植物学报
植物學報
식물학보
BULLETIN OF BOTANY
2009年
6期
701-709
,共9页
王艳%熊德甫%顾海峰%李韶山
王豔%熊德甫%顧海峰%李韶山
왕염%웅덕보%고해봉%리소산
形态%休眠孢囊%锥状施克里普藻
形態%休眠孢囊%錐狀施剋裏普藻
형태%휴면포낭%추상시극리보조
morphology%resting cyst%Scrippsiella trochoidea
休眠孢囊是某些甲藻生活史的重要阶段,它被认为是甲藻赤潮爆发的种源.通过观察我国沿海海域采集的锥状施克里普藻(Scrippsiella trochoidea(Stein)Loeblich)休眠孢囊的类型以及形态特征,并将实验条件下形成的休眠孢囊与海区沉积物中休眠孢囊的形态特征进行比较,结果表明,锥状施克里普藻细胞在20℃、12小时光照/12小时黑暗、f/2培养基和f/2-N培养基中分别培养至第14天和第8天,可以观察到休眠孢囊的产生.培养30天后,培养液中有大量休眠孢囊,将藻液避光保存90天后,观察到培养基中有4种类型的休眠孢囊产生:(1)球形到椭球形(长25-39 μm),钙质外壁,稀疏或密被钙质附属物(长1-4 μm):(2)球形(直径为29-35μm),钙质外壁,附属物非钙质(长0.5-1.5 μm):(3)球形到椭球形(长29-35 μm),钙质,表面光滑,无附属物:(4)球形(直径24-35 μm),有机外壁,无附属物.第1种类型的孢囊最为常见,分别占到2种培养条件下所得全部孢囊的77.70%和95.18%.从沉积物中所得的孢囊多属于第1种类型.分析了实验条件下形成不同类型休眠孢囊的原因和比例,同时探讨了海区沉积物中形成多种孢囊形态特征的原因,为锥状施克里普藻孢囊的生态研究提供了依据.
休眠孢囊是某些甲藻生活史的重要階段,它被認為是甲藻赤潮爆髮的種源.通過觀察我國沿海海域採集的錐狀施剋裏普藻(Scrippsiella trochoidea(Stein)Loeblich)休眠孢囊的類型以及形態特徵,併將實驗條件下形成的休眠孢囊與海區沉積物中休眠孢囊的形態特徵進行比較,結果錶明,錐狀施剋裏普藻細胞在20℃、12小時光照/12小時黑暗、f/2培養基和f/2-N培養基中分彆培養至第14天和第8天,可以觀察到休眠孢囊的產生.培養30天後,培養液中有大量休眠孢囊,將藻液避光保存90天後,觀察到培養基中有4種類型的休眠孢囊產生:(1)毬形到橢毬形(長25-39 μm),鈣質外壁,稀疏或密被鈣質附屬物(長1-4 μm):(2)毬形(直徑為29-35μm),鈣質外壁,附屬物非鈣質(長0.5-1.5 μm):(3)毬形到橢毬形(長29-35 μm),鈣質,錶麵光滑,無附屬物:(4)毬形(直徑24-35 μm),有機外壁,無附屬物.第1種類型的孢囊最為常見,分彆佔到2種培養條件下所得全部孢囊的77.70%和95.18%.從沉積物中所得的孢囊多屬于第1種類型.分析瞭實驗條件下形成不同類型休眠孢囊的原因和比例,同時探討瞭海區沉積物中形成多種孢囊形態特徵的原因,為錐狀施剋裏普藻孢囊的生態研究提供瞭依據.
휴면포낭시모사갑조생활사적중요계단,타피인위시갑조적조폭발적충원.통과관찰아국연해해역채집적추상시극리보조(Scrippsiella trochoidea(Stein)Loeblich)휴면포낭적류형이급형태특정,병장실험조건하형성적휴면포낭여해구침적물중휴면포낭적형태특정진행비교,결과표명,추상시극리보조세포재20℃、12소시광조/12소시흑암、f/2배양기화f/2-N배양기중분별배양지제14천화제8천,가이관찰도휴면포낭적산생.배양30천후,배양액중유대량휴면포낭,장조액피광보존90천후,관찰도배양기중유4충류형적휴면포낭산생:(1)구형도타구형(장25-39 μm),개질외벽,희소혹밀피개질부속물(장1-4 μm):(2)구형(직경위29-35μm),개질외벽,부속물비개질(장0.5-1.5 μm):(3)구형도타구형(장29-35 μm),개질,표면광활,무부속물:(4)구형(직경24-35 μm),유궤외벽,무부속물.제1충류형적포낭최위상견,분별점도2충배양조건하소득전부포낭적77.70%화95.18%.종침적물중소득적포낭다속우제1충류형.분석료실험조건하형성불동류형휴면포낭적원인화비례,동시탐토료해구침적물중형성다충포낭형태특정적원인,위추상시극리보조포낭적생태연구제공료의거.
Resting cysts play an important role in the life cycle of some dinoflagellates and are considered to be one of the initiation factors of algal blooms. We described the types and morphological diversity characters of Scrippsiella trochoidea (Stein) Loeblich cysts from in situ sediment samples and in different culture conditions. S. trochoidea cells were maintained in f/2 or f/2-N at 20°C with a 12 h light/12 h dark cycle. After 14 or 8 days incubation, respectively, the resting cysts were observed in the two different media. After 30 days, the cultures were preserved in darkness, and 4 types of resting cysts were found after another 90 days: (1) spherical to ovoid cysts (25-39 μm long) covered by a sparse or numerous calcareous attachments (1-4 μm long) and a calcareous surface; (2) spherical cysts (29-35 μm diameter) with a noncalcareous surface attachment, calcareous surface; (3) spherical to ovoid cysts (29-35 μm long) without any surface attachment and a calcareous surface; and (4) spherical cysts (24-35 μm diameter) without any surface attachment and an organic surface. The first type of cysts was the most common: 77.70% and 95.18%, respectively, in the two different cultures. The cysts from sediments were primarily of the first type, which have calcareous attachment, and the fourth type, with an organic wall without any attachment, was infrequent. We discuss the reasons for the different morphology of S. trochoidea cysts produced during culture and the morphology of cysts from sediments.
