延迟投饵对齐口裂腹鱼仔鱼摄食、存活和生长的影响

在水温(16.0±0.7)℃条件下,研究了延迟投饵对齐口裂腹鱼仔鱼摄食、存活和生长的影响。设置22个试验组,每组3个平行,每个平行200尾仔鱼,其中D0组为对照组(仔鱼开口即开始投饵),D1~D20组分别延迟1~20 d投饵,试验第22 d,完全饥饿组仔鱼全部死亡,因此D21组为完全饥饿组。试验结果表明,齐口裂腹鱼仔鱼7日龄时初次开口摄食,摄食率为13.33%,初次摄食率随着日龄的增长而递增,14日龄达到最高(摄食率86.67%);饥饿不可逆点(PNR)出现在19~20日龄。延迟投饵0~2 d的试验组,其仔鱼存活率均高于90%,并且组间无显著差异(P0.05);延迟投饵3 d以上,仔鱼的存活率显著低于对照组(P0.05);延迟投饵10 d以上,仔鱼存活率急剧下降;完全饥饿21 d,仔鱼全部死亡。随着延迟投饵时间的增加,仔鱼的全长、体质量呈现递减的趋势,甚至出现负增长,试验结束时,对照组仔鱼的全长和体质量均显著高于各延迟投饵组(P0.05)。综合仔鱼的摄食情况及其全长和体质量的变化等,齐口裂腹鱼初次投饵时间在7~8日龄比较适宜。     

延迟投饵对奥尼罗非鱼仔鱼摄食、生长和存活的影响

在盐度为5‰,水温(28±0.5)℃的条件下,对延迟投饵0~7d的奥尼罗非鱼(Oreochromis niloticus×O.aureus)仔鱼摄食、生长与存活进行了研究,并确定了仔鱼的饥饿不可逆点(PNR)。试验于仔鱼开口的当天开始试验。结果显示:仔鱼于3日龄开口;延迟投饵0~7 d组,投饵2 h后仔鱼摄食发生率分别为20%、100%、83.3%、36.7%、13.3%、6.7%、3.3%和0%,各组之间差异显著(P<0.05);延迟投饵在2 d以内,10日龄仔鱼体长和体重与对照组无显著差异(P>0.05),延迟投饵超过2 d,体长和体重显著低于对照组(P<0.05);奥尼罗非鱼仔鱼存活率随延迟投饵天数增加而降低,延迟0~2 d的10日龄仔鱼的存活率相差不大,介于78.6%~79.3%,各组差异不显著(P>0.05),延迟投饵超过2 d的仔鱼存活率较低,介于0%~33.3%;奥尼罗非鱼仔鱼的不可逆点出现在仔鱼开口后第4 d,开始投喂的最佳时间在仔鱼开口后的3 d之内。     

延迟投饵对匙吻鲟仔鱼存活与生长的影响

在（22&#177;0.5）℃水温条件下,通过饥饿试验,研究了延迟投饵对匙吻鲟（Polyodon spathula）仔鱼存活与生长的影响。结果表明：延迟1~2 d投饵对仔鱼存活的影响不显著;延迟3 d以上投饵,仔鱼成活率显著下降;完全饥饿条件下,仔鱼半致死时间为11日龄,全部死亡时间为17日龄;延迟1 d投饵对仔鱼生长的影响不显著,延迟2 d以上投饵对仔鱼生长的影响显著。匙吻鲟仔鱼开口摄食期没有混合营养期,从初次开口摄食到饥饿半致死之间的间隔仅4 d。因此,匙吻鲟仔鱼初次投喂的最适时间建议在开口摄食后的2 d之内。     

马拉瓜丽体鱼仔鱼饥饿试验及不可逆点的确定

在（28±1）℃条件下对马拉瓜丽体鱼（Cichlasoma managuense）仔鱼进行饥饿试验,确定仔鱼的不可逆点（PNR）,并研究延迟投饵对仔鱼成活和生长的影响。结果显示,仔鱼在4日龄时开口摄食,进入混合营养期,持续3 d;7日龄时卵黄囊消失,进入外源营养期。初次摄食率开始时仅为15%,6日龄时的初次摄食率最高达100%,9日龄以后初次摄食率急剧下降,PNR出现在仔鱼孵出后第9至第10日龄。延迟投饵1～3 d对仔鱼的成活率影响不大,延迟投饵4 d以上仔鱼成活率明显下降。完全饥饿条件下仔鱼全长在0～8日龄为正增长,之后开始转为负增长。延迟投饵1～3 d的12日龄仔鱼全长无显著差异（P〉0.05）;延迟投饵超过4 d的仔鱼全长则有极显著差异（P〈0.01）。马拉瓜丽体鱼仔鱼的最佳投喂时间应在仔鱼开口后的3 d之内。     

延迟投饵对杂交鲟仔鱼生长、摄食和存活的影响

为进一步了解杂交鲟(史氏鲟Acipenser schrenckii♂×达氏鳇Huso dauricus♀)仔鱼开口阶段的摄食习性,并为大批量培育人工苗种提供理论依据,在水温19~23 ℃条件下,研究了延迟投饵对人工繁殖的杂交鲟仔鱼生长、摄食和存活的影响。设置了投饵时间不同的6个试验组,每组30尾仔鱼,分别于孵化后9、10、12、14、16和20 d开始投喂剁碎的水蚯蚓;另设1个饥饿组作对照,试验过程中始终不投饵。每个试验组设2个平行,试验周期为30 d。结果显示:(1)杂交鲟仔鱼在孵化后9 d初次摄食,9~11日龄为混合营养期,20日龄不能建立外源营养的仔鱼进入不可逆点(PNR)期;(2)不同阶段杂交鲟仔鱼初次摄食率的变化规律为:开始较低,此后持续上升,11~19日龄仔鱼的初次摄食率维持在75 %~100 %,20日龄仔鱼的初次摄食率急剧下降至40 %;(3)延迟投饵3 d对杂交鲟仔鱼的存活率无显著影响;延迟投饵5 d以上,仔鱼的存活率急剧下降,饥饿组仔鱼在25日龄全部死亡;延迟投饵0、1和3 d的试验组,仔鱼体长和体质量增长无显著性差异(P>0.05),但与其他组仔鱼相比差异显著(P<0.05)。试验结果表明:杂交鲟仔鱼的最佳投饵时间为10~12日龄。     

延迟投饵对半刺厚唇鱼仔鱼摄食、生长与存活的影响

采用实验生态学方法,以半刺厚唇鱼(Acrossocheilius hemispinus)仔鱼为试验对象,探讨在25.4~29.5℃水温条件下延迟投饵对其摄食、生长与存活的影响。结果表明,半刺厚唇鱼仔鱼开口当天投饵及延迟投饵1~12 d,投饵后3 h内仔鱼的摄食率分别为0、33.33%、100%(6~11日龄)、85.71%、76.92%、46.67%和28.57%,延迟投饵12 d仔鱼的摄食率为0;仔鱼最高初次摄食率出现在6~11日龄,初次摄食期仔鱼的PNR发生在14日龄,仔鱼具有摄食能力的时间长达11 d;延迟投饵0~2 d的30日龄仔鱼全长无显著差异(P0.05),而与其它组仔鱼的全长则差异显著(P0.05);延迟投饵0~5 d仔鱼的存活率均达到100%,但延迟7 d以上仔鱼的存活率急剧下降,延迟投饵9 d仔鱼的存活率为0。综合仔鱼的摄食、生长与存活表现,开始投饵的适宜时间在仔鱼开口后的2 d之内。     

延迟投饵对瓦氏黄颡鱼仔鱼存活、摄食和生长的影响

以瓦氏黄颡鱼仔鱼为研究对象，将其分为15个处理组，每组200尾（各设3个平行组），分别在孵化后3、4、5、6、7．8、9、10、11、12、13、14、15和16d开始投喂大型涵，第15组为饥饿组，从不投饵。水温24．5～25．5℃，实验周期为30d。结果表明：（1）孵化后3d的瓦氏黄颡鱼仔鱼初次摄食，15日龄不能建立外源性营养的仔鱼进入PNR期，卵黄囊已耗尽。混合营养期持续4．12h。（2）瓦氏黄颡鱼仔鱼在不同饥饿阶段初次摄食率的变化为：开始较低，此后迅速上升，在4～10日龄达到高峰，最高初次摄食率为100％，此后逐步下降。（3）延迟5天投饵对瓦氏黄颡鱼仔鱼的存活率影响不显著，延迟6d投饵瓦氏黄颡鱼仔鱼的存活率随延迟投饵天数的增加而降低。延迟6d投饵，瓦氏黄颡鱼仔鱼的体长增长率随延迟投饵天数的增加而降低。     

叶尔羌高原鳅仔鱼饥饿试验及不可逆点的确定

为了更好地增殖和保护叶尔羌高原鳅（Triplophysa yarkandensisa）这一塔里木河水系优势土著鱼类，拟采用实验生态法，在水温（20±1）℃条件下，利用人工孵化获得叶尔羌高原鳅初孵仔鱼进行饥饿试验，确定仔鱼的不可逆点（PNR），并研究延迟投饵对仔鱼成活和生长的影响。结果显示，叶尔羌高原鳅仔鱼3日龄即开口摄食，进入混合营养期，仔鱼卵黄囊于6～7日龄消耗完毕，混合营养期维持仅为3～4 d。初次摄食点出现在3日龄时，摄食率仅为16.7%，初次摄食率最高达在7日龄，摄食率可达90%，PNR出现在仔鱼孵出后的8～9日龄。3日龄后饥饿对仔鱼卵黄吸收速度影响显著((P< 0.05)；摄食仔鱼生长呈线性增加，饥饿仔鱼生长呈现先升高后降低的趋势。叶尔羌高原鳅仔鱼的最佳投喂时间应在仔鱼开口后4d之内。研究表明：叶尔羌高原鳅仔鱼个体较小，对于初次摄食饵料的的选择范围较小，食谱范围窄，初孵仔鱼死亡率高，对于高原鳅属仔鱼开口饵料有待进一步开发。     

延迟投饵对卵形鲳鲮早期仔鱼阶段摄食、成活及生长的影响

利用人工繁殖产生的卵形鲳够（Trachinotus ovatus）初孵仔鱼，在水温（26．8±1．4）℃、盐度28．2±0．8条件下，对延迟投饵0～6d的卵形鲳够仔鱼的摄食、生长及其成活情况进行了研究。结果显示，仔鱼于3Et龄开口，于开口的当天投饵及延迟投饵1、2、3、4和5d，投饵后2h内仔鱼的摄食率分别为15％、30％、50％、25％、15％和5％，每尾鱼的平均摄食量分别为0．4、0．6、1．3、0．6、0．3和0．1个轮虫。延迟投饵6d一组仔鱼的摄食率均为0。延迟投饵0、1和2d各组仔鱼的成活率相差不大，但延迟3d以上仔鱼的成活率急剧下降。卵形鲳鲣仔鱼的初次摄食饥饿不可逆点（PNR）出现在仔鱼开口后4d，开始投喂饵料的最佳时期应在仔鱼开口后的3d之内。     

舟山褐牙鲆（Paralichthys olivaceus）仔鱼摄食和生长的研究

试验研究了褐牙鲆Paralichthys olivaceus仔鱼的摄食和生长。结果表明，仔鱼初次开口摄食时间在6日龄（16～18℃），初次摄食率为30％，8日龄饥饿仔鱼最大初次摄食率为65％，孵出后第9天达到不可逆点（PNR），混合营养期为3d左右。初次摄食强度和初次摄食率开始时较低，在卵黄囊耗尽时达最高，然后下降。随着饥饿时间的延长，仔鱼出现“负增长”，孵化第11天存活率仅为10％，12日龄全部死亡。     

延迟投饵对真鲷,牙鲆仔鱼早期阶段摄食,存活及生长的影响

试验结果表明：（１）２日龄真鲷，牙鲆仔鱼初次摄食，在６￣７日龄和５￣６日龄，不能建立外源性营养的仔鱼分别进入ＰＮＲ期，而卵黄囊均在此前１￣２天已耗尽。混合营养期分别为３￣４天和１￣２天。（２）真鲷和牙鲆仔鱼在不同饥饰饿阶段初次摄食率的变化式型是：开始较低，此后逐步上升，高峰期出现在卵黄囊接近耗尽时，此后开始下降。记录到的最高初次摄食率分别为８６．７％和３５％。（３）牙鲆仔鱼体长的增长率随延迟投饵天     

Effects of delayed feeding on growth and survival of Channa striatus (Bloch) larvae

Abstract. Newly hatched Channa striatus (Bloch) were tested for survival and growth under various delayed feeding regimes. Channa striatus larvae were found to be extremely tolerant to the delay in initial feeding. About 9% of the larvae died when initial feeding was delayed by 2 days after yolk absorption. However, mortality progressively increased with further delays in first feeding. Only 26% of larvae took food when it was offered 11 days after yolk absorption.'Point of no Return'was reached only on the 14th day of starvation.     

Effects of delayed first feeding on larval growth,survival and development of the sea cucumber Apostichopus japonicus (Holothuroidea)

The time of first feeding is an important factor for establishing successful exogenous feeding in aquaculture hatcheries as it is crucial for larval survival and growth. The effects of delayed first feeding by the sea cucumber Apostichopus japonicus larvae were investigated. Groups of larvae were fed immediately after completion of the digestive tract (fed control) or starved for 24, 48, 72, 108 and 120 h post fertilization. The growth rates of A. japonicus larvae were the same as those of the control group when first feeding was delayed for less than 72 h. When the period of starvation was beyond 72 h, growth rates were reduced. The fed control group had the highest percentage of late auricularia larvae (70.0%) on day 11, followed by the groups starved for 24, 48, and 72 h, respectively, which had 35.00%, 43.48% and 41.67% of late auricularia larvae. When larvae were starved for more than 72 h, the percentage of late auricularia larvae never exceeded 12.0%. Most larvae halted in development and were deformed before reaching metamorphosis when starved for 108 and 120 h. Prolonged exposure to starvation (more than 48 h) resulted in a significant decrease in percentage of larvae reaching settlement. The point‐of‐no‐return (PNR) of A. japonicus larvae was calculated 110.4 h. Ratios of stomach length to total length, stomach width to total width were more sensitive to starvation than other larval morphometrics. To avoid mortality and obtain adequate growth and development, A. japonicus larvae in commercial culture should be fed within 48 h of the completion of the digestive tract.     

Rates of Yolk Utilization and Effects of Delayed Initial Feeding in the Larvae of the Freshwater Fishes Rohu and Singhi

The yolk utilization rates and effects of delayed initial feeding were examined on the feeding ability, survival and growth of the larvae of two freshwater species, rohu, Labeo rohita and singhi, Heteropneustes fossilis reared in the laboratory at 26 (2) °C. Although the yolk reserves in both species lasted at least 7 days after hatching, all larvae initiated feeding by the fifth day, indicating a short period of mixed (endogenous and exogenous) feeding. When first feeding was delayed beyond the fifth day, subsequent weight gains and survival rates declined progressively for both rohu and singhi, although their feeding abilities were not adversely affected until the seventh (singhi) and eleventh (rohu) day. The point of no return (PNR) (when 50% of the unfed larvae were unable to feed when offered food) was reached in singhi when they were 8 days old and in rohu when they were 14 days old. Even among the larvae that fed at PNR, their subsequent mortality rate was nearly 100%, reflecting the irreversible effects of starvation. This study showed that rohu were more resistant to starvation than singhi.     

Effects of starvation on larval growth,survival and metamorphosis of Ivory shell Babylonia formosae habei Altena et al., 1981 (Neogastropoda: Buccinidae)

The impact of starvation on larvae of Ivory shell Babylonia formosae habei was studied in a laboratory experiment. Newly hatched veligers showed considerable tolerance to starvation due to their endogenous yolk material, and time to the point-of-no-return (PNR; the threshold point during starvation after which larvae can longer metamorphose even if food is provided) was calculated to be 104.5 h. However, starvation still affected larval growth, survival, and metamorphosis. Mean shell length of larvae increased 49.77 μm day⁻¹ for nonstarved, but only 11.13 μm day⁻¹ for larvae starved for 108 h. After larvae began feeding, their growth rates rapidly recovered to the level of the nonstarved following short periods of starvation (less than 48 h), but were inhibited and unable to ever reach the level of the nonstarved when being starved beyond 48 h. Percent metamorphosis was 53.75% for the nonstarved, but all larvae died before 10 days for those starved for 108 h. Starvation not only affected larval time to reach metamorphosis, but also caused the delay in the time to metamorphosis. For the nonstarved, larvae took only 11.5 days to reach spontaneous metamorphosis, but they took 20 days to reach spontaneous metamorphosis when starved for 96 h, and this duration of delayed metamorphosis reached 8.5 days. Furthermore, the importance of yolk material for maintaining larval survival of B. formosae habei during starvation periods is also discussed.     

延迟首次投喂对乌江中华倒刺鲃仔鱼的补偿生长、消化酶活性及饵料日转化率的影响

为探究延迟首次投喂对乌江中华倒刺鲃(Spinibarbus sinensis)仔鱼补偿生长、消化酶活性及饵料日转化率的影响,对肠道贯通后的仔鱼进行了不同饥饿天数(H0、H1、H3、H5、H7、H9、H11)后补偿投喂17 d的实验。结果显示,全长和体重的损失率随饥饿时间的延长而增加。补偿投喂后,全长补偿率在H9组以后明显下降,体重补偿率在各实验组间无明显差异。各组全长和体重的特定生长率都呈波动性变化趋势,且实验后期各实验组都大于正常组都存在显著性差异。全长、体重及特定生长率的变化表明该饥饿仔鱼补偿投喂后能完成部分补偿生长。饥饿处理中,淀粉酶、碱性磷酸酶和胰蛋白酶随饥饿时间都呈下降趋势,脂肪酶呈先上升后下降趋势,补偿投喂后,除了淀粉酶呈先上升后下降外,其余三种酶都呈上升趋势。各组在饥饿处理下消化酶活性在实验后期与正常组存在显著差异,再投喂后与正常组差异不显著。各组在再投喂后的饵料日转化率随补偿时间呈不规则上升,但都无法恢复到正常投喂水平。综上,延迟首次投喂对中华倒刺鲃仔鱼补偿生长、消化酶活性及饵料转化都存在不同程度的影响。     

Effect of starvation on the growth and survival of post-larval abalone (Haliotis iris)

The starvation tolerance of post-larval abalone (Haliotis iris) was determined by examining post-larval growth and survival after various periods of starvation. Competent larvae (10 days old at 16°C) were induced to attach and metamorphose with 2 μM GABA. Post-larvae were either fed diatoms (Nitzschia longissima) or starved. In Experiment 1, post-larvae were starved immediately after metamorphosis for periods of 1, 2, 4, 8, 15, 20, 25 and 30 days. Starved post-larvae grew relatively well for several days after metamorphosis despite the absence of food (averages of 10.4 and 17.8 μm shell length (SL) per day after 8 days for two batches). Subsequent growth was minimal, averaging 1.7 and 0.7 μm day⁻¹ over 6–7 days for the two batches. There was no clear relationship between period of starvation and growth rate when fed. Mean daily growth rate over 3 weeks when fed ranged from 15–22 μm day⁻¹. However, the duration of starvation did have a significant effect on survival. Survival of post-larvae fed after 1–2 days of starvation was 90–100% after 3 weeks of feeding. Longer starvation periods gave progressively lower survival and post-larvae starved for 30 days all died within a week of being fed. In Experiment 2, post larvae were fed for 3 weeks after metamorphosis, then starved for 0, 3, 7, 14 or 21 days. Growth rates of starved post-larvae averaged only 5–6 μm day⁻¹ in the first week (vs. 30 μm day⁻¹ in controls), and later declined to zero. Growth resumed within a week following return to food, but the 14- and 21-day starvation treatments took 2 weeks to reach growth rates comparable to controls. The no-starvation controls and the 3- and 7-day starvation treatments all had >70% survival over 4 weeks after return to food. Survival in the 14- and 21-day starvation treatments was 15–20%, with almost all mortalities occurring in the first week after return to food. These data suggest that Haliotis iris post-larvae are relatively tolerant of starvation, so abalone farmers have a week or so to remedy food shortages before major post-larval mortality begins.     

Survival and growth of instar 1 phyllosoma of the western rock lobster, Panulirus cygnus, starved before or after periods of feeding

Adequate nutrition is a principal factor in controlling survival and growth in crustacean larval culture. The present study examined the effects of starvation before or after feeding on survival, total intermoult period and postmoult size of phyllosoma of the western rock lobster, Panulirus cygnus. Individually held instar 1 larvae were reared at 25 °C and submitted to initial periods of starvation to determine the 50% level of the point-of-no-return (PNR₅₀), and initial periods of feeding to determine the 50% level of the point-of-reserve-saturation (PRS₅₀). As the initial starvation periods before feeding increased, the total intermoult period for instar 1 larvae that survived increased. The PNR₅₀ was 4.6 days. The different initial feeding periods before starvation resulted in a difference in postmoult size of larvae after moulting to instar 2, but had little effect on the total intermoult period. Larvae fed for the shortest periods were significantly smaller than those fed longer. The PRS₅₀ was 3.6 days. For both treatments, limited effects of the starvation or feeding regimes were apparent for larvae that moulted to instar 2 and continued development to instar 3. When larvae were fed before PNR₅₀, there were no delayed effects of the initial starvation period. Initial feeding periods longer than 5–6 days did not significantly affect larval survival or growth. This information will be useful in the design of feeding regimes in phyllosoma culture.