共查询到18条相似文献,搜索用时 234 毫秒
1.
日粮水平和饵料种类对黑鲷能量收支的影响 总被引:10,自引:0,他引:10
采用室内流水实验法研究了摄食水平和饵料种类对黑鲷能量收支各组分和模式的影响。结果表明,黑鲷的生长量,总呼吸代谢量,排泄量及生态转换效率均随日粮水平升高呈增长趋势,二者之间的定量关系可分别用对数曲线或直线加以定量描述;不同生物饵料能造成黑鲷摄食,生长,排泄和总呼吸代水平的显著差异,但却不能改变以比能值为单位的生态转换效率。黑鲷的呼能量收支分配率随摄食水平不同有较显著差异;代谢能分配率和排泄能分配率随摄食水平增大呈U型变化趋势,而生长能分配率却恰恰相反。除摄食高蛋白饵料时引起排泄能分配率增加外,摄食不同饵料对黑铜的能量分配模式影响不十分显著。 相似文献
2.
日粮水平和饵料种类对真鲷能量收支的影响 总被引:7,自引:0,他引:7
以玉筋鱼为铒料生物,采用室内流水模拟实验法研究了摄食水平和饵料种类对真鲷能量收支各组分和能量收支分配模式的影响。结果表明,真鲷的生长量、总代谢量、排泄量及生态转换效率均随日粮水平升高呈减速增长趋势,二者之间的定量关系均可用对数曲线加以定量描述;不同生物饵料能造成真鲷摄食、生长、排泄和总代谢水平的显著差异,但却不能改变以比能值为单位的生态转换效率。依据各收支过程的量化结果,可得到真鲷的能量分配模式。 相似文献
3.
以玉筋鱼为饵料及最大摄食量条件下,采用室内流水模拟实验法研究了体重对黑FDC6能量收支各组分和能量分配模式的影响。结果表明,黑鮶的摄食量、生长量、总代谢量、排泄量及生态转换效率均随体重增大而降低,二者之间的定量关系均可用线性方程定量描述;其中排泄量随体重变化幅度很小。 依据各收支过程的量化结果, 可得到真鲷的能量分配模式。 30.50±8.66g: 100C=3.74F 5.92U 44.25R 46.09 G;129.32±15.17g:100C=6.21F 6.62U 49.55R 40.74G;201.17±21.37g:100C=3.15F 7.20U 53.39R 36.45G。黑FDC6的各能量收支分配率随体重增大有较显著差异; 代谢能分配率和排泄能分配率随体重增大呈线性增加变化趋势,而生长能分配率却恰恰相反。 相似文献
4.
温度对真鲷能量收支的影响 总被引:7,自引:0,他引:7
真鲷系浅海暖温性底层肉食性鱼类,在中国浅海底层鱼类中有着较为广泛的代表性。本研究在以玉筋鱼为饵料生物和最大摄食水平条件下,采用室内流水模拟实验法定量了其能量收支各组分和能量收支分配模式的温度影响。结果表明,在实验温度范围内,真鲷的摄食率、生长率、总代谢率和排泄率均随温度上升呈减速增长趋势, 二者之间的定量关系均可用对数曲线加以定量描述;真鲷的能量收支分配模式。11.2±1.98℃:100C=4.48F 9.55U 80.19R 5.78G;14.7±0.57℃:100C=2.28F 8.99U 74.56R 14.16G;19.4±0.44℃:100C=2.73F 8.00U 63.23R 26.03G;23.1±1.43℃: 100C=2.94F 8.23U 65.76R 23.07G。从分配模式可以看出,真鲷能量收支各组分的分配率随温度显著变化,其中代谢分配率和排泄分配率随温度升高呈U形变化趋势,而生长分配率和排粪分配率则恰恰相反。由于不同温度下真鲷的代谢能分别占了同化能的69.72%~93.28%,生长能则占6.72%~30.28%,故与其他鱼类相比,真鲷基本上属于低生长效率、高代谢消耗型鱼类。 相似文献
5.
温度对红鳍东方鲀能量收支和生态转化效率的影响 总被引:2,自引:0,他引:2
以玉筋鱼为饵料生物和最大摄食水平条件下,采用室内流水式实验,测定了不同温度下(13、16、19和25°C)红鳍东方鲀(平均体重为37.1±7.7g)的生态转化效率和能量收支各组分.结果表明,红鳍东方鲀的最大摄食率、吸收率、排泄能和总代谢能均随温度上升呈增长趋势.以湿重计算的特定生长率(SGRw)和生态转化效率(ECEw)则呈现先随温度增长而后下降的趋势,其与温度之间的关系可用二次方程描述.由回归方程计算出的特定生长率最大值出现在23.52℃,生态转化效率最大值出现在18.95℃.方差分析表明,红鳍东方鲀的能量分配模式随温度变化显著.排泄能分配率和代谢能分配率占摄食能的绝大部分67.8%~81.7%,随温度升高呈"U"形变化趋势,最低出现在16℃;生长能分配率则与之相反,最高分配率出现在19℃.不同温度下红鳍东方鲀的代谢能占了同化能的61.1%~73.5%,生长能占13.2%~23.2%.可见红鳍东方鲀基本上属于中等生长效率、中等代谢消耗型鱼类. 相似文献
6.
黄、勃海8种鱼类的生态转换效率及其影响因素 总被引:2,自引:2,他引:2
研究应用室内或现场实验生态方法测定了黄、渤海8种鱼类的生态转换效率及其主要影响因素,比较了室内与现场方法所测得数据的差异。结果表明:(1)8种鱼类的生态转换效率有显著差异,以湿重或比能值为单位表示的生态转换效率变化范围分别为12.9%-39.0%和14.8%-46.1%;(2)温度、体重、摄食水平、饵料种类和群居行为等生态、生理因素均可能引起鱼类生长和生态转换效率等生态能量学特征的改变。其中,生态转换效率随温度和摄食量增大均呈倒U型变化趋势,随体重增大则呈减速下降趋势。当鱼类摄食不同饵料生物或群居行为发生变化时,能引起其摄食率与生长率显著差别,却不能使以比能值为单位表示的能量转化效率发生显著变化;(3)不同研究方法可能引起测定结果的显著不同,且其差异程度随鱼种不同而变化。 相似文献
7.
研究低温下栉孔扇贝 (Chlamysfarreri)摄食、呼吸代谢、排泄及能量分配情况 ,为栉孔扇贝的反季节养殖提供生物学依据。在实验室条件下采用静水法 ,测定 3、5和 8℃时栉孔扇贝的能量收支。结果显示 ,在 3~ 8℃时 ,栉孔扇贝的耗氧率、排氨率、摄食率及生长率 (净生长率、毛生长率 )随温度的升高而增大 ;3℃时 ,栉孔扇贝虽然能摄食 ,但是生长率却很低 ;温度对能量分配影响较大 ,生长、排泄分配率随温度的升高而增大 ,呼吸、排粪的分配率与温度呈负相关。在能量收支方程中 ,生长能所占比例变化较大 ,为 17.61%~ 5 3 .2 7% ,代谢能为 2 1.4 8%~3 5 .91% ,排粪能为 2 2 .5 2 %~ 4 5 .99% ,排泄能所占的比例最小 ,低于 3 %。 相似文献
8.
研究了低盐和低温对脊尾白虾(Exopalaemon carinicauda Holthuis)生长和能量收支的影响,实验周期60d。结果表明,随盐度的升高,脊尾白虾存活率、特定生长率、摄食量和饲料转换效率呈上升趋势;随温度的升高,白虾特定生长率、摄食量和吸收效率呈上升趋势,而饲料转换效率呈下降趋势。能量分配中,呼吸能的支出最大,占摄食能的68.78%~74.91%;其次是排粪能和生长能部分,分别占摄食能的10.23%~13.24%和6.97%~13.24%;排泄能和蜕壳能是能量支出中较小的部分,分别占摄食能的4.61%~5.56%和0.63%~0.73%。随盐度的升高,脊尾白虾生长能占摄食能的比例呈上升趋势,而排泄能和排粪能占摄食能的比例呈下降趋势。随温度的升高,白虾生长能和排粪能占摄食能的比例呈下降趋势,而呼吸能和排泄能占摄食能的比例呈上升趋势。 相似文献
9.
低盐和低温对脊尾白虾生长和能量收支的影响 总被引:2,自引:0,他引:2
研究了低盐和低温对脊尾白虾(Exopalaemon carinicauda Holthuis)生长和能量收支的影响,实验周期60 d.结果表明,随盐度的升高,脊尾白虾存活率、特定生长率、摄食量和饲料转换效率呈上升趋势;随温度的升高,白虾特定生长率、摄食量和吸收效率呈上升趋势,而饲料转换效率呈下降趋势.能量分配中,呼吸能的支出最大,占摄食能的68.78%~74.91%;其次是排粪能和生长能部分,分别占摄食能的10.23%~13.24%和6.97%~13 24%;排泄能和蜕壳能是能量支出中较小的部分,分别占摄食能的4.61%~5.56%和0.63%~0.73%.随盐度的升高,脊尾白虾生长能占摄食能的比例呈上升趋势,而排泄能和排粪能占摄食能的比例呈下降趋势.随温度的升高,白虾生长能和排粪能占摄食能的比例呈下降趋势,而呼吸能和排泄能占摄食能的比例呈上升趋势. 相似文献
10.
摄食水平对食蚊鱼生长、卵巢发育和能量收支的影响 总被引:1,自引:0,他引:1
在室内(27.5±0.5)℃水温下设高、中和低3个摄食水平,研究雌性食蚊鱼(Gambusia affinis)幼鱼至初次性成熟期间的生长发育和能量收支,为探讨食蚊鱼的环境适应性和生态入侵机制提供基础数据.结果显示:初次性成熟雌性食蚊鱼的体长、体质量、丰满度、特定生长率、肝指数、性腺系数、成熟卵子数量和鱼体能量密度均随摄食水平增加显著增加;低水平摄食组雌性食蚊鱼初次性成熟的个体最小,体长为(17.98±0.98) mm,体质量为(104.41±3.31)mg,但成熟卵子干重和卵径均不受摄食水平显著影响.实验期间,干、湿物质饵料转换效率均随摄食水平增加呈下降趋势,低水平摄食组饵料转换效率著高于高水平摄食组.随摄食水平减,食蚊鱼摄食能量分配在生长和卵巢发育的比例显著增加,在低水平摄食组其分配比例分别达到56.22%和10.42%.以上结果表明:在食物不足的条件下,食蚊鱼初次性成熟个体呈小型化,但卵子大小稳定,饵料转换率较高,摄食能量分配在生长和繁殖上的比例增大,这些特点有利于其适应不同入侵生境. 相似文献
11.
条纹石鮨摄食强度与代谢及能量收支间的关系 总被引:1,自引:0,他引:1
设日摄食率为0.4%、1.5%、4.0%三种水平,分别测定条纹石鱼旨Moronesaxatilis幼鱼的代谢及能量的收支情况。处于饱食(日摄食率4.0%)及维持状态(日摄食率1.5%)下,该鱼代谢率增加的峰值分别于摄食后3h及7h内出现,为静止时代谢水平的2.10倍和2.46倍,SDA(特殊动力作用)持续时间均为21h,SDA总耗能量分别占摄入能的13%和35.8%。条纹石鱼旨在饱食时的转化效率K(湿重)为20.85%。三种摄食水平下条纹石鱼旨的能量收支方程分别为:饱食状态(日摄食率4.0%)时,100C=8.4F+7.8U+13.0SDA+36.9(Rs+Ra)+33.9G;维持状态(日摄食率1.5%)时,100C=7.8F+4.1U+35.8SDA+52.3(Rs+Ra),其中G=0;减重状态(日摄食率0.4%)时,(F+U+R)/(C+P1)=67.3%,其中C+P1=14.4C+85.6P1,F+U+R=1.8F+8.1U+57.4R。 相似文献
12.
The total energy budget of 65 ± 8.0 g common carp, Cyprinus carpio L., was studied in the laboratory. The pattern of energy allocation varied with dietary protein content and ration levels. The energy lost as heat of metabolism, R, was found to increase with dietary protein level and total ration. Energy lost as faeces, F, varied from 19% to 24% of consumption, C, but did not appear to be related to either protein content or ration levels. The energy equivalent of nitrogenous excretion, U, as a proportion of C increased with an increase in dietary protein but decreased with an increase of ration level. Regression equations were developed from the data to allow prediction of respiratory energy losses, faecal losses and excretory losses. The balance of energy budgets compiled from experiments conducted over an 18-day period was between 66% and 82%. Observed growth was always less than predicted growth, so the predictive models overestimated growth. The data presented form the basis for the first reported study of total energy budgets in Cyprinus carpio. 相似文献
13.
The present work aimed to study metabolic utilization of energy and protein by juvenile European seabass reared at 25 °C and
to estimate maintenance requirements, based on indirect calorimetry and nitrogen excretion measurements. Duplicate groups
of fish (IBW = 22 g) were fed a practical diet, for 28 days, at ration levels of 0, 0.25, 0.5, 1 and 1.5% of body weight.
At the end of this period, oxygen consumption and ammonia nitrogen excretion were measured in fed and unfed fish. Weight gain
linearly increased with ration level. Feed efficiency significantly increased with nitrogen intake up to 0.68 g N/kg/day.
Nitrogen retention (% N intake) was positive at all feeding levels, being maximum at 0.5% BW and then decreased with increasing
ration levels. There was negative energy balance at the lowest ration level and significantly increased at higher ration levels.
Daily oxygen consumption (g/kg body mass) and ammonia excretion (mg N–NH4/kg body mass) significantly increased with ration level. Heat production and heat increment of feeding (kJ/kg/day) remained
low at low ration levels and significantly increased as ration level increased from 0.5 to 1.5% BW. Below maintenance, protein
energy represented 34% of total energy expenditure and significantly increased to 49–56% above maintenance. Based on indirect
calorimetry and ammonia excretion data, maintenance energy and protein requirements were estimated to be 56.8 kJ DE/kg/day
and 1.15 g DP/kg/day, respectively. The efficiencies of energy and protein utilization were estimated to be 0.83 and 0.66,
respectively. 相似文献
14.
不同摄食水平对牙鲆幼鱼生长及能量收支的影响 总被引:1,自引:0,他引:1
在水温(20.0±0.5)℃,摄食水平分别为体质量的1.0%、1.5%及饱食条件下,进行牙鲆幼鱼[体质量为(35.08±0.05)g]的生长和能量收支的研究。试验结果表明,随着摄食水平的增加,鱼体干物质、蛋白质和能量表观消化率随摄食水平的增加而增加;湿质量特定生长率随摄食水平的增加呈线性上升,干物质、蛋白质和能量特定生长率呈对数增加;饲料湿质量转化效率不受摄食水平的影响,饲料干物质、蛋白质和能量转化效率随摄食水平的增加先升后降。粪能占摄食能的比例随摄食水平的增加而显著降低,生长能占摄食能的比例随摄食水平的增加先升后降,代谢能占摄食能的比例变化与生长能占摄食能的比例变化相反。各个摄食水平下能量收支式为:1.0%:100.00C=28.99G+2.34F+6.03U+62.64R;1.5%:100.00C=37.19G+1.94F+5.27U+55.60R;饱食:100.00C=30.73G+1.36F+5.16U+62.75R。 相似文献
15.
摄食水平对几种重要海水养殖鱼类生长和氮收支的影响 总被引:1,自引:0,他引:1
本文研究了不同摄食水平(从饥饿至饱食)军曹鱼幼鱼(平均初始体重10.0g)、青石斑鱼幼鱼(平均初始体重5.5g)和卵形鲳鲹幼鱼(平均初始体重7.7g)的生长和氮收支,建立了生长和氮排泄与摄食水平的回归方程。结果表明,军曹鱼幼鱼特定生长率随摄食水平的增加呈显著增长趋势,在9%和饱食两个摄食水平之间无显著性差异,而青石斑鱼和卵形鲳鲹幼鱼的特定生长率随摄食水平增加呈线性增长趋势;饱食时,青石斑鱼和卵形鲳鲹幼鱼的生长速率接近而明显低于军曹鱼幼鱼的。军曹鱼幼鱼食物转化效率随摄食水平的增加呈先增长后下降的趋势,在9%/d摄食水平组有最大值,而青石斑鱼和卵形鲳鲹幼鱼食物转化效率随摄食水平的增加而持续增长,在饱食摄食水平时有最大值;饱食时,军曹鱼和青石斑鱼幼鱼的食物转化效率接近而明显高于卵形鲳鲹幼鱼的。3种海水鱼摄食氮、排粪氮、生长氮和氮排泄均随摄食水平的增加呈显著增长趋势;比较可知,军曹鱼幼鱼的摄食氮和氮排泄均最大,而青石斑鱼幼鱼的最小。军曹鱼、青石斑鱼和卵形鲳鲹幼鱼饱食和次饱食摄食水平时的氮收支方程分别为100CN = 7.7(6.0)FN + 22.6(31.31)GN + 69.7(62.68)UN、100CN = 2.7(2.8)FN + 20.9(8.4)GN + 76.4(88.8)UN和100CN = 1.8(1.4)FN + 12.8(9.3)GN + 85.4(89.3)UN(氮收支方程括号中的为次饱食数据);3种海水鱼饱时和次饱食时摄食氮中用于排粪的比例较小且变化不大,军曹鱼次饱食时摄食氮中用于生长的比例较饱食时的大而用于排泄的比例较饱食时的小,青石斑鱼和卵形鲳鲹幼鱼的则相反。因此,鱼类的氮排泄率和氮收支方程存在种间差异,而当食物中氮含量较为接近时,摄食量增大是导致鱼类氮排泄增加的主要原因之一。综合考虑生长、食物转化效率、氮排泄和氮收支方程各因素,可得出在实验的生长阶段,3种海水养殖鱼中,军曹鱼幼鱼的最佳摄食水平为次饱食摄食水平(9%/d或约为饱食摄食水平的70%),而青石斑鱼和卵形鲳鲹幼鱼的最佳摄食水平为饱食摄食水平。 相似文献
16.
采用实验生态学方法,研究了魁蚶(Scapharca broughtonii)摄食、呼吸代谢及能量收支对短期酸化(pH分别为8.2、7.9、7.6)的响应。结果显示,魁蚶的摄食率(IR)和排粪率(FER)均受pH影响显著(P<0.05),都随pH的降低而减少;魁蚶的耗氧率(OR)受pH影响显著(P<0.05),随pH降低呈明显的下降趋势,表明低pH在一定程度上抑制魁蚶的呼吸;排氨率(NR)受pH影响不显著,随pH的降低呈先下降再上升的趋势;O : N值随pH的降低而减小。不同pH条件下的能量收支结果显示,魁蚶的摄食能、呼吸能、排粪能和生长余力(SFG)均随pH的降低而减少。通过建立能量收支方程发现,pH显著影响魁蚶的能量分配(P<0.05),随pH的降低,魁蚶的呼吸能和排泄能占摄食能的比例增加,而排粪能和生长能占比减少,说明低pH条件下,魁蚶会做出适当生理调整降低IR,增加代谢率,导致能量减少,继而造成SFG减少。研究表明,短期酸化条件下,魁蚶的摄食和新陈代谢显著降低,可能是细胞能量需求的增加和氮损失的协同作用。 相似文献
17.
The effect of an 80-day maintenance-feeding period on the acute stress response of common carp, Cyprinus carpio, to net confinement was determined. Fish were raised on an optimal feeding level of 20 g food/kg of metabolic fish weight per day (g/kg0.8 day−1) until 124 days post-hatch (dph). Feeding in group one (L>H) was then reduced to maintenance levels, i.e. 5 g/kg0.8 day−1 until 204 dph, when the feeding was again increased to 20 g/kg0.8 day−1. In group two (H>L), the feeding level was reduced from 20 to 5 g/kg0.8 day−1 on day 146. All fish were sampled at 226 dph. Food ration had significant effects on the growth rate and food conversion values with fish fed the high ration performing better than those on a lower level. Prior to the application of the stressor, only plasma levels of triglycerides were lower in fish fed a low food ration (H>L). Feeding history influenced the onset of the stress response with stressor-induced elevations of plasma cortisol, glucose and free fatty acids being higher in fish fed a high ration compared with those fed a low ration prior to sampling. These results suggest that feeding history through modification of the energy reserves can influence the onset of the acute stress response. 相似文献
18.
The effect of ration on growth and energy budget of Chinese longsnout catfish was investigated in a growth trial. Fish of initial body weight of 6.5 g were fed at six ration levels (RLs): starvation, 0.8%, 1.6%, 2.4%, 3.2% of body weight per day, and apparent satiation for 8 weeks. Fish were weighed biweekly to adjust feed amount. The results showed that specific growth rate in wet weight, protein and energy increased logarithmically with increased RLs. The relationship of specific growth rate in wet weight (SGRw, % day?1) and RL (%) was a decelerating curve: SGRw=?0.62+3.10 Ln(RL+1). The energy budget equation at satiation was: 100 IE=12.94 FE+5.50(ZE+UE)+40.07 HE+41.49 RE, where IE, FE, (ZE+UE), HE, RE are food energy, faecal energy, excretory energy, heat production and recovered energy respectively. Body composition was slightly but significantly affected by ration size except for protein content. The most efficient ration based on the relationship between RL and feed efficiency ratio in energy (FERe) was 1.8% of body weight per day. 相似文献