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1.
白令海颗粒有机物碳、氮同位素组成及其生物地球化学意义 总被引:1,自引:0,他引:1
Stable carbon and nitrogen isotopic composition of particulate organic matter(POM) were measured for samples collected from the Bering Sea in 2010 summer. Particulate organic carbon(POC) and particulate nitrogen(PN) showed high concentrations in the shelf and slope regions and decreased with depth in the slope and basin, indicating that biological processes play an important role on POM distribution. The low C/N ratio and heavy isotopic composition of POM, compared to those from the Alaska River, suggested a predominant contribution of marine biogenic organic matter in the Bering Sea. The fact that δ13C and δ15N generally increased with depth in the Bering Sea basin demonstrated that organic components with light carbon or nitrogen were decomposed preferentially during their transport to deep water. However, the high δ13C and δ15N observed in shelf bottom water were mostly resulted from sediment resuspension. 相似文献
2.
珠江口外近海沉积有机质化学及稳定同位素组成的早期成岩改变 总被引:2,自引:1,他引:1
理解早期成岩过程中有机质的化学和同位素分馏对于研究海洋和湖泊环境中的生物地球化学过程是很重要的。将珠江口外近海生物成因有机质分为可水解氨基酸、碳水化合物、脂类和酸不溶四个部分,分析了有机质的化学和同位素组成(δ13C,δ15N),借以讨论沉积有机质在埋藏的早期成岩过程中所发生的化学和同位素改变,结果表明,从浮游生物→悬浮颗粒物→表层沉积物→沉积柱内部,易降解组分可水解氨基酸、碳水化合物、脂类占样品总有机碳的份额依次降低。沉积物及四个有机部分的稳定碳同位素组成在纵向上随深度保持相对恒定,而在不同有机部分之间差异明显。不同类型有机物的分解速率差异在改变有机质化学成分的同时,导致其δ13C发生小幅度负向漂移;细菌有机质的形成和分解对有机质化学成分和同位素组成演化也有重要贡献,并且在一定程度上抵消了上述δ13C的负向漂移,其结果导致沉积有机质的δ13C略低于浮游生物;另一方面,由于异养菌生长过程中的氮同位素分馏系数与可利用氮源的特征和培养基的性质等多种因素有关,导致沉积物的δ15N变化范围增大。在这里δ13C可以可靠地指示该海域沉积有机质的来源,而δ15N变化范围较大且规律不明显,难以用作沉积有机质来源的指示。 相似文献
3.
《Estuarine, Coastal and Shelf Science》2006,66(1-2):267-279
The composition and behavior of allochthonous particulate organic matter (POM) in the northern part of Ise Bay, Japan were investigated to elucidate the short-term variation in POM accompanying changes in river discharge. The behavior of POM was significantly regulated by hydrographic conditions, but behavior was different in the upper layer versus the middle and lower layers. The former showed simple dynamics controlled by the river plume, while the latter showed complex dynamics because of changes in river discharge and subsequent variation in estuarine circulation. During normal discharge, the contribution of riverine materials to POC in the surface water within the bay was negligible because most riverine organic matter is deposited before flowing into the bay. During high discharge, on the other hand, the contribution of riverine organic matter to total POM increased to 50% at ∼10 km from the river mouth. Though riverine organic matter loads increased, the total amount of POC decreased around the river mouth due to flushing of phytoplankton. After river discharge, the contribution decreased rapidly.The behavior of POM in the middle and lower layers differed from that in the surface layer. At normal discharge, the influence of riverine organic matter was weak. During high discharge, high flooding temporarily weakened the bottom inflow, resulting in heavier riverine organic matter distributed from the river mouth to mid regions within the bay in the lower layer. The maximum contribution of riverine organic matter to total POM was estimated to be ∼60% around 25 km from the river mouth. After high discharge, riverine POM in the lower layer was pushed to the bay head by enhanced estuarine circulation and was uplifted to the middle layer. The behavior of riverine POM dynamically changed in relation to river discharge, and exerted a significant influence on bottom water conditions in the bay. 相似文献
4.
By analyses of carbon isotopic composition(δ13C values) of the benthos collected in the Laoshan Bay in August 1993 and February and May 1994, it is found that the main food sources of the benthos can be divided into four groups in terms of carbon isotope composition: Particulate Organic Matter (POM),benthic diatoms, benthic macroalgae and the organic matter in sediments.The results show that the carbon isotopic composition of the benthic animals has a close relation with that of the food they take in.The carbon isotopic compositions of benthos may be useful in elucidating their food sources.The carbon isotopic data have confirmed that POM is the main food source of the benthic filter feeders such as bivalves; crustaceans have a wide range of δ13C values, showing their food source has diversity; benthic diatoms are an important fraction of the food for most of gastropods.A preliminary investigation of the benthic-pelagic coupling in that region using the stable carbon isotopic tracers has confirmed the importance of POM as a food source for benthos in this region,but the organic matter in sediments and benthic diatoms are also relatively important for a lot of benthic animals.The benthic-pelagic coupling in the Laoshan Bay temperate ecosystem is not so tight as that in ecosystems at higher latitudes such as north-eastern water polynya. 相似文献
5.
筼筜湖绿潮期间颗粒有机物及沉积有机物的来源研究 总被引:2,自引:2,他引:2
以原子碳氮比Cat/Nat、TOC/Chl a、δ13C和δ15N等为指标,分析了筼筜湖绿潮爆发期间悬浮颗粒有机物(POM)和沉积有机物(SOM)的来源。结果显示,筼筜湖的POM主要以外源输入为主。在靠近海水入口的引水渠,POM主要来自厦门西海域的陆源有机碎屑;位于筼筜湖上游的干渠,生活污水及餐饮业废水的有机质是其POM的主要贡献者;内、外湖POM的Cat/Nat(6.94~7.08)与浮游植物接近,但它们并不以浮游植物为主,而主要来自引水渠和干渠有机质的输入。以内湖为例,它们对内湖POM的联合贡献高达54%~97%。筼筜湖SOM的潜在来源多样,但不同湖区差异显著:在大型海藻覆盖区,主要以大型海藻和POM为主,而在无海藻覆盖的区域,则主要来自POM的自然沉降或与底栖微藻的联合贡献。结果表明,在来源复杂的潟湖系统,有机物的化学组成并不能很好的指示有机物的来源和成因,它在有机质的示踪方面并不如稳定同位素来得有效可靠。不过,基于多种指标的分析结果可能更准确。 相似文献
6.
Laura Lorenzoni Robert C Thunell Claudia R. Benitez-Nelson David Hollander Nahysa Martinez Eric Tappa Ramón Varela Yrene Astor Frank E. Muller-Karger 《Deep Sea Research Part I: Oceanographic Research Papers》2009,56(12):2249-2262
Optical transmissometer measurements were coupled with particulate organic matter (POM) observations to understand suspended sediment composition and distribution in the eastern Cariaco Basin during the rainy seasons of September 2003 and 2006. Our results suggest that nepheloid layers originating at the mouth of small mountainous rivers discharging into the eastern Basin are a major delivery mechanism of terrigenous sediments to the Basin interior. Intermediate nepheloid layers (INL) were observed near the shelf break (~100 m) and appear to effectively transport terrigenous material laterally from the shelf to deep waters, thereby providing a plausible supply mechanism of the terrestrial material observed in sediment traps. These findings highlight the importance of small, local rivers in the Cariaco Basin as sources of terrestrial material. In contrast, these nepheloid layers contained only limited POM. When this information is combined with published sediment trap POM data, it suggests that nepheloid layers may not be a primary mechanism for delivering terrigenous POM to the deeper waters of the basin during the rainy season. Rather, BNL may redistribute marine-derived POM from shallow waters to the Basin's interior by providing ballast materials, particularly during episodic events driven by wind and precipitation. Though we have determined that nepheloid layers play an important role in the seaward transport of particulate material in the Cariaco Basin, their composition and temporal variability have not been fully characterized. This is critical to understand lateral particle transport, since nepheloid layers constitute a significant source of sediment to the deep Cariaco Basin. 相似文献
7.
本文阐述了生物海洋学的内容及其研究状况。根据我国沿海特点,建议我国今后对生物海洋学研究的重点是:1.对不同水域初级生产力的研究。2.对沿海小型底栖生物在海洋生态系统能流和物质循环中的作用研究。3.河口,有代表性海域可溶性有机物(DOM)、颗粒有机物(POM)的来源、数量分布、化学组成,以及在海洋食物链的作用和鱼虾产卵场变动关系的研究。4.沿海养殖环境生原要素循环、环境容量及病害发生的环境研究。5.海洋生物对重要有机污染物和海藻毒素的吸收、富集、代谢、在食物链传递,以及生态影响和生态监测研究。6.沿海植物性碎屑向近海输运,及其在食物链中的作用研究。7.浮游生物的群集、支配群集因素,以及和渔业关系的研究。8.选择代表性海域开展物质通量的研究。 相似文献
8.
崂山湾潮间带食物网结构的碳稳定同位素初步研究 总被引:14,自引:3,他引:14
通过对1993年8月和1994年2和5月在崂山湾潮间带采集的底栖生物碳稳定同位素组成(δ13C值)的分析,发现该区底栖动物的主要食物来源以δ13C值大致可划分为4类:水体中的颗粒有机质(POM)、底栖硅藻、大型底栖藻类和底泥中的有机物质(SOM).研究结果表明,底栖动物的碳稳定同位素组成与其所摄食的食物的碳稳定同位素组成有密切的关系,因此,底栖动物的碳稳定同位素组成可以用于研究其食物来源.碳稳定同位素数据证实,双壳类等滤食性动物的食物来源主要是POM;甲壳动物的δ13C值的范围较大,证明其食物来源的多样性;底栖硅藻是多数腹足类食物来源的相当重要组成部分.用碳稳定同位素示踪剂对该区底栖-水体耦合作用的初步研究表明,水体中的POM是底栖动物的重要食物来源,但底泥中有机质和底栖硅藻也是许多底栖动物食物来源的相当重要的组成部分. 相似文献
9.
In order to understand and quantify the way in which organic matter is transported from the atmosphere to the oceans it is important to know not only the various mechanisms by which the material is transferred between the two phases, but also the role of natural organic material at the air—sea interface in modifying such transport. In order to predict the latter it is necessary to have some knowledge of the organic chemistry and physico-chemical properties of material at the sea surface. Its organic chemistry is presently the subject of considerable controversy, although surface pressure measurements and force-area data for sea surface material, together with its very mixed chemical nature, strongly suggest that over most of the oceans it cannot form a coherent film.Transfer of organic material across the air—sea interface can be by either wet (liquid) or dry (gas and solid) deposition. The flux carried by each path can be characterised by the product of the rate of transfer of the substance concerned and its concentration in the transporting phase. Any modifying effect of material at the sea surface will vary depending on the mode of transfer, as well as the properties of the interfacial material. Application of these ideas is illustrated by calculation of atmosphere—ocean fluxes for total organic carbon, CCI4, CCI3F, PCBs and DDT. 相似文献
10.
Anja Engel Lynn Abramson Jennifer Szlosek Zhanfei Liu Gillian Stewart David Hirschberg Cindy Lee 《Deep Sea Research Part II: Topical Studies in Oceanography》2009,56(18):1408-1419
The quantitative relationship between organic carbon and mineral contents of particles sinking below 1800 m in the ocean indicates that organisms with mineral shells such as coccolithophores are of special importance for transporting carbon into the deep sea. Several hypotheses about the mechanism behind this relationship between minerals and organic matter have been raised, such as mineral protection of organic matter or enhanced sinking rates through ballast addition. We examined organic matter decomposition of calcifying and non-calcifying Emiliania huxleyi cultures in an experiment that allowed aggregation and settling in rotating tanks. Biogenic components such as particulate carbon, particulate nitrogen, particulate volume, pigments, transparent exopolymer particles (TEP), and particulate amino acids in suspended particles and aggregates were followed over a period of 30 d. The overall pattern of decrease in organic matter, the amount of recalcitrant organic matter left after 30 d, and the compositional changes within particulate organic matter indicated that cells without a shell are more subject to loss than calcified cells. It is suggested that biogenic calcite helps in the preservation of particulate organic matter (POM) by offering structural support for organic molecules. Over the course of the experiment, half the particulate organic carbon in both calcifying and non-calcifying cultures was partitioned into aggregates and remained so until the end of the experiment. The partial protection of particulate organic matter from solubilization by biominerals and by aggregation that was observed in our experiment may help explain the robustness of the relationship between organic and mineral matter fluxes in the deep ocean. 相似文献
11.
《Deep Sea Research Part I: Oceanographic Research Papers》2005,52(10):1865-1884
Particulate combined amino acids (PCAA) are the most abundant identified constituents of particulate organic matter (POM) in Pacific Ocean surface waters, but their chemical forms are unclear. In the present study, chemical characterization of amino acid-containing materials in surface POM from subarctic to subtropical waters along 165 °E in the Pacific was carried out by one- and two-dimensional gel electrophoresis. At least four chemical forms of amino acid-containing POM were distinguished: proteins, acidic materials containing peptides, protein/peptide-specific dye-stainable low-molecular-mass materials (stainable materials) and non-stainable materials, all of which were considered to be major components of detrital POM. Seventeen distinct protein containing components were distinguished in samples across the transect. A majority of stainable materials was estimated to comprise 6–8 amino acid residues, while less than six amino acid residues made up the non-stainable materials. Among the four chemical forms, acidic materials and non-stainable materials were major components, accounting for 31–42% and 49–63% of PCAA, respectively, along the transect. Proteins were common, but they were quantitatively less than 2% of PCAA. Stainable materials were regionally variable and more abundant in subarctic waters than in subtropical waters. The mechanistic processes by which such amino acid-containing POM occurs as detrital POM are discussed. 相似文献
12.
The inner part of Isahaya Bay was converted to a freshwater reservoir following the closure of the land claim dike in 1997. Turbid water drains into Isahaya Bay when water levels increase. We investigated whether particulate organic matter (POM) from the reservoir in Isahaya Bay has caused bottom organic enrichment in the northern part of Ariake Bay. Using potential end-members from before to after the rainy seasons, during which a frequent discharge from the reservoir was expected, stable isotope analyses were performed on sediments collected from Isahaya Bay and northern Ariake Bay. Each end-member was isotopically differentiated by δ13C and δ15N (riverine POM: ?28.5 to ?27.2‰ and 3.3–4.6‰; reservoir POM: ?25.7 to ?25.3‰ and 7.4–8.4‰; marine POM: ?21.8 to ?19.7‰ and 6.7–7.6‰; microphytobenthos estimated from consumers: ?16.1 to ?15.9‰ and 5.2–6.1‰, respectively). Sediment isotopic signatures fell within the mixing space defined by the signatures of the end-members. Marine POM contributed greatly to bottom sediments in both seasons in Isahaya Bay and Ariake Bay, ranging from ca. 60–70 and 40–60%, respectively. Reservoir POM contributed around 10% to bottom sediments. This percentage slightly increased in the sediment of Isahaya Bay after the rainy season, but decreased in the sediment of Ariake Bay. Thus, most of the POM discharged from the reservoir would not reach the northern part of Ariake Bay and would not be a major contributor to organic enrichment. This study is the first to quantitatively describe the contribution of drained reservoir POM outside Isahaya Bay. 相似文献
13.
Susmita Sharma 《Marine Georesources & Geotechnology》2013,31(5):447-465
Sediments are the particulate matter that are transported by the flow of water and eventually get deposited at the bottom of water bodies, such as oceans, rivers, lagoons, and so forth. The deposition of these materials due to continued intervention of natural as well as anthropogenic activities is a serious concern as the storage capacity (or health) of the system is reduced or otherwise affected. Keeping in view the emerging challenges associated with proper disposal and subsequent utilization of sediments, as a manmade resource, their extraction from such locations becomes necessary. Hence, it is essential to characterize the sediments in order to devise strategies to exploit them as a manmade resource in the best possible manner. With this in view, this article highlights the importance of different attributes and aspects of the sediments (viz., physical, chemical, morphological, geotechnical, toxicological, and microbial characteristics) deposited in the water bodies that will help in assessing their potential as a substitute material to natural resources. 相似文献
14.
The dissolved organic matter in seawater is grouped into two fractions which are defined as having greatly differing reactivities with respect to both chemical and biological decomposition. One fraction, which constitutes the bulk of the material, is extremely stable and inert and is only slowly degraded by either chemical or biological processes. The other fraction, which is composed of trace organic compounds derived from living organisms, contains components such as free amino acids which are rapidly degraded, probably by marine organisms which use these compounds as a food source. Conclusions about the cycle of organic compounds in seawater based on total organic carbon concentrations could thus be misleading, since pathways involving labile trace organic constituents would be completely obscured. Investigations of the distribution, concentration, and possible diagenetic reactions of specific organic compounds are necessary in order to elucidate the cycle of these compounds in the oceans. 相似文献
15.
Abstract. The changes in the concentrations of silicate, phosphate, and inorganic nitrogen in Eiefsis Bay. an intermittently anoxic basin, arc described and related to the changes in the physical properties of the water. Winter convection resulted in a very small vertical gradient of temperature, salinity, oxygen, and nutrients. Stratification started to develop in May and persisted for about 6 months. High values of silicate, phosphate, and ammonia occurred during the anoxic conditions prevailing in summer. The vertical transport of particulate organic matter and decomposition of abundant pelagic and benthic organic matter during the summer produced a low oxygen level in the bottom layer below the pycnoclinc. A high sea water temperature and vertical stability contributed to the development of anoxic conditions during the summer in the near bottom layer and to mass mortality of benthic macrofauna. Also the Eiefsis Bay anoxia appears to have had significant ecological effects on many other marine species, including several of economic importance. 相似文献
16.
Experiments were conducted using seawater from the Oregon continental shelf to determine: (1) rates of phytoplankton-derived particulate organic matter (POM) and dissolved organic matter (DOM) degradation by natural microbial communities, and (2) whether inorganic nutrients or flagellate grazing limit the bacterial response to, and subsequent degradation of, the DOM. In the initial seawater samples, nutrients were depleted and organic matter concentrations were elevated above concentrations found in upwelled water, indicative of recent bloom conditions. In whole water treatments incubated for 3 d, an average of 24% of the total organic C and 33% of the POC was degraded, with some portion of the POC being converted to DOC. In treatments incubated after POM was removed by filtration, DOC degradation was initially rapid and then proceeded at a slower rate. After 3 d, an average of 41% of the DOC was degraded. Selective degradation of the C-component of both the POM and DOM relative to the N-component was observed. Reductions in flagellate grazing resulted in increases in bacterial abundance and enhanced DOC degradation, while inorganic nutrient amendments had little effect. Overall, these results suggest that a fraction of the phytoplankton-derived POM and DOM can be rapidly degraded, contributing to oxygen consumption on the continental shelf. The long degradation time of a less labile DOC fraction relative to potential offshelf transport mechanisms suggests that Oregon's coastal waters may be a source of DOC to adjacent offshore waters of the North Pacific. 相似文献
17.
Tracing suspended organic nitrogen from the Yangtze River catchment into the East China Sea 总被引:2,自引:0,他引:2
Ying Wu Thorsten Dittmar Kai-Uwe Ludwichowski Gerhard Kattner Jing Zhang Zhuo Y. Zhu Boris P. Koch 《Marine Chemistry》2007
Total suspended matter was collected along the Yangtze River (Changjiang) and in the East China Sea in April to May and in September 2003, respectively, to study origin and fate of particulate organic nitrogen. Concentrations of particulate organic carbon (POC), nitrogen (PN) and hydrolyzable particulate amino acids (PAA; d- and l-enantiomers) were higher in the Yangtze Estuary than in the river and decreased offshore towards the shelf edge. In the coastal area, higher values of PAA were observed in the surface layer than in the bottom water. Stable carbon isotope ratios (δ13C) of POC increased from − 24.4‰ in the river to values around − 21‰ on the East China Sea Shelf. Dominant amino acids were aspartic acid + aspartine (Asx), glutamic acid + glutamine (Glx), glycine, alanine and serine. The proportions of Asx, Glx and isoleucine were higher in the marine than in the riverine samples contrary to the distributions of glycine, alanine, threonine and arginine. The proportions of d-amino acids were highest in the riverine suspended organic matter (6% of PAA) decreasing towards the shelf edge (1.5% of PAA). d-arginine, not reported in natural aquatic samples so far, was the most abundant d-amino acid in the river. The amino acid composition of the particulate organic matter (POM) in the Yangtze River indicates an advanced stage of degradation of POM. Highly degraded organic matter from soils is probably a main source of POM in the Yangtze River, but the relatively high δ13C values and low C/N ratios (7.7 ± 1.6) also indicate contribution from anthropogenic sources. The degraded riverine material was a dominant organic matter source in the estuary, where aquatic primary production had only a small overall contribution. In the East China Sea, gradual settling of riverine organic matter and the addition of fresher phytoplankton impacted the amino acid composition and δ13C values, and on the outer shelf relatively fresh phytoplankton-derived organic matter dominated. 相似文献
18.
《Marine Chemistry》2001,73(3-4):253-271
The influence of mangrove-fringed tropical estuaries on coastal carbon budgets has been widely recognised. However, a quantitative differentiation between riverine and mangrove-derived inputs to the dissolved (DOM) and microparticulate organic matter (POM) pool of these environments has been hitherto not possible. Based on lignin-derived phenols and stable carbon isotopes a chemical signature for mangrove, terrestrial and marine-derived organic matter was established for a mangrove estuary in North Brazil. A mixing model was applied to calculate the contribution of each of the three sources to the DOM and POM pool in the estuary throughout 18 tidal cycles in the course of one year. Best source assignment for POM was reached with the yield of lignin phenols and δ13C as paired indicators, while the origin of DOM was best identified by the yield of lignin phenols and the acid to aldehyde ratio of vanillyl phenols. Although only about 6% of the fluvial catchment area is covered by mangroves, their contribution to the estuarine DOM and POM pool generally exceeded several times the terrigenic input from the hinterland. This outwelling of mangrove-derived organic matter was enhanced during the rainy season. DOM and POM were exported from the mangrove to the estuary in similar proportions. Most mangrove-POM was rapidly removed from the water column, while mangrove-DOM behaved conservatively. In contrast, terrestrial DOM was almost entirely removed in the outer part of the estuary, which was accompanied by a concomitant increase in terrestrial POM. This seems to be the result of a geochemical barrier zone for this type of DOM in the estuary. Generally, a high proportion of mangrove-DOM was present in the outer part of the estuary, even at high tide. This indicates DOM outwelling from mangroves in adjacent bays or estuaries and points to similar driving forces controlling this process on a regional scale. Mangroves probably play a more important role than rivers for marine carbon budgets along the North Brazilian coast south of the Amazon estuary. 相似文献
19.
Results are presented for two studies concerned with the sources, transport and transformation mechanisms of two classes of organic compounds. An emphasis is placed on the importance of collecting and correlating related chemical and oceanographic data with the qualitative and quantitative organic compound analyses. The first study involves the analysis of seawater samples for a class of relatively labile, biogenic compounds, the sterols. From the vertical profiles of the sterols, along with hydrographic, particulate organic carbon, and total particulate matter data, an attempt is made to understand sterol distributions in the ocean and the transport mechanisms governing their movement into the deep sea. The second study involves the analysis of Sargasso Sea water samples for a class of more resistant, transformed biogenic compounds, humic and fulvic acids. Their isolation, structural elucidation, mechanism of formation and fate are discussed. 相似文献
20.
新学科的诞生是社会发展的需要,人类社会发展到今天,由于人类面临的资源与环境问题,使占全球面积71%的海洋成为21世纪开发的重点领域。然而,各成体系的海洋化学、海洋生物、海洋地质和海洋水文,已难以适应认识和解决当前面临的全球变化问题的需要。80年代初,随着国际地圈生物圈计划(IGBP)、全球海洋通量联合研究(JGOFS)、全球海洋生态系统动力学(GLOBEC)、全球海洋真光层研究(GOEZS)、海岸带陆海相互作用(LOICZ)等重大国际合作计划的兴起,处于这些学科交叉点上的海洋生物地球化学这新的分支学科应运而生,至90年代,这一边缘交又研究方向已成为海洋学研究的前沿领域。
我国的海洋生物地球化学研究虽起步较晚,但已取得飞速发展。至今,已开展实施了渤海生态系统动力学、东海海洋通量、台湾海峡生源要素生物地球化学过程、南海碳通量、南沙群岛珊瑚礁生态系物质循环等一系列重点项目的研究,强有力地推动了这一边缘交叉学科的发展。
海洋生物地球化学是利用化学、地质、生物、物理的观点综合研究海洋中物质循环的过程与规律,突出的特点是研究生物作用下的地球化学过程,研究的主要对象是生源要素(C,N,P,S,Si等)及与生物过程有关的其他元素。
本文从真光层内生源要素的循环、海水中颗粒物的生物地球化学过程、沉积物-海水界面过程中的生源要素,以及微型生物在生源要素的海洋生物地球化学循环中的作用等方面阐述了生源要素的海洋生物地球化学过程研究进展,以期推进我国该领域研究水平的提高。 相似文献