共查询到20条相似文献,搜索用时 156 毫秒
1.
群落净生产力(Net Community Production, NCP)代表了总初级生产力与群落呼吸的差值,是衡量生物活动对上层海洋碳循环影响的重要指标。O2/Ar比值消除了物理过程对海水中溶解氧(O2)饱和度的影响,因此基于生物氧饱和度(ΔO2/Ar)可以估算海洋混合层群落净生产力。本研究于2015年10月,首次利用膜进样质谱法走航获取了黄东海表层海水中高分辨率O2/Ar数据,并估算了其NCP,探讨了其分布特征及影响因素。本航次观测到的Δ(O2/Ar)范围为-30.21%~44.38%,平均值为(0.32±8.29)%,低值主要出现在长江口北侧,而长江口(11.75±13.75)%和浙闽沿岸(5.42±5.21)%的Δ(O2/Ar)明显高于南黄海(-2.62±5.96)%和东海陆架区(-0.79±5.02)%。南黄海和东海陆架区平均NCP为(-9.24±23.15)和(-4.04±18.68) mmol·m-2·d-1<... 相似文献
2.
浮游植物光合和呼吸作用是调节河口碳交换的重要过程。本文在模拟实验基础上,采用重氧水(H218O)加富法培养海水,用四极杆质谱精确测定溶氧的变化和重氧(18O16O)的生物富集速率,同步测定总生产力(Gross primary production, GPP)与净群落生产力(Net community production, NCP),估测长江口最大浑浊带、锋面地带和冲淡水延伸区域(舟山海域)的水柱积分GPP和NCP。结果表明,受光限制影响,最大浑浊带水柱积分GPP低(6.11 mmol·m-2·d-1),呼吸作用造成NCP为负值,呈异养状态;锋面水柱积分GPP和NCP分别为164.87和135.91 mmol·m-2·d-1,主要由表层水体的硅藻贡献,周转效率高达0.82;舟山海域水柱积分GPP和NCP分别为235.44和180.75 mmol·m-2·d-1,主要由0... 相似文献
3.
海洋中的溶解氧分布受着大气、生物、化学及各种物理过程的影响。因此,可以根据氧的分布,通过不同的方法将这些过程分离开,来了解海洋中的物理过程、生物过程和化学过程。对大洋水中溶解氧的分布,人们曾进行了许多研究工作。研究表明,除近表层水外,深层水中的溶解氧都处于较稳定的状态,变化幅度较小;但对近岸和浅海的海水中溶解氧的影响因素较多,变化幅度亦较大,其分布更加复杂。然而也有一定的规律性。 相似文献
4.
采用化学裂解法从乳山湾外海溶氧低值区不同溶解氧质量浓度(3.7~7.0mg.L-1)的6个站位海水样品中提取了环境DNA样品。以试剂盒纯化后的DNA样品为模板扩增其16SrRNA基因V3区,通过变性梯度凝胶电泳、分子文库构建及DNA测序对溶氧低值区海水中的细菌群落结构进行研究。结果表明,乳山湾外海溶氧低值区不同溶解氧质量浓度的6个站位底层海水样品中的细菌群落结构是相似的,它们均由隶属于Alteromonas(交替单胞菌属)、Salegentibacter(需盐杆菌属)等10个属的18种细菌组成。系统发育分析发现这些细菌分别属于α变形菌纲(2种)、γ变形菌纲(12种)和黄杆菌纲(3种)三个大类。在乳山湾外海溶氧低值区的海水样品中细菌多样性最高的类群是γ变形菌纲。 相似文献
5.
《中国海洋大学学报(自然科学版)》2016,(6)
利用垂直一维物理-生物耦合模型模拟了台风"派比安"和超强台风"珍珠"对南海北部水温、营养盐和叶绿素垂直分布的影响,并估算了2次台风对初级生产力和营养盐垂直输送的贡献。结果表明,"派比安"引发50m以浅海水温度降低,表层降温2.0℃,50~130m海水温度升高,混合层加深30m,海表叶绿素浓度增加0.18mg·m~(-3),营养盐垂向输运对初级生产力的贡献为2.3×103 mg C·m~(-2),约占全年的3%。"珍珠"引发55m以浅海水温度降低,表层降温超过5.0℃,55~150m海水温度升高,混合层加深85m,海表叶绿素浓度增加0.9mg·m~(-3),带来的营养盐垂向输运量约为全年的30%,对初级生产力的贡献为12.8×103 mg C·m~(-2),约占全年的18%。可见,台风过程,特别是强台风过程对上层海洋的初级生产和生物地球化学过程具有显著影响。台风的强度和移动速度等自身特征是决定海洋环境要素对台风响应程度的核心要素,同时台风过境前的水体层化状态和营养盐水平也是不可忽视的因素。 相似文献
6.
南黄海溶解氧的分布与季节变化 总被引:13,自引:0,他引:13
海洋中的溶解氧分布受着大气、生物、化学及各种物理过程的影响。因此,可以根据氧的分布,通过不同的方法将这些过程分离开,来了解海洋中的物理过程、生物过程和化学过程。对大洋水中溶解氧的分布,人们曾进行了许多研究工作。研究表明,除近表层水外,深层水中的溶解氧都处于较稳定的状态,变化幅度较小; 相似文献
7.
底栖生物生产力现场测试系统(BCSPM)的建立及其初步实验结果 总被引:2,自引:1,他引:1
为对生态系统的健康评估及底栖生物资源的开发利用提供技术支撑,在胶州湾筏式养殖水域,建立了底栖生物生产力现场测试系统(BCSPM),并在光照和黑暗条件下测定了沉积物海水界面溶解氧随时间的变化、计算了氧通量、估算了底栖总初级生产力和群落呼吸。在光照较强的中午时刻测定的群落总生产力为20.76mgCm^-2h^-1;养殖水域沉积物中的群落呼吸要高于邻近水域。BCSPM整体运转良好,初步结果为系统的改进和进一步实验提供了依据。 相似文献
8.
《应用海洋学学报》2015,(4)
于2013年6月(航段P1、P2)和2014年6月(航段P3、P4)上下旬4个航段,分别采用黑白瓶法和3H-亮氨酸示踪法测定南黄海大型水母沙海蜇(Nemopilema nomurai)暴发区的浮游生物群落代谢和细菌生产力(BP).结果表明,在水母暴发的航段中,细菌生产力和群落呼吸(CR)升高,净群落生产力(NCP)为负值.2013年6月,发现在水母生物量急剧增加的P2航段,细菌生产力显著升高,但细菌丰度(BA)变化不大,即单位细菌生产力显著上升,由1.75±0.87 pg/(cell·d)增加到3.31±1.22 pg/(cell·d)(p0.05).2014年6月,水母暴发的P4航段中,细菌生产力没有显著上升,但群落总初级生产力(GPP)与群落呼吸的比值为0.46±0.25,显著低于P3航段的0.89±0.46(p0.05);P_3、P_4净群落生产力分别为-0.84和-3.97 mmol/(m3·d),说明该区域水母暴发时呈异养状态;群落呼吸不完全由群落生产力所决定.由此可见,水母暴发可能促进单位细菌生产力增加,同时加强浮游生物群落的呼吸作用,对海洋生态系统中浮游生物群落代谢产生重要影响. 相似文献
9.
海水溶解氧 总被引:1,自引:0,他引:1
李富荣 《中国海洋大学学报(自然科学版)》1986,(1)
海水溶解氧主要来源于大气中氧气的溶解和海洋植物光合作用所产生的氧。它的含量变化与海水中生物过程及水文条件等有密切关系。它的分布特点有时是海水运动的一个标志。 本区北部受黄海冷水团影响,西北部受苏北沿岸流及长江径流影响,东南部受黑潮、水和西南部受台湾暖流影响。由于不同水系的影响,使溶解氧分布有一定的规律性。本文将分别讨论溶解氧的空间和时间分布特征。 相似文献
10.
11.
Steven Emerson Charles Stump 《Deep Sea Research Part I: Oceanographic Research Papers》2010,57(10):1255-1265
Net community biological production in the euphotic zone of the ocean fuels organic matter and oxygen export from the upper ocean, which has a large influence on the atmospheric pressure of carbon dioxide and is the driving force for metabolite distributions in the sea. We determine the net annual biological oxygen production in the mixed layer of the northeast subarctic Pacific Ocean from in situ O2 and N2 measurements. Temperature, salinity, total gas pressure and O2 were measured every 3 h for 9 months in 2007 at about 3 m depth on a surface mooring at Station P (50°N, 145°W). The concentration of nitrogen gas, N2, determined from separate total gas pressure and pO2 measurements, was used as an inert tracer of the physical processes that induce gas departure from thermodynamic equilibrium with the atmosphere. We use a simple model of the ocean’s mixed layer along with the nitrogen concentration to constrain the importance of bubbles, gas exchange and horizontal advection, which are then used in the oxygen mass balance to derive net biological oxygen production. The mixed-layer oxygen mass balance is dominated by exchange with the atmosphere, and we determine a mean summertime oxygen production of 24 mmol O2 m?2 d?1. The annual pattern in the difference between the supersaturation of oxygen and nitrogen in the surface waters reveals very little net oxygen production during the winter at this location. The calculated annual net community production (NCP) of carbon from this new method, 2.5 mol m?2 yr?1, agrees to within its error of about×40% with previous determinations at this location from oxygen mass balance, NO3? draw down and 234Th measurements. This value is either indistinguishable from or lower than annual NCP measurements in the subtropical North Pacific, indicating that there is no experimental evidence for differences in annual NCP between the subarctic and subtropical North Pacific Ocean. 相似文献
12.
Zhuoyi Zhu Jun Wang Guiling Zhang Sumei Liu Shan Zheng Xiaoxia Sun Dongfeng Xu Meng Zhou 《海洋学报(英文版)》2021,40(6):1-2
Quantifying the gross and net production is an essential component of carbon cycling and marine ecosystem studies.Triple oxygen isotope measurements and the O_2/Ar ratio are powerful indices in quantifying the gross primary production and net community production of the mixed layer zone,respectively.Although there is a substantial advantage in refining the gas exchange term and water column vertical mixing calibration,application of mixed layer depth history to the gas exchange term and its contribution to reducing indices error are unclear.Therefore,two cruises were conducted in the slope regions of the northern South China Sea in October 2014(autumn) and June 2015(spring).Discrete water samples at Station L07 in the upper 150 m depth were collected for the determination of δ~(17)0,δ~(18)O,and the O_2/Ar ratio of dissolved gases.Gross oxygen production(GOP) was estimated using the triple oxygen isotopes of the dissolved O_2,and net oxygen production(NOP) was calculated using O_2/Ar ratio and O_2 concentration.The vertical mixing effect in NOP was calibrated via a N_2O based approach.GOP for autumn and spring was(169±23) mmol/(m~2·d)(by O_2) and(189±26) mmol/(m~2·d)(by O_2),respectively.While NOP was 1.5 mmol/(m~2·d)(by O_2) in autumn and 8.2 mmol/(m~2·d)(by O_2) in spring.Application of mixed layer depth history in the gas flux parametrization reduced up to 9.5% error in the GOP and NOP estimations.A comparison with an independent O_2 budget calculation in the diel observation indicated a26% overestimation in the current GOP,likely due to the vertical mixing effect.Both GOP and NOP in June were higher than those in October.Potential explanations for this include the occurrence of an eddy process in June,which may have exerted a submesoscale upwelling at the sampling station,and also the markedly higher terrestrial impact in June. 相似文献
13.
海洋生态系统净生产力 (net ecosystem production,NEP) 表示总初级生产力 (gross primary production,GPP) 和呼吸作用 (respiration,R) 过程之间的差异,它对碳收支平衡、海洋生态系统营养状态乃至气候变化等研究具有十分重要的指示意义。影响海洋 NEP 的因素有细菌、浮游生物、温度、太阳辐射、海冰融化、水团迁移、富营养有机质排放以及海水酸化等。目前计算 NEP 的方法可分为实验培养测定及数据模型计算两种。溶解氧培养法及同位素标记法等是经典的培养测定方法,但存在误差较大且重现性较差等问题。数据模型计算即借助养分质量平衡、响应面模型、O2/Ar 示踪等方法,通过将现场实测数据和生物地球化学模型结合,进行高时间分辨率的连续性观测,这也是目前测算 NEP 的主流应用手段。然而,相较于发达国家,我国在 NEP 的研究设备、技术、测定方法等方面仍存在一定差距。今后的研究重点将是建立 NEP 指标与表征海洋环境、气候变化之间的耦合关系以及 NEP 测定方法的改进,这将有助于深入理解和探索全球变化背景下海洋生态系统响应机制及变化趋势。 相似文献
14.
《Deep Sea Research Part I: Oceanographic Research Papers》2007,54(6):951-974
We report O2/Ar ratios (a constraint on net community production) and the triple isotopic composition of dissolved O2 (a constraint on gross primary production) in samples collected from the surface mixed layer on 23 Southern Ocean transits. Samples were collected at 1–2° meridional resolution during the austral summer. Methodological limitations notwithstanding, the results constrain the net/gross production ratio, net O2 production, and gross O2 production at unprecedented resolution throughout the Southern Ocean mixed layer. Gross O2 production rates inferred from the oxygen triple isotopes are greater than production rates calculated from a model based on remotely sensed chlorophyll. This result agrees with previous 18O and 14C incubations along 170°W. O2/Ar ratios exceeding saturation are consistently observed within the Subantarctic and Polar Frontal Zones south of New Zealand and Australia, showing that a net autotrophic community predominates during austral summer. Lower O2/Ar values are observed within the Drake Passage and Antarctic Zone, suggesting unresolved influences of low net community production, net heterotrophy, and upwelling of O2-undersaturated waters. In autotrophic waters of the austral summer mixed layer, ratios of net community production/gross O2 production scatter about 0.13, corresponding to f ratios of ∼0.25. Net community/gross O2 production ratios show no meridional gradient across the Antarctic Circumpolar Current, suggesting that an approximately constant fraction of gross primary productivity is regenerated or exported. Our calculated net O2 production rates are in satisfactory agreement with comparable published estimates. Net and gross O2 production rates are highest in the Subantarctic and decline to the south, paralleling the well-known trend of chlorophyll a concentrations. In an analysis of variance of net O2 production and gross O2 production with other environmental variables, the strongest correlations are between net O2 production and sea surface temperature (SST) (direct correlation), climatological [NO3−] (inverse correlation), and estimates of primary productivity derived from a remote sensing (direct correlation). These trends are as expected if aerosol iron input is the most important influence on production. They are unexpected if upwelling-derived SiO2 and iron are the leading influence or if lower SSTs promote greater export in this region. 相似文献
15.
María Aranguren-Gassis Pablo SerretEmilio Fernández Juan L. HerreraJose F. Domínguez Valesca PérezJose Escanez 《Deep Sea Research Part I: Oceanographic Research Papers》2011,58(7):768-775
Two main contrasted hypotheses have arisen during the last decades about the factors controlling the planktonic net metabolic balance in oligotrophic waters: gross primary production controls net community production vs. variability of net community production is also influenced by changes in microbial respiration. This work discusses both hypotheses analyzing the variability of metabolic rates along a gradient from the margin to the centre of the North Atlantic oligotrophic gyre, i.e. from relatively productive to more oligotrophic conditions. Net community production (NCP) was close to zero (between −3.34 and −11.77 mmol O2 m−2 d−1) at the margin of the gyre and tended towards net heterotrophy (−44.03 mmol O2 m−2 d−1) to the centre of the gyre as both gross primary production (GPP) and community respiration (CR) decreased. The strong relationships found between nutrient availability and both NCP and GPP suggest that factors controlling GPP are prevalent in determining NCP variability in this biogeographic region. However implementation of existing models to predict NCP from the measured GPP indicates that the precise estimation of NCP in different oligotrophic systems requires consideration of the magnitude and variability of microbial respiration rates. 相似文献
16.
2017年8月对大亚湾海域浮游群落初级生产、群落呼吸代谢及其平衡特征进行了研究, 并分析了其潜在环境影响因素以及对沿岸生态系统功能与健康的指示作用。研究结果表明, 大亚湾夏季海水表层呈自养状态, 而底层呈异养状态, 群落总初级生产力(gross primary productivity, GPP)、呼吸代谢速率(community respiration, CR)与净生产力(net commutnitiy production, NCP)在表层分别为1335.36±910.12、597.86±403.30和737.50±608.22mg C·m-3·d-1; 在底层分别为43.65±37.05、216.25±147.28和-160.27±137.01mg C·m-3·d-1。海湾整体呈自养状态, 水柱平均NCP为233.41±248.88mg C·m-3·d-1; 部分沿岸水域存在异养状态。1~200μm粒级浮游生物是GPP和CR的主要贡献者。相关性分析和主成分分析显示, NCP在表层受GPP和CR共同调控, 且与浮游植物生物量和营养盐正相关; 而在底层主要受CR影响, 且与盐度正相关。大亚湾夏季群落生产代谢平衡存在明显的水平和垂向变化, NCP的区域差异与潜在波动性对该海湾生态系统稳定性及健康状况有重要的指示作用。 相似文献
17.
白垩纪黑色页岩与大洋红层:缺氧到富氧的过程与机制 总被引:2,自引:0,他引:2
白垩纪是地球历史中一个重要的阶段,期间发生了以黑色页岩为特征的缺氧事件和以大洋红层为特征的富氧环境等许多重大地质事件,从白垩纪大洋缺氧到富氧转化的过程与机制,提出上述两个典型事件是同一原因形成的两个不同结果。一方面,白垩纪大规模的岩浆活动,引起大气中CO2气体浓度的升高和地球内部大量热能释放,并且改变了海陆面积的对比,最终导致大气温度的升高。海水温度的升高和CO2浓度的增加导致海洋环境中溶解O2的降低,缺氧事件随之而产生。另一方面,剧烈的岩浆活动在海底产生大量的富含铁元素的基性和超基性岩,在与海水发生反应时,岩石中的铁元素进入海水中。海水中的铁元素是海洋浮游植物宝贵的营养盐类,其含量的增加可激发浮游植物的大规模繁盛,而这一生命过程可以吸收海水中大量的CO2,并且产生等量的O2。随着海水中O2浓度的不断升高,以富含Fe3 的红色沉积物为特征的海洋富氧环境出现。然而,由岩浆活动引起的缺氧事件和同样由其造成的富氧环境,其机制存在明显的差异,前者以物理、化学过程为主,后者除此之外还演绎了更为复杂的生物—海洋地球化学过程。 相似文献
18.
《Deep Sea Research Part I: Oceanographic Research Papers》2006,53(11):1831-1844
The goal of this study was to explore how net community production (NCP) is influenced by the relationship between primary production and community respiration in the western Arctic Ocean. Plankton NCP and respiration were determined by measuring changes in oxygen in light and dark bottle incubations, respectively. Rates of NCP averaged over shelf, slope and basin waters were positive in summer 2002 (57±191 mmol O2 m−2 d−1) and spring 2004 (85±86 mmol O2 m−2 d−1) and negative in summer 2004 (−25±176 mmol O2 m−2 d−1). Determinations of NCP obtained from bottle incubations were similar to rates inferred from in situ changes in dissolved inorganic carbon. An examination of the spatial variability of primary production and community respiration indicated that respiration is distributed more uniformly than primary production. A spatial offset between photosynthesis and respiration from the shelf to the Arctic basin was present in spring 2004, but was not seen at other times. NCP and the potential for export appear to be dependent on an uncoupling of primary production and community respiration. NCP continued into the summer after the stock of NO3− had been depleted. Our data suggest that the uniform distribution of respiration relative to primary production is an important factor influencing NCP and the potential for export in the western Arctic. 相似文献
19.
In January–February 2001, we measured microbial biomass as ATP and community respiration as ETS activity of organisms < 200 μm in the aphotic zone of the Ross Sea. Microbial respiration amounted to 2.14 mmol C m− 2 day− 1 in the depth range 200–1000 m. Our daily estimates of carbon export are close to the daily percentage of net community production (NCP), removed as sinking biogenic particles from the upper 100 m in the entire Ross Sea, but lower than those of other oceanic systems. Comparing remineralization determined in this study with that obtained by sediment traps in the Ross Sea, it appeared that about 63% of organic carbon remineralized by respiration derived from POC pool. Such evidence highlighted POC source as the main organic fuel of the biological pump in the Ross Sea. 相似文献
20.
《Deep Sea Research Part II: Topical Studies in Oceanography》2009,56(15):941-953
We present, test and implement two contrasting models to predict euphotic zone net community production (NCP), which are based on 14C primary production (PO14CP) to NCP relationships over two latitudinal (ca. 30°S–45°N) transects traversing highly productive and oligotrophic provinces of the Atlantic Ocean (NADR, CNRY, BENG, NAST-E, ETRA and SATL, Longhurst et al., 1995 [An estimation of global primary production in the ocean from satellite radiometer data. Journal of Plankton Research 17, 1245–1271]). The two models include similar ranges of PO14CP and community structure, but differ in the relative influence of allochthonous organic matter in the oligotrophic provinces. Both models were used to predict NCP from PO14CP measurements obtained during 11 local and three seasonal studies in the Atlantic, Pacific and Indian Oceans, and from satellite-derived estimates of PO14CP. Comparison of these NCP predictions with concurrent in situ measurements and geochemical estimates of NCP showed that geographic and annual patterns of NCP can only be predicted when the relative trophic importance of local vs. distant processes is similar in both modeled and predicted ecosystems. The system-dependent ability of our models to predict NCP seasonality suggests that trophic-level dynamics are stronger than differences in hydrodynamic regime, taxonomic composition and phytoplankton growth. The regional differences in the predictive power of both models confirm the existence of biogeographic differences in the scale of trophic dynamics, which impede the use of a single generalized equation to estimate global marine plankton NCP.This paper shows the potential of a systematic empirical approach to predict plankton NCP from local and satellite-derived P estimates. 相似文献