饲料中动物源性成分显微近红外光谱检测分析

探讨了应用显微近红外光谱分析技术检测饲料中动物源性成分的可行性.利用12个动物源性成分饲料样品和14个植物源性成分饲料样品建立偏最小二乘定标模型,数学预处理方法为导数+多元散射校正,利用平均光谱来优化模型实现数据压缩,模型的决定系数、交互验证标准差分别为0.969、0.090.4个配合饲料样品作为外部验证未出现误判.结果表明显微近红外光谱分析技术可用于检测饲料中动物源性成分.     

High stocking density and food restriction have minimum impact on size dispersal of cultured Senegalese sole (Solea senegalensis, Kaup 1858) juveniles. Evidence for individual growth being regulated by population structure

The individual growth being regulated by population structure was studied in cultured populations of Senegalese sole (Solea senegalensis Kaup) juveniles. Soles constituting an initial population were individually tagged and their specific growth rates (SGR) registered after two months of growth. Fish were then graded in order to achieve four new subpopulations based in their previous growths and cultured for other additional 60 days. Three subpopulations consisted of individuals that had previously shown an average SGR (% day⁻¹) of 1.04 ± 0.3, 0.66 ± 0.1 and 0.18 ± 0.1, respectively. A fourth sole subpopulation was established from randomly selected juveniles to constitute the ungraded control group. Growth of the three subpopulations originally graded according to high (1.04% day⁻¹), medium (0.66% day⁻¹) and low (0.18% day⁻¹) SGR soles, was always similar (P > 0.05) at any time (close to 0.60% day⁻¹). SGR distributions along time revealed a tendency of the three subpopulations to achieve similar growth rate dispersals to that of the ungraded group after 60 days of culture.The individual growth of sole juveniles was also determined in populations that were subject to increased stocking density and food restriction. Soles stocked at high density (N = 110 fish tank⁻¹; 30.97 ± 0.8 kg m⁻²) showed an increased growth standard deviation when compared with individuals kept at low density (N = 20 fish tank⁻¹; 6.20 ± 0.2 kg m⁻²). In contrast, it was found that population growth dispersal was unaffected in soles fed at a daily ration of either 0.25% or 1.0% of their biomass. Minimum consequences on overall size dispersal in terms of ΔCV were found when high stocking and restricted food ration conditions were compared to control groups. Overall results from this work indicate that individual growth of captive juvenile soles was mainly regulated at a population level, existing a strong tendency to achieve a social arrangement in terms of growth. High stocking density and low feeding ration assay suggests that potentially competitive rearing conditions do not contribute to increase population size dispersal during intensive production of S. senegalensis.     

基于稳定同位素的口虾蛄食性分析

为了探讨口虾蛄的食物组成,利用稳定同位素方法对2015年5月在汕尾红海湾海域采集的口虾蛄及其饵料生物的碳、氮稳定同位素比值(δ~(13)C和δ~(15)N值)进行分析,定量研究不同饵料生物在口虾蛄食物中的贡献比率。结果表明,口虾蛄的δ~(13)C值为–18.1‰~–16.3‰,δ~(15)N值为10.9‰~13.5‰,平均值分别为–17.1‰±0.5‰和12.7‰±0.7‰。δ~(13)C和δ~(15)N值的变化范围均较大,表明口虾蛄的食物来源较多。口虾蛄的食物主要由鱼类、虾类、贝类、蟹类和桡足类组成。其中,贝类为口虾蛄的主要食物,平均贡献率为38.6%;其次为蟹类和桡足类,平均贡献率分别为22.9%和16.0%;虾类的平均贡献率为13.6%;鱼类的平均贡献率最低,仅为8.9%。根据δ~(15)N值及营养级的计算公式得出,口虾蛄的营养级为3.01±0.22,在其5类食物中,桡足类的营养级最低,仅为1.77±0.12;其次为贝类;蟹类和虾类的营养级分别为2.78±0.21和2.89±0.16;鱼类的最高,为2.98±0.15;它们的营养级均低于口虾蛄。此外相关分析显示,口虾蛄的δ~(15)N值与其个体体质量间存在极显著的正相关关系,说明不同大小的口虾蛄营养级有所差异。     

Fish larvae: zooplankton relationships in microcosm simulations of earthen nursery ponds. II. brackish water system

A simulation of the effects of predation intensity on zooplankton composition in brackish water nursery ponds was carried out in order to address the problem that commercial fish nurseries encounter in obtaining enough zooplankton of adequate species composition and size when fish larvae start to feed. The experimental system consisted of twelve 130 l containers with treatments of four densities (0, 1, 2, or 4 larvae l⁻¹) of common carp (Cyprinus carpio L.), stocked on the 6th day after filling the containers. Zooplankton-environment relationships were explored using factor analysis. Factor analysis allowed identifying several groups of zooplankters that responded in different ways to fish larvae predation pressure. The first factor represented a general measurement of rotifer abundance, and the second identified the direct effect of size-selective fish predation. Since no rotifers were present in the filling water, all these species were autochthonous populations that hatched from resting forms in the sediment and reproduced. In the absence of fish predation, this led to a steep rotifer increase. Fish predation started when the rotifer concentration was just starting to increase and their direct predation reduced and delayed the rotifer abundance peak. This effect increased with the increase in fish larvae density. Estimations of rotifer consumption by fish larvae in this experiment were higher than similar calculations from data of the literature, which led us to test the hypothesis that factors other than direct predation were affecting rotifer population dynamics. The mechanisms involved in rotifer population regulation are discussed. It was concluded that in commercial nurseries, increased larvae production can be achieved by keeping the larvae density at an intermediate level and stocking fish to match the increasing phase of the rotifer peak. Under reasonable larvae density (up to 2 l⁻¹) it seems that the direct predation effect of fish larvae on rotifer dynamics is minor, compared to fish induced self regulation.     

4种饲料投喂对鲻(Mugil cephalus)生长及鱼体组成的影响

以初始体重(25.0±1.59) g的鲻为研究对象,通过8周的生长实验,研究不同饲料投喂对鲻的生长及鱼体生化组成的影响。处理组分别为面粉组(T1)、米糠组(T2)、虾料组(T3)和鱼料组(T4)。研究结果显示,在室内水族缸内单一地使用面粉或米糠投喂,鲻几乎不生长,但仍能维持较高的成活率(>80%)。虾料组的特定生长率(1.46 %/d)和饲料效率(48.62%)均为各组最高,约为鱼料组的两倍,且两组的特定生长率和饲料效率均显著高于面粉组和米糠组(P<0.05)。面粉组和米糠组的周均日摄食量在第4周后迅速降低(<0.80 g/d),而整个养殖期间虾料组和鱼料组普遍高于0.80 g/d,且在第8周明显升高。养殖结束时全鱼的粗蛋白以米糠组最高(18.62%±1.36%),粗脂肪以虾料组最高(10.52%±0.36%)。面粉组有较明显的粗脂肪积累(8.01%±0.42%)。研究结果表明,碳水化合物(面粉)水平的提高会促进鲻全鱼脂肪的积累,用米糠代替配合饲料投喂时可维持鲻的粗蛋白含量水平。     

温度对中华原钩虾(Eogammarus possjeticus)摄食率和消化酶活力的影响

采用生理生态学和酶学分析方法,测定了不同温度下中华原钩虾的摄食率和消化酶活力。结果显示,温度对中华原钩虾幼体消化酶活力的影响差异极显著(P<0.01)。在15?25℃范围内,胃蛋白酶、类胰蛋白酶及淀粉酶的活力随培养温度的升高而增加;在20?25℃范围内,胃蛋白酶、类胰蛋白酶和淀粉酶活力均处于较高水平,说明中华原钩虾幼体在此温度范围内具有较好的消化吸收能力。作为甲壳动物食性指标的淀粉酶/类胰蛋白酶活力(A/T)比值在1.2?1.5之间,说明此阶段中华原钩虾幼体偏植物食性。中华原钩虾日摄食率受温度影响显著(P<0.05),在水温20?25℃之间,中华原钩虾幼体具有最大摄食率,其回归方程为：y = ?0.754 x2+33.297 x?277.57 (R2=0.958),最大日摄食率为89.84%。成体在20℃左右达到日摄食率的最大值,其回归方程为：y = ?0.247 x2+10.463 x– 78.287 (R2=0.998),最大日摄食率为32.47%;中华原钩虾幼体和成体饵料吸收率均随温度升高呈先上升后下降的趋势,各温度处理组幼体的饵料吸收率均高于成体。根据饵料吸收率回归方程,可得到最大饵料吸收率,幼体为59.86%,成体为56.86%,对应的温度分别为幼体21.30℃、成体21.24℃。因此,20?25℃是培育中华原钩虾的适宜水温范围。     

东海区短尾大眼鲷的食性分析

根据2008年5月~2009年2月"东海区主要渔场重要渔业资源的调查与评估(26°00′~34°00′N、120°00′~126°30′E)"课题调查的渔获样品以及从水产市场所采样品,对东海区短尾大眼鲷胃含物进行分析。结果表明:短尾大眼鲷食物组成以磷虾类为主(IRI=2 802.26),其次依次为鱼类(IRI=701.12)、头足类(IRI=488.25)和长尾类(IRI=474.84),其优势饵料种类为太平洋磷虾、细螯虾、乌贼科、短鳄齿鱼等。短尾大眼鲷终年摄食,其摄食率为95.06%,最高饱满指数达110.92‰,平均饱满指数18.36‰,表明短尾大眼鲷具有较高的摄食强度。     

日粮水平和饵料种类对黑鲷能量收支的影响

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。     

投喂频率对刺参(Apostichopus japonicus)生长、体成分组成和能量收支的影响

在实验室条件下,对刺参(Apostichopus japonicus)在不同投喂频率条件下的生长、体成分组成和能量收支进行研究。实验设置4个投喂频率处理,分别每天投喂1(F1组)、2(F2组)、3(F3组)、4(F4组)次,共进行40 d。结果表明,F3组和F4组的刺参生长最快,其末体重均显著大于F1组和F2组(P0.05)。投喂频率越高,刺参的摄食量越大,F4组摄食量越高,为3.67 g/(d·ind),F3组和F4组刺参的摄食量均显著高于F1组和F2组(P0.05),但F3组和F4组没有显著差异(P0.05)。饵料转化率随投喂频率的增加而增加。其中,F4组的饵料转化率最高,为9.70%,而消化率却随投喂频率的增加而降低。投喂频率对刺参主要体成分组成影响不大。从各处理的能量收支方程来看,F1组和F2组的粪能占摄食能的比例显著低于F3组和F4组(P0.05),但占摄食能的比例均超过了50%,其呼吸能占摄食能的比例显著高于F3组和F4组。本研究表明,室内养殖刺参每天投喂3次最佳,排泄能和呼吸能较高可能是导致F1组生长不佳的主要原因。     

胰α-淀粉酶基因5'端调控序列与鱼类食性的关系

为了研究不同鱼类胰α-淀粉酶基因5'端调控序列转录因子差异与鱼类食性分化之间的关系。通过PCR克隆测序和查询NCBI数据库,获得32种鱼类胰α淀粉酶基因5'端824 bp序列,并对鱼类胰α淀粉酶基因5'端序列进行转录因子和系统发育分析。按不同的营养类型将鱼类分为杂食性、植食性和肉食性,通过百分比相似性分析不同食性鱼类的胰α淀粉酶基因转录因子的组成差异以及转录因子与鱼类食性的关系。结果显示:不同食性鱼类的胰α-淀粉酶基因5'端序列存在转录因子种类差异,植食性-肉食性鱼类差异主要体现在E47、C/EBPalpha、NF-Y和Pax-2,植食性-杂食性差异主要体现在deltaEF1、MyoD、NF-Y、AREB6和Pax-2,杂食性-肉食性差异主要体现在GATA-1、SRY、MyoD、HFH-8、AREB6、Pax-2、STAT5A和AP-1。系统发育结果与传统形态分类学大体相符,相同食性的鱼类并没有聚为一类。鱼类胰α-淀粉酶基因5'端调控序列中与食性分化相关的转录因子有E47、C/EBPalpha、NF-Y、Pax-2、deltaEF1、MyoD、AREB6、GATA-1、SRY、HFH-8、STAT5A和AP-1;胰α-淀粉酶基因5'端序列的转录因子与鱼类食性分化具有一定的关系。