CN110754402B - 一种卤虫的室内高密度养殖方法 - Google Patents
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Abstract
本发明提供一种卤虫的室内高密度养殖方法,包括养殖池设置、卤虫的培育,其中卤虫培育从无节幼虫期、拟成虫期、成虫期三个阶段调节养殖环境条件参数,合理配置不同时期的饵料成分,从而提高卤虫的存活率,同时,改善饵料的营养价值,使得卤虫体内含有丰富的脂肪酸,具有丰富的营养物质,可以在大规模养殖卤虫过程中实现卤虫的自我繁殖以及可持续培养,在有效降低成本的同时提高了卤虫的采收数量。
Description
技术领域
本发明涉及卤虫养殖领域,特别涉及一种卤虫的室内高密度养殖方法。
背景技术
卤虫是一种重要经济水产饵料,近年来随着水产业快速发展,对卤虫需求量也逐渐增长,推动了卤虫人工养殖,也推动了国内外学者对卤虫进行深入研究。卤虫是一种非选择性滤食甲壳动物,能够滤食水中有机质碎屑、微藻和细菌等,主要靠消化道内消化酶对食物进行消化,它是一种很好的生物活饵料。近些年为我国沿海鱼、虾等水产动物的养殖业者所广泛使用。我国虽然是一个卤虫资源丰富的国家,但就目前的市场需求而言,卤虫一直以来都处于一种供不应求的状态,特别是卤虫休眠卵,因此为了解决市场的供需矛盾,进而进行卤虫室内高密度集约化精养殖也就显得尤为迫切。
发明内容
鉴于此,本发明提出一种卤虫的室内高密度养殖方法,解决上述问题。
本发明的技术方案是这样实现的:一种卤虫的室内高密度养殖方法:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积20~30m3、深度1.5~2m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按5~15个/ml的密度接入养殖池中,调节池水盐度15~20,水温22~25℃,pH6~8,光照200~400lux,溶解氧的浓度3~6mg/L,将饵料按每天0.5~1.5ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:混合菌液5~12份、海链藻粉3~8份、新月藻粉2~6份、燕麦粉1~3份、维生素E1~2份,所述混合菌液由重量份比为1~3:1.2~5的绿色木霉菌、里氏木霉菌组成;
S2、拟成虫期:调节池水盐度18~22,水温19~23℃,pH5~7,光照250~500lux,溶解氧的浓度4~7mg/L,将饵料按每天0.8~2ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉11~13份、植物多糖5~9份、玉米粉4~6份、维生素E 2~4份,所述植物多糖为山茶、皂荚、野皂荚、香菇、魔芋等单种植物多糖或多种组合;
S3、成虫期:调节池水盐度13~18,水温23~30℃,pH5~7,光照300~500lux,溶解氧的浓度6~8mg/L,将饵料按每天1.8~3.2ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:维生素E 3~6份、大米蛋白10~21份、刚毛藻2~8份、新月藻粉2~6份、牡蛎粉3~6份、酱油渣2~4份。
与现有技术相比,本发明的有益效果是:
本发明所采用的养殖方法对卤虫养殖池的管理,严格把控养殖环境的管理,水质管理上调节水温、盐度、溶解氧、pH值、光照等参数,调节水质,使卤虫在高密度下存活率高,不同时期投喂不同的饵料配料,饵料科学配伍,成分搭配合理,原料来源稳定,调节卤虫体内的营养物质,饵料与养殖环境的管理下能够提高卤虫的脂肪酸含量,其中将海链藻、新月藻和菌液结合,搭配燕麦粉和维生素E,在菌液的作用下滋生的微生物能提高卤虫体内的DHA含量;而拟成虫期将椰壳纤维粉、植物多糖结合配制饵料,对拟成虫期给予丰富的营养原料,增强幼虫期的适应性;成虫期改用大米蛋白、刚毛藻、新月藻粉能增强卤虫的活力,随着卤虫的发育,添加牡蛎粉和酱油渣可调节卤虫消化酶活力,增强抵抗力,以提高卤虫的存活率,可以在大规模养殖卤虫过程中实现卤虫的自我繁殖以及可持续培养,在有效降低成本的同时提高了卤虫的采收数量。
具体实施方式
为了更好理解本发明技术内容,下面提供具体实施例,对本发明做进一步的说明。
本发明实施例所用的实验方法如无特殊说明,均为常规方法。
本发明实施例所用的材料、试剂等,如无特殊说明,均可从商业途径得到。
实施例1
一种卤虫的室内高密度养殖方法:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积20m3、深度1.5m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按5个/ml的密度接入养殖池中,调节池水盐度15,水温22℃,pH=6,光照200lux,溶解氧的浓度3mg/L,将饵料按每天0.5ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:混合菌液5份、海链藻粉3份、新月藻粉2份、燕麦粉1份、维生素E1份,所述混合菌液由重量份比为1:1.2的绿色木霉菌、里氏木霉菌组成;
S2、拟成虫期:调节池水盐度18,水温19℃,pH=5,光照250lux,溶解氧的浓度4mg/L,将饵料按每天0.8ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉11份、山茶多糖5份、玉米粉4份、维生素E 2份;
S3、成虫期:调节池水盐度13,水温23℃,pH=5,光照300lux,溶解氧的浓度6mg/L,将饵料按每天1.8ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:维生素E 3份、大米蛋白10份、刚毛藻2份、新月藻粉2份、牡蛎粉3份、酱油渣2份。
实施例2
一种卤虫的室内高密度养殖方法:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积30m3、深度2m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按15个/ml的密度接入养殖池中,调节池水盐度20,水温25℃,pH=8,光照400lux,溶解氧的浓度6mg/L,将饵料按每天1.5ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:混合菌液5~12份、海链藻粉8份、新月藻粉6份、燕麦粉3份、维生素E 2份,所述混合菌液由重量份比为3:5的绿色木霉菌、里氏木霉菌组成;
S2、拟成虫期:调节池水盐度22,水温23℃,pH=7,光照500lux,溶解氧的浓度7mg/L,将饵料按每天2ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉13份、植物多糖9份、玉米粉6份、维生素E 4份,所述植物多糖为山茶、皂荚按1:1的重量份比;
S3、成虫期:调节池水盐度18,水温30℃,pH=7,光照500lux,溶解氧的浓度8mg/L,将饵料按每天3.2ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:维生素E 6份、大米蛋白21份、刚毛藻8份、新月藻粉6份、牡蛎粉6份、酱油渣4份。
实施例3
一种卤虫的室内高密度养殖方法:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积25m3、深度1.8m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按10个/ml的密度接入养殖池中,调节池水盐度18,水温24℃,pH=7,光照300lux,溶解氧的浓度5mg/L,将饵料按每天1ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:混合菌液8份、海链藻粉5份、新月藻粉4份、燕麦粉2份、维生素E1.5份,所述混合菌液由重量份比为2:3.4的绿色木霉菌、里氏木霉菌组成;
S2、拟成虫期:调节池水盐度20,水温21℃,pH=6,光照350lux,溶解氧的浓度5.4mg/L,将饵料按每天1.4ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉12份、植物多糖7份、玉米粉5份、维生素E 3份,所述植物多糖为山茶、皂荚、野皂荚按1:1.3:2的重量份比;
S3、成虫期:调节池水盐度15,水温27℃,pH=6,光照400lux,溶解氧的浓度7mg/L,将饵料按每天2.5ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:维生素E 4.5份、大米蛋白15份、刚毛藻5份、新月藻粉4份、牡蛎粉5份、酱油渣3份。
实施例4
一种卤虫的室内高密度养殖方法:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积20m3、深度1.5m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按5个/ml的密度接入养殖池中,调节池水盐度15,水温22℃,pH=6,溶解氧的浓度3mg/L,将饵料按每天0.5ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉12份、植物多糖7份、玉米粉5份、维生素E 3份;
S2、拟成虫期:调节池水盐度18,水温19℃,pH5,溶解氧的浓度4mg/L,将饵料按每天0.8ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉11份、植物多糖5份、玉米粉4份、维生素E 2份,所述植物多糖为香菇多糖;
S3、成虫期:调节池水盐度13,水温23℃,pH5,溶解氧的浓度6mg/L,将饵料按每天1.8ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:维生素E 4.5份、大米蛋白15份、刚毛藻5份、新月藻粉4份、牡蛎粉5份、酱油渣3份。
实施例5
一种卤虫的室内高密度养殖方法:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积30m3、深度2m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按15个/ml的密度接入养殖池中,调节池水盐度20,水温25℃,pH=8,溶解氧的浓度6mg/L,将饵料按每天1.5ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:混合菌液8份、海链藻粉5份、新月藻粉4份、燕麦粉2份、维生素E1.5份,所述混合菌液由重量份比为2:3.4的绿色木霉菌、里氏木霉菌组成;
S2、拟成虫期:调节池水盐度22,水温23℃,pH7,溶解氧的浓度7mg/L,将饵料按每天2ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:椰壳纤维粉12份、植物多糖7份、玉米粉5份、维生素E 3份,所述植物多糖为魔芋多糖;
S3、成虫期:调节池水盐度18,水温30℃,pH7,溶解氧的浓度8mg/L,将饵料按每天3.2ml/L的量投入养殖水体中,所述饵料包括以下重量份原料:维生素E 4.5份、大米蛋白15份、刚毛藻5份、新月藻粉4份、牡蛎粉5份、酱油渣3份。
对比例1
本对比例与实施例3的区别在于:一种卤虫的室内高密度养殖方法:S1无节幼虫期中,所述饵料包括以下重量份原料:混合菌液2份、海链藻粉2份、新月藻粉1份、燕麦粉0.6份、维生素E 3份,所述混合菌液由重量份比为1~3:1.2~5的绿色木霉菌、里氏木霉菌组成。
对比例2
本对比例与实施例3的区别在于:一种卤虫的室内高密度养殖方法:S2拟成虫期中,所述饵料包括以下重量份原料:椰壳纤维粉10份、山茶多糖3份、玉米粉2份、维生素E 5份。
对比例3
本对比例与实施例3的区别在于:一种卤虫的室内高密度养殖方法:S2拟成虫期中,所述饵料包括以下重量份原料:维生素E 2份、大米蛋白8份、刚毛藻1份、新月藻粉1份、牡蛎粉2份、酱油渣5份。
对比例4
本对比例与实施例3的区别在于:一种卤虫的室内高密度养殖方法:无节幼虫期、拟成虫期、成虫期采用同样的方式培育:调节池水盐度18~22,水温19~23℃,pH5~7,光照250~500lux,溶解氧的浓度4~7mg/L,将饵料按每天0.8~2ml/L的量投入养殖水体中。
一、卤虫体长测定(单位:μm)
由上表可知,本发明的养殖方法有利于卤虫的生长,实施例3在卤虫生长的不同时期进行培育,调节水温、盐度、pH值、光照、氧气等,使用不同的饵料配料,科学配伍,实施例3中,9天后卤虫的平均长度为1526.31μm。
二、卤虫数量与存活率测定
将本发明的实施例1~5和对比例1~4培育15天后的卤虫计算密度和存活率,结果如下:
| 样品 | 密度(只/ml) | 存活率(%) |
| 实施例1 | 3.04 | 92.0 |
| 实施例2 | 3.00 | 92.5 |
| 实施例3 | 3.05 | 93.0 |
| 实施例4 | 2.98 | 91.6 |
| 实施例5 | 2.32 | 91.3 |
| 对比例1 | 2.00 | 82.0 |
| 对比例2 | 2.08 | 81.4 |
| 对比例3 | 2.12 | 80.5 |
| 对比例4 | 2.02 | 79.8 |
结果显示,本发明的卤虫养殖方法,对养殖池的养殖管理设置,对不同时期的卤虫针对性培育,投喂强化饵料,提供营养,使得卤虫在高密度下存活率也能达到93%。
三、卤虫体内5种必需脂肪酸含量(%)
使用本发明的实施例1~5和对比例1~4进行培育,分为9组进行,将每组卤虫测定脂肪酸含量,检测结果如下:
| 样品 | 亚油酸 | 亚麻酸 | ARA | EPA | DHA |
| 实施例1 | 18.05 | 5.11 | 0.84 | 19.14 | 4.31 |
| 实施例2 | 18.32 | 5.43 | 1.01 | 19.20 | 4.58 |
| 实施例3 | 18.95 | 6.25 | 1.33 | 19.64 | 5.11 |
| 实施例4 | 18.45 | 5.22 | 1.11 | 19.43 | 4.87 |
| 实施例5 | 18.50 | 5.15 | 1.03 | 19.17 | 4.66 |
| 对比例1 | 15.10 | 4.21 | 0.44 | 12.70 | 2.33 |
| 对比例2 | 15.21 | 4.08 | 0.42 | 10.10 | 2.13 |
| 对比例3 | 15.13 | 4.41 | 0.35 | 11.31 | 2.40 |
| 对比例4 | 15.02 | 4.11 | 0.48 | 10.38 | 2.37 |
表中显示,通过控制卤虫饵料的组成,改善饵料的营养价值,使得卤虫体内含有丰富的脂肪酸,实施例3科学配制饵料的比例,使得卤虫体内的脂肪酸含量较高,其中,亚油酸18.95%、亚麻酸6.25%、ARA1.33%、EPA19.64%、DHA5.11%。
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (5)
1.一种卤虫的室内高密度养殖方法,其特征在于:包括以下步骤:
(1)养殖池设置:养殖池设有水池处理系统、氧气机、光照灯,养殖池体积20~30m3、深度1.5~2m;
(2)卤虫的培育
S1、无节幼虫期:卤虫初孵无节幼体按5~15个/ml的密度接入养殖池中,调节池水盐度15~20,水温22~25℃,pH6~8,光照200~400lux,溶解氧的浓度3~6mg/L,将饵料投入养殖水体中,饵料包括以下重量份原料:混合菌液5~12份、海链藻粉3~8份、新月藻粉2~6份、燕麦粉1~3份、维生素E 1~2份;
所述混合菌液由重量份比为1~3:1.2~5的绿色木霉菌、里氏木霉菌组成;
S2、拟成虫期:调节池水盐度18~22,水温19~23℃,pH5~7,光照250~500lux,溶解氧的浓度4~7mg/L,将饵料投入养殖水体中,饵料包括以下重量份原料:椰壳纤维粉11~13份、植物多糖5~9份、玉米粉4~6份、维生素E 2~4份;
S3、成虫期:调节池水盐度13~18,水温23~30℃,pH5~7,光照300~500lux,溶解氧的浓度6~8mg/L,将饵料投入养殖水体中,饵料包括以下重量份原料:维生素E 3~6份、大米蛋白10~21份、刚毛藻2~8份、新月藻粉2~6份、牡蛎粉3~6份、酱油渣2~4份。
2.如权利要求1所述的一种卤虫的室内高密度养殖方法,其特征在于:卤虫的培育过程,S2步骤中的植物多糖为山茶、皂荚、野皂荚、香菇、魔芋单种植物多糖或多种组合。
3.如权利要求1所述的一种卤虫的室内高密度养殖方法,其特征在于:卤虫的培育过程,S1步骤中将饵料按每天0.5~1.5ml/L的量投入养殖水体中。
4.如权利要求1所述的一种卤虫的室内高密度养殖方法,其特征在于:卤虫的培育过程,S2步骤中将饵料按每天0.8~2ml/L的量投入养殖水体中。
5.如权利要求1所述的一种卤虫的室内高密度养殖方法,其特征在于:卤虫的培育过程,S3步骤中将饵料按每天1.8~3.2ml/L的量投入养殖水体中。
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Denomination of invention: A Method of Indoor High Density Culture of Artemia Effective date of registration: 20220929 Granted publication date: 20211026 Pledgee: CITIC Bank Haikou branch Pledgor: HAINAN CHENHAI AQUATIC Co.,Ltd. Registration number: Y2021980010243 |