饲料种类与停食时间对糙海参幼参呼吸和排泄的影响

doi:10.16378/j.cnki.1003-1111.24188

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (2408 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要为研究饲料种类与停食时间对糙海参幼参呼吸和排泄的影响,在盐度26~28、水温28~31 ℃条件下,将体质量(1.07±0.07) g的糙海参饲养在21 L (385 mm×260 mm×210 mm)的养殖箱,底铺2 cm厚的4种粒径(＞0.085 mm,<0.425~0.085 mm,0.180~0.425 mm,＜0.180 mm)的海砂,投喂虾料、马尾藻粉、螺旋藻粉、刺参配合饲料和发酵饲料,养殖40 d后,每组随机取10头幼参停食1 d和2 d,在1 L锥形瓶中密闭静水测定耗氧率和排氨率。试验结果显示:(1)配合饲料组和发酵饲料组幼参特定生长率最高,显著高于其他3个饲料组(P＜0.05),马尾藻粉组显著高于螺旋藻粉组、虾料组(P＜0.05)。(2)各饲料组幼参停食1 d和停食2 d的耗氧率均是虾料组＞螺旋藻粉组＞发酵饲料组＞马尾藻粉组＞配合饲料组,虾料组幼参停食1 d和2 d的耗氧率均显著高于其他饲料组(P＜0.05);同一组,幼参停食1 d的耗氧率均显著高于停食2 d(P＜0.05)。(3)虾料组幼参停食1 d的排氨率最高,显著高于马尾藻粉组和配合饲料组(P＜0.05),虾料组幼参停食2 d的排氨率最低,显著低于其他饲料组(P＜0.05);虾料组幼参停食1 d的排氨率显著高于停食2 d(P＜0.05),其余组幼参停食1 d的排氨率,显著低于停食2 d(P＜0.05)。 (4)各组幼参停食1 d的氧氮比差异不显著 (P＞0.05);虾料组幼参停食2 d的氧氮比最高,显著高于其他饲料组(P＜0.05);除虾料组外,其余饲料组幼参停食1 d的氧氮比显著高于停食2 d(P＜0.05)。(5)配合饲料组幼参个体能值增加含量最高,显著高于其他饲料组(P＜0.05)。因此,投喂配合饲料与发酵饲料更有利糙海参幼参生长与代谢。试验结果可为糙海参幼参的养殖提供基础数据。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	刘旭佳
	黄国强
	刘京
	姜发军
	赖俊翔
	李智巧

关键词 ：糙海参, 饲料, 停食, 呼吸, 排泄

Abstract：In order to probe the effects of diet types and fasting period on the respiration and excretion of juvenile sandfish Holothuria scabra, sand fish weighing (1.07±0.07) g were reared in 21 L culture tanks (385 mm×260 mm×210 mm) at bottom with 2 cm thick layer of sea sand with grain size from 0.085 mm to <0.180 mm at salinity of 26—28 and water temperatures of 28—31 ℃, and fed shrimp diet, brown alga Sargassum powder, green alga Spirulina powder, sea cucumber Apostichopus japonicas diet, and fermented diet for 40 days. At the end of the feeding trail, sea cucumber 10 juveniles were randomly sampled from each group to be fasted for 1 day and 2 days, and the oxygen consumption rate and ammonia excretion rate were determined in 1 L conical flasks closed static water. The results showed the specific growth rate (SGR) was the maximum in the juveniles fed the commercial formula diet and fermented diet, significantly higher than those in the other three groups (P<0.05), with significantly higher in the Sargassum powder group than those in the Spirulina powder group and the shrimp diet group (P<0.05). The descending order of oxygen consumption rates under fasting for 1 day and 2 days in each group was expressed as shrimp diet > Spirulina powder > fermented diet > Sargassum powder > commercial formula diet. There were significantly higher oxygen consumption rates in the juveniles in the shrimp diet group than those in the other groups (P<0.05), with significantly higher in the juveniles fasted for 1 day than those fasted for 2 days for all five groups (P<0.05). The juveniles fed shrimp diet and fasted for 1 day had the maximal ammonia excretion rate, significantly higher than that in the Sargassum powder and formulated diet groups (P<0.05). The minimal ammonia excretion rate was observed in the juveniles fasted for 1 day in the shrimp diet group, significantly lower than that in the other diet groups (P<0.05), with significantly higher ammonia excretion rate in the juveniles fasted for 1 day than that in juveniles fasted for 2 days in the shrimp diet group (P<0.05), while for the other groups, the ammonia excretion rate under fasting for 1 day was found to be significantly lower than that under fasting for 2 days (P<0.05). The maximal O/N ratio was found in the juveniles fasted for 2 days in the shrimp diet group, significantly higher than that in the other groups (P<0.05), without significant differences in the juveniles fasted for 1 day among different diet groups. Except for the shrimp diet group, the O/N ratios under fasting for 1 day were found to be significantly higher than those under fasting for 2 days for the other diet groups (P<0.05). The maximal energy value increase was observed in individual juveniles in the commercial formula diet group, significantly higher than that in the other groups (P<0.05). The findings indicated that commercial formula diet and fermented diet were more conducive to the growth and metabolism of juvenile H. scabra, and that provided important data for the aquaculture production.

Key words： Holothuria scabra diet fasting duration respiration excretion

收稿日期: 2024-11-04

PACS:

S968.9

基金资助:国家自然科学基金资助项目(31960225);广西自然科学基金资助项目(2021GXNSFAA196074);广西人才小高地项目(BGMRC202002);广西科学院基本科研业务费创新团队启动金资助项目(CQ-C-202301);国家重点研发计划项目(2022YFD2401200).

作者简介: 刘旭佳 (1986—),女,研究员,博士;研究方向:水产养殖生态学. E-mail:lxu0312@126.com.

引用本文:

刘旭佳, 黄国强, 刘京, 姜发军, 赖俊翔, 李智巧. 饲料种类与停食时间对糙海参幼参呼吸和排泄的影响[J]. 水产科学, 2025, 44(6): 890-898.
LIU Xujia, HUANG Guoqiang, LIU Jing, JIANG Fajun, LAI Junxiang, LI Zhiqiao. Effect of Different Diets and Fasting Periods on Respiration and Excretion of Juvenile Sandfish Holothuria scabra. Fisheries Science, 2025, 44(6): 890-898.

链接本文:

https://www.shchkx.com/CN/10.16378/j.cnki.1003-1111.24188 或 https://www.shchkx.com/CN/Y2025/V44/I6/890

[1] 刘旭佳,沈夏霜,黄国强,等.水体中饵料投喂量对不同规格光裸方格星虫耗氧率及排氨率的影响[J].渔业科学进展,2018,39(5):99-105.
[2] ZHONG S P, LIU X J, MA X W, et al. Chromosomal-level genome assembly and annotation of the tropical sea cucumber Holothuria scabra[J]. Scientific Data,2024,11(1):474.
[3] WARGASETIA T L, RATNAWATI H, WIDODO N, et al. Antioxidant and anti-inflammatory activity of sea cucumber (Holothuria scabra) active compounds against KEAP1 and iNOS protein[J]. Bioinformatics and Biology Insights,2023,17:11779322221149613.
[4] SAIWONG S, AUTSAVAPROMPORN N, SIRIWOHARN T, et al. Enzymatic hydrolysis optimization for preparation of sea cucumber (Holothuria scabra) hydrolysate with an antiproliferative effect on the HepG2 liver cancer cell line and antioxidant properties[J]. International Journal of Molecular Sciences,2023,24(11):9491.
[5] HAMEL J F, MERCIER A, CONAND C, et al. Holothuria scabra. The IUCN Red List of Threatened Species 2013: e. T180257A1606648[EB/OL].(2013)[2024-11-01]. http://dx.doi.org/10.2305/IUCN.UK.2013-1.RLTS.T180257A1606648.en.
[6] PURCELL S W, HAIR C A, MILLS D J. Sea cucumber culture, farming and sea ranching in the tropics:progress, problems and opportunities[J]. Aquaculture,2012,368:68-81.
[7] THONGBUAKAEW T, SUWANSA-ARD S, CHAIYAMOON A, et al. Sex steroids and steroidogenesis-related genes in the sea cucumber, Holothuria scabra and their potential role in gonad maturation[J]. Scientific Reports,2021,11(1):2194.
[8] 刘旭佳,黄国强,李坚明,等.室内养殖不同月龄糙海参营养成分分析[J].广东海洋大学学报,2018,38(2):85-90.
[9] 冯永勤,翁文明,方再光,等.糙海参苗种规模化繁育技术研究[J].水产科学,2021,40(5):750-756.
[10] 吕航,崔相东,王巧晗,等.不同饲料对刺参幼参的生长、耗氧和排氨的影响[J].中国海洋大学学报(自然科学版),2013,43(12):25-29.
[11] 于建华,周玮,赵志刚.不同蛋白水平饲料对仿刺参幼参生长、耗氧和排氨的影响[J].饲料研究,2015,38(23):49-51.
[12] XIA S D, LI M, ZHANG L B, et al. Growth, immunity and ammonia excretion of albino and normal Apostichopus japonicus (Selenka) feeding with various experimental diets[J]. Aquaculture Nutrition,2018,24(3):1076-1084.
[13] DUY N D Q, FRANCIS B D S, PIROZZI I, et al. Use of micro-algae concentrates for hatchery culture of sandfish, Holothuria scabra [J]. Aquaculture,2016,464:145-152.
[14] MILITZ T A, LEINI E, DUY N D Q, et al. Successful large-scale hatchery culture of sandfish (Holothuria scabra) using micro-algae concentrates as a larval food source[J]. Aquaculture Reports,2018,9:25-30.
[15] 周玮,桑田成,苏延明,等.饥饿对仿刺参苗种生长及呼吸代谢的影响[J].大连水产学院学报,2009,24(增刊1):77-80.
[16] YU Z H, QI Z H, HU C Q, et al. Effects of salinity on ingestion, oxygen consumption and ammonium excretion rates of the sea cucumber Holothuria leucospilota[J]. Aquaculture Research,2013,44(11):1760-1767.
[17] 高鹏程,周朝生,吴洪喜,等.饥饿及恢复投喂对刺参生长、耗氧率和排氨率的影响[J].渔业科学进展,2014,35(1):125-132.
[18] 周玮,彭安德,鲁晓倩.不同硒源对刺参呼吸代谢的影响[J].大连海洋大学学报,2016,31(1):65-70.
[19] KODAMA M, SUMBING J G, LEBATA-RAMOS M J H, et al. Metabolic rate characteristics and sediment cleaning potential of the tropical sea cucumber Holothuria scabra[J]. Japan Agricultural Research Quarterly,2015,49(1):79-84.
[20] YANG H S, ZHOU Y, ZHANG T, et al. Metabolic characteristics of sea cucumber Apostichopus japonicus (Selenka) during aestivation[J]. Journal of Experimental Marine Biology and Ecology,2006,330(2):505-510.
[21] JOBLING M, MELØY O H, DOS SANTOS J, et al. The compensatory growth response of the Atlantic cod:effects of nutritional history[J]. Aquaculture International,1994,2(2):75-90.
[22] 龚洋洋,黄艳青,陆建学,等.螺旋藻粉在水产饲料中的应用研究进展[J].海洋渔业,2018,40(4):504-512.
[23] CAI Y J, WERMERSKIRCHEN J, ADELMAN I R. Communications:ammonia excretion rate indicates dietary protein adequacy for fish[J]. The Progressive Fish-Culturist,1996,58(2):124-127.
[24] 杨学明,张立.介绍一种热带海参养殖新品种[J].水产养殖,2011,32(12):21-22.
[25] ANG C Y, YONG A S K, AL AZAD S, et al. Valorization of macroalgae through fermentation for aquafeed production:a review[J]. Fermentation,2021,7(4):304.
[26] XIA S D, YANG H S, LI Y, et al. Effects of different seaweed diets on growth, digestibility, and ammonia-nitrogen production of the sea cucumber Apostichopus japonicus (Selenka)[J]. Aquaculture,2012,338:304-308.
[27] MEADE M E, DOELLER J E, KRAUS D, et al. Effects of temperature and salinity on weight gain, oxygen consumption rate, and growth efficiency in juvenile red-claw crayfish Cherax quadricarinatus[J]. Journal of the World Aquaculture Society,2002,33(2):188-198.
[28] IKEDA T. Nutritional ecology of marine zooplankton [J]. Memoirs of the Faculty of Fisheries Hokkaido University,1974,22(1):1-97.
[29] CONOVER R J, CORNER E D S. Respiration and nitrogen excretion by some marine zooplankton in relation to their life cycles[J]. Journal of the Marine Biological Association of the United Kingdom,1968,48(1):49-75.
[30] 时嘉赓,冯艳微,姜绪,等.水温和藻类对马粪海胆摄食、呼吸及排氨率的影响[J].水产科学,2020,39(1):72-78.