鲥鱼仔幼鱼食性与生长的初步研究

本文主要描述鲥鱼仔幼鱼阶段有关摄食、消化器官的发育、不同大小仔幼鱼食物组成特点、摄食量及其昼夜摄食节律。此外,还就仔幼鲥鱼人工饲养条件与天然状况下的生长作了比较。结果表明,只要供饵正常,孵化环道内生活的仔幼鲥生长速度可以略快于鄱阳湖同期天然生长个体的速度,为今后人工培育仔幼鲥进行放流和增殖提供资料。     

鲥鱼的食性研究和养殖问题的探讨

鲥鱼(Macrura reevesii)是著名的洄游性鱼类,每年春夏之交,在海洋中性腺逐渐发育成熟的产卵群体溯入长江、钱塘江等江河中繁殖,繁殖后的亲鲥重回海洋生活,待来年繁殖季节作为剩余群体又溯河产卵。受精卵在江中漂流,孵化成仔鲥。幼鲥在下游江段觅食生长,9—11月间体长达4.0—8.5厘米左右时降河入海。在海洋中肥育的成鲥,产卵前的鱼体丰腴肥硕,肉味鲜美,富含脂肪,历来被称为鱼之上品。 近几年来,鲥鱼产量明显下降,因此增殖鲥     

鲥鱼的驯养与生物学研究Ⅰ.O+龄幼鱼的生长与食性

本文主要描述池塘养殖条件下鲥鱼幼鱼的生长与食性。1)1987-1989年8月至11月幼鱼生长迅速,快于同期珠江天然个体的生长速度;2)体长26.6-94.9mm的幼鱼主要摄食浮游动物,轮虫和浮游植物出现率随个体增大而减少。食物共有18个属种,摄食频度为100%;3)幼鱼的平均饱满指数为75.70‰。各类食物重量百分比的顺序为:桡足类>枝角类>无节幼体>虾类溞状幼体>轮虫>藻类。     

鲥鱼的驯养与生物学研究Ⅰ.O~+龄幼鱼的生长与食性

本文主要描述池塘养殖条件下鲥鱼幼鱼的生长与食性。1)1987—1989年8月至11月幼鱼生长迅速,快于同期珠江天然个体的生长速度;2)体长26.6—94.9mm的幼鱼主要摄食浮游动物,轮虫和浮游植物出现率随个体增大而减少。食物共有18个属种,摄食频度为100％;3)幼鱼的平均饱满指数为75.70‰。各类食物重量百分比的顺序为:桡足类>枝角类>无节幼体>虾类溞状幼体>轮虫>藻类。     

人工饲料喂养中华鲟仔鱼的初步试验

中华鱼为秋季繁殖的鱼类,秋末至冬季则是其仔幼鱼的生长发育时期。由于这一季节水温低,仔幼鱼的培育通常所采用的水蚯蚓、枝角类等活饵料［‘］,无论人工培养还是在天然水域中采集,其产量均难以保证大量培育中华鳄幼鱼的饲料需求。同时,长期投喂污水中生长的水蚯蚓,难免带来各种病原体,导致幼境易于感染疾病。近年来,国外多采用人工饲料培育幼鳄,既保证了大规模、集约化养殖幼鳄对饲料的需求,同时又可避免单一使用水蚯蚓作为饲料所带来的弊端．在美国,采用鲑鲫鱼类人工开口饲料已成功饲养高首势（上lp＊n＊＊ro。ns＊＊n＊nUsD…     

美国鲥鱼对我国淡水生态系统的潜在入侵风险

近年来美国鲥鱼已被引入到我国的上海和广东等地进行水产养殖。本实验报道了在纯淡水人工养殖条件下美国鲥鱼的繁殖和生长情况。人工养殖鲥鱼的生长速度接近美国北卡罗莱纳州沿岸野生鲥鱼的生长速度,而高于特拉华河野生鲥鱼的生长速度;人工养殖的2龄鲥鱼既可以在养殖池中自然产卵,也可以通过注射激素人工诱导产卵,其平均受精率、孵化率和仔鱼17天内的存活率分别约15%、75%和54%。这一结果表明,尽管鲥鱼是在海水中进行繁殖的洄游性鱼类,但在生长环境适宜的淡水条件下同样可以正常生长,并达到性成熟和繁育后代,有可能在适宜的淡水水体中形成自我维持的种群。结合本实验结果和美国鲥鱼的其他生物学特性,本文认为美国鲥鱼在我国天然水体生态系统中具有潜在的入侵性。     

在人工饲养条件下鲥鱼仔鱼期开口摄食的观察

受精卵孵化后的仔鱼开口摄食阶段是鱼类早期发育的关健时期,经常引起仔鱼的大量死亡,缺乏充足的适口外源性饵料可能是造成死亡的重要原因之一。1982—1983年,利用赣江产卵场人工授精的鲥鱼受精卵在室内孵化环道中孵出的仔鱼,投喂捞取的天然浮游生物饵料进行了仔鲥有关开口摄食方面的观察,其主要结果如下:仔鱼在孵化后2.5—6.5日为开口摄食期,个体全长为4.5—7.4毫米,仔鱼通常残留多少不等的卵黄物质,为混合性开食营养类型;开口摄食期间的饵料以轮虫,桡足类及其幼体(无节幼体与挠足幼体)为主要种类,适口饵料宽度为仔鱼口宽的39—81％左右,约占仔鱼全长比例的1.5—3.8％;肠内一次饵料量为平均体重的6.72％。     

上海和雅安两地不同育幼方式大熊猫幼仔生长发育的初步研究

上海作为典型的低海拔地区,气候、环境等条件均与大熊猫Ailuropoda melanoleuca栖息地存在很大差异。为了研究在上海出生并生活的大熊猫幼仔的生长发育情况,以及与四川雅安的大熊猫幼仔生长发育是否存在差异,本文比较分析了上海、雅安两地大熊猫幼仔在母兽哺育、人工辅助育幼2种育幼方式下的体质量、体尺和其他器官的生长发育情况,并采用Chapman生长模型模拟了两地大熊猫幼仔的生长曲线。研究发现:上海大熊猫幼仔40 d、60 d和70 d的体质量显著大于四川雅安大熊猫幼仔(P <0. 05);母兽哺育的大熊猫幼仔40 d、60 d和70 d的体质量显著大于人工辅助育幼的大熊猫幼仔(P <0. 05);雄性大熊猫幼仔40 d、60 d、70 d和100 d的体质量显著大于雌性大熊猫幼仔(P <0. 05)。整体而言,大熊猫幼仔的体长增长最快,其次为腹围,尾长最慢。母兽哺育大熊猫幼仔的体尺数据稍高于人工辅助育幼,与海拔无关;而相同育幼方式下,高、低海拔组幼仔体尺之间的差异无明显规律。Chapman生长模型很好地模拟了上海和雅安两地大熊猫幼仔0～120 d的生长曲线,但2条曲线在拐点日龄、拐点体质量、最大生长率均存在一些差异。通过对两地大熊猫幼仔生长发育的差异研究,为上海地区繁育大熊猫提供了科学依据。     

入侵早期食蚊鱼仔幼鱼食物组成、摄食策略及营养状况分析

饥饿是影响鱼类仔鱼早期存活的关键因素,入侵鱼类仔鱼耐饥饿能力对其种群增长与扩散意义重大。本文对滇池流域食蚊鱼Gambusia affinis奠基种群仔幼鱼摄食及仔鱼营养状况进行深入分析,初步了解了饥饿因素在食蚊鱼入侵早期种群增长中的影响。研究结果显示,该种群食蚊鱼仔幼鱼主要以枝角类、桡足类为食物,同时能够广泛利用栖息地食物资源,包括种类较为丰富的水生昆虫幼体、弹跳虫等,具有广食性的摄食策略,许多个体食物多样性指数>1。这些特点与其口裂较大、发育较为完善的特点密切相关。尽管如此,仍有高达73.27%的食蚊鱼仔鱼存在饥饿胁迫问题,可能与奠基种群自身生物学特点、仔鱼群体内部竞争、行为特点及环境资源差异化分布格局等因素密切相关。对奠基种群而言,入侵早期仔幼鱼面临陌生的栖息地生境,其摄食与营养状况对种群的定殖有关键影响。     

低龄草鱼鳞片环纹的增长及幼轮和年轮特征的初步研究

幼草鱼鳞片环纹,以孵出后第二个月生长最快,往后生长减慢,冬季停止生长。幼鱼体长一般在47—70毫米形成幼轮。鳞片的“切割相”是区别年轮和幼轮的标志。幼鱼在饥饿时,环片不仅不增长,反而出现环片被吸收的现象。鳞片上各种副轮标记的形成与摄食条件的变化有关。计算了体长与鳞径、环纹数以及鳞径与环纹数的迴归方程,它们之间都呈直线正相关,相关显著性均在99%以上。       

A preliminary report on the development, growth and survival of laboratory reared larvae of the grey mullet, Mugil cephalus L.

Larvae from artificially bred grey mullet were reared in the laboratory and survival rates of 0.2 %, 5 % and 5 % achieved in three of six trials. Food consisted of wild zooplankton and Anemia nauplii. Feeding began on the fifth day, when the yolk sac was depleted, and intensified on the ninth day. The rate of yolk absorption and feeding intensity were reflected in the growth curve. Larval survival was not affected by withholding food from the larvae till the seventh day from hatching. Two critical periods associated with high larval mortality were apparent on the 2nd–3rd and 8th–11th days after hatching. These were preceded by an increase in specific gravity of larvae followed by passive sinking to the bottom of the rearing tank. Larval length increased from 2.63 mm at hatching to 17.69 mm at the end of the 42-day larval period. The larvae survived on benthic diatoms therefter. Maximum survival rates were achieved at 22°C. (Oceanic Institute Contribution No. 101).     

Early ontogeny of Ancherythroculter nigrocauda and effects of delayed first feeding on larvae

Development of embryos and larvae in Ancherythroculter nigrocauda Yih et Woo (1964) and effects of delayed first feeding on larvae were observed after artificial fertilization. The fertilized eggs were incubated at an average temperature of 26.5°C (range: 25.7–27) and the larvae reared at temperatures ranging from 21.8 to 28°C. First cleavage was at 50 min, epiboly began at 7 h 5 min, heartbeat reached 72 per min at 24 h 40 min and hatching occurred at 43 h 15 min after insemination. Mean total length of newly hatched larvae was 4.04 ± 0.03 mm (n = 15). A one‐chambered gas bladder was observed at 70 h 50 min, two chambers occurred at 15 days, and scales appeared approximately 30 days after hatching. Larvae began to feed exogenously at day 4 post‐hatch at an average temperature of 24°C. Food deprivation resulted in a progressive atrophy of skeletal muscle fibres, deterioration of the larval digestive system and cessation of organ differentiation. Larval growth under food deprivation was significantly affected by the time of first exogenous feeding. Starved larvae began to shrink, with negative growth from day 6 post‐hatch. The point of no return (PNR) was reached at day 11 after hatching. Mortality of starved larvae increased sharply from day 12 after hatching.     

A simple method of feeding coregonid larvae on frozen zooplankton

7 days old larvae of Coregonus lavaretus L. (local name: ‘Blaufelchen’) were fed on zooplankton that had been frozen at—18°C for 1 year. 4 times per day the pieces of frozen plankton were added into the preaeration tank thus providing that freshly thawed zooplankters were offered to the fish. Within 10 weeks the fish reached a total length of 30.5 ± 5.5 ram and an average dry weight of 22 mg. Within this period the survival was 45 % of the initial number. After a period of 7 weeks feeding on long-term frozen pankton 400 fish were switched to living zooplankton and after 9 weeks 400 fish were switched to short-term frozen plankton. The growth of those fish that were fed on living plankton was significantly faster than it was when frozen zooplankton was given. A switch of coregonids which were prefed on frozen zooplankton to dry diet proved to be successful as soon as the fish had reached a body length of 40 mm.     

Growth and respiration of embryos and larvae of the rabbittish Siganus randalli (Pisces, Siganidae)

Growth and respiration of larval rabbitfish from Guam were examined. Larvae were reared from eggs in 2- to 10-ton tanks and were fed rotifers, Anemia , and artificial feed in succession as development proceeded through metamorphosis. Growth in length was rapid during the 12 h after hatching, then slowed until the larvae began to feed. The yolk sac was usually absorbed by 36 h after hatching. Rates of respiration of larvae and eggs were determined with a dissolved oxygen electrode at various times through development. Larval metabolism increased steadily during the embryonic stages culminating in a metabolic burst immediately after hatching. Respiration rates remained relatively stable from shortly after hatching until the onset of exogenous feeding, after which respiration rates increased with larval size. The respiration rates of post-yolk-sac larvae scaled isometrically with larval dry mass. Daily growth of feeding larvae was 27 to 28% of larval dry mass.     

Ontogenetic changes in the morphology and morphometry of Cuban gar (Atractosteus tristoechus)

Detailed examination of early development and growth of Cuban gar (Atractosteus tristoechus) was conducted using morphologic and morphometric characters. Larvae were reared at a constant water temperature (28 ± 1°C) from hatching to 18 days after hatching (DAH). Observation of the disappearance, reduction, or appearance of external structures, pigment characteristics, and behavior, identified three developmental stages (attached 0-3 DAH; transitional 4-10 DAH; and free-swimming 11-18 DAH). For the 18 day trial, the average growth rate was 1.30 mm/d and the specific growth rate averaged 10.2%/d. The slowest growth rates (0.02 mm/d and 2.8%/d, 7-11 DAH) coincided with the exhaustion of yolk reserves and the transition from endogenous to exogenous feeding. In addition to the slowest growth rates, the most dramatic morphological changes in A. tristoechus were observed during the transition from endogenous to exogenous feeding. Five total length (TL) groupings were established using 25 morphologic and morphometic characters. The characters snout length, pelvic fin length, snout width at nares, head length, and head width best identified length groupings. As the larvae developed, the snout and head lengthened and narrowed. Proportionally, the snout was narrower and the head longer in Cuban gar larvae than in other lepisosteid larvae.     

Feeding, morphological changes and allometric growth during starvation in miiuy croaker larvae

We investigated the effects of the timing of first feeding (larvae in F0, F1, F2, F3 and S were first fed on day 3, 4, 5, 6 days after hatching (DAH) and unfed, respectively) on feeding, morphological changes, survival and growth in miiuy croaker larvae at 24°C. The fed larvae initiated feeding on 3 DAH and reached point of no return (PNR) on 6 DAH. Larvae in F0 and F1 groups survived apparently better than F2 group at the end of the experiment on 36 DAH. High larval mortality occurred from 3 to 7 DAH in all feeding groups, accounting for 40% (F0, F1 and F2 groups) to 90% (F3 and S groups) of the total mortality. Larvae in F0 and F1 groups grew better than F2 group throughout the experiment. Eye diameter, body height, head height and mouth gape of the first feeding larvae were more sensitive to starvation than other morphometrics and could be used as indicators for evaluating their nutritional status. Results indicated that delayed first feeding over 1 day after yolk exhaustion could lead to poor larval survival and growth. To avoid starvation and obtain good growth in culturing, larvae feeding should be initiated within 1 day after yolk exhaustion at 24°C.     

Complementary Behaviors of Maternal and Offspring <Emphasis Type="Italic">Spodoptera littoralis</Emphasis>: Oviposition Site Selection and Larval Movement Together Maximize Performance

The selection of oviposition and feeding sites within cotton plants by Spodoptera littoralis was investigated in the field in 2 years, 2007 and 2008. The female moths exhibited significant oviposition preference for young leaves (YL), particularly the 3rd and 4th leaves from top. The larvae originating from egg batches deposited on YL fed mostly in situ for about 5 days, after which they gradually moved their feeding site toward fully expanded or mature leaves on the same individual plant or on neighboring plants. Larvae hatching from batches deposited on fully expanded leaves (FE) fed in situ only for about 2 days, after which they moved toward younger leaves, where they fed for about 3 more days. After the fifth day, however, larvae of the two groups dispersed mainly downward and outward from their hatching site until the end of a 12-day observation. Larvae hatching from eggs deposited on mature or pre-senescent leaves (MP) moved mainly horizontally to other plants after a slight upward shift. The YL and FE larvae grew significantly faster than MP larvae, both in the field and in a laboratory experiment. In the laboratory experiment, the larval period was shorter and the pupal weight was higher when the animals were offered young leaves or young and fully expanded leaves, than when the animals were offered mature and pre-senescent leaves during the first 5 days after hatching. Possible causes and advantages of the exhibited oviposition preference, as well as the apparent ability of larvae to correct for small egg misplacements made by the females, are discussed.     

Laboratory culture of the larvae of Conus textile Linné (Gastropoda: Toxoglossa)

The larvae of the Indo-Pacific gastropod Conns textile Linné were reared in the laboratory from hatching through metamorphosis. Larvae fed a mixed phytoplankton culture of Isochrysis galbana and Phaeodactylum tricornutum grew at a rate of 0.06 mm/day and began metamorphosing 16 days after hatching. Unfed control cultures yielded no metamorphically competent larvae. Laboratory-reared larvae metamorphosed spontaneously on the walls of the fïberglass rearing tanks when their average shell length was 1.5 mm. Measurements made on field-collected Conns textile juveniles indicate that the larvae metamorphose at the same size in the laboratory as they do in nature.Rates of larval shell length increase and dry weight increase paralleled each other until metamorphosis. At this point, shell growth slowed while dry weight increased suddenly. It is suggested that this weight increase reflects calcification and strengthening of the fragile larval shell upon entering the benthic environment.     

Effect of food abundance on larval lake whitefish, Coregonus clupeaformis Mitchill, growth and survival

The effect of food ration on larval lake whitefish, Coregonus clupeaformis , growth and survival was determined in the laboratory using brine shrimp as the test prey. In replicate experiments, larval whitefish were fed one of seven different rations of brine shrimp over a 25 day period. Statistically significant differences were found between larval growth and survival at each feeding level. Larvae fed to excess were 1.33 times as long and 2.80 times as heavy as those on the 1.8 zooplankton/fish (z/f) ration. No mortality was recorded until after day 15 of the experiment by which time all larvae had resorbed their yolk sac. Total mortality followed within 1 week for all feeding densities with the exception of the three highest (18 z/f, 32 z/f and excess rations) where total mortality equalled 90%, 12% and 0%, respectively.     

Growth and multiplication of white skeletal muscle fibres in carp larvae in relation to somatic growth rate

A morphometric analysis of white axial muscle of common carp Cyprinus carpio was undertaken in order to quantify increase in fibre size, fibre nuclei and fibre number in relation to somatic growth rate during early life. In fast-growing carp larvae fed zooplankton, length and height of fibres from the central part of dorsolateral muscle increased at the same rate (0.75) relative to the total length of the larvae during the first 2 weeks of feeding. During this period, the number of nuclei per fibre increased threefold while the number of nuclei per unit fibre surface remained constant. In fast-growing larvae fed a formulated diet, the total cross-sectional area of one epaxial quadrant of white muscle and the total area of white fibres increased at almost the same rate (3.15; 3.23) relative to larval total length during the first 28 days of exogenous feeding. The total number of white fibres increased faster (2.07) relative to the total length of larvae than the mean area of white fibres (1.16). Hyperplasia accounted for 64% of muscle growth in these larvae. The proportion of fibres with a width < 10 μm decreased from 72% at first feeding to 14% 28 days later, while the proportion of fibres with a width >20 μm which was 0% at first feeding increased up to 34% in the same time. The recruitment of new white fibres seemed to be almost the same in the whole muscle quadrant at first feeding and 18 or 28 days later but, 8 days after first feeding, a transient significant recruitment of new fibres was shown at the apex of the myotome. Comparisons between fast- and slow-growing groups of larvae showed that for a given larval total length: (1) the mean width of central white fibres was higher and the proportion of central fibres with a width <10 μm was lower in slow-growing larvae than in fast-growing ones; (2) the total number of white fibres was lower for a higher total cross-sectional area of white muscle in slow-growing larvae than in fast-growing ones. These results suggest that, in Cyprinus carpio larvae, slow-growing conditions are related to a decreased contribution of hyperplasia to muscle growth.