摘要
通过构建三斑海马的生态养殖环境、培育天然活体饵料,形成人工生态系统,提高了幼体的成活率。通过施用发酵鸡粪(即把备用的晒干鸡粪,加水发酵使其熟化)50g/m3或尿素10g/m3,5~7d后,投放海马幼体200ind/m3;放苗28d后,栽培菊花江蓠(密度0.5~2kg/m3)作为水质调控、遮光及养殖海马的缠绕物。江蓠的栽培构建了海马天然饵料的培育场所,藻丛中的小型甲类生物密度达450个/100g以上,形成了良好的养殖三斑海马的人工生态环境,经146d的养殖,生态养殖与投饵养殖模式比较,收获的三斑海马成活率和标准体长分别为70.8%、42.5%,11.13cm、10.04cm。
Seahorse aquaculture is challenged by insufficient feeding supply and lack of knowledge of nutritional requirements, resulting in low survival rate and poor economical profitability. We report here an integrated eco-aquaculture system in which the seahorse and its natural prey were co-cultured with red alga Garcilaria lichevoids in cement ponds. Urea (10 g/m^2) and chicken m^2nure (50 g/m^3) were used to fertilize the water. Seahorse juveniles were stocked at 200 ind./m^2after 5-7 days. After 4 weeks, red alga was transplanted into these ponds to regulate water quality and light, and provide holdfast. The density of red alga was controlled between 0.5 and 2 kg/m^2. The introduction of alga provides habitats for sm^2ll crustacean. Within the m^2croalgal clusters, sm^2ll crustacean was over 450 individuals per 100 g of fresh al- ga. After breeding of 146-day period, seahorse survival rates were 70.8% and 42.5%, and body lengths of seahorse were 11.13 cm and 10.04 cm in integrated eco-aquaculture system and monoculture, respectively. This system incorporated traditional Chinese aquaculture technique of cultivating live feed by fertilizing the water. Results from the experiments suggest that the integrated system is technically feasible, suitable and exemplary.
出处
《渔业科学进展》
CSCD
北大核心
2011年第5期38-43,共6页
Progress in Fishery Sciences
基金
浙江省钱江人才计划资助项目(2009R10012)
宁波市种子种苗工程项目(2009040)共同资助
关键词
三斑海马
人工生态养殖
水质调控
天然饵料
Three-spot seahorse Eco-aquaculture Water quality control Natural prey
