Establishment of trophic continuum in the food web of the Yellow Sea and East China Sea ecosystem: Insight from carbon and nitrogen stable isotopes

Stable carbon and nitrogen isotope ratios (δ¹³C and δ¹⁵N) are used to study the trophic structure of food web in the Yellow Sea and East China Sea ecosystem. The trophic continuum of pelagic food web from phytoplankton to top preyer was elementarily established, and a trophic structure diagram in the Yellow Sea and East China Sea was outlined in combination with carbon isotopic data of benthic organisms, which is basically consistent with and makes some improvements on the simplified Yellow Sea food web and the trophic structure diagram drawn based on the biomass of main resource population during 1985–1986. This result indicates that the stable isotope method is a potential useful means for further studying the complete marine food web trophic continuum from viruses to top predators and food web stability.     

氨基酸在黄东海食物网关键种——鯷鱼（Engraulis japonicus）食物链中的传递

采用活体饵料对黄东海生态系统食物网关键种食物链的中下营养层次"浮游植物-中华哲水蚤(Calanus sinicus)-鯷鱼(Engraulis japonicus)"进行了室内模拟实验研究,以了解氨基酸在该食物链中的传递过程.通过76 d的培养实验,对采集样品做了14种氨基酸含量的定量分析.结果表明,在3个营养层次中中华哲水蚤起着十分关键的承上启下作用,它不仅将小球藻的植物性蛋白转化为动物性蛋白,大幅度地提高了赖氨酸的含量,而且将氨基酸总含量从小球藻的6.10%提高到24.16%.作为该食物网主要经济鱼类重要饵料的鯷鱼则进一步将氨基酸含量提高到27.06%.中华哲水蚤的氨基酸相对组成与小球藻有明显的相关性(r=0.606,p＜0.05),其中7种必需氨基酸的相关性相对较弱,而非必需氨基酸的相关性明显较强.鯷鱼的食性由合成饵料转变为活体中华哲水蚤时,其氨基酸量也随饵料的改变而有所变化,从与合成饵料相关转为与中华哲水蚤有更紧密的相关.鯷鱼排泄粪便中的氨基酸含量主要由新陈代谢的生理过程所决定.     

Use of stable carbon and nitrogen isotopes in insect trophic ecology

Insects are the most diverse organisms and often the most abundant animals in some ecosystems. Despite the importance of their functional roles and of the knowledge for conservation, the trophic ecology of many insect species is not fully understood. In this review, I present how stable carbon (C) and nitrogen (N) isotopes have been used to reveal the trophic ecology of insects over the last 30 years. The isotopic studies on insects have used differences in C isotope ratios between C₃ and C₄ plants, along vertical profiles of temperate and tropical forest stands, and between terrestrial and aquatic resources. These differences enable exploration of the relative importance of the food resources, as well as movement and dispersal of insects across habitats. The ¹³C‐enrichment (approximately 3‰) caused by saprotrophic fungi can allow the estimation of the importance of fungi in insect diets. Stable N isotopes have revealed food resource partitioning across diverse insect species above and belowground. Detritivorous insects often show a large trophic enrichment in ¹³C (up to 3‰) and ¹⁵N (up to 10‰) relative to the food substrates, soil organic matter. These values are greater than those commonly used for estimation of trophic level. This enrichment likely reflects the prevalence of soil microbial processes, such as fungal development and humification, influencing the isotopic signatures of diets in detritivores. Isotope analysis can become an essential tool in the exploration of insect trophic ecology in terms of biogeochemical C and N cycles, including trophic interactions, plant physiological and soil microbial processes.     

基于稳定同位素的湿地食物源判定和食物网构建研究进展

湿地生物营养动力学是湿地生态系统结构和功能评价研究的基础.碳、氮稳定同位素作为识别营养关系的方法,已在湿地生态系统食物来源、组成和食物链传递研究中得到广泛运用.本文系统综述了稳定同位素食物贡献度计算模型和营养级确定的基本方法和理论;讨论了动物营养分馏值和基线的选择依据;概括了湿地生态系统典型食物源及其稳定同位素变化特征;总结了草食、杂食和肉食等不同营养级动物的食物来源.指出了稳定同位素在湿地食物源溯源和食物网研究中的不足;基于国内外研究现状和发展趋势及需求,展望了未来同位素技术在湿地食物网生态学研究中的运用前景和研究重点,提出需要加强稳定同位素营养分馏和基线的影响因素、样品处理和保存方式研究以及胃含物、分子标记物和多元素同位素结合分析.     

应用稳定同位素技术构建胶州湾食物网的连续营养谱

根据2011年春季和秋季在胶州湾进行的渔业资源综合调查,应用稳定同位素示踪技术,分析了胶州湾主要渔业生物的碳、氮稳定同位素比值(δ13C,δ15N),并计算其营养级,进而构建胶州湾食物网的连续营养谱。分析的生物种类包括浮游植物、浮游动物、大型无脊椎动物和鱼类,其生物量之和占总渔获量的95%。结果表明,胶州湾食物网的δ13C值范围是-25.63‰—-17.16‰,跨度为8.47‰,平均值为(-19.42±1.80)‰;δ15N值范围是4.15‰—14.11‰,跨度为9.96‰,平均值为(11.98±1.77)‰。胶州湾食物网中的主要生物种类可以划分为4个营养组群,即初级生产者、初级消费者、次级消费者以及顶级捕食者。δ15N值分析显示,胶州湾主要生物种类的营养级范围是1.10—4.03。与文献中基于胃含物分析计算的营养级相比较,37个种类中有29种的营养级分析结果基本一致(在0.5个营养级的误差范围之内)。因此,氮稳定同位素法是一种研究水生生态系统食物网营养位置的有效方法。其中,有8种鱼类的营养级与历史文献相比有所下降,分析方法的不同可能是原因之一,此外,这些鱼种摄食饵料生物营养级的下降也是导致其营养级降低的另一个主要原因。根据营养级计算的结果,构建了胶州湾食物网的连续营养谱,胶州湾食物网中,绝大多数生物种类都属于初级和中级肉食性种类。     

黄、东海生态系统中鱼卵、仔稚幼鱼种类组成与数量分布

2000年秋季和2001年春季“北斗号”生物资源调查船利用大型浮游生物网采用表层水平拖网的调查方式对黄、东海鱼卵、仔稚幼鱼种类组成与数量分布进行了调查。秋季和春季分别设置66个(黄海26个,东海40个)和98个(黄海46个,东海52个)调查站。每站拖网10min,拖网速度为3.0nmile/h。调查结果表明:秋季和春季所采集到的鱼卵和仔稚幼鱼样品共62种以及鳗鲡目和飞鱼类两大类,鉴定到种的44种,隶属于9目33科40属;还有10种仅能鉴定到属,6种和飞鱼类仅能鉴定到科,1种和鳗鲡目一大类仅能鉴定到目以及1种不能识别。优势种为、鲐、带鱼、棱、黑鳃梅童鱼、绿鳍鱼以及多鳞、鼠、大泷六线鱼、细纹狮子鱼等。2000年秋季,从黄海和东海分别采集到16粒鱼卵、107尾仔稚幼鱼和495粒鱼卵、116尾仔稚幼鱼。鱼卵、仔稚幼鱼的出现频率分别为26.92%、38.46%和65.00%、40.46%,平均密度分别为0.6粒/站、3.6尾/站和12.4粒/站、2.8尾/站。2001年春季,从黄海和东海分别采集到3粒鱼卵、61尾稚幼鱼和17587粒鱼卵和1560尾仔稚幼鱼,鱼卵、仔稚幼鱼的出现频率分别为2.17%、39.13%和57.69%、48.08%,平均密度仅分别为0.07粒/站、1.3尾/站和338.2粒/站、30.0尾/站。秋季,黄海区的硬骨鱼类进入产卵末期,而东海区才刚刚进入产卵末期。春季,黄海区的硬骨鱼类刚刚进入产卵初期,而东海区已进入产卵盛期。此外,对秋季和春季鱼卵和仔稚幼鱼的数量分布以及鼠、、棱、多鳞、少鳞、黑鳃梅童鱼、小黄鱼、鲐、带鱼、绿鳍鱼、大泷六线鱼和细纹狮子鱼等优势种类的鱼卵和仔稚幼鱼数量分布进行了详尽的描述。2000年和2001年黄海区鱼卵、仔稚幼鱼的种类组成与1985年和1986年发生了明显的变化,这与黄海区渔业资源和鱼类群落结构的变化是相符合的。从而说明人类的长期捕捞活动对海洋生态系统中鱼类资源的种群交替和鱼类群落结构的变化产生了较大的影响     

东海和黄海主要鱼类的食物竞争

以2000年和2001年在东、黄海两次大面调查所收集的、占总生物量90%的重要生物种类中的鱼类为研究对象,通过分析胃含物获得各饵料成分的重量百分比,用Pianka(1973)提出的公式计算的饵料重叠系数分析了东、黄海主要鱼类之间的食物竞争状况,以了解食物竞争与种群变动和优势种交替之间的相互关系。结果表明:黄海主要鱼类的食物竞争对象主要为太平洋磷虾、脊腹褐虾和,东海主要鱼类的食物竞争对象主要为太平洋磷虾、细条天竺鱼、发光鲷、、七星底灯鱼和带鱼。东、黄海鱼类通过摄食种类、摄食食物大小、摄食时间和栖息地的分化来减少食物竞争,从而维持群落结构的动态平衡。渔业资源群落结构的变化将导致食物竞争状况发生改变;鱼类食物竞争状况也会影响种群动态,但要确定食物竞争程度还需进一步深入研究     

Fish assemblage structure in the East China Sea and southern Yellow Sea during autumn and spring

Based on bottom trawl surveys in autumn 2000 and spring 2001, the fish assemblage structure in the southern Yellow Sea and the continental shelf of the East China Sea was analysed. Four groups of fishes were identified for each season by the two-way indicator species analysis (TWIA). Although seasonal migration caused a slight difference in fish assemblages between autumn and spring, two major groups of fishes, corresponding to the Yellow Sea and East China Sea were identified. Inshore and offshore groups were subsequently separated. Changes in water depth may be most important in the separation of the groups in the offshore waters of the East China Sea. Temperature affected the groupings between north and south, particularly in the central part of the Yellow Sea. Here, the cold water mass affected the species composition which was low in diversity and different from the other areas.     

黄海和东海营养盐分布及其对浮游植物的限制

根据1997～1999年黄海和东海4个季节的现场调查资料,分析探讨了黄海、东海的营养盐分布特征及其对浮游植物生长的限制状况．结果表明,在长江口以东及其东北部海域终年存在一个范围很大的营养盐高值区．分析表明,这些营养盐主要来自长江冲淡水的扩展及苏北沿岸流的输送．此外,还获得了1998年长江流域特大洪水期间,迄今被观测到的长江冲淡水中营养盐的最大扩展范围,计算并研究了黄海、东海上层水中Si／N／P比值,结果表明,黄东海上层水中Si／N比值较高,Si不会成为黄东海浮游植物生长的限制因子;但在南黄海南部尤其是西南部、东海近岸及长江口以东海域,N／P比值很高(>30),说明与一般海洋环境的情况不同,黄海、东海有很大一部分海域浮游植物的生长受磷限制,而不是受氮限制．     

Biodiversity variability of macrobenthic in the Yellow Sea and East China Sea between 2001 and 2011

In this study, we compared the biodiversity and ecological status of macrobenthos between 2001 and 2011 in terms of species composition, dominant species, abundance, biomass, diversity, and secondary productivity of macrobenthos in the Yellow Sea and East China Sea. The results indicate that the species abundances, biomass, and diversity in spring 2011 were all lower than those in autumn 2000 and spring of 2001. Most of the dominant species have changed from 2001 to 2011, with the exception of the echinoderm Ophiura sarsii vadicola that was dominant in these years. Small-sized animal species have increased possibly due to gradual environment deterioration such as the pollution and the climate warmer.     

东黄海秋季浮游动物优势种聚集强度与鲐鲹渔场的关系

一、前言日本鲐鱼(Pneumatophorus japonicus)和蓝圆鲹(Decaterus maruadsi)是东黄海主要中上层鱼类资源。秋季鲐鲹鱼在黄海南部和东海北部(北纬32°00′—33°30′,东经124°00′—128°30′)以及东海中南部(北纬26°30′—29°00′,东经123°00′—126°00′)形成两个索饵渔场,前者简称为北部渔场,后者简称为南部渔场。为了开发和利用东黄海鲐鲹鱼索饵渔场资源,需要对两渔场鲐鲹鱼资源分布的特点进行研究。根据以往国内外的一些报道,鲐鲹鱼是一类以浮游动物为主食的鱼类,其分布特点往往同浮游动物的分布有密切关系。因此,本     

基于稳定同位素技术的海州湾海洋牧场食物网基础及营养结构的季节性变化

基于稳定同位素技术对2015年春季海州湾海洋牧场海域采集的中小型生物消费者,包括鱼类、虾类、蟹类、头足类、螺类和双壳类等与其潜在碳源样品进行分析,利用IsoSource模型计算该海域消费者碳源贡献率,并对2014年夏季生物学样品与2015年春季样品比较,分析食物网营养结构的季节性变化,根据稳定同位素测定结果绘制二维双标图,计算出6种营养结构的量化指标.结果表明: 2015年春季海州湾海洋牧场海域消费者的δ¹³C值范围为-18.9‰～-17.1‰,3种潜在碳源[浮游植物、悬浮颗粒有机物(POM)、沉积物(SOM)]的δ¹³C值范围为-18.1‰～-23.4‰,根据模型计算得出浮游植物对消费者的平均碳源贡献最大,为80.8%,其余依次为SOM和POM,分别为10.8%和8.4%.2014年夏季生物样品与2015年春季样品的δ¹³C值存在显著差异,而δ¹⁵N值无显著性差异;6种量化指标表明群落营养结构存在季节性差异, 2014年夏季的δ¹³C比值范围(CR)、总面积(TA)、平均最邻近距离(NND)和平均最邻近距离标准差(SDNND)均大于2015年春季,δ¹⁵N比值范围(NR)和平均离心距离(CD)无明显变化,夏季群落营养结构冗余度小于春季,且食源多样性水平高于春季,存在季节差异.     

东、黄海春秋季小型底栖生物丰度和生物量研究

《北斗号》调查船分别于 2 0 0 0年 10月和 2 0 0 1年 4月在 2 6°N至 36°N,12 0°E至 12 6°30′E东、黄海陆架浅水区调查中进行了小型底栖生物的取样。研究表明 ,两个航次 (秋季、春季 )小型底栖生物的平均丰度分别为 6 5 4 .2 5± 4 4 1.72 ind/10 cm2 和342 .0 0± 2 5 2 .0 0 ind/10 cm- 2 ,平均生物量分别为 80 7.0 6± 5 17.89μg dwt/10 cm2 和 2 85 .2 5± 173.72μg dwt/10 cm2 ;平均生产量分别为 72 6 3.5 8± 4 6 6 4 .18μg dwt/(10 cm2· a)和 2 5 6 7.2 8± 15 6 3.5 0 μg dwt/(10 m2· a)。两个航次小型生物的平面分布类似 ,即高密度和高生物量区分布在水深等深浅 5 0 m左右的站位上 ,特别是在长江口以南的浙江沿海。共鉴定出 14个小型生物类群 ,按丰度自由生活海洋线虫是最优势的类群 ,秋、春季两个航次的优势度分别为 87.2 %和 91.2 %。其他优势类群依次为底栖桡足类、多毛类和动吻类 ;按生物量优势依次为多毛类 38.1%～ 5 4 .0 % ,线虫 2 8.3%～ 38.1%和桡足类 9.0 %～ 9.4 %。垂直分布的研究表明 ,91%的小型生物分布在 0～ 5 cm的表层内 ,线虫和桡足类分布在 0～ 2 cm的比例分别为 6 3%和 86 %。相关分析表明 ,小型底栖生物的数量分布与粘土含量 (% )、粉砂粘土含量 (% )和中值粒     

春季和秋季东、黄海陆架区大型网采浮游动物群落划分

根据2000年秋季和2001年春季对黄、东海大面调查中浮游生物大网（孔径500μm）采集的浮游动物样品,运用多元分析方法对陆架区内的浮游动物组成、分布、群落进行了研究。结果表明,春、秋两季陆架区浮游动物均可划分为5个群落：i黄海沿岸群落;ii黄海中部群落;iii黄、东海交汇水混合群落;iv东海近岸混合水群落;v东海外陆架高温高盐群落。各群落的种类组成及地理分布存在一定的季节差异。     

南黄海、东海鲐鲹鱼索饵场浮游动物生态特征

本文采用比较的方法,研究了黄海南部东海北部和东海中南部两个鲐鲹鱼索饵场浮游动物生态特征。结果表明,南部渔场生物量的极差、变异系数小于北部渔场。若扣除个别站位的影响,则南部渔场的平均值高于北部渔场。北部渔场群落多样度、均匀度、丰富度、单纯度较高,南部渔场则相反。北部渔场浮游动物优势种较少,且大多数种具有较高的聚集强度;而南部渔场优势种较多,优势度低,聚集性差。     

Spatial, seasonal and species variations of harmful algal blooms in the South Yellow Sea and East China Sea

The occurrences of harmful algal blooms (HABs), in terms of frequency and area in the Chinese coastal waters, have been increasing since 1980s and caused considerable economic losses. In the present study, we have analyzed spatial and seasonal characteristics of HAB events in the southern Yellow Sea and East China Sea along Chinese coast from 1933 to 2004. With a total 435 HAB records, the most frequent HAB occurrence area (FHA) is off the Yangtze River mouth and another two FHA areas are located south of the Yangtze River estuary along about isobaths of 30–60 m coastal water in the East China Sea. The time of HAB occurrence shifted during our study period: from autumn (August–October) before 1980s to July–August in 1980s, during May–July in 1990s, and May–June for the period of 2000–2004. Causative species were found to be different: Noctiluca scintillans and Skeletonema costatum were dominant causative species prior to 2000; and Prorocentrum donghaiense Lu was dominant from 2000 to 2004 and also caused large blooms in May. Trichodesmium sp. caused many HABs in autumn (August–October) prior to 1980s with only one HAB between 1980 and 2004. The changes of the dominant HAB species may have affected the timings of HAB occurrence, as well as the increasing HAB-affected areas in recent years.     

Impact of Microzooplankton and Copepods on the Growth of Phytoplankton in the Yellow Sea and East China Sea

Dilution and copepod addition incubations were conducted in the Yellow Sea (June) and the East China Sea (September) in 2003. Microzooplankton grazing rates were in the range of 0.37–0.83 d⁻¹ in most of the experiments (except at Station A3). Correspondingly, 31–50% of the chlorophyll a (Chl a) stock and 81–179% of the Chl a production was grazed by microzooplankton. At the end of 24 h copepod addition incubations, Chl a concentrations were higher in the copepod-added bottles than in the control bottles. The Chl a growth rate in the bottles showed good linear relationship with added copepod abundance. The presence of copepods could enhance the Chl a growth at a rate (Z) of 0.03–0.25 (on average 0.0691) d⁻¹ ind⁻¹ l. This study, therefore parallels many others, which show that microzooplankton are the main grazers of primary production in the sea, whereas copepods appear to have little direct role in controlling phytoplankton.     

东、黄海典型站位底栖动物粒径谱研究

对东、黄海典型站位底栖动物粒径谱进行了首次研究 ,得出 Sheldon粒径谱呈典型的双峰模式 ,两个峰形分别对应着大型底栖动物和小型底栖动物的生物量分布。小型底栖动物峰值出现在粒级 6～ 10 ,大型底栖动物峰值在 13～ 14。两峰值之间的波谷位置在粒级 10～ 11,是大型、小型底栖动物的过渡带 ,生物量主要由大型动物的幼龄个体构成。E3站大型动物幼龄个体大量出现 ,使该站的过渡粒级上出现峰值 ,粒径谱呈单峰形。同时构建了正态化粒径谱 ,在此基础上对不同生态系统的比较进行了初步尝试。     

Exogenous carbon turnover within the soil food web strengthens soil carbon sequestration through microbial necromass accumulation

Exogenous carbon turnover within soil food web is important in determining the trade-offs between soil organic carbon (SOC) storage and carbon emission. However, it remains largely unknown how soil food web influences carbon sequestration through mediating the dual roles of microbes as decomposers and contributors, hindering our ability to develop policies for soil carbon management. Here, we conducted a ¹³C-labeled straw experiment to demonstrate how soil food web regulated the residing microbes to influence the soil carbon transformation and stabilization process after 11 years of no-tillage. Our work demonstrated that soil fauna, as a “temporary storage container,” indirectly influenced the SOC transformation processes and mediated the SOC sequestration through feeding on soil microbes. Soil biota communities acted as both drivers of and contributors to SOC cycling, with 32.0% of exogenous carbon being stabilizing in the form of microbial necromass as “new” carbon. Additionally, the proportion of mineral-associated organic carbon and particulate organic carbon showed that the “renewal effect” driven by the soil food web promoted the SOC to be more stable. Our study clearly illustrated that soil food web regulated the turnover of exogenous carbon inputs by and mediated soil carbon sequestration through microbial necromass accumulation.     

黄海生态系统高营养层次生物群落功能群及其主要种类

根据2000年秋季和2001年春季在黄海的两次大面调查,选取生物量占总生物量90%的生物种类为研究对象,分析了黄海生态系统以及3个生态区(冷水团海域、近岸水域和黄海南部水域)春秋两季高营养层次生物群落的功能群组成及其主要种类.结果表明,黄海生态系统高营养层次生物群落包括6个功能群.按生物量排序为:浮游生物食性功能群、底栖动物食性功能群、鱼食性功能群、虾食性功能群、广食性功能群和虾/鱼食性功能群,各功能群营养级范围分别为3.22～3.35、3.30～3.46、4.04～4.50、3.80～4.00、3.38～3.79和4.01.黄海生态系统的主要功能群为浮游生物食性功能群和底栖动物食性功能群,占总生物量的79.6%;主要种类包括13种:小黄鱼、鳀、细巧仿对虾、银鲳、细点圆趾蟹、带鱼、黑鳃梅童、黄鲫、龙头鱼、双斑蟳、细纹狮子鱼、三疣梭子蟹和凤鲚,约占总生物量的70.6%.从不同季节看,春季黄海不同生态区高营养层次的营养级接近,而秋季差别较大,这主要与生物繁殖和索饵群体组成及摄食习性相关.从不同生态区看,黄海冷水团海域高营养层次生物群落以浮游生物食性功能群为主,受季节变化的影响较小,其高营养层次的营养级接近.黄海近岸水域和黄海南部水域高营养层次生物群落功能群组成受季节的影响较大,秋季的营养级均高于春季的营养级.这表明黄海冷水团海域较近岸水域和南部水域稳定,是黄海的一个典型的生态区域.