共查询到18条相似文献,搜索用时 125 毫秒
1.
2.
为了解黑壳和黄壳福寿螺免疫功能的差异,本实验研究了氯硝柳胺对两种壳色福寿螺的急性毒性效应,并对四川地区黑壳福寿螺和黄壳福寿螺血细胞酸性磷酸酶(ACP)、碱性磷酸酶(AKP)、过氧化物酶(POX)、中性红(NRD)、脂类(PAS)和糖原(SBB)细胞化学染色的观察及中性红试验(NRRT)的差异进行了比较。结果显示,黑壳福寿螺对氯硝柳胺24 h和48 h的半致死浓度分别为0.77 mg/L和0.46 mg/L,均高于黄壳福寿螺。透明细胞和颗粒细胞的细胞化学染色阳性主要分布在细胞质,且颗粒细胞中的颗粒物质呈强烈阳性;黑壳福寿螺ACP、AKP、POX阳性比例均大于黄壳福寿螺,且前者AKP和POX阳性细胞比例显著大于后者,NRD和SBB着染程度和阳性比例均无显著差异,黑壳福寿螺PAS着染程度更为强烈。NRRT实验发现,黑壳福寿螺血细胞的中性红滞留时间(9.15 min)是黄壳福寿螺的1.8倍。研究表明,黑壳福寿螺对氯硝柳胺死亡率及血细胞AKP、POX、糖原成分及中性红滞留时间是影响其与黄壳福寿螺免疫功能差异的重要因素。 相似文献
3.
4.
福寿螺(Ampullaria gigas Spix)又名苹果螺、大瓶螺,原产于南美洲亚马逊河流域,从古巴引进我国,是淡水螺类中养殖个体最大的优良品种。它具有生命力强、繁殖率高、生长快、个体大、能适应多种水环境等特点。福寿螺壳薄,螺肉营养丰富,可食部分占体重的38%,不仅符合我国传统的饮食习惯,且可作为养殖河蟹、虾类、黄鳝、甲鱼、乌龟等特种水产品的优质饵料,具有较高经济价值。1生物学特性1.1 形态特征 螺体多呈深黄褐色,贝壳大,壳薄脆易破。壳右旋,螺旋部不发达,螺层一般为6层。螺口为卵圆形,覆有角质(?)保护。头部与腹足能仰出壳外游动觅食,头部具 相似文献
5.
6.
7.
8.
波部东风螺(Bahylonia formosae habei),隶属于软体动物门,腹足纲,蛾螺科东风螺属,本地俗称黄螺,主要分布于我国的热带、亚热带浅海区域,是国内近年来新兴的一个养殖品种。南于螺肉味鲜美,风味独特,营养高,广为人们喜爱。近几年来各地区滥采严重,东风螺资源不断衰减,市场供不应求。 相似文献
9.
10.
为更深入了解福寿螺暴发的生态学机制,研究了温度(白天30℃、夜晚28℃)、相对湿度为70%~80%的条件下福寿螺(Pomacea canaliculata)实验种群的繁殖情况,组建了相应的生殖力生命表,并计算了种群动态的相关参数。结果表明,在排除外界作用因子的条件下,福寿螺实验种群的内禀增长率(rm)为0.0617,周限增长率(λ)为1.0566,净增殖率(R0)237.5302,世代平均历期(T)为99.4190d,种群倍增的时间(t)为12.5975d。在种群的理论年龄组配中,未成熟期(卵、幼螺)占8 相似文献
11.
Gunzo Kawamura Annita Seok Kian Yong Jian Shen Wong Audrey Daning Tuzan Leong‐Seng Lim 《Aquaculture Research》2020,51(9):3711-3717
The giant freshwater prawn Macrobrachium rosenbergii larvae have apposition eyes and are positively phototactic, whereas the postlarvae (PL) have superposition eyes and are negatively phototactic. M. rosenbergii has colour vision as early as larval stage. We discovered that M. rosenbergii alters background colour preference after metamorphosis from larvae to PL in association with nature of phototaxis. The test circular glass aquaria covered with a pair of two‐colour papers contained with a group of 100 larvae or 20 Pl, and the number of individuals in each colour background was recorded five times for each colour pair. The background colours tested were light blue, green, yellow, red, white and black. The numbers of larvae or PL in each colour background of different pairs were analysed by the Thurstone's law of comparative judgment. In the larvae, significant bias towards yellow was evident. In the PL, of the four pairings of black with other colours, all biased to black. The mean z‐scores were highest for yellow in the larvae, and for black in the PL. To determine the possible background brightness preference of the larvae and PL, six different colour backgrounds were presented in pairs. The larvae significantly preferred light blue over dark blue, white over yellow and white over black. The PL exhibited reversed preference. The relationship between z‐scores and light reflectance levels of five colour papers was significantly positive in the larvae and negative in the PL. The observed background colour preference was probably due to relative brightness rather than chromaticity difference. 相似文献
12.
容器颜色对漠斑牙鲆白化率和成活率的影响 总被引:1,自引:0,他引:1
本文就培养容器的颜色对漠斑牙鲆稚鱼的白化率和生长率的影响进行初步研究。结果表明:用深蓝色和黑色等深色容器培养的稚鱼白化率显著低于白色和黄色等浅色容器(p<0.05),黑色、深蓝色、黄色和白色4个组别(N=100)的白化率分别为20.8%、14.4%、57.6%和86.6%;白色最高为86.6%,深蓝色最低为14.4%;而用不同颜色的容器培养漠斑牙鲆的稚幼鱼,对其成活率影响不大(p>0.05),黑色、深蓝色、黄色和白色4个组别的成活率分别为96.0%、90.0%、82.5%、93.0%;白化稚幼鱼的生长发育并无异常。 相似文献
13.
为探究溪流性鱼类光唇鱼(Acrossocheilus fasciatus)对光色的偏好是否存在性别差异, 以及芳香化酶作为催化睾酮(T)向雌二醇(estradiol, E2)转化的限速酶在行为调节中的关键角色, 本研究采用行为学方法研究了雌鱼和雄鱼对 6 种单色 LED 光源的选择偏好, 并尝试利用药物抑制体内芳香化酶活力从而改变血浆性激素水平和鱼的行为表现。结果表明, 雌鱼和雄鱼分别相对偏好红光(峰值为 637 nm)和黄光(590 nm), 两者均相对排斥蓝光(465 nm)、 紫光(405 nm)以及含有蓝光波段的白光(447 nm), 而对绿光(518 nm)的偏好不明显。摄食含有芳香化酶抑制剂来曲唑(letrozole, LZ)的实验饲料 10 d 后, 雌性和雄性光唇鱼脑和性腺组织内芳香化酶活力和血浆 E2 水平均显著下降, 但血浆 T 水平无显著变化。值得注意的是, LZ 也导致处理鱼对光色选择偏好的改变, 雌鱼转为相对偏好蓝光, 雄鱼转为相对偏好红光。然而, 摄入含 LZ+E2 实验饲料后除芳香化酶活力降低外, T、E2 两种性激素水平和光色偏好行为表现均未出现明显变化。因此推测光唇鱼对光色偏好的性别差异极可能与体内芳香化酶活力和雌二醇水平的性别差异有关, 而与睾酮水平无明显关联。 相似文献
14.
采用形态学分析(壳长、壳宽和壳高)和分子标记技术(细胞色素氧化酶Ⅰ基因,COⅠ)对洪泽湖河蚬(Corbicula fluminea)黄色和黑色2个群体的形态和遗传多样性特征进行研究.形态参数统计分析结果显示,2个群体的形态特征之间有显著性差异.经PCR扩增和序列测定,获得614 bp COⅠ基因序列,2个群体的COⅠ基因序列的碱基组成高度一致,均表现出A+T的含量(64.8%)明显高于G+C的含量(35.2%).28个黑色个体发现7种单倍型,单倍型多样性和核苷酸多样性分别为0.794和0.04274;30个黄色个体发现5种单倍型,单倍型多样性和核苷酸多样性分别为0.607和0.02825.单倍型之间的遗传距离在0.002-0.091之间,其NJ和MP系统发生树表明,COⅠ基因单倍型聚为2个明显分支.分子方差分析(AMOVA)结果显示,Fst=0.21736 (P<0.01),21.74%的变异来自群体间,78.26%的变异来自群体内,2个群体之间有显著的遗传分化.研究表明,应将洪泽湖河蚬黑色和黄色群体分别作为独立单元进行管理和保护. 相似文献
15.
为研究船闸过鱼技术,利用自制的葛州坝船闸模型装置研究了鳙(Aristichthys nobilis)对红、白、蓝、绿、黄5种光色和光强的选择性。鳙在红、蓝、绿、黄、白色光5个区域中出现的次数比例分别是(68.01±7.09)%、(3.24±2.04)%、(5.70±4.28)%、(7.76±2.19)%和(15.30±2.83)%,鳙表现出偏好红色光。在红色光区域,鳙出现次数比例随时间先减小后增大,在第60 min时出现最小值(46.17%),整个试验过程变化显著,变化值28.16%;在白色光区域,鳙出现次数比先增大后减小,最大值达28.83%,变化值16.83%;黄、绿色光2个区域鳙出现次数比随时间无明显变化,变化值4.66%;蓝色光区域鳙出现次数比呈上下波动趋势,但总体平稳,变化值为11.35%。鳙对绿色光、黄色光表现出明显的负趋光性,对红色光表现出正趋光性。鳙平均出现次数比与时间的关系:红色光下,在强光区随时间呈下降趋势,在暗区变化趋势与强光区相反;绿色光下,只有暗区总体呈下降趋势但变化不显著,其他区域基本不变;蓝色光下,在所有区域均表现出上下波动、整体平稳的变化趋势;黄色光下,在暗区先增大后减小,亮区和强光区均呈先减小后增大趋势;白色光下,在暗区先减小后增大,而强光区先增大后减小,亮区无显著变化。 相似文献
16.
为了解色素控制基因与体色分布的关系,实验用分子克隆技术得到了锦鲤酪氨酸酶(tyrosinase, Tyr) cDNA 基因序列, 并利用半定量PCR的方法分析了酪氨酸酶基因在锦鲤不同品系和组织中的表达差异。实验得到了长约1 779 bp锦鲤酪氨酸酶cDNA基因, 其包括长1 608 bp开放阅读框, 编码535个氨基酸。cDNA、蛋白水平序列分析和系统发育分析都表明酪氨酸酶在鱼类间的保守性要高于鱼类与其他脊椎动物间的保守性。半定量分析研究显示,酪氨酸酶基因在皮肤、肝、心、脑和眼中都有表达, 其中眼部和黑色皮肤表达最高, 其次是脑, 红色和黄色皮肤, 肝和心的表达最低。不同品系同组织间眼、肝、心、脑的酪氨酸酶基因表达差异不显著, 但是在皮肤中有差异表达, 黑色皮肤表达最高, 其次是红色和黄色皮肤, 在白色皮肤中也有少量表达。酪氨酸酶基因在非黑色组织中有较高表达可能与存在多种形式酪氨酸酶有关, 也有可能非黑色素细胞能转化为黑色素细胞。 相似文献
17.
The effects of aquarium background colour and feed colour on survival, growth rates and feed utilization efficiency of thinlip mullet (Liza ramada) larvae (0.035 g) were investigated in two experiments. In the aquarium background colour trial, 50 larvae were stocked in duplicates in 120 L glass aquaria filled with dechlorinated tap water. The outside walls and bottoms of each pair of the aquaria were covered with coloured paper sheets to achieve one of six colours (white, black, red, green, yellow and blue), while noncoloured aquaria served as a control. The fish were fed an experimental diet (35% crude protein) at a daily rate of 5% of their body weight (BW), twice a day for 8 weeks. The best growth rates, feed efficiency and survival were achieved in larvae reared in light‐coloured aquaria (white, noncoloured and yellow). Fish performance was significantly retarded in larvae reared in dark‐coloured aquaria (red, green, black and blue). Body composition was not significantly affected by aquarium colour. In a feed colour trial, duplicate groups of larvae (0.035 g) were stocked at 50 fish per 120 L aquarium and fed a test diet (35% crude protein) with six different colours [dark blue, red, yellow, light brown (control), light green and dark brown] at a daily rate of 5% BW, twice a day for 8 weeks. The best performance and survival were achieved in fish fed on dark‐coloured diets (red, dark blue and dark brown). Light‐coloured diets (yellow, light green and light brown) resulted in inferior performance. Body composition was not significantly affected by feed colour. These results suggest that light‐coloured tanks should be used for rearing thinlip mullet, L. ramada larvae, while dark‐coloured diets are more preferable to light‐coloured diets. 相似文献