水产科学
水產科學
수산과학
FISHERIES SCIENCE
2015年
8期
491-496
,共6页
张曼%顾钱洪%李学军%宋东蓥%周传江
張曼%顧錢洪%李學軍%宋東鎣%週傳江
장만%고전홍%리학군%송동형%주전강
草鱼%磷循环%饲料%集约化养殖
草魚%燐循環%飼料%集約化養殖
초어%린순배%사료%집약화양식
grass carp%phosphorus cycling%fodder%intensive aquaculture
理解养殖生态系统中的磷循环途径可为提高养殖效益和降低磷排放提供理论依据,为此,开展不同磷含量饲料对草鱼生长、饲料效率及系统中磷循环的影响试验。设置两个试验处理组,并分别投喂含磷量为1.02%和0.52%的配合饲料,进行为期10周的观测。试验结果表明,含磷量1.02%组的饲料效率为68.4%,草鱼质量增加率为72.3%;含磷量0.52%的饲料组的饲料效率为77.3%,草鱼质量增加率为74.3%;低磷饲料组比高磷饲料组具有更高的饲料转换率,且收获更高的渔获量。低磷饲料组中观测到更高的浮游植物生物量,表明浮游植物可能存在对沉积物中磷的泵吸作用,并通过食物链加速了水体中物质循环效率,这释明低磷饲料处理是具有更高饲料利用率并获得更高渔获量的原因。草鱼集约化养殖过程中,单纯增加饲料磷含量并不利于渔获量的提高,反而导致沉积物磷滞留和养殖水体磷污染;合理的磷含量(0.52%)可以更好的发展水体中浮游植物的生长,提高饲料利用率,达到养殖增产和保护环境的双重效益。
理解養殖生態繫統中的燐循環途徑可為提高養殖效益和降低燐排放提供理論依據,為此,開展不同燐含量飼料對草魚生長、飼料效率及繫統中燐循環的影響試驗。設置兩箇試驗處理組,併分彆投餵含燐量為1.02%和0.52%的配閤飼料,進行為期10週的觀測。試驗結果錶明,含燐量1.02%組的飼料效率為68.4%,草魚質量增加率為72.3%;含燐量0.52%的飼料組的飼料效率為77.3%,草魚質量增加率為74.3%;低燐飼料組比高燐飼料組具有更高的飼料轉換率,且收穫更高的漁穫量。低燐飼料組中觀測到更高的浮遊植物生物量,錶明浮遊植物可能存在對沉積物中燐的泵吸作用,併通過食物鏈加速瞭水體中物質循環效率,這釋明低燐飼料處理是具有更高飼料利用率併穫得更高漁穫量的原因。草魚集約化養殖過程中,單純增加飼料燐含量併不利于漁穫量的提高,反而導緻沉積物燐滯留和養殖水體燐汙染;閤理的燐含量(0.52%)可以更好的髮展水體中浮遊植物的生長,提高飼料利用率,達到養殖增產和保護環境的雙重效益。
리해양식생태계통중적린순배도경가위제고양식효익화강저린배방제공이론의거,위차,개전불동린함량사료대초어생장、사료효솔급계통중린순배적영향시험。설치량개시험처리조,병분별투위함린량위1.02%화0.52%적배합사료,진행위기10주적관측。시험결과표명,함린량1.02%조적사료효솔위68.4%,초어질량증가솔위72.3%;함린량0.52%적사료조적사료효솔위77.3%,초어질량증가솔위74.3%;저린사료조비고린사료조구유경고적사료전환솔,차수획경고적어획량。저린사료조중관측도경고적부유식물생물량,표명부유식물가능존재대침적물중린적빙흡작용,병통과식물련가속료수체중물질순배효솔,저석명저린사료처리시구유경고사료이용솔병획득경고어획량적원인。초어집약화양식과정중,단순증가사료린함량병불리우어획량적제고,반이도치침적물린체류화양식수체린오염;합리적린함량(0.52%)가이경호적발전수체중부유식물적생장,제고사료이용솔,체도양식증산화보호배경적쌍중효익。
Understanding of the phosphorus cycling approach in aquaculture ecosystem provides theory basis with improvement of cultural benefits and decrease in phosphorus emissions . We therefore manipulated different phosphorus concentrations in fodder to study the influences of phosphorus concentration on grow th ,feed efficiency and phosphorus cycling in intensive aquaculture ponds of grass carp Ctenopharyngodon idellus .Fish in two treatment groups (A and B groups) were fed compound feed containing phosphorus content of 1 .02% and 0 .52% . A ten‐weeks observation showed that the feed efficiency was 68 .4% and mass increasing rate was 72 .3% in group A .In contrast ,the feeder efficiency was 77 .3% and mass increasing rate was 74 .3% in group B . There were significantly higher fodder efficiency and greater yield in group B than those in group A .Treatment with low phosphorus fodder led to more phytoplankton biomass ,suggesting that it could pump phosphorus from sediments and accelerate the efficiency of material circulation through food chain .The result explained the reason why treatment with low phosphorus fodder led to higher fodder efficiency and greater fish field . Increasing phosphorus concentration in fodder was not beneficial to improve fish field in intensive grass carp .On the contrary ,it could lead to more phosphorus retention in the sediment and pollution in the water .Suitable phosphorus contents in fodder can accelerate the grow th of phytoplankton directly ,ultimately getting satisfied fish field and protecting environment simultaneously .
