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1.
桑沟湾沉积碳库年汇入速率的长期变化及其区域性差异 总被引:1,自引:1,他引:0
对取自桑沟湾北西南三根柱样近200 a碳来源及埋藏通量的解析,分析了湾内不同站位各形态碳的差异性,进而对全湾碳埋藏进行了估算。湾内环流、贝藻养殖等造成湾内不同区域碳埋藏的差异;桑沟湾总碳(TC)平均量1.79%,有机碳(TOC)平均量0.54%,无机碳(TIC)平均量1.25%,TOC含量相对较小,为海陆混合来源,以陆源有机碳(Ct)为主,大规模人工养殖后,海源有机碳(Ca)有明显增加的趋势。桑沟湾碳埋藏通量平均为228.9 g/(m2·a),以无机碳为主要埋藏形式(约占70%),高的沉积速率及生物残骸沉降使桑沟湾养殖区碳的来源及埋藏区别于其他陆架海域。 相似文献
2.
近200年桑沟湾养殖海域柱状沉积剖面的污染有机质记录与评价 总被引:2,自引:1,他引:1
通过对取自桑沟湾南部和北部养殖海域2个站位的柱状沉积物样品进行TOC和TN测定,分析了桑沟湾沉积物中TOC和TN的分布情况,结合沉积物年代序列的测定,估算了工业革命之前、之中及规模化养殖之后桑沟湾海域沉积物中水生有机碳和总氮的含量,并对近200年来桑沟湾养殖海域有机质沉积情况进行了评价。结果显示:19世纪70年代以前,TOC含量较稳定,TN含量随深度增加而缓慢降低;19世纪70年代至20世纪70年代,TOC,TN含量波动均较大;20世纪70年代以后,TOC含量逐渐减小并趋于稳定,TN含量随养殖规模的扩大显著增加,且扇贝养殖区表层沉积物中TOC,TN的含量均低于海带养殖区。近200年桑沟湾沉积物中有机质来源变化趋势为混源-陆源-混源,近40年来的规模化养殖明显增加了水生有机碳及水生总氮在TOC和TN中所占比例。对桑沟湾沉积物中有机质污染评价结果显示,大规模的养殖活动增加了底质中沉积物TOC和TN的含量,海带筏式养殖对沉积物中的TN造成了一定的累积性自身污染。 相似文献
3.
洞头近海养殖水域沉积物碳含量空间分布格局 总被引:1,自引:0,他引:1
《应用海洋学学报》2015,(4)
为揭示近海养殖活动在碳埋藏中的作用,对洞头近海3个不同养殖年份(2、10、30a)的紫菜养殖区沉积物总有机碳(TOC)、总无机碳(TIC)、水溶性有机碳(WSOC)及水溶性无机碳(WSIC)含量的空间分布格局进行了研究.近岸养殖区沉积物TOC、WSOC含量高于远岸.沉积物柱样中TOC含量在上层0~20 cm最高,而WSOC含量在下层40~60 cm最高.不同养殖年份的养殖区沉积物WSOC含量有显著差异,最高值出现在养殖30a的水域.近海养殖水域沉积物碳库中TIC含量高于TOC含量,TIC含量占总碳(TC)含量的58%,远岸TIC含量高于近岸.沉积物水溶性碳库以有机碳形式为主,WSOC含量占总水溶性碳库的73%.研究表明,洞头近海紫菜养殖区沉积物中不同形态碳含量的空间分布格局有一定差异,无机碳特别是深层无机碳对近海沉积物中碳的长期固定贡献较大. 相似文献
4.
南沙群岛西部海域两柱状沉积物中碳和氮的分布和来源特征及埋藏通量估算 总被引:6,自引:0,他引:6
对位于南沙群岛海域西部近大陆架-残留沉积区(NS01站)和深海沉积区(NS02站)的2个沉积物柱状样进行了研究,测定了它们的粒度组成、CaCO3含量、总有机碳含量(TOC)、总碳含量(TC)、总有机物含量(TOM)和总氮含量(TN),估算了它们的埋藏通量及陆/海源TOC和TN的相对含量.结果表明,该海域沉积物主要是粒径小于63μm的细粒度组分,粒度组成随深度的变化很小.沉积物粒度不是控制CaCO3含量、TOC、TC、TOM、TN和TOC/TN垂向变化的主要因素.NS01站CaCO3含量、TOC、TC、TOM和TN的含量及埋藏通量均低于NS02站.NS01站TOC/TN随深度的变化主要受控于TN的变化,而NS02站则主要受控于TOC的变化.2个研究站位的TOC和TN均以海洋自生为主,NS01站沉积物中海洋自生TOC和TN的平均值分别为53.2%和81.4%,NS02站沉积物中海洋自生TOC和TN的平均值分别为64.5%和87.7%. 相似文献
5.
潮滩作为重要的湿地类型和高效的有机碳汇备受关注,近期围垦、养殖等人类活动和互花米草入侵对潮滩生化环境和有机碳埋藏产生了重要影响。本研究选取了福建三沙湾三处不同植被类型的潮滩各取得沉积物短柱样,测定沉积物的总有机碳含量(TOC)、稳定碳同位素(δ13C),结合210Pbex测试计算的沉积速率,估算了不同区域的有机碳埋藏通量(BC)。结果表明,互花米草阶段和红树林阶段TOC含量分别为0.67%和0.95%,比对应的光滩阶段分别提高了13.6%和26.7%,表明红树林对潮滩固碳效率的提升比互花米草更加显著。在两者的共同生长区域,随时间推移TOC含量显著下降,表明互花米草入侵挤占红树林生长空间之后,降低了潮滩的固碳效率。短柱样沉积物δ13C值分布范围在-24.70~-21.87‰,主要体现海源有机质同位素特征,但也会受潮滩植被生长类型影响。对各短柱样有机碳埋藏通量进行估算,得到研究区红树林生长阶段BC平均值为149.53 g/m2/yr,远高于互花米草生长阶段的平均值57.37 g/m2/yr。 相似文献
6.
为了研究长江古河谷地区早中全新世沉积物的碳埋藏速率及来源,进行了ZK1孔沉积物总有机碳(TOC)、总氮(TN)及δ13C的测定,结合AMS14C(植物碎屑、贝壳)测年、有孔虫及粒度数据,分析了长江古河谷碳埋藏的时空分布特征与TOC来源。采用历史地理学、沉积地质学结合测年数据进行了年代地层划分,自下而上分别为U1潮汐河道、U2河口湾、U3潮流砂脊和U4前三角洲。沉积物受到水深、径流、河口余环流、潮流、波浪、风暴与再矿化等作用或因素影响,TOC平均值为0.41%,低于长江河口表层沉积物基准值0.46%。ZK1碳埋藏通量(TOCBF)介于7.4~110.5 g/(m2·a)之间,差异较大。TOCBF数值主要受控于沉积速率。δ13C与TOC/TN(C/N)投影点结果表明,TOC来源表现为多源特征,且整体表现为偏陆源特征。C/N与δ13C线性拟合相关性高,适合采用C/N与δ13C进行TOC来源的定量分析。基于C/N与δ 相似文献
7.
本文测定了海南儋州湾南岸柱状沉积物的粒度、总有机质参数(TOC、C/N和δ13C)和类脂生物标志物含量,并通过端元混合模型使用红树植物特征标志物蒲公英萜醇含量、长链正构烷烃含量和δ13C值半定量区分了海南儋州湾南岸沉积有机质来源,尤其是红树林的贡献。另外,通过估算沉积物的有机碳储量来评估儋州湾红树林区域的储碳能力。在沉积有机质中,陆源、水源和红树植物有机质所占平均比例分别为47%,36%和17%。沉积物柱状样中单位厘米深度沉积物的碳储量范围在0.12~2.90 t/ha。本研究表明,儋州湾地区沉积物中来自于红树林的有机质比例较低,且其碳埋藏量可能低于全球平均水平。修复和保护儋州湾红树林,能够有效提升湿地的碳埋藏效率,从而减缓大气CO2上升对环境的负面影响。本文应用生物标志物和碳同位素方法,半定量区分了红树林生态系统各种来源有机碳的贡献,将蒲公英萜醇作为红树林特征生物标志物应用在计算模型中,能够量化红树植物来源有机碳的贡献,加深对红树林系统有机碳埋藏情况的了解。 相似文献
8.
贝类通过生物沉积作用加速了养殖海区水体中的颗粒物质向海底的输送。在桑沟湾中筏式养殖的长牡蛎(Crassostrea gigas),将大量的有机物以生物沉积物(真粪和假粪)的形式排向养殖区海底。为完成对桑沟湾筏式养殖长牡蛎生物沉积物对环境底质影响的量化研究,作者通过在桑沟湾内不同的海区设置采样点(5个养殖区,3个对照点),对采样点SG 2与SG 6两个点的长牡蛎生物性沉积物与海区悬浮颗粒物进行了稳定同位测定及有机物来源分析。实验结果表明:选取的采样点沉积物稳定碳氮同位素丰度集中于δ~(13)C–22.82‰~–21.62‰,δ~(15)N 4.73‰~6.21‰。在SG 2点的悬浮颗粒物中,长牡蛎生物性沉积物贡献有机物占9.95%,对照区沉积物与SG 2区沉积物贡献分别为54.19%和35.86%。在典型的采样点,稳定同位素法能较准确地量化出各有机物来源的贡献比例。以SG C点为对照,其余7个采样点长牡蛎生物性沉积物有机物贡献在4.06%~28.64%,平均贡献率为13.96%±8.62%,牡蛎养殖已经对桑沟湾底质造成了一定的影响。 相似文献
9.
通过对曼谷湾顶红树林区柱状沉积物D1的总有机碳(Total Organic Carbon, TOC)、总氮(Total Nitrogen, TN)、稳定碳同位素(δ13C)及粒度等指标的分析,在210Pb建立的年代地层框架的基础上,重建了该地区近百年来有机碳的埋藏记录,并对其影响因素进行了探讨。结果表明,TOC含量和δ13C值变化范围分别为1.35%~2.26%,-24.18‰~-22.67‰,均自下而上表现为先增加后减少的趋势。研究区为河口型红树林,相比海洋型红树林,其沉积物中有机碳来源受红树林影响较小,这是由于受周期性涨落潮和河口径流的冲刷,较轻的红树林碳屑极易被分解或被带至外海,难以在沉积物中存储。综合研究区的环境因素,选择陆源、海源和人为源作为三端元,计算得出柱状沉积物中有机碳以人为源和海源为主,陆源贡献相对较低。1939年以来,人为源有机碳贡献不断增大;1980—2008年间,因入海河流上游修建大坝,导致入海物质通量减少,加之该时期区域气候模式发生变化,降雨量相对减少,陆源有机碳贡献相对降低。因围海造田、围海养殖等人类活动增强,人为... 相似文献
10.
桑沟湾夏、秋季悬浮颗粒物的沉降通量及再悬浮的影响 总被引:1,自引:0,他引:1
应用锚式悬挂沉积物捕捉器法,研究了我国北方重要海水养殖区域桑沟湾悬浮颗粒物沉降通量的分布特征,并通过金属Al标记法,同步测定了沉降颗粒物再悬浮比率。结果表明,桑沟湾的底层悬浮颗粒物(SPM)、颗粒有机碳(POC)、颗粒态总氮(PTN)和颗粒态总磷(PTP)平均表观沉降通量分别为1 511.4g/(m2·d)、20.01g/(m2·d)、1.497g/(m2·d)和0.474g/(m2·d),显著高于我国其他近岸海域,但底层沉降颗粒物再悬浮比率平均值高达92.8%,认为在养殖内湾,受再悬浮程度的影响,测得的底层表观沉降通量是中层的2.7倍,秋季明显大于夏季,海带和扇贝养殖区大于牡蛎养殖区。经再悬浮比率校正后的净沉降通量,仍存在着显著的空间和季节变化,但受控因素发生了根本转变;这主要表现为净沉降颗粒物质主要源于生物代谢活动强烈中上层水体,贝类的排泄作用使牡蛎和扇贝养殖区的净沉降通量显著大于海带养殖区,养殖贝类个体增大、排泄量增加使秋季净沉降通量高于夏季。在我国近岸海域,再悬浮作用的影响,会对该区域悬浮颗粒物沉降通量的估算带来巨大误差,因此该作用不容忽视。 相似文献
11.
In this study,we assessed the burial fluxes and source appointment of different forms of carbon in core sediments collected from culture areas in the Sanggou Bay,and preliminarily analyzed the reasons for the greater proportion of inorganic carbon burial fluxes(BFTIC).The average content of total carbon(TC) in the Sanggou Bay was 2.14%.Total organic carbon(TOC) accounted for a small proportion in TC,more than 65% of which derived from terrigenous organic carbon(Ct),and while the proportion of marine-derived organic carbon(Ca) increased significantly since the beginning of large-scale aquaculture.Total inorganic carbon(TIC) accounted for 60%–75%of TC,an average of which was 60%,with a maximum up to 90% during flourishing periods(1880–1948) of small natural shellfish derived from seashells inorganic carbon(Shell-IC).The TC burial fluxes ranged from 31 g/(m2·a)to 895 g/(m2·a) with an average of 227 g/(m2·a),which was dominated by TIC(about 70%).Shell-IC was the main source of TIC and even TC.As the main food of natural shellfish,biogenic silica(BSi) negatively correlated with BFTIC through affecting shellfish breeding.BFTIC of Sta.S1,influenced greatly by the Yellow Sea Coastal Current,had a certain response to Pacific Decadal Oscillation(PDO) in some specific periods. 相似文献
12.
Long-term changes of composition,sources and burial fluxes of TOC(total organic carbon) in sediments of the central Yellow Sea mud area and their possible affecting factors are discussed in this paper.Firstly,similarity analysis is employed to confirm that the carbon burial features resulted from two collected cores are typical in the central Yellow Sea mud area where YSWC(Yellow Sea Warm Current) is prevalent.On this basis,the burial flux of TOC here was considered to be 235.5–488.4 μmol/(cm2?a) since the first industrial revolution,accounting for about 70%–90% among burial fluxes of TC(total carbon) in the sediments.Compared TOC/TC ratio in the two cores with that in other marine sediments worldwide,we suggest that the growth of calcareous/non-calcareous organisms and dissolution of IC(inorganic carbon) are important factors controlling the TOC/TC ratio in sediment.Results of two-end mixed model based on δ13C data indicate that marine-derived organic carbon(OCa)is the main part among total burial organic carbon which accounts for a ratio over 85%.Due to the high TOC/TC ratio in the two cores,TC in the sediments also mainly exists as OCa,and the proportion of OCa is about 60%–80%.Away from the shore and relatively high primary production in upper waters are the main reasons that OCa is predominant among all burial OC in sediments of the central Yellow Sea mud area.Burial of OC in this mud area is probably mainly influenced by the human activities.Although the economic development during the late 19 th century caused by the first industrial revolution in China did not obviously increase the TOC burial fluxes in the sediments,the rise of industry and agriculture after the founding of new China has clearly increased the TOC burial flux since 1950 s.Otherwise,we also realize that among TC burial fluxes,TIC account for about 10%–30% in sediments of the central Yellow Sea mud area,so its burial could not be simply ignored here.Distinct from TOC burial,long-term TIC burial fluxes variations relate with climate changes more closely:the East Asian summer monsoon may influence the strength of the Huanghe River(Yellow River) flood,which could further affect the transport of terrestrial IC from land to the central Yellow Sea as well as the burial of these IC in the sediments. 相似文献
13.
14.
The biomass and size fraction of phytoplankton in terms of chlorophyll a(Chl a) was measured during four cruises conducted in April, July, October 2013 and January 2014 in mariculture area, the Sanggou Bay, China.Results show that total Chl a levels in the surface seawater of the Sanggou Bay generally range from 0.10 to 20.46μg/L, with an average value of 2.13 μg/L. Nano-phytoplankton was the most important size-fraction and accounted for about 65.1% of total Chl a. In order to evaluate the importance of the "protozoan trophic link" for energy transfer from the microbial loop to filter-feeding feeders, Zhikong scallop Chlamys farreri was then offered a natural planktonic community as potential prey. Results show that scallops obtained carbon source from natural plankton with the rate of 11 033.05 μg/(g·d). Protists(nanoflagellates and ciliates) were the dominant source of carbon retained by scallop(48.78%). The microbial loop provided 58.45% of the carbon source for farmed scallops. These results indicate that the microbial loop represent a valuable trophic resource in mariculture system of the Sanggou Bay. 相似文献
15.
本研究选择杭州湾庵东浅滩作为研究区,选取盐沼区三个不同植被带进行柱状样的采集,通过测量沉积物的粒度、沉积速率、碳氮含量(有机碳、总碳、总氮、碳氮比)等参数,系统分析研究区盐沼湿地植被演替对盐沼物质循环产生的影响。研究结果发现,不同植被覆盖下沉积物粒径差异显著,沿海向陆逐渐变细;沉积速率从海三棱藨草滩、互花米草滩、植被交错区依次递减;总碳、总氮、有机碳含量特征为互花米草滩植被交错区海三棱藨草滩,碳氮比介于6~9,有机碳以海源物质为主;通过计算,发现有机碳埋藏速率为互花米草[159 g/(m2·a)]海三棱藨草[140 g/(m2·a)]植被交错区[119 g/(m2·a)]。从整体上来看,杭州湾南岸盐沼从海三棱藨草群落向互花米草群落演替时,沉积物颗粒发生细化,沉积速率有所变化,而总碳、有机碳、总氮含量增加,盐沼有机碳埋藏速率增加。 相似文献
16.
桑沟湾养殖海域营养盐和沉积物-水界面扩散通量研究 总被引:7,自引:0,他引:7
利用2006年4,7,11月和2007年1月4个航次对桑沟湾养殖海域的观测资料,分析了该海域营养盐分布、结构特征、主要控制过程以及沉积物-水界面扩散通量,结果表明,该海域的营养盐分布具有明显的季节变化,海水中NO3-,NO2-,PO43-,DOP,TDP和SiO32-浓度皆是秋季最高,而NH4+,DON,TDN浓度则为夏季最高;各种营养盐的最低值除DON外都出现在春季。春季湾内外海水交换不畅,再加上大型藻类海带等生长旺盛期的消耗,使营养盐浓度处于较低水平,在夏秋两季丰水期沿岸河流注入对该海域营养盐的影响较大,冬季无机营养盐浓度分布主要受沿岸流的影响。磷的结构变化较大,其中DOP百分含量在夏季最高,达到81%。从春季到秋季海水中TDN的结构变化从以DON为主转变成以DIN为主。硅和氮的原子比值全年变化不大,硅和氮和氮和磷原子比值春夏两季的高于秋冬季的。分析营养盐化学计量限制标准和浮游植物生长的最低阈值结果表明,磷是春夏两季桑沟湾浮游植物生长的限制性因素;春季硅浓度低于浮游植物生长的最低阀值,也是一个潜在的限制因素。计算结果显示桑沟湾沉积物释放的NH4+,SiO32-和PO43-对初级生产力的贡献较小,与其他浅海环境相比,桑沟湾沉积物-水界面的营养盐通量处于较低或中等水平。 相似文献
17.
Settling particles from duplicate free-drifting sediment traps were collected at 150 m depth in May and July at a landward and a seaward site in the 350 m deep Laurentian Trough. The total organic carbon (TOC) fluxes were high (95–454 mg/m2/d), comparable to those reported for Dabob Bay (a similar moderately productive deep coastal environment) and for the highly productive Peru upwelling region. The TOC (26–67 mg C/g) consisted of lipids (17–37%), carbohydrates (7.9–16%), hydrolysable amino acids (8.4–16%), labile proteins (0.3–2.6%), and a non-characterized fraction (40–64%). Amino acids, proteins and uncharacterized compounds accounted for 24–42, 1–10 and 58–76%, respectively, of total nitrogen (2.3–7.7 mg N/g). The pigment fraction was largely dominated by pheopigments (0.06-1.15 mg/g vs 0.004–0.15 mg/g for chlorophyll a). C/N and C/pigment ratios indicated that on average, about half of the carbon flux was of terrigenous origin. Marine sources included a dominant zooplanktonic contribution, indicated by the abundance of fecal pellets, lipids and pheopigments, and a smaller contribution from fresh algae. Cluster and correlation analyses confirmed the decoupling of pigment and TOC fluxes and the strong zooplanktonic influence of the trap material. Despite large day-to-day and inter-trap variability, clear differences were observed in the fluxes, TOC content and composition at both sampling sites and months. Such trends are attributed to the relative contribution from terrestrial and marine sources and seasonal patterns of primary production. 相似文献
18.
There are two sets of carbonate source rocks in the Lower Carboniferous layers in Marsel: the Visean (C1v) and Serpukhovian (C1sr). However, their geochemical and geological characteristics have not been studied systematically. To assess the source rocks and reveal the hydrocarbon generation potential, the depositional paleoenvironment and distribution of C1v and C1sr source rocks were studied using total organic carbon (TOC) content, Rock-Eval pyrolysis and vitrinite reflectance (Ro) data, stable carbon isotope data, gas chromatography (GC) and gas chromatography-mass spectrometry (GC-MS) analysis data. The data were then compared with well logging data to understand the distribution of high-quality source rocks. The data were also incorporated into basin models to reveal the burial and thermal histories and timing of hydrocarbon generation. The results illustrated that the average residual TOC contents of C1v and C1sr were 0.79% and 0.5%, respectively, which were higher than the threshold of effective carbonate source rocks. Dominated by type-III kerogen, the C1v and C1sr source rocks tended to be gas-bearing. The two source rocks were generally mature to highly mature; the average Ro was 1.51% and 1.23% in C1v and C1sr, respectively. The source rocks were deposited in strongly reducing to weakly oxidizing marine–terrigenous environments, with most organic material originating from higher terrigenous plants and a few aquatic organisms. During the Permian, the deep burial depth and high heat flow caused a quick and high maturation of the source rocks, which were subsequently uplifted and eroded, stopping the generation and expulsion of hydrocarbons in the C1v and C1sr source rocks. The initial TOC fitted by the △logR method was recovered, and it suggests that high-quality source rocks (TOC ≥ 1%) are mainly distributed in the northern and central local structural belt. 相似文献