水生生物学报
水生生物學報
수생생물학보
ACTA HYDROBIOLOGICA SINICA
2014年
6期
1135-1142
,共8页
王建沅%周成旭%严小军%骆其君%蒋莹%马斌%谭应宏
王建沅%週成旭%嚴小軍%駱其君%蔣瑩%馬斌%譚應宏
왕건원%주성욱%엄소군%락기군%장형%마빈%담응굉
雨生红球藻%细胞增殖%氮磷营养盐%叶绿素荧光参数%红光
雨生紅毬藻%細胞增殖%氮燐營養鹽%葉綠素熒光參數%紅光
우생홍구조%세포증식%담린영양염%협록소형광삼수%홍광
Haematococcus pluvialis%Cell growth%Nitrogen and phosphorus%Chlorophyll fluorescence parameters%Red light
研究了在红光下雨生红球藻 Haematcoccus pluvialis 的细胞增殖过程中,叶绿素荧光参数的变化以及氮磷消耗特征,并且研究了在不同初始氮磷浓度下,细胞增殖周期、色素变化以及氮磷消耗速率,以期为雨生红球藻的培养工艺提供参考。结果显示:(1)在细胞增殖过程中,光合荧光参数ΦPSⅡ、qP、ETR与细胞增殖周期一致,没有显著差异。Fv/Fm、NPQ则随着细胞密度的上升而下降,随着细胞密度下降而上升,且发生变化的拐点与营养盐胁迫造成细胞数量下降的时间点基本一致。(2)以不同初始氮磷浓度(氮磷比10︰1,重量比)的培养液接种细胞,较高浓度的氮磷条件(45/4.5-130/13.0 mg/L),比较低浓度的氮磷条件(15/1.5-20/2.0 mg/L)有利于提高批次培养后的细胞终产量。但是,在初始高浓度氮磷下,接种初期细胞受到胁迫,相对增长速率小;氮磷消耗率低,后期浓度维持高位;藻细胞指数生长延迟,培养周期变长。在红光下,最优化的氮磷接种浓度为45/4.5 mg/L。研究结果对半连续培养雨生红球藻的应用进行了讨论。
研究瞭在紅光下雨生紅毬藻 Haematcoccus pluvialis 的細胞增殖過程中,葉綠素熒光參數的變化以及氮燐消耗特徵,併且研究瞭在不同初始氮燐濃度下,細胞增殖週期、色素變化以及氮燐消耗速率,以期為雨生紅毬藻的培養工藝提供參攷。結果顯示:(1)在細胞增殖過程中,光閤熒光參數ΦPSⅡ、qP、ETR與細胞增殖週期一緻,沒有顯著差異。Fv/Fm、NPQ則隨著細胞密度的上升而下降,隨著細胞密度下降而上升,且髮生變化的枴點與營養鹽脅迫造成細胞數量下降的時間點基本一緻。(2)以不同初始氮燐濃度(氮燐比10︰1,重量比)的培養液接種細胞,較高濃度的氮燐條件(45/4.5-130/13.0 mg/L),比較低濃度的氮燐條件(15/1.5-20/2.0 mg/L)有利于提高批次培養後的細胞終產量。但是,在初始高濃度氮燐下,接種初期細胞受到脅迫,相對增長速率小;氮燐消耗率低,後期濃度維持高位;藻細胞指數生長延遲,培養週期變長。在紅光下,最優化的氮燐接種濃度為45/4.5 mg/L。研究結果對半連續培養雨生紅毬藻的應用進行瞭討論。
연구료재홍광하우생홍구조 Haematcoccus pluvialis 적세포증식과정중,협록소형광삼수적변화이급담린소모특정,병차연구료재불동초시담린농도하,세포증식주기、색소변화이급담린소모속솔,이기위우생홍구조적배양공예제공삼고。결과현시:(1)재세포증식과정중,광합형광삼수ΦPSⅡ、qP、ETR여세포증식주기일치,몰유현저차이。Fv/Fm、NPQ칙수착세포밀도적상승이하강,수착세포밀도하강이상승,차발생변화적괴점여영양염협박조성세포수량하강적시간점기본일치。(2)이불동초시담린농도(담린비10︰1,중량비)적배양액접충세포,교고농도적담린조건(45/4.5-130/13.0 mg/L),비교저농도적담린조건(15/1.5-20/2.0 mg/L)유리우제고비차배양후적세포종산량。단시,재초시고농도담린하,접충초기세포수도협박,상대증장속솔소;담린소모솔저,후기농도유지고위;조세포지수생장연지,배양주기변장。재홍광하,최우화적담린접충농도위45/4.5 mg/L。연구결과대반련속배양우생홍구조적응용진행료토론。
It has been proposed that Haematococcus pluvialis grow better under red light than PAR. In the present study, the characteristics of chlorophyll fluorescence parameters and nutrient requirements during population growth under red light were analyzed. The results showed that chlorophyll fluorescence parameters ΦPS II, qP and ETR had the same variation trend along with the population growth phase. Fv/Fm and NPQ decreased with the increased cell numbers, and then increased at the late growth stage when the cell density decreased. The turning point of Fv/Fm and NPQ is practi-cally consistent with the cell stress condition caused by nutrient depletion stress. High concentrations of the nutrients nitrogen (N) and phosphorus (P) such as 85/8.5 mg/L and 130/13.0 mg/L enhanced the biomas at early stage, and then inhibited cell growth at the longer retarded phase before entering exponential growth phase that Nutrient consumption was also reduced. These results suggested that the optimum of N/P concentration for H. pluvialis cultured under red light was 45/4.5 mg/L. The potential application of the results in semi-continuous culture of H. pluvialis has been dis-cussed.
