growth rate (SGR) significantly decreased with increasing StD. Non‐specific immune indicators such as blood cell phagocytic activity, serum haemolytic activity and serum bacteriolytic activity increased clearly at a higher StD, indicating a pattern of immunoenhancement. The results indicated that at StDs of 4 and 6 ind. tank−1, non‐specific immune responses were not suppressed compared with the control, but were inversely enhanced at the cost of growth reduction. A possible energy‐based trade‐off between growth and constitutive immunity may exist in soft‐shelled turtles. 相似文献
20.
通过测定凡纳滨对虾(Litopenaeus vannamei)生长性能和监测池塘水质变化,研究分段养殖模式在对虾养殖过程中的应用价值.养殖实验在6口池塘内(0.267 hm2/口)进行,首先在其中2口池塘内进行对虾的中间培育,养殖密度为300×104尾/hm2.经过36 d和48 d的中间培育后,将对虾先后转移到其他4口池塘内,养殖密度为60×104尾/hm2,分别记为T1和T2组.剩余的对虾继续养殖在中间培育池塘内,记为C组.结果显示,经过分段养殖的T1和T2组对虾,在分池养殖阶段7d内,生长速度均明显增加,其特定生长率(SGR)分别达到9.36 %/d和6.76 %/d;养殖期间,T1组具有最大的SGR (9.36 %/d)和饲料投喂量,然而其饲料系数(FCR) (1.053)高于T2组(0.822);经过分段养殖的对虾FCR均低于C组(1.082).在分池养殖阶段的大部分时间,T2组对虾的SGR高于T1组;C组NH4+-N、NO2-N和Chl-a浓度低于T1组和T2组,而颗粒物含量(TPM)和总磷(TP)高于T1组和T2组;T2组Chl-a含量明显高于T1组和C组.结果显示,经过48 d中间培育后,即对虾体重约为2 g时进行分池养殖仍可保证对虾在较长时间内保持较大的生长速度,对于饲料的节约具有重要意义.由于分池养殖阶段具有较多的饲料投喂,经过36 d中间培育后的对虾具有最大产量.分池养殖池塘内饲料投喂少于全期养殖,有利于养殖系统的稳定,然而单位时间内投喂量增加则会影响水质.分段养殖模式在提高分池养殖阶段对虾的生长速度和保持水质稳定方面具有重要的应用价值. 相似文献