热带海洋学报
熱帶海洋學報
열대해양학보
JOURNAL OF TROPICAL OCEANOGRAPHY
2014年
2期
78-86
,共9页
王琼%谭烨辉%周林滨%柯志新%黄良民
王瓊%譚燁輝%週林濱%柯誌新%黃良民
왕경%담엽휘%주림빈%가지신%황량민
溶解态铝%分布%甲藻%南海中南部
溶解態鋁%分佈%甲藻%南海中南部
용해태려%분포%갑조%남해중남부
dissolved aluminum%distribution%Pyrrophyta%South China Sea
2011年11月28日至2012年1月12日期间,通过对南海18°N至5°N海域25个站点78个溶解态铝样品的采集分析及所获得的浮游植物数据,首次研究报道了南海中南部海域溶解态铝的空间分布特征,探讨其与浮游植物群落结构之间的关系。结果表明,表层海水中溶解态铝平均含量138.3±39.1nmol·L-1,呈现陆架高、海盆和岛礁区低的水平分布特点;表层浮游植物共57属132种,分别属于硅藻门38属72种,甲藻门18属58种,蓝藻门1属2种,细胞总丰度在(0.75~21.09)×103cell·dm-3之间,表层溶解态铝的分布与甲藻总丰度(n=22, r=0.55, p<0.01)具有显著的正相关性。就垂直分布而言,溶解态铝在0~100m水深内变化剧烈,在100~300m深度范围内,溶解态铝变化不明显,200m处稍有增加;溶解态铝的垂直分布与营养盐相关性不显著,与叶绿素 a 浓度(n=16, r=0.58, p<0.05)、浮游植物总丰度(n=16, r=0.59, p<0.05)和甲藻总丰度(n=15, r=0.69, p<0.01)显著正相关,推测冬季溶解态铝对南海甲藻生长具有一定促进作用。
2011年11月28日至2012年1月12日期間,通過對南海18°N至5°N海域25箇站點78箇溶解態鋁樣品的採集分析及所穫得的浮遊植物數據,首次研究報道瞭南海中南部海域溶解態鋁的空間分佈特徵,探討其與浮遊植物群落結構之間的關繫。結果錶明,錶層海水中溶解態鋁平均含量138.3±39.1nmol·L-1,呈現陸架高、海盆和島礁區低的水平分佈特點;錶層浮遊植物共57屬132種,分彆屬于硅藻門38屬72種,甲藻門18屬58種,藍藻門1屬2種,細胞總豐度在(0.75~21.09)×103cell·dm-3之間,錶層溶解態鋁的分佈與甲藻總豐度(n=22, r=0.55, p<0.01)具有顯著的正相關性。就垂直分佈而言,溶解態鋁在0~100m水深內變化劇烈,在100~300m深度範圍內,溶解態鋁變化不明顯,200m處稍有增加;溶解態鋁的垂直分佈與營養鹽相關性不顯著,與葉綠素 a 濃度(n=16, r=0.58, p<0.05)、浮遊植物總豐度(n=16, r=0.59, p<0.05)和甲藻總豐度(n=15, r=0.69, p<0.01)顯著正相關,推測鼕季溶解態鋁對南海甲藻生長具有一定促進作用。
2011년11월28일지2012년1월12일기간,통과대남해18°N지5°N해역25개참점78개용해태려양품적채집분석급소획득적부유식물수거,수차연구보도료남해중남부해역용해태려적공간분포특정,탐토기여부유식물군락결구지간적관계。결과표명,표층해수중용해태려평균함량138.3±39.1nmol·L-1,정현륙가고、해분화도초구저적수평분포특점;표층부유식물공57속132충,분별속우규조문38속72충,갑조문18속58충,람조문1속2충,세포총봉도재(0.75~21.09)×103cell·dm-3지간,표층용해태려적분포여갑조총봉도(n=22, r=0.55, p<0.01)구유현저적정상관성。취수직분포이언,용해태려재0~100m수심내변화극렬,재100~300m심도범위내,용해태려변화불명현,200m처초유증가;용해태려적수직분포여영양염상관성불현저,여협록소 a 농도(n=16, r=0.58, p<0.05)、부유식물총봉도(n=16, r=0.59, p<0.05)화갑조총봉도(n=15, r=0.69, p<0.01)현저정상관,추측동계용해태려대남해갑조생장구유일정촉진작용。
Based on the cruise in the central and southern South China Sea from November 28th, 2011 to January 12th, 2012, the characteristics of dissolved aluminum distribution and its correlation with phytoplankton community structure were presented in this paper. The data included 78 dissolved Al samples at 25 stations between 5 and 18°N. The average value of dissolved Al in the surface water was 138.3±39.1 nmol·L-1, showing a horizontal distribution with high concentration in the continental shelf water and low concentration in the open sea and around islands and reefs. In the surface water samples, we identified 132 phytoplankton species belonging to 57 genera, including Bacillariophyta, Pyrrophyta and Cyanophyta. Phytoplankton biomass fluctuated from 0.75×103 to 21.09×103 cell·dm-3 and showed a significant positive correlation with dissolved Al (n=22, r=0.55, p<0.01). Dissolved Al showed obvious variation from the surface to 100 m in the vertical profiles, but little change from 100 to 300 m. No strong analogy between dissolved Al and nutrients was observed at two vertical profiles. However, dissolved Al exhibited a significant positive correlation with chlorophyll a (n=16, r=0.58, p<0.05), the total abundance of phytoplankton (n=16, r=0.59, p<0.05), and the Pyrrophyta abundance (n=15, r=0.69, p<0.01), which indicates that the dissolved Al may have stimulated Pyrrophyta’s growth in the central and southern South China Sea in winter.
