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1.
九龙江口、厦门西海域磷的生物地球化学研究──Ⅲ.生物活动参与下的磷形态转化及磷循环估算 总被引:4,自引:7,他引:4
1987年3月~1988年12月笔者于九龙江口、厦门西海域的调查研究结果表明,厦门西海域特殊的地理、水文环境、沉积物的高磷量、磷形态的快速转化是西海域初级生产力[555g/(m^2·a)]比九龙江口区[159g/(m^2·a)]高得多的主要原因。颗粒态磷(PP)、溶解态无机磷(DIP)、溶解态有机磷(DOP)等以生物为媒介发生了某种程度的形态转化,本文估算了九龙江水总磷(TP)的入海通量为787t 相似文献
2.
九龙江口、厦门西海域磷的生物地球化学研究──Ⅲ.生物活动参与下的磷形态转化及磷循环估算 总被引:1,自引:0,他引:1
1987年3月~1988年12月笔者于九龙江口、厦门西海域的调查研究结果表明,厦门西海域特殊的地理、水文环境、沉积物的高磷量、磷形态的快速转化是西海域初级生产力[555g/(m2·a)]比九龙江口区[159g/(m2·a)]高得多的主要原因。颗粒态磷(PP)、溶解态无机磷(DIP)、溶解态有机磷(DOP)等以生物为媒介发生了某种程度的形态转化。本文估算了九龙江水总磷(TP)的入海通量为787t/a,其中DIP为69.2t/a,DOP为170t/a,PP为547t/a;九龙江口和厦门西海域沉积物磷的年释放量估计为16t和13t.接初级生产力估算全调查海域消耗磷约为981t/a,而生物活动参与下磷的再生和转化起重要的作用。 相似文献
3.
九龙江口水体中各形态磷的行为 总被引:12,自引:1,他引:12
199御3月至1996年2月,逐月从九龙江口的淡水端到入海端的全段河口区采取表层水样。测定并计算水体溶解态和颗粒态的磷:DIP,DOP,DTP,PIP,POP,PTP和TP。结果表明,河流为九龙江口带来大量的磷。其主要以无机态的PIP,DIP形式存在。 相似文献
4.
九龙江口海域中磷的化学形态分布 总被引:4,自引:0,他引:4
根据1987年3月至1988年12月笔者在九龙江口,厦门西海域的调查研究资料,着重讨论颗粒态磷,溶解态无机磷,溶解态有机磷,总磷等各种形态磷的含量分布,季节变化,及其与叶绿素,总悬浮物量等其他要素的关系。 相似文献
5.
9810号台风期间厦门近岸海域磷的分布特征 总被引:1,自引:0,他引:1
于1998年10号台风期间及台风解除后一周内,对九龙江口和西海域表层水中总磷(TP)、溶解态无机磷(DIP)、溶解态有机磷(DOP)、颗粒态磷(PP)、颗粒态无机磷(PIP)和颗粒态有机磷(POP)进行了为期9d(10月26日至11月3日)的现场观测。根据观测结果,讨论了台风对上述各形态磷的分布特征的影响,认为台风伴随的增水、入海径流量的骤增和底质再悬浮的加剧导致表层水体中各形态磷含量的短期增加。 相似文献
6.
根据1992年12月(冬季)和1993年7月(夏季)对大鹏澳海域24h定点连续观测和夏季大面调查,统计了该海域各种形态磷的变化范围和平均含量;计算了各种形态磷分别占总磷(TP)和总溶解磷(TDP)的百分比;讨论了各种形态磷之间的相互关系;分析了影响TP和TDP分布的环境因素。 相似文献
7.
根据2017年12月—2019年12月和2018年小浪底水库泄洪期间对黄河下游营养盐的月观测和日观测,系统的分析了黄河下游溶解态营养盐浓度、组成和通量变化.结果表明,除DON(溶解有机氮)、DSi(溶解态硅)和DIP(溶解无机磷)外,其他各溶解态营养盐浓度均呈丰水期低、枯水期高的特点.在观测期间,DSi/DIN(溶解态... 相似文献
8.
大鹏澳海域水体磷的形态及其分布特征 总被引:9,自引:0,他引:9
根据1992年12月(冬季)和1993年7月(夏季)对大鹏澳海域24h定点连续观测和夏季大面调查,统计了该海域各种形态磷的变化范围和平均含量;计算了各种形态磷分别占总磷(TP)和总溶解磷(TDP)的百分比;讨论了各种形态磷之间的相互关系;分析了影响TP和TDP分布的环境因素。 相似文献
9.
厦门湾水体中^234Th的垂直分布及其时间变异特征 总被引:1,自引:0,他引:1
1996年9 ̄10月在厦门湾上屿附近海定点站连续6个航次测定了水柱中溶解态、颗粒态^234Th(PTh)和溶解态^238U,获得了^234Th的时空分布图象,研究海域水柱中DTh、PTh和总^234Th(TTh)的放射性比度分别在0.80 ̄3.95Bq/m^3、1.93 ̄5.65Bq/m^3和3.47 ̄9.18Bq/m^3之间,整个水柱中DTh、PTh和TTh均与^238U呈不平衡,其特征是^34 相似文献
10.
江阴岛海域溶解态Cu,Pb,Cd的含量及其与营养盐的关系 总被引:2,自引:0,他引:2
首次报道了福建省福清市江阴岛海域溶解态Cu,Pb,Cd的含量,并探讨了它们与营养盐的关系。1990年5月溶解态Cu,Pb,Cd的平均含量分别为0.82、0.380、0.022μg/dm^2,10月的平均含量分别为0.76、0.382、0.032μg/dm^2。其5月溶解态Cu与无机氮N,硅酸盐间的线性回归相关式分别为Cu、(μg/dm^3)=0.438+0.0377N(μg/dm^3)、Cu(μg 相似文献
11.
闽南-台湾浅滩渔场上升流区研究(1987年12月至1988年11月)及台湾海峡上升流区研究(1987年7月至1988年7月)结果表明,各种形态磷含量变化对上升流生态系具有重要作用.因此,提出以涌升水体中有机、颗粒形态磷和溶解无机态磷的相对比率来表示上升流水体的老化程度,即上升流水体老化指标(AIU)为(DOP+PP)与(DIP+DOP+PP)之比值.研究资料表明AIU这一表达式对于上述两上升流区是合适的,海域AIU的季节性变化与其近岸上升流的消长变化规律相一致.AIU较小的区域,其水体为新涌升水,与上升流中心位置相吻合. 相似文献
12.
根据1988年7月调查资料讨论了台湾海峡中北部海域夏季上升流区各种形态磷的分布特征。结果表明,上升流中心区(即海坛岛东侧一带水域)具有低温、高盐、低溶解氧;DIp,TDP,PP,TP较高;DOP较低(0.27);及DIP/DOP比值(约为1)较高的特性。DOP是该海域磷的主要形态(占TP的49.2%),其含量分布及其形态转化与生物活动直接相关,是该海域生物生产力高的体现。 相似文献
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14.
Seasonal changes in nitrogen and phosphorus transport in the lower Changjiang River before the construction of the Three Gorges Dam 总被引:1,自引:0,他引:1
Shuiwang Duan Tao Liang Shen Zhang Lijun Wang Xiumei Zhang Xibao Chen 《Estuarine, Coastal and Shelf Science》2008
Water and sediment samples were collected at Datong from June 1998 to March 1999 to examine seasonal changes in the transports of nitrogen (N) and phosphorus (P) from the Changjiang River (Yangtze River) to the East China Sea (ECS). Dissolved inorganic nitrogen (DIN; dominated by nitrate) concentration exhibited small seasonality, and DIN flux was largely controlled by water discharge. Dissolved inorganic phosphorus (DIP) concentration was inversely correlated with water discharge, and DIP was evenly delivered throughout a year. The transports of DIN and DIP from the Changjiang River were consistent with seasonal changes in nutrient distributions and P limitation in the Changjiang Estuary and the adjacent ECS. Dissolved organic and particulate N (DON and PN) and P (DOP and PP) varied parallel to water discharge, and were dominantly transported during a summer flood. The fluxes of DOP and particulate bioavailable P (PBAP) were 2.5 and 4 times that of DIP during this period, respectively. PBAP accounted for 12–16% of total particulate P (PP), and was positively correlated with the summation of adsorbed P, Al–P and Fe–P. Ca–P, the major fraction of PP, increased with increasing percent of CaCO3. The remobilization of riverine DOP and PBAP likely accounted for the summer elevated primary production in DIP-depleted waters in the Changjiang Estuary and the adjacent ECS. The Changjiang River delivered approximately 6% of DIN (1459 × 106 kg), 1% of DIP (12 × 106 kg), and 2% of dissolved organic and particulate N and P to the totals of global rivers. The construction of the Three Gorges Dam might have substantially reduced the particulate nutrient loads, thereby augmenting P limitation in the Changjiang Estuary and ECS. 相似文献
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16.
The phosphorus cycle is studied during 2013–2014 in the Sanggou Bay(SGB), which is a typical aquaculture area in northern China. The forms of measured phosphorus include dissolved inorganic phosphorus(DIP), dissolved organic phosphorus(DOP), particulate inorganic phosphorus(PIP), and particulate organic phosphorus(POP).DIP and PIP are the major forms of total dissolved phosphorus(TDP) and total particulate phosphorus(TPP),representing 51%–75% and 53%–80%, respectively. The concentrations and distributions of phosphorus forms vary among seasons relative to aquaculture cycles, fluvial input, and hydrodynamic conditions. In autumn the concentration of DIP is significantly higher than in other seasons(P0.01), and higher concentrations are found in the west of the bay. In winter and spring the phosphorus concentrations are higher in the east of the bay than in the west. In summer, the distributions of phosphorus forms are uniform. A preliminary phosphorus budget is developed, and shows that SGB is a net sink of phosphorus. A total of 1.80×10~7 mol/a phosphorus is transported into the bay. The Yellow Sea is the major source of net input of phosphorus(61%), followed by submarine groundwater discharge(SGD)(27%), river input(11%), and atmospheric deposition(1%). The main phosphorus sink is the harvest of seaweeds(Saccharina japonica and Gracilaria lemaneiformis), bivalves(Chlamys farreri),and oysters(Crassostrea gigas), accounting for a total of 1.12×10~7 mol/a. Burial of phosphorus in sediment is another important sink, accounting for 7.00×10~6 mol/a. Biodeposition by bivalves is the major source of phosphorus in sediment, accounting for 54% of the total. 相似文献
17.
Seok Jin Oh Yang Ho Yoon Tamiji Yamamoto Yukihiko Matsuyama 《Ocean Science Journal》2005,40(4):183-190
We investigated the seasonal variability of free alkaline phosphatase activity in seawater and alkaline phosphatase hydrolysable
phosphorus (APHP) at 3 stations in Hiroshima Bay using alkaline phosphatase extracted from the dinoflagellates Alexandrium
tamarense and Gymnodinium catenatum. The dissolved inorganic phosphorus (DIP) was lower than 1 μM in all samples; the lowest
values were in May. The amount of APHP was high at the surface and bottom waters of all stations in May, showing DIP-depleted
conditions. In August and November, the amount of APHP was much less than the amount of APHP in May, indicating that the availability
of dissolved organic phosphorus (DOP) for these species was low and/or uptake during the dinoflagellate blooming might have
occurred in the area. The results obtained from short-term variations of AP activity might suggest that the growth of dinoflagellates
in this season may be partly supported by the AP produced by other diatoms. 相似文献
18.
Kenichiro Hamada Naoko Ueda Machiko Yamada Kuninao Tada Shigeru Montani 《Journal of Oceanography》2012,68(1):173-182
Biologically important nutrient concentrations in Dokai Bay have declined as a result of reductions in anthropogenic inputs
of total nitrogen and total phosphorus. A decrease in nutrient concentrations affects phytoplankton growth, thereby changing
the biochemical characteristics of autochthonous particulate matter. We therefore investigated changes in the C/N/P molar
ratio of suspended particulate matter (SPM) in the summer, when phytoplankton growth is vigorous, before environmental quality
standards (EQSs) were attained (1995–1998) and afterward (2006–2009). We found that the ratio of particulate organic nitrogen
(PON) to particulate phosphorus (PP) changed in conjunction with changes in the ratio of dissolved inorganic nitrogen to dissolved
inorganic phosphorus (DIP) that resulted from reductions in nutrient loading. Furthermore, we suggest that because the DIP
concentration in seawater was high before EQSs were attained, inorganic phosphorus was possibly adsorbed onto SPM. After the
attainment of EQSs, however, the DIP concentration fell, and PON/PP was high. Phosphorus limitation of phytoplankton growth
in the mouth of the bay may explain the high PON/PP ratios after EQS attainment. 相似文献