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1.
Ana Lúcia Kalinin Francisco Tadeu Rantin Mogens Lesner Glass 《Fish physiology and biochemistry》1993,12(1):47-51
Oxygen uptake and ventilatory responses to environmental hypoxia were assessed for two groups of Hoplias malabaricus of nearly tenfold different body weights (mean weights, group I = 39 g; group II = 365 g). The main purpose of the study
was to evaluate the relationships between body weight and the critical O2 tension (PCO2) for maintenance of normal resting O2 uptake. The smaller specimens had a threefold larger weight-specific O2 uptake compared to that of the larger specimens. Moreover, smaller size coincided with a higher PCO2, i.e., a more limited range for maintenance of O2 uptake during hypoxia. Likewise, at any inspired PO2 the weight-specific gill ventilation was largest for group I. This was most pronounced during severe hypoxia where both tidal
volume and respiratory frequency increased markedly. In addition, the oxygen cost of breathing tended to be highest in the
smaller individuals. The results open questions as to correlations between development, weight-dependent O2 demands, and tolerance to hypoxia on an intraspecific level. 相似文献
2.
Gill respiratory surface area and oxygen consumption during aquatic respiration were measured in the facultative air-breathing loricariid fish,Hypostomus plecostomus. The fish did not surface to breathe atmospheric air in normoxic water; air-breathing was evoked by environmental hypoxia (water oxygen tension=35±2, mmHg) and did not show size-related threshold differences for air breathing.During gradual hypoxia, without access to atmospheric, air,H. plecostomus was found to be an oxyregulator and showed a reduced range of water oxygen tension in which the oxygen consumption remained constant in smaller fish. The critical oxygen tensions were 55 and 33 mmHg at 25°C for fish of 14–30 g and 31–80g body weight, respectively.The gill respiratory surface area (total lamellae area) is reduced, however, the lamellar frequency per mm of gill filament is high which facilitates the gas exchange. Moreover, the increase of gill respiratory surface area (b=0.666) is higher than the increase in routine VO2 (b=0.338) showing a positive relationship between the gill respiratory surface area /VO2 ratio and body mass (b=0.328); this indicates that the fish have greater gill respiratory surface area per unit of routine VO2 as they grow. 相似文献
3.
为了探讨急性氨氮胁迫对黄颡鱼组织中抗氧化酶活性及HSP70和HSP90基因mRNA表达水平的影响,实验随机挑选了360尾黄颡鱼[初体质量(17.25±0.05)g],分别暴露于含有0(对照)、5.70(低浓度组)、28.50(中浓度组)和57.00(高浓度组)mg/L总氨氮浓度的水体中,进行96 h的急性胁迫实验。实验开始后,分别于0、12、24、48和96 h取样。结果显示,氨氮胁迫发生后,低、中浓度组实验鱼肝脏中超氧化物歧化酶(SOD)活性呈先升高后降低趋势,而高浓度组则持续降低;低、中、高浓度组实验鱼肝脏中丙二醛(MDA)含量在胁迫开始后显著升高;3 h时,高浓度组实验鱼肝脏中SOD活性达到最低,而MDA含量最高;24 h后,高浓度组实验鱼肝脏中过氧化氢酶(CAT)活性显著升高;低、中、高浓度组实验鱼肝脏中HSP70基因的mRNA表达量呈先降低后升高趋势,而鳃中HSP70基因表达量持续升高,但脑中HSP70基因在0 h后显著降低;氨氮胁迫3 h时,低、中、高浓度组实验鱼肝脏和脑中HSP70基因表达量显著低于对照组,而在鳃中正好相反;相比HSP70基因,高氨氮浓度组实验鱼肝脏和鳃中HSP90基因的mRNA表达量在24 h时达到最高。研究表明,不同浓度的氨氮胁迫会对黄颡鱼抗氧化酶活性造成不同程度的抑制,原因与丙二醛的积累量有关;相比HSP90基因,黄颡鱼HSP70基因的表达量在氨氮胁迫发生后迅速上调,这种生理调控机制提示HSP70在应对急性氨氮胁迫时发挥着更重要的作用。 相似文献
4.
为探究ncc、nkcc基因在花鲈渗透调节中发挥的作用,实验通过全基因组鉴定、多重序列比对、系统进化树构建以及蛋白结构预测对花鲈ncc进行了鉴定及序列分析,利用实时荧光定量PCR (qRT-PCR)检测ncc和nkcc在海水、淡水花鲈鳃组织中的表达水平,利用原位杂交技术确定ncc2和nkcc1a在海水及淡水花鲈鳃中的表达位置。结果显示,从花鲈中鉴定出2个ncc基因,即ncc1和ncc2,其编码序列(CDS)长度分别为2 691和3 120bp,编码896和1 039个氨基酸,在进化上具有保守性。ncc2在淡水花鲈鳃组织中的表达量显著高于海水,而nkcc1a在海水花鲈鳃组织中的表达量显著高于淡水,ncc1、nkcc1b、nkcc2在海淡水中的表达量则无显著差异。淡水适应过程中花鲈鳃组织中的ncc2的表达量逐渐上调,而nkcc1a的表达量逐渐下调;海水适应过程则呈现相反的表达趋势。此外,原位杂交结果显示,ncc2和nkcc1a基因分别位于淡水与海水中鳃组织的相邻鳃小片间的鳃丝上皮。以上结果表明,ncc2和nkcc1a基因分别编码淡水及海水花鲈鳃中重要的Na+及Cl 相似文献
5.
为了探究自然发病和人工注射感染草鱼呼肠孤病毒Ⅱ型(GCRV-Ⅱ型)草鱼的临床症状、病理特征和病毒分布的区别,实验采用临床剖检、组织病理学观察、分子生物学检测、实时荧光定量PCR(qRT-PCR)和蛋白质印迹法(Western blot)等检测方法开展实验,通过对自然发病和人工注射感染草鱼的临床症状进行比较,结果显示,患病草鱼的眼眶、鳃盖、口腔、腹部、鳍条基部、肠道、肌肉出现明显的点状出血,且后者的出血情况比前者更为严重;比较组织病理切片,发现草鱼感染组织出现不同程度的充血和红细胞充盈现象,其中,人工注射感染草鱼的肠道、肌肉和肝胰脏的病变程度更为严重,呈现出较为严重的组织内出血和病变,而自然发病草鱼的鳃和脾脏的病变程度更为严重,鳃呈现出较为严重的充血和炎症增生物,脾脏出现大面积含铁血黄素沉积块病灶。qRT-PCR和Western blot检测结果显示,GCRV在不同的组织中均有分布,头肾在两种感染方式的患病草鱼中的病毒量都比较高,人工注射感染草鱼的肝胰脏、肠道和肌肉的病毒量较高,自然发病草鱼的中肾、鳃和脾脏的病毒量较高。因此,在人工注射感染时,肝胰脏、肠道和肌肉可能是GCRV入侵的主要靶... 相似文献
6.
Abstract. The distribution and prevalence of common dab, Limanda limanda L., affected with X-cell lesions was investigated at various localities around the British Isles. Extreme variability in the prevalence of affected gills was recorded in the Moray Firth (NE Scotland), where samples obtained from hauls taken in close proximity ranged from nil to 60% of the collected dab. The condition was not detected in dab from the Irish Sea, and was found only sporadically in samples in the southern North Sea and the northwest coast of Scotland, Areas of high prevalence are typically coastal or relatively shallow habitats. The patchy distribution of the disease throughout dab populations suggests that an infectious agent may be involved in its aetiology. A method is described for rapid, accurate screening of fish samples for X-cell disease, which utilizes the autofluorescence of the X-cell. Ultrastructural studies of lesions from external and internal organs in dab disclosed some previously undescribed features of X-cells. Stages of the X-cell development which occurred in'nests', and possibly preceded the commonly found X-cells, were found in gill lesions. Electron dense inclusions found in X-cells in the spleen and kidney were rod- or dumbbell-shaped structures and possibly represented secretory granules. 相似文献
7.
An assay method based on thin layer chromatography to study the arachidonic acid (AA) metabolism in gill tissues was optimized and the effect of osmotically different incubation mediums on AA metabolism was evaluated. Rainbow trout gill tissues metabolize AA into PGE2 in highest concentration followed by PGD2, PGF2 and 6-keto-PGF1 (the stable metabolite of PGI2) among the prostanoids tested. Approximately 40% of PGE2 is synthesized within the first minute of incubation and is directly dependent on the substrate concentration (AA). As in mammalian tissues, PGE2 synthesis in fish gills is inhibited by the cyclooxygenase inhibitor indomethacin. PGE2 synthesis in gill homogenate and isolated gill cells incubated in trout Ringer was 0.45 and 1.9 ng/mg protein, respectively, and increased to 8.9 and 4.3 ng/mg protein, respectively, when incubated in KPO4 buffer, due to a ten-fold increase in the free AA. The hydroxy acid synthesis of the gill homogenate was higher (13%), and that of the isolated gill cells incubated in KPO4 buffer was lower (44%) compared to gill homogenate and cells incubated in trout Ringer. Gill homogenate incubated in 50 mM phosphate buffer with increasing sodium or potassium concentrations (up to 250 mM) exhibited a concentration-dependent increase in PGE2 synthesis (220% and 72%, respectively). Prolactin stimulated the PGE2 synthesis up to 30% while PGD2, PGF2 and 6-keto-PGF1 synthesis was not affected. This effect of prolactin was maximal when PGE2 synthesis was estimated 30 minutes after prolactin addition and diminished after two hours. These results suggest that rainbow trout gills possess the ability to metabolize AA through the cyclooxygenase and lipoxygenase pathways. PGE2 synthesis may be under the influence of ion balance and prolactin availability, indicating the probable involvement of AA metabolites in the regulation of ion balances across the gill membrane. 相似文献
8.
Generation of Paramoeba perurans clonal cultures using flow cytometry and confirmation of virulence 
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下载免费PDF全文 C Collins M Hall D Bruno J Sokolowska L Duncan R Yuecel U McCarthy M J Fordyce C C Pert R McIntosh Z MacKay 《Journal of fish diseases》2017,40(3):351-365
Amoebic gill disease (AGD) in farmed Atlantic salmon is caused by the amoeba Paramoeba perurans. The recent establishment of in vitro culture techniques for P. perurans has provided a valuable tool for studying the parasite in detail. In this study, flow cytometry was used to generate clonal cultures from single‐sorted amoeba, and these were used to successfully establish AGD in experimental Atlantic salmon. The clonal cultures displayed differences in virulence, based on gill scores. The P. perurans load on gills, determined by qPCR analysis, showed a positive relationship with gill score, and with clonal virulence, indicating that the ability of amoebae to proliferate and/or remain attached on gills may play a role in virulence. Gill scores based on gross signs and histopathological analysis were in agreement. No association between level of gill score and specific gill arch was observed. It was found that for fish with lower gill scores based on histopathological examination, gross examination and qPCR analysis of gills from the same fish were less successful in detecting lesions and amoebae, respectively. 相似文献
9.
养殖大黄鱼“白鳃病”一种新病毒病原的初步研究 总被引:1,自引:0,他引:1
运用组织病理学、电镜观察及PCR扩增等方法对近年来网箱养殖大黄鱼暴发的"白鳃病"进行了研究,以探讨引起养殖大黄鱼"白鳃"关联病毒的致病机理。临床解剖观察显示:患"白鳃病"的鱼表现出极度的贫血症状、鳃丝苍白色、血液稀薄且血细胞数显著减少;内脏组织病理观察结果显示:鱼的肝、脾、肾脏内脏组织发生严重的病理变化,组织内红细胞发生明显的退行性变化,同时鱼体的红细胞数量显著减少;采用针对真鲷虹彩病毒(red sea bream iridoviral virus,RSIV)的引物对病鱼内脏组织核酸样本进行PCR检测,结果显示,患"白鳃病"病鱼样本RSIV核酸呈阴性;组织超薄切片电镜观察结果显示:在患"白鳃病"病鱼脾脏和肾脏组织细胞的胞质中可见直径约40~45 nm的病毒粒子。由此初步判断,浙江地区网箱养殖大黄鱼的"白鳃病"不是由RSIV导致,而与一种直径为45~50 nm的病毒有直接关联,本研究为大黄鱼疾病的诊断与防治提供了参考依据。 相似文献
10.
Fish need oxygen for aerobic generation of energy for body maintenance, locomotion, feeding and biosynthesis. The rate of oxygen uptake of most fish is limited by diffusion through the gills, and gill surface area grows at a slower rate than body mass. We hypothesize, therefore: (1) that the maximum rate of feed intake is related to the capacity to take in oxygen for processing of this feed; and (2) that the maximum rate of feed intake relative to body size decreases with increasing body size to a point where growth is zero. An oxygen limitation module based on this theory was incorporated into an existing dynamic simulation model for the Nile tilapia, Oreochromis niloticus (L.). The module calculates the maximum potential oxygen supply to the fish on the basis of Fick's law of diffusion and the allometric relationship between body weight and gill surface area. Total oxygen demand of the fish is computed as the sum of routine metabolism, feeding metabolism and energy needed for biosynthesis. In the module, the feeding rate is limited to a level where total oxygen demand does not exceed the potential supply. The model is used to simulate feeding and growth of O. niloticus. Simulation results provide strong support for the oxygen limitation theory. Hence, the model can be used for the analysis of fish growth as affected by feed amount, feed composition, as well as environmental conditions (temperature, dissolved oxygen concentration). It also explains differences in final size between fish species, and within species under different conditions. 相似文献
11.
J. Blasco I. Marimón I. Viaplana J. Fernández-Borrás 《Fish physiology and biochemistry》2001,24(3):247-258
We report the fate of glucose, both as a source of energy and as a temporary store, in the tissues of brown trout (Salmo trutta) in control, fasted and glucose-loaded fish. Tissue glucose utilization (3H-2-deoxyglucose phosphorylation) and storage (conversion of 14C-glucose into glycogen, protein, and lipid) were measured in immature brown trout, and the oxidation rate was calculated as glucose utilization minus storage and 14C-ionic metabolites remaining in the tissue. The glucose utilization rate is tissue-specific, the highest values being found in spleen, kidney, hindgut, brain, and gill. All these tissues also showed a highly active glycolytic pathway. The lowest utilization indices were observed in white and red muscles, skin, stomach and caeca, which also presented the largest proportion of glucose converted into stores (mainly protein and glycogen). Fasting reduced the glucose disappearance rate by 24%, although there were no significant variations in glucose utilization indices or distribution profile. After a glucose load, plasma glucose and insulin levels rose and the rates of glucose utilization, storage, and oxidation also increased in all tissues (from 1.5- to 4-fold). The relative importance of each tissue in glucose disposal was similar to that in normoglycaemia. In liver, only glucose storage was measured reliably; the conversion of glucose to glycogen was higher than in other tissues, and rose markedly (35-fold) in glucose-loaded fish. In most tissues glucose flux into lipids, glycogen and protein increased. The distribution of glucose may not be a merely substrate-mediated process because fasting in glucose-loaded fish caused lower tissue glucose utilization, particularly in gut, red muscle and gills. Conversion of glucose to tissue stores was reduced, lipids being the most affected. 相似文献
12.
Valérie Maxime Karine Pichavant Gilles Boeuf Guy Nonnotte 《Fish physiology and biochemistry》2000,22(1):51-59
Variations in respiratory and acid-base status were studied in turbot (Scophthalmus maximus) during progressive severe hypoxia followed by recovery under normoxic conditions. The first behavioural strategy of turbot under hypoxia was an increase in amplitude and frequency of ventilation. Consequently, standard O2 consumption remained unchanged over a broad range of O2 tensions, until a low critical level of 30 mmHg. The hyperventilation induced a moderate blood alkalosis, compensated by a lactic acidosis. The fact that blood pH did not decrease below control values could be explained by the retention in white muscle of most of the lactate produced and by a high capacity for H+ excretion. During the recovery period, the marked increase in O2 uptake corresponding to an oxygen debt repayment, was partly related to the lactate elimination. When total energy contributions of aerobic and anaerobic processes were assessed in terms of ATP, the anaerobic contribution, estimated at the deepest hypoxia level, was higher than 20% of the total energy budget and appeared to totally compensate for the decline in aerobic metabolism. Moreover, the high value of O2 tension in arterial blood in normoxia and during recovery from hypoxia showed high diffusing capacity of gills in turbot. Our results explain the high tolerance of turbot for O2 deficient waters. 相似文献
13.
Abstract Vascular corrosion casting methods were used to elucidate the pathological effects of X-cell disease on the blood supply to the gills of the Antarctic teleost, Pagothenia borchgrevinki (Boulenger, 1902). Afferent and efferent branchial arteries were patent in X-cell diseased fish; however, the blood supply to the lamellae was markedly reduced or obliterated in areas in which there was a predominance of X-cells. The present authors believe that the tissue hyperplasia associated with X-cell disease results in the compression of the lamellar vascular bed which leads eventually to the occlusion of vessels. 相似文献
14.
盐度胁迫对三疣梭子蟹鳃Na+/K+-ATPase酶活的影响 总被引:2,自引:2,他引:0
通过钼蓝法测定三疣梭子蟹在3组实验盐度的胁迫过程中第2对和第6对鳃Na+/K+-ATPase酶活的变化,比较了3组实验盐度胁迫1 d时,鳃Na+/K+-ATPase的酶活大小。结果表明,在盐度胁迫初期,3组实验盐度下第2对和第6对鳃Na+/K+-ATPase的酶活下降;之后,各组实验盐度下第2对和第6对鳃Na+/K+-ATPase的酶活开始随胁迫时间增长而上升;最后,各组实验盐度下第2和第6对鳃Na+/K+-ATPase的酶活下降并趋于稳定。另外,胁迫1 d时,各组实验盐度下三疣梭子蟹前5对鳃Na+/K+-ATPase的酶活显著低于后3对鳃Na+/K+-ATPase的酶活。三疣梭子蟹对盐度变化的调节可分为被动应激期(酶活力下降)、主动调节期(酶活力逐渐上升)和适应期(酶活力稳定);三疣梭子蟹后3对鳃是离子转运、渗透压调节的主要部位。 相似文献
15.
近年来包括急性肝胰腺坏死病(AHPND)在内的多种新发疫病的流行,使我国甲壳类养殖业遭受了严重的经济损失。为了筛查导致山东潍坊某养殖场中一虾蟹混养池塘内患病三疣梭子蟹感染的可能病原,本研究采用分子生物学检测方法,对三疣梭子蟹样品进行了白斑综合征病毒(WSSV)、传染性皮下及造血组织坏死病毒(IHHNV)、虾血细胞虹彩病毒(SHIV)、致急性肝胰腺坏死病副溶血孤菌(Vp_(AHPND))、虾肝肠胞虫(EHP)、偷死野田村病毒(CMNV)、黄头病毒(YHV)和肝胰腺细小病毒(HPV)等8种病原的检测,并对样品进行了组织病理和原位杂交分析。分子生物学检测结果显示,患病三疣梭子蟹样品呈Vp_(AHPND)阳性,而呈现WSSV、IHHNV、SHIV、EHP、CMNV、YHV和HPV阴性。对样品进行Vp_(AHPND)套式PCR第二轮扩增产物的序列测定、比对和进化树分析,结果显示,扩增产物序列与致病副溶血弧菌质粒上pirA~(vp)毒力基因片段具有99%的同源性,该序列与已报道的多个致病副溶血弧菌PirA聚在进化树的同一主分支上。组织病理学分析显示,患病三疣梭子蟹的肝胰腺小管上皮细胞坏死,心肌纤维呈溶解样病变,鳃丝上皮柱突细胞明显坏死,胸神经节的神经细胞损伤严重,并且这些组织中还可见大量的细胞核固缩现象;原位杂交结果显示,肝胰腺、心肌、鳃组织及胸神经节中的病变部位均存在Vp_(AHPND)探针的蓝紫色杂交信号。以上表明,虾蟹混养池塘中三疣梭子蟹在自然状态下感染了Vp_(AHPND),并导致肝胰腺、心肌、鳃和胸神经节发生了严重病理损伤。本研究首次在养殖三疣梭子蟹中检测到Vp_(AHPND)感染并揭示了感染所致的病理变化,相关结果为揭示Vp_(AHPND)自然宿主种类和养殖三疣梭子蟹病害防控提供了基础信息。 相似文献
16.
在育肥饲料中添加虾青素会影响中华绒螫蟹肠道及鳃内的可培养优势菌群以及机体的免疫力,本实验旨在探讨饲料中虾青素含量及养殖水体对其肠道和鳃部菌群的影响。采用不同虾青素含量的饲料(0.00、26.60、41.62、81.37和75.35 mg/kg,分别对应饲料1#~5#)对雄性中华绒螫蟹进行育肥70 d后,利用基础培养基和选择性培养基对其肠道、鳃及养殖水体中的细菌进行传统分离和纯化,所得菌株进行16S rRNA测序,再进行同源性分析后做系统进化树。结果发现,在分离获得的106株细菌(登录号:KU570293~KU570368,KU570370,KU570372~KU570383,KU601302~KU6013 16,KU720553)中,92株为优势菌株,其中,肠道、鳃部和水体各29、32和31株。肠道中的可培养优势细菌属于柠檬酸杆菌属、假单胞菌属和气单胞菌属;而鳃中可培养优势细菌属于柠檬酸杆菌属、芽孢杆菌属、假单胞菌属和气单胞菌属;养殖水体中可培养优势细菌属于芽孢杆菌属、气单胞菌属、柠檬酸杆菌属、假单胞菌属和黄杆菌属。饲料2#组肠道中可培养细菌总数最高(1.06×10~8cfu/g);饲料5#肠道中的潜在致病菌数量最低,但其可培养细菌总数显著高于其他饲料组;饲料3#组肠道和鳃中潜在致病菌数量相对较高。研究表明,饲料中添加不同含量的虾青素能够显著影响雄性中华绒螫蟹肠道和鳃中的菌群构成,但对水体中可培养细菌数量无显著影响。本研究首次对投喂不同含量虾青素饲料的育肥期雄性中华绒螫蟹肠道、鳃及养殖水体可培养的优势细菌数量和组成进行分析,探究了饲料中虾青素含量以及养殖水体与蟹肠道内可培养细菌之间的联系,为中华绒螫蟹营养免疫和菌群调控提供了理论基础。 相似文献
17.
为探讨氧化应激对鲤抗氧化状态和免疫功能的影响,本实验以H_2O_2作为活性氧自由基(ROS),将鲤暴露于不同浓度的H_2O_2(0、0.25、0.50和1.00 mmol/L)中,诱导鲤产生氧化应激反应。连续暴露7 d后,采集鲤血液和肝组织,以检测相关生化指标以及基因表达量的变化。结果显示,与空白对照组(0 mmol/L)相比,随着H_2O_2浓度的升高,血清葡萄糖(GLU)、皮质醇(cortisol)和乳酸(LA)含量显著升高;而碱性磷酸酶(AKP)和酸性磷酸酶(ACP)活性仅在1.00 mmol/L H_2O_2处理组中显著高于其他实验组。氧化应激参数显示,与空白对照组(0 mmol/L)相比,0.50和1.00 mmol/L H2O2处理显著降低血清过氧化氢酶(CAT)活性,而提高还原型谷胱甘肽(GSH)、丙二醛(MDA)和总抗氧化能力(T-AOC)水平;在肝脏组织中,1.00 mmol/L H_2O_2处理显著降低了GSH含量,促进了MDA生成。基因表达结果显示,与空白对照组相比,1.00 mmol/L H2O2处理组显著上调了肝脏组织中cyp1a表达,而下调了cyp1b表达;同时0.50和1.00 mmol/L H2O2处理显著上调了hsp70、hsp90、c3、c-lyz和hep的表达。研究表明,氧化应激暴露可诱导鲤产生明显应激反应和脂质过氧化,降低机体抗氧化能力并激发免疫应答反应。 相似文献
18.
Sylvain Gilles Grard Lacroix Daniel Corbin Ngansoumana B Carla Ibaez Luna Jacob Nandjui Allassane Ouattara Oussni Oudraogo Xavier Lazzaro 《Aquacultural Engineering》2008,39(2-3):113-121
The West-African euryhaline tilapia, Sarotherodon melanotheron heudelotii shift from visually feeding on zooplankton when juveniles to mostly filter feeding on phytoplankton when adults. When reared using an appropriate ration in intensive aquaculture systems, S. m. heudelotii also consume algal-based detritus, and contribute to sediment mineralization, clean up their environment, and ultimately stimulate and sustain algal growth. We analysed such practical advantages for phytoplankton-based recirculating systems, using S. m. heudelotii and Chlorella sp. as biological material originating from the prototype of such a system operated in Senegal. We performed a 24-h factorial design experiment in 36 tubs, cross-classifying three levels of S. m. heudelotii (fishless control, unfed fish, and fed fish) with four levels of Chlorella initial density.Chlorella overall mean density increased significantly from fishless, to unfed fish, and fed fish treatments, and with Chlorella initial density. S. m. heudelotii did not alter nitrogen nor phosphorus concentrations, only affected by algal initial densities. Most ammonia excreted by fish was probably uptaken by Chlorella. Bacteria-mediated diurnal nitrification was possibly an alternative ammonium loss mechanism at highest oxygen concentrations. Algae were not limited by nitrogen or phosphorus but most likely by low dissolved organic carbon availability. Chlorella differential responses with fed vs. unfed Sarotherodon suggest that CO2 supplied by heterotrophic S. m. heudelotii respiration played a key role. Observed Chlorella growth rates were similar to the highest rates obtained in algal mass cultures, enriched with CO2, nitrate and phosphate, under artificial lighting.Our results suggest the existence of a Sarotherodon-Chlorella mutualism in our systems, where S. m. heudelotii provide CO2, the major limiting factor of Chlorella growth, whereas Chlorella oxygenate and detoxify the water media from ammonia, promoting S. m. heudelotii production. This mutualism could be used to optimize photosynthetic suspended-growth aquaculture systems, particularly in the Tropics where light is abundant and temperature is continuously high. 相似文献
19.
通过光镜、扫描电镜及透射电镜技术,研究了怒江裂腹鱼(Schizothorax nukiangensis)鳃的组织结构和超微结构。结果表明,怒江裂腹鱼鳃基本结构与其他硬骨鱼相似,均由鳃耙、鳃弓、鳃丝以及鳃小片构成,且各部分具有不同的组织结构和细胞类型。扁平上皮细胞覆盖于整个鳃表面,其表面的纹路主要有3种类型,在鳃上不同的部位具有不同的结构和功能。线粒体密集细胞主要分布于鳃小片基部,仅有一种细胞类型,顶端膜内凹呈浅滩型,细胞内具有大量圆形的线粒体。怒江裂腹鱼鳃内扁平上皮细胞和线粒体密集细胞的形态结构与其在急流中游泳和摄食活动等生活习性相适应。本研究结果丰富了怒江裂腹鱼的基础生物学资料,并为阐明鱼类鳃的结构特征与其生活习性之间的关系提供参考。 相似文献
20.
The effects of trout recombinant growth hormone (rtGH) treatment (0.25 g g–1 by intraperitoneal implant) on plasma ionic regulation, extracellular acid-base status and respiration were investigated in freshwater rainbow trout and during a 4-day period after direct transfer into seawater (35 g 1–1).In freshwater, rtGH treatment resulted in a significant increase in gill (Na+, K+) ATPase activity and in standard metabolism (MO2). The latter would mainly result from a higher rate of protein synthesis. Direct transfer from freshwater to seawater induced a decrease in arterial blood pH, far more pronounced in controls than in treated fish. This effect could be regarded in both groups mainly as a metabolic acidosis resulting from extracellular ion composition changes (i.e., an increase higher in chloride than in sodium, more marked in controls than in treated fish). As the rise in PaCO2, in spite of an increase in ventilatory activity, is more significant in controls than in treated fish, it can be assumed that rtGH treatment lightened the decrease in the gas diffusing capacity of gills induced by transfer to seawater. The initial increase in MO2 in both controls and treated fish could be the consequence of an increase in energetic cost of ventilation and osmoregulation. Then, in treated fish, the persistent high level of M may indicate a stimulation of intermediary metabolism by rtGH. In addition, the absence in treated fish of an increase in plasma lactate concentration, as observed in controls, would indicate that rtGH attenuated the decrease in O2 affinity of haemoglobin foreseeable from the metabolic acidosis.This article is dedicated to Professor Claude Peyraud, whose recent death has deeply saddened us. We respectfully pay a tribute to his memory. 相似文献