水生生物学报
水生生物學報
수생생물학보
ACTA HYDROBIOLOGICA SINICA
2013年
5期
836-843
,共8页
董静%李艳晖%李根保%李耀迪%刘永定%宋立荣
董靜%李豔暉%李根保%李耀迪%劉永定%宋立榮
동정%리염휘%리근보%리요적%류영정%송립영
东江水系%浮游藻类%功能群%季节动态%物理因子
東江水繫%浮遊藻類%功能群%季節動態%物理因子
동강수계%부유조류%공능군%계절동태%물리인자
Dongjiang River%Phytoplankton%Functional groups%Seasonal dynamics%Physical factors
2009年12月至2010年9月对东江水系进行了枯水期、平水期、丰水期的三次浮游藻类采集,以分析浮游藻类功能群组成、季节变化特征及影响其季节变化的物理因子。结果表明,东江水系浮游藻类在样品中出现频率大于10%的物种归入14个功能群,分别是 J、X2、P、W2、H1、MP、D、F、C、LO、W1、N、X1和 M。其中优势功能群是J、X2、P、W2、H1、MP、D、F、C、LO和 M。浮游藻类功能群组成明显随季节变化,枯水期时功能群 MP、D、P、X2、F、J和 W2占优势;丰水期时,功能群 MP、J、H1、LO占优势。除功能群理论中提到的营养(碳氮硅)、光照强度和生物作用(滤食)外,水体物理因子??溶氧、水温、pH、TDS 也是影响浮游藻类功能群季节动态的重要环境因子。研究表明温带湖泊调查提出的浮游藻类功能群概念用于河流生态系统浮游植物的研究是合适的。
2009年12月至2010年9月對東江水繫進行瞭枯水期、平水期、豐水期的三次浮遊藻類採集,以分析浮遊藻類功能群組成、季節變化特徵及影響其季節變化的物理因子。結果錶明,東江水繫浮遊藻類在樣品中齣現頻率大于10%的物種歸入14箇功能群,分彆是 J、X2、P、W2、H1、MP、D、F、C、LO、W1、N、X1和 M。其中優勢功能群是J、X2、P、W2、H1、MP、D、F、C、LO和 M。浮遊藻類功能群組成明顯隨季節變化,枯水期時功能群 MP、D、P、X2、F、J和 W2佔優勢;豐水期時,功能群 MP、J、H1、LO佔優勢。除功能群理論中提到的營養(碳氮硅)、光照彊度和生物作用(濾食)外,水體物理因子??溶氧、水溫、pH、TDS 也是影響浮遊藻類功能群季節動態的重要環境因子。研究錶明溫帶湖泊調查提齣的浮遊藻類功能群概唸用于河流生態繫統浮遊植物的研究是閤適的。
2009년12월지2010년9월대동강수계진행료고수기、평수기、봉수기적삼차부유조류채집,이분석부유조류공능군조성、계절변화특정급영향기계절변화적물리인자。결과표명,동강수계부유조류재양품중출현빈솔대우10%적물충귀입14개공능군,분별시 J、X2、P、W2、H1、MP、D、F、C、LO、W1、N、X1화 M。기중우세공능군시J、X2、P、W2、H1、MP、D、F、C、LO화 M。부유조류공능군조성명현수계절변화,고수기시공능군 MP、D、P、X2、F、J화 W2점우세;봉수기시,공능군 MP、J、H1、LO점우세。제공능군이론중제도적영양(탄담규)、광조강도화생물작용(려식)외,수체물리인자??용양、수온、pH、TDS 야시영향부유조류공능군계절동태적중요배경인자。연구표명온대호박조사제출적부유조류공능군개념용우하류생태계통부유식물적연구시합괄적。
Dongjiang River lies in the subtropical monsoon climate region of the southern China. From December 2009 to September 2010, composition and seasonal succession of phytoplankton functional groups in the river were investigated during low, level and high water period, respectively. Altogether 14 functional groups (functional groups J, X2, P, W2, H1, MP, D, F, C, LO, W1, N, X1 and M) were identified and the predominant groups in the succession were groups J, X2, P, W2, H1, MP, D, F, C, LO and M. Functional groups composition in Dongjiang River demon-strated obviously seasonal dynamics. In low water period, the predominant functional groups were MP, D, P, X2, F, J and W2; however, the prevailing groups shifted to functional groups MP, J, LO and H1 in high water period. The succession of phytoplankton functional groups was also significantly correlated with physical factors-water temperature (WT), pH, dissolved oxygen (DO) and total dissolved solids content (TDS). This study indicated that the functional groups concept was also useful and applicable in demonstrating phytoplankton composition of river ecosystem.
