PFOS对中华倒刺鲃幼鱼爆发游泳及运动后代谢恢复的影响

为探究水体全氟辛烷磺酸(PFOS)污染对鱼类爆发游泳及其代谢恢复能力的影响, 将中华倒刺鲃幼鱼(Spinibarbus sinensis)暴露在不同浓度(0、0.32、0.8、2和5 mg/L)PFOS后, 测定PFOS暴露对其静止代谢率(RMR)、爆发游泳速度(U_burst)以及运动力竭后代谢恢复特征的影响。结果发现, 暴露浓度对实验鱼的U_burst和相对爆发游泳速度(rU_burst)均影响显著(P<0.05), 5 mg/L PFOS暴露导致U_burst和rU_burst分别下降了17.4%和10.8%, PFOS对rU_burst的影响表现出“非单调剂量效应”; 暴露浓度对实验鱼的RMR影响显著(P<0.05), 5 mg/L PFOS暴露导致RMR显著升高, 但PFOS对运动后代谢峰值(MMR)、代谢率增量(MS)、代谢变化倍率(F-MS)、力竭运动后过量氧耗(EPOC)无显著影响(P>0.05)。研究结果提示: PFOS污染改变实验鱼能量代谢水平的下限, 而对其代谢水平的上限无明显的限制性作用; PFOS污染将可能对鱼类捕食——逃避捕食者、穿越激流寻找适宜生境等生存关联的生命活动起到负面影响, 但对无氧代谢关联的代谢恢复能力无显著的生态毒理效应。     

饥饿对中华倒刺鲃幼鱼代谢、个性和集群的影响

在自然界中,环境变化、季节更替和人为因素造成食物资源时空分布的不均一性,导致鱼类经常面临食物资源短缺的环境胁迫,对其能量代谢和行为造成一定影响。为考察食物资源短缺下暖水性鲤科鱼类能量代谢、个性与集群行为的应对策略及其可能的内在关联,选取中华倒刺鲃(Spinibarbus sinensis)幼鱼为实验对象,分别测定饥饿组(2周)和对照组(维持日粮)在处理前后实验鱼的标准代谢率(Standard metabolic rate,SMR)、个性行为(勇敢性、探索性和活跃性)以及实验处理后的集群行为(凝聚力和协调性)。研究发现:(1)饥饿组和对照组实验过程中实验鱼SMR均显著下降,但仅饥饿组实验鱼SMR具有重复性;(2)饥饿导致中华倒刺鲃幼鱼勇敢性、探索性、活跃性均显著增加;(3)饥饿导致群体成员间距离缩短,游泳速度及其同步性上升。研究表明:饥饿后的中华倒刺鲃不仅适应性降低SMR以减少能量消耗,而且呈现出更高的勇敢性、探索性和活跃性以利于获取食物资源;饥饿迫使中华倒刺鲃群体提高凝聚力和协调性,可能有助于提高群体的生存能力。     

光倒刺鲃、中华倒刺鲃和倒刺鲃氨基酸成分和微量元素的测定

本文对光倒刺鲃,中华倒刺鲃和倒刺鲃18种氨基酸和8种微量元素进行了分析,结果表明:这三种鱼是营养价值很高、滋味很鲜美的鱼类。并且,根据结果氨基酸组成比例,可为该鱼的人工饲养等方面的研究提供理论依据。     

饥饿和温度驯化对中华倒刺鲃静止代谢和游泳能力的影响

为了探讨饥饿和温度驯化对中华倒刺鲃(Spinibarbus sinensis)幼鱼维持代谢和游泳运动能力的影响,在不同温度(15、25℃)条件下分别测定了经0(对照)、1、2、4周饥饿后中华倒刺钯的静止代谢率(M_(O_2_(rest))和匀加速最大游泳速度(U_(CAT))。饥饿和低温对M_(o_2_(rest))和U_(CAT)均有负效应。在高温条件下,实验鱼经1周饥饿后其M_(o_2_(rest))和U_(CAT)均显著下降(P0.05);但在低温条件下,仅4周饥饿组的M_(o_2_(rest))和U_(CAT)显著下降(P0.05)。U_(CAT)与M_(o_2_(rest))在不同的饥饿周期具有相似的变化趋势;在低温条件下,前期饥饿阶段M_(o_2_(rest))和U_(CAT)变化较小,后期饥饿阶段变化较大;但在高温条件下则相反。无论是在低温还是在高温条件下,U_(CAT)与M_(o_2_(rest))之间均呈显著线性正相关(P0.05),但低温组回归方程斜率显著高于高温组回归方程斜率(F_(1,4)=11.416,P=0.028)。在不同温度下,中华倒刺钯游泳运动能力对饥饿的反应不尽相同可能与维持代谢、生化反应速率、机体能量储存、代谢酶活性及底物利用类型等的差异相关,这种对策的差异可能是其对栖息地环境温度和食物资源季节性变化的适应。     

有氧运动训练和摄食对中华倒刺鲃幼鱼力竭运动后代谢特征的影响

为了探讨有氧运动训练和摄食对中华倒刺鲃（Spinibarbus sinensis）幼鱼力竭运动后代谢特征的影响,在（25±0.5）℃条件下,将120尾实验鱼[体重（21.35±0.05）g,体长（10.21±0.03）cm]随机分成4组,即:对照组、1、2和4 BL/s（体长/秒,body length/s）训练组,分别放置于不同流速下处理8周。随后测定各实验组心脏和鳃指数以及禁食或摄食（轻度麻醉灌喂体重1.5%的饵料）状态下的力竭运动后过量耗氧。结果发现:4 BL/s训练组的心脏和鳃指数都显著高于其他实验组（P < 0.05）;无论摄食与否,3个训练组运动前代谢率都显著高于对照组（P=0.001）,而各实验组过量耗氧均没有显著差异;在禁食状态下,仅4 BL/s训练组的运动代谢峰值和代谢率增量显著高于对照组,而在摄食状态下,3个训练组的运动代谢峰值和代谢率增量均显著高于对照组（P < 0.005）。与禁食组相比,摄食导致各处理组的运动前代谢率显著上升（P < 0.001）,但对运动代谢峰值没有显著影响;另外,摄食对照组代谢率增量和力竭运动后过量耗氧显著低于禁食对照组（P < 0.05）。研究表明:（1）有氧运动训练显著提高了中华倒刺鲃幼鱼的有氧代谢能力,这可能与其呼吸和循环系统功能的改善有关;（2）力竭运动能够诱导出中华倒刺鲃幼鱼的最大有氧代谢率;（3）摄食削弱了中华倒刺鲃幼鱼无氧代谢能力。     

中华倒刺鲃幼鱼能量代谢特征个体差异及生态关联

为了探讨鱼类能量代谢特征个体变异及其生态关联, 以中华倒刺鲃(Spinibarbus sinensis)幼鱼为实验对象, 在25℃条件下测定44尾实验鱼的静止代谢率(Resting metabolic rate, RMR)、力竭运动后峰值代谢率(Peak metabolic rate, PMR)、力竭运动后过量耗氧(Excess post-exercise oxygen consumption, EPOC)、低氧胁迫后峰值代谢率PMR和低氧胁迫后过量耗氧(Excess post-hypoxia oxygen consumption, EPHOC)。研究发现, 中华倒刺鲃能量代谢特征参数存在较大个体差异, RMR、力竭运动后PMR、EPOC、低氧胁迫后PMR和EPHOC分别为193.62—460.33 [mg O₂/(kg·h)]、617.9—2165.02 [mg O₂/(kg·h)]、28.76—267.20 mg O₂/kg、484.3—1142.97 [mg O₂/(kg·h)]和30.27—211.88 mg O₂/kg。力竭运动后PMR(r=0.348, P=0.010)和低氧胁迫后PMR(r=0.449, P=0.002)与RMR间均呈显著正相关; EPOC与RMR间呈显著负相关(r=–0.426, P=0.004), 而EPHOC与RMR间的关系不显著(r=–0.292, P=0.054); 力竭运动后PMR与EPOC间(r=0.424, P=0.004)和低氧胁迫后PMR与EPHOC间(r=0.391, P=0.009)均呈显著正相关。力竭运动后PMR与低氧胁迫后PMR(r=0.673, P<0.001)和EPOC与EPHOC(r=0.526, P<0.001)在个体差异均显著正相关; 然而力竭运动后PMR和EPOC分别显著高于低氧胁迫后PMR与EPHOC(P<0.05)。研究表明: 维持代谢较高的中华倒刺鲃个体有助于其快速提升有氧功率输出以维持高的游泳运动能力; 而较低维持代谢个体具有相对较高的EPHOC有助于机体在极端环境条件下提升其低氧耐受能力。中华倒刺鲃能量特征的个体变异可能是经长期自然选择适应环境的结果。     

中华倒刺鲃幼鱼饲料蛋白质需求量的研究

以白鱼粉为蛋白源,设计了6个不同蛋白质含量(20.49%、26.48%、34.20%、41.02%、49.94%和55.86%,分别表示为D1、D2、D3、D4、D5和D6)的等能饲料,采用室内循环水养殖系统,在水温为(27.5±0.5)℃的条件下对中华倒刺鲃幼鱼进行10周的养殖实验,探讨中华倒刺鲃幼鱼对饲料蛋白质的需求量。每个处理设4个重复,每个重复12尾鱼。结果显示：干物质摄食率(FRdm)随饲料蛋白质含量升高呈先降低然后稳定的趋势;蛋白质摄食率(FRp)与饲料蛋白质含量呈正相关关系(r=0.982,p<0.01)。干物质表观消化率随饲料蛋白质含量增加而降低,蛋白质消化率在各组间无显著差异。随饲料蛋白质含量由D1逐渐增加至D4,体重特定生长率(SGRw)、能量特定生长率(SGRe)和饲料效率(FE)均显著增高(p<0.05),而D4、D5和D6组间无显著差异,其中D4组的三个指标值均最高,分别为(0.97±0.04)%/d、(0.87±0.04)%/d、(68.96±3.00)%。蛋白质效率(PER)、蛋白质累积率(PPV)和能量累积率(EPV)在各饲料组间均存在显著差异。以SGRw、SGRe和FE为指标,采用折线模型分析表明,中华倒刺鲃幼鱼的最适饲料蛋白质含量为39.6%－42.2%。     

有氧运动训练对中华倒刺鲃幼鱼肠道排空及其数学模型选择的影响

为了考察有氧运动训练对中华倒刺鲃幼鱼肠道排空及其数学模型选择产生的影响, 在(250.5)℃条件下, 将108 尾大小相当的实验鱼(24.470.03) g, (10.900.02) cm随机分为对照组(CG), 1 BL/s 训练组(1TG)和2 BL/s 训练组(2TG), 在相应流速下运动训练8w 后, 轻度麻醉灌喂体重1.45%的饵料, 随后在不同时间点分别测定肠道内容物重量及其百分比, 用3 个常见数学模型对实验数据进行拟合并比较。结果发现, 1TG 和2TG 训练组的体重特定生长率(WSGR)显著高于CG 对照组 (P0.05);各实验组肠道内容物干重及其百分比随着摄食后时间的延长而显著降低;所有实验组肠道排空的最优数学模型均为平方根模型;训练组(1TG 和2TG)的肠道排空率(皆为0.49%/h)明显大于CG 对照组(0.41%/h)(P0.05), 1TG 和2TG 训练组的肠道排空时间(分别为 20.39h 和 20.33h)短于 CG 对照组(24.51h)。研究表明, 有氧运动训练没有对中华倒刺鲃幼鱼的肠道排空特征及其最优数学模型选择产生显著影响, 但明显提高了该种鱼的肠道排空率并缩短其肠道排空时间。       

温度对中华倒刺鲃不同生理生态性能的影响:驯化有益假说的验证

驯化有益假说(Beneficial acclimation hypothesis)认为生物表型的适应性变化会增强其在诱导这些变化产生的环境中的生理机能或适合度。然而,由于动物不同生理生态性能对环境驯化的响应可能不一致,那么,测试表型性状的选择对驯化有益假说的验证就尤为关键。为此,整合表征动物生存适合度的不同生理生态性能并探究其对环境驯化的响应模式就十分必要。以我国长江中上游广泛分布的中华倒刺鲃(Spinibarbus sinensis)为对象,考察了驯化温度(18℃、28℃)和测试温度(18℃、28℃)及其交互作用对该物种有氧运动能力和无氧运动能力的影响,为驯化有益假说等相关假说的验证提供参考。研究发现,中华倒刺鲃不同生理生态性能对温度驯化的响应存在差异:(1)驯化温度对表征中华倒刺鲃无氧运动能力的快速启动游泳无显著影响(除最大加速度外)(P>0.05),研究数据倾向于支持无益假说(No-advantage hypothesis);(2)驯化温度对表征中华倒刺鲃有氧运动能力的临界游泳速度(Critical swimming speed,Ucrit)和最大代谢率(Maximum metabolic rate, MMR)影响显著(P<0.05),18℃驯化-18℃测试下的Ucrit和MMR均优于28℃驯化-18℃测试下的Ucrit和MMR,结果部分支持驯化有益假说和冷有益假说(Cooler is better hypothesis);(3)驯化温度、测试温度、游泳速度对中华倒刺鲃的运动代谢率(Active metabolic rate,MO2)和单位距离能量消耗(The energetic cost of transport, COT)影响显著(P<0.05)。值得关注的是,当游泳速度小于30 cm/s时,驯化温度对MO2和COT无影响,结果支持无益假说;而当游泳速度大于30 cm/s时,在特定的流速下经过28℃驯化的中华倒刺鲃无论在28℃还是18℃的测试环境下MO2和COT均较低,结果倾向于支持热有益假说(Warmer is better hypothesis)。研究结果提示:驯化有益假说并不具有普遍性,热驯化相关假说的验证不仅受表型性状选择的影响,而且还与测试的环境选择压力有关。     

茜素红S对中华倒刺鲃幼鱼不同组织抗氧化酶活性和脂质过氧化的影响

以中华倒刺鲃幼鱼[平均体长（12.3±0.6）cm,平均体重（41.8±3.6）g]为研究对象,通过测定不同浓度茜素红S溶液（ARS）浸泡24h后肝脏、脑和鳃组织中抗氧化酶（SOD、CAT、GSH-Px）的活性和丙二醛（MDA）含量,评估ARS对中华倒刺鲃幼鱼的生理生化影响。结果表明:除脑组织GSH-Px随着ARS浓度的升高而不断升高外,肝脏、鳃和脑组织的抗氧化酶活性均表现为低浓度被诱导而高浓度受抑制的规律,与ARS浓度呈抛物线型剂量效应关系。肝脏、鳃、脑组织抗氧化酶活性达到最大值所对应的浓度分别是300、300和400 mg/L。除鳃部MDA含量随着茜素红S浓度升高不断升高外,脑和肝脏组织的丙二醛含量随着ARS浓度的升高呈现出先降低后上升趋势。根据试验的结果,推荐120-200 mg/L为ARS染色标记中华倒刺鲃幼鱼（体长10 cm）的适宜浓度。     

温度对鳊幼鱼临界游泳速度和代谢范围的影响

为了考查温度对鳊(Parabramis pekinensis)幼鱼有氧运动能力的影响并探讨有关代谢机制,本研究分别在不同温度(10、18、26和34℃)下测定实验鱼的静止耗氧率(RMR)、临界游泳速度(Ucrit)和运动过程中的最大耗氧率(MMR),并以MMR和RMR的差值分别计算各温度下的能量代谢范围(MS).结果表明:随着温度的上升,Ucrit呈现显著上升的趋势(P＜0.05),温度由10℃升高至34℃,Ucrit由(6.01±0.32)升至(8.82±0.27) BL·s-1;RMR和MMR也随温度的升高呈现显著上升趋势(P＜0.05),其测定值在温度由10℃升高至34 c℃时分别为(161.7±28.8)、(293.0±27.6) mg O2·kg-1·h-1和(558.6±20.4)、(1278.7±57.4) mgO2 ·kg-1 ·h-1,MMR在34℃与26℃相比有下降趋势;MS在10～26℃范围随温度的上升显著上升,26 ～ 34℃却出现显著下降(P＜0.05).可见:Ucrit和MS在高温条件下的反应不尽一致;这可能与水的粘滞系数下降、进而导致鳊能量效率提升有关,还可能由于实验鱼无氧代谢能力提高所致.     

The effects of temperature and exercise training on swimming performance in juvenile qingbo (Spinibarbus sinensis)

To investigate the effects of temperature and exercise training on swimming performance in juvenile qingbo (Spinibarbus sinensis), we measured the following: (1) the resting oxygen consumption rate $ \left( {{\dot{\text{M}}\text{O}}_{{ 2 {\text{rest}}}} } \right) $ , critical swimming speed (U _crit) and active oxygen consumption rate $ \left( {{\dot{\text{M}}\text{O}}_{{ 2 {\text{active}}}} } \right) $ of fish at acclimation temperatures of 10, 15, 20, 25 and 30 °C and (2) the $ \dot{M}{\text{O}}_{{ 2 {\text{rest}}}} $ , U _crit and $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} $ of both exercise-trained (exhaustive chasing training for 14 days) and control fish at both low and high acclimation temperatures (15 and 25 °C). The relationship between U _crit and temperature (T) approximately followed a bell-shaped curve as temperature increased: U _crit = 8.21/{1 + [(T ? 27.2)/17.0]²} (R ² = 0.915, P < 0.001, N = 40). The optimal temperature for maximal U _crit (8.21 BL s^?1) in juvenile qingbo was 27.2 °C. Both the $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} $ and the metabolic scope (MS, $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} - \dot{M}{\text{O}}_{{ 2 {\text{rest}}}} $ ) of qingbo increased with temperature from 10 to 25 °C (P < 0.05), but there were no significant differences between fish acclimated to 25 and 30 °C. The relationships between $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} $ or MS and temperature were described as $ {\dot{\text{M}}\text{O}}_{{ 2 {\text{active}}}} = 1,214.29/\left\{ {1 + \left[ {\left( {T - 28.8} \right)/10.6} \right]^{2} } \right\}\;\left( {R^{2} = 0.911,\;P < 0.001,\;N = 40} \right) $ and MS = 972.67/{1 + [(T ? 28.0)/9.34]²} (R ² = 0.878, P < 0.001, N = 40). The optimal temperatures for $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} $ and MS in juvenile qingbo were 28.8 and 28.0 °C, respectively. Exercise training resulted in significant increases in both U _crit and $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} $ at a low temperature (P < 0.05), but training exhibited no significant effect on either U _crit or $ \dot{M}{\text{O}}_{{ 2 {\text{active}}}} $ at a high temperature. These results suggest that exercise training had different effects on swimming performance at different temperatures. These differences may be related to changes in aerobic metabolic capability, arterial oxygen delivery, available dissolved oxygen, imbalances in ion fluxes and stimuli to remodel tissues with changes in temperature.     

The effects of fasting on swimming performance in juvenile qingbo (Spinibarbus sinensis) at two temperatures

We measured the following variables to investigate the effects of fasting and temperature on swimming performance in juvenile qingbo (Spinibarbus sinensis): the critical swimming speed (U_crit), resting metabolic rate ${(\dot{\mathrm{M}}O}_{\mathrm{2rest}})$ and active metabolic rate ${(\dot{\mathrm{M}}O}_{2active})$ of fish fasting for 0 (control), 1, 2 and 4 weeks at low and high acclimation temperatures (15 and 25 °C). Both fasting treatment and temperature acclimation had significant effects on all parameters measured (P<0.05). Fasting at the higher temperature had a negative effect on all measured parameters after 1 week (P<0.05). However, when acclimated to the lower temperature, fasting had a negative effect on U_crit until week 2 and on ${(\dot{\mathrm{M}}O}_{\mathrm{2rest}})$, ${(\dot{\mathrm{M}}O}_{\mathrm{2active}})$ and metabolic scope (MS, ${(\dot{\mathrm{M}}O}_{\mathrm{2active}})$–${(\dot{\mathrm{M}}O}_{\mathrm{2rest}})$) until week 4 (P<0.05). The values of all parameters at the lower temperature were significantly lower than those at the higher temperature in the identical fasting period groups except for ${(\dot{\mathrm{M}}O}_{\mathrm{2rest}})$ of the fish that fasted for 2 weeks. The relationship between fasting time (T) and U_crit was described as U_crit(15)=−0.302T²−0.800T+35.877 (r=0.781, n=32, P<0.001) and U_crit(25)=0.471T²−3.781T+50.097 (r=0.766, n=32, P<0.001₎ at 15 and 25 °C, respectively. The swimming performance showed less decrease in the early stage of fasting but more decrease in the later stage at the low temperature compared to the high temperature, which might be related to thermal acclimation time, resting metabolism, respiratory capacity, energy stores, enzyme activity in muscle tissue and energy substrate utilization changes with fasting between low and high temperatures. The divergent response of the swimming performance to fasting in qingbo at different temperatures might be an adaptive strategy to seasonal temperature and food resource variation in their habitat.     

鲤幼鱼快速启动游泳能力及电刺激参数的影响

为了研究鲤(Cyprinus carpio)幼鱼快速启动游泳能力并揭示电刺激参数的影响,将90尾鲤幼鱼(体长6.47 cm ±0.09 cm;体重6.36 g±0.03 g)在水温25.0℃±0.5℃的条件下分别采用4个不同的刺激场强(0.25、0.40、0.55和0.70 v·cm-1)和5个不同的刺激历时(10、50、90、130和170 ms)测定实验鱼的快速启动游泳能力.结果表明:电刺激场强由0.25 v·cm-1分别上升至0.40、0.55 v·cm-1时,第一阶段偏转角度(θs1)、第二阶段最大线性加速度(αmax)和速度(Vmax)随刺激场强的升高而显著增大(P＜0.05);而当刺激场强高于0.55 v·cm-1,上述3个参数却无显著差异(P＞0.05);刺激历时在10 ～50 ms范围内,αmax 和Vmax随刺激历时的延长而显著增大(P＜0.05),当刺激历时长于50 ms时上述2个参数均无显著差异(P＞0.05);在场强和历时分别为0.55 v·cm-1和50 ms条件下,鲤幼鱼的θs1、αmax和Vmax分别是(56.51±4.11) deg、(31.60±3.62)m·s-2和(1.34±0.07)m·s-1;鲤幼鱼采取“快速直线”的逃逸策略,具有较强的快速启动游泳能力,鱼类的电刺激反应受刺激参数的影响并且存在阈值.     

溶氧水平对鲫鱼代谢模式的影响

为了探讨水体溶氧水平对鲫幼鱼(Carassius carassius)运动、消化能力及其交互作用的影响,在(25.0±0.5)℃温度条件下,测定了8(饱和溶氧水平)、2和1mg/L溶氧水平下摄食(饱足摄食)和空腹组(空腹2 d)鲫鱼的临界游泳速度(Ucrit)、运动前耗氧率(MO2pre-exercise)、活跃耗氧率(MO2active)和代谢范围(MS)。摄食诱导的耗氧率上升在各溶氧水平下无显著差异。在饱和溶氧水平下,摄食组和空腹组的Ucrit没有显著差异,但在1和2 mg/L条件下,摄食组的Ucrit显著低于空腹组(P<0.05)。在饱和溶氧水平条件下,消化和运动诱导的耗氧率上升在各个游泳水平均能完全叠加,且摄食组鱼类与空腹组鱼类具有相似的MS和Ucrit和更高的MO2active,提示鲫鱼在常氧下为添加代谢模式。随着溶氧水平下降至2和1mg/L,呼吸能力(摄食组的MO2active)对溶氧水平下降较运动耗氧率更为敏感,消化诱导的耗氧率增加只能在较低游泳速度叠加,与空腹组鱼类比较,摄食组鱼类的MS和Ucrit显著下降,MO2active无显著差异,提示低氧下消化和运动对氧气需求竞争的加剧使其代谢模式转化为消化优先。     

The influence of starvation on fast-start performance of Spinibarbus sinensis

Juvenile Spinibarbus sinensis (n = 48, body length, 5.86 ± 0.10 cm, 25 °C) were fasted for 0, 0.5, 1, 2, 4 and 6 weeks. The fast-start performances of the experimental fish were assessed using high-speed video photography and the locomotive kinematics analysis. The morphological parameters including tail height (H₂), tail length (L₂), lateral body area (S₁), median fin area (S₂), dorsal cross section area (S₃) and tail cross section area (S₄) were also measured using TpsDig and the Photoshop. The results showed that 6 week starvation resulted in significant decreases in the escape distance (d), maximum linear velocity (V_max) and maximum linear acceleration (a_max) of center of mass in Stage 1 and Stage 2 of fast-start process (P < 0.05), however there were two relatively sTable phases in the V_max and d, during the week 1–2 (V_max = 0.67 ± 0.06 mm/ms; d = 8.86 ± 0.73 mm) and week 4–6 (V_max = 0.31 ± 0.04 mm/ms; d = 3.70 ± 0.56 mm). When compared with the control group (0 week starvation group), only the 6 week starvation group showed the significantly different response time (t) with average t = 9.20 ± 0.37 ms in week 1–4. There were no significant difference in mass center turning angles at first stage (T_a1) , second stage (T_a2) and the sum of two stages (T_a(1+2)) was also not different (P > 0.05). The fish did not show any directional preference for left or right during escape turning, and all of the related parameters also remained unchanged among treatment group (P > 0.05). The areas of dorsal body cross-section decreased more acutely (P < 0.05) than caudal body cross-section (45.4% vs 38.0%) during the entire starvation period while no significant differences were observed in both the tail height and tail length among all treatment groups (P > 0.05). The results indicated that fast-start performance of juvenile S. sinensis is affected by the starvation; metabolic energy related traits such as the maximum linear velocity and the maximum linear acceleration decreased significantly after starvation; whereas traits with no direct link to metabolic energy such as the response time and turning angle remained unchanged during starvation. The lack of starvation induced change in the maneuverability of the fish suggests that fast-start ability related to escape strategy is relatively well conservative in juvenile S. sinensis.     

Individual variation in metabolism and thermal tolerance in juvenile qingbo (Spinibarbus sinensis)

Studies of individual variation in the physiological performance of animals and their relationship with metabolism may provide insight into how selection influences diversity in phenotypic traits. Thus, the aims of the present study were to investigate variation in thermal tolerance and its relationship with individual metabolism in juvenile qingbo (Spinibarbus sinensis). To fulfill our goal, we first measured the resting metabolic rate (RMR), maximum metabolic rate (MMR), metabolic scope (MS, MMR–RMR) and excess post-exercise oxygen consumption (EPOC) of 40 fish at 25 °C. We then measured the critical thermal minimum (CT_min), lethal thermal minimum (LT_min), critical thermal maximum (CT_max), and lethal thermal maximum (LT_max) of 20 fish. Both MMR and MS were positively correlated with the metabolic recovery rate (MRR) (p = 0.001), indicating that high aerobic metabolic performance individuals possessed an advantage for the recovery of anaerobic metabolism. However, the negative correlation between EPOC and MRR (p = 0.017) indicated a slow recovery of the metabolism of high anaerobic metabolic capacity individuals. The RMR was positively correlated with CT_min and LT_min, whereas all of the metabolic rate parameters (RMR, MMR, and MS) were negatively correlated with CT_max and LT_max (p < 0.05), indicating that high aerobic metabolic performance individuals have a weakened thermal tolerance. These results suggested that there is a trade-off between aerobic metabolic performance and thermal tolerance.     

The effects of dissolved oxygen levels on the metabolic interaction between digestion and locomotion in Cyprinid fishes with different locomotive and digestive performances

To test whether the effects of water oxygen concentration ([O(2)]) on the metabolic interaction between locomotion and digestion differ between fish species with different locomotive and digestive behaviours in normoxia, we investigated the swimming performance of fasted and fed fish at water [O(2)] of 1, 2 and 8 (normoxia) mg L(-1) (2.5, 5 and 20 kPa) at 25°C in three juvenile Cyprinidae fish species: goldfish (Carassius auratus), common carp (Cyprinus carpio) and qingbo (Spinibarbus sinensis). Digestion, taxon and water [O(2)] all had significant effects on the pre-exercise oxygen consumption rate [Formula: see text] and the swimming performance (P < 0.05). Among the three fishes, qingbo showed the highest swimming performance and the lowest feeding [Formula: see text] at the saturated water [O(2)], and its active oxygen consumption rate [Formula: see text] and critical swimming speed (U (crit)) decreased the most with decreases in water [O(2)]. Qingbo exhibited a locomotion-priority metabolic mode at all three water [O(2)]. Digestion was sacrificed to locomotion in a postprandial swimming situation, but fed qingbo could not maintain their U (crit) at water [O(2)] of 2 and 1 mg L(-1). Goldfish showed the lowest swimming performance and the highest feeding [Formula: see text] at the saturated water [O(2)]. They exhibited a digestion-priority metabolic mode at high water [O(2)]. However, with a decrease in water [O(2)], the feeding [Formula: see text] decreased more acutely than the respiratory capacity; thus, digestion and locomotion performed independently in a postprandial swimming situation (i.e., an additive metabolic mode) at a water [O(2)] of 1 mg L(-1). The common carp showed moderate and balanced swimming performance and feeding [Formula: see text] at the saturated water [O(2)], and exhibited an additive metabolic mode at all 3 water [O(2)], because digestion, swimming and respiratory capacities decreased in parallel with the decrease in water [O(2)].     

The effects of different dissolved oxygen regimes on the growth of a freshwater leech

The growth rates of two size classes of Nephelopsis obscura , a freshwater predatory leech, were determined at five different dissolved oxygen regimes (three constant 10%, 100%, 300%. and two diel cyclical 10-100% and 100-300%) at 15°C Both small and large N obscura showed highest growth rates in the diel 100-300% regime and the lowest in the constant 10% or diel 10-100% regimes These differences in growth rate affect the predicted time to reach the minimum size for reproduction, e g 42 8 d m constant 10% and 315dm diel 100-300% regimes for small and 67 9 d and 8 8 d respectively for large N obscura These differences determine whether individuals surviving winter reach maturity and produce cocoons in the spring or the autumn and whether individuals hatched in the spring can reach mature size the same summer