Study on chemical forms of fluorine enrichment of Antarctic krill

I~IOWFluorine is one of fewer biogenic ndcroelernent, which has two thresholds. In certain extentcontent, fluorine plays an ~ant ace in constructing and growing normally for organisms. Incontrast, too high or too low content is not gabs for living being growing (Chen and Yu, 1988).In general, nuorine in seawater is known as one of conversation elements, and the average contentof nuorine of all world ocean seawater is 1. 3o rug/dln3(Chen et al., 1987).Under high fluorine seawat(lr environmen…     

南极磷虾对南极海水中痕量金属的富集率

本工作据1987年3月我国第三次南极考察采集的样品,测定了南极磷虾及其所在海域海水中Pb,Cu,Cd,Zn,Fe和Mn等痕量金属含量,计算出南极磷虾对各重金属的富集系数。     

南极磷虾年龄组成的体长频数分布混合分析

本文依据１９８９／１９９０和１９９０／１９９１两个南极夏季在普里兹湾以北海域所获的拖网样品，应用分布混合分析方法，研究大磷虾种群的年龄结构。结果表明，种群内最多可能包括６个年龄：发年幼体，１＾＋，２＾＋，３＾＋，４＾＋和＾５＋龄虾。     

南大洋磷虾富氟机制Ⅰ.氟的化学赋存形态研究

通过对南极大磷虾（Ｅｕｐｈａｕｓｉａ ｓｕｐｅｒｂａ）进行活体生长培养,对其不同部位及生长过程中不同阶段样品进行了氟的形态赋存分析,研究表明磷虾中９０％的氟集中在甲壳中,在其生长脱壳周期中,甲壳和肌肉中的氟含量呈相对应的周期性变化,在脱壳后最初新甲壳和肌肉中氟含量较低,通过生物主动吸收,海水中氟迅速被有效吸收和转化,而磷虾所吸收的氟最终又以存在于旧甲壳中随磷虾脱壳而丢失．在磷虾的生长周期中甲壳和肌肉中的不同化学形态氟赋存变化充分证明了这一点．最后提出了磷虾富氟机制的一个过程模式．     

南大洋磷虾富氟机制Ⅰ.氟的化学赋存形态研究

通过对南极大磷虾(Euphausia superba)进行活体生长培养,对其不同部位及生长过程中不同阶段样品进行了氟的形态赋存分析,研究表明磷虾中90%的氟集中在甲壳中,在其生长脱壳周期中,甲壳和肌肉中的氟含量呈相对应的周期性变化,在脱壳后最初新甲壳和肌肉中氟含量较低,通过生物主动吸收,海水中氟迅速被有效吸收和转化,而磷虾所吸收的氟最终又以存在于旧甲壳中随磷虾脱壳而丢失。在磷虾的生长周期中甲壳和肌肉中的不同化学形态氟赋存变化充分证明了这一点。最后提出了磷虾富氟机制的一个过程模式。     

分布混合分析的深入研究及其在南极磷虾种群结构中的应用

介绍分布混合分析的理论，并运用分布混合分析估计南极磷虾种群体长分布概率密度函数的参数，首次给出体长取样间有效性和方差ａ＾２下限的数学分析。概率密度函数式为Ｑ（ｘ）＝ｋ∑ｊ＝１ｐｊｑ（ｘ；ｕｊ，ｑｊ），式中ｘ是随机变量体长的取值；Ｋ是年龄组数；ｐｊ是第Ａｊ年龄组的强度；ｑ（ｘ；ｕｊ，ｑｊ）是均值为ｕｊ；方差为ａ＾２ｊ的正态分布。Ｐｊ，ｕｊ，δｊ，ｊ＝１，２，…，Ｋ是待估计的参数。求解这些参数的最大似     

基于稳定性同位素的普里兹湾南极大磷虾不同发育阶段食性转变分析

As one of the most common and dominant species in the Southern Ocean, Antarctic krill(Euphausia superba)play a significant role in food web structure and the process of energy flow. The diet of Antarctic krill in the Prydz Bay during austral summer of 2012/2013 was investigated and the ontogenetic shift in krill diet was evaluated using the stable isotope method. The nitrogen stable isotope values(δ~(15) N) of adults((2.78±0.58)‰) were much higher than those of juveniles((1.69±0.70)‰), whereas the carbon stable isotope values(δ~(13) C) of adults(–(28.26±1.08)‰) were slightly lower than those of juveniles(–(27.48±1.35)‰). Particulate organic matter(POM)from 0, 25, and 50 m depth combined(0/25/50 m) represented phytoplankton food items. The results showed that phytoplankton food items in surface water and mesozooplankton were two essential food items for Antarctic krill in the Prydz Bay during summer. POM(0/25/50 m) contributes 56%–69% and 26%–34% to the diet of juvenile and adult krill, respectively, whereas mesozooplankton composes 13%–34% and 58%–71% of the diet of juvenile and adult krill, respectively. Thus, an ontogenetic diet shift from POM(0/25/50 m), which consists mainly of phytoplankton, to a higher trophic level diet containing mesozooplankton, was detected. The capacity for adults to consume more zooplankton food items may minimize their food competition with juveniles, which rely mostly on phytoplankton food items. This suggests "diet shift with ontogeny" which may somehow help krill keep their dietary energy budget balanced and well adapted to the Antarctic marine ecosystem as a dominant species.     

Stakeholder perspectives on ecosystem-based management of the Antarctic krill fishery

Information about stakeholder aspirations is a fundamental requirement for ecosystem-based management, but the detail is often elusive, and debates may focus on simplistic opposing positions. This is exemplified by the Antarctic krill fishery, which, despite a current operational catch limit equivalent to just 1% of the estimated biomass and actual annual catches much lower than this, is the subject of a high-profile debate framed around ambiguous concepts such as sustainability. Q methodology was applied to explore the detailed views of representatives of three stakeholder sectors (the fishing industry, conservation-focused non-governmental organisations (NGOs), and scientists from seven countries involved in research on the krill-based ecosystem). The analysis distinguished two clear groupings, one of which included the views of all NGO participants while the other included the views of fishing industry participants and a subset of the scientists. Key differences between the groups included the priority given to different management measures, and to continued commercial fishing. However, the results also revealed considerable overlap between viewpoints. Both groups prioritised the maintenance of ecosystem health and recognised the importance of defining management objectives. Also, neither group prioritised a decrease in catch limits. This suggests that most participants in the study agree that management should improve but do not perceive a major problem in the ecosystem's ability to support current catch levels. Cooperation to identify shared management objectives based on stakeholder aspirations for the ecosystem might enhance progress, whereas polarised discussions about preferred management measures or ambiguous concepts are likely to impede progress.     

A Scenario of the Late-Pleistocene-Holocene Changes in the Distributional Range of Antarctic Krill (Euphausia superba)

Abstract. Oceanographic evidence along with the data on Euphausia superba distribution indicate that the reproductive range of this species is related to the southernmost core of the Antarctic Circumpolar Current (ACC), the Weddell Gyre, the Ross Gyre, and the systems of mesoscale eddies in the Bellingshausen Sea, in the Prydz Bay area. and the D'Urville Sea. During the Last Glaciation Maximum, at ca. 18 ka BP, both the Weddell and the Ross Gyres as well as near-coastal circulations probably lost their importance in the maintenance of Antarctic krill populations due to cooling of the water column and development of multi-year sea ice. Within the ACC at that time, some smaller-scale circulations related to islands and seamounts could have played a major role in controlling krill distribution. If, nevertheless. refugia for self-maintained krill populations remained in the near-coastal zone, particularly in the eastern Indian sector, geographical isolation might have caused divergence between the two species of the gregarine Cephaloidophora commonly infesting krill at present.     

冰藻对南大洋大西洋扇区南极磷虾越冬期间碳源的贡献

南极磷虾是南大洋生态系统的关键物种, 种群聚集在南大洋的大西洋扇区。海冰在南极磷虾生活史中起着重要作用, 海冰及其冰下环境为磷虾越冬提供了避难场所, 但海冰是否为磷虾越冬提供了重要的饵料存在一定的争议, 对此问题的解决需要量化源于海冰的冰藻对南极磷虾越冬期间饵料及碳源的贡献。基于2020年冬季(3~8月)于南大洋大西洋扇区48.1亚区(布兰斯菲尔德海峡周边区域)和48.3亚区(南乔治亚岛周边海域)采集的磷虾样品, 通过两种高支链类异戊二烯化合物(IPSO₂₅和HBI III)分别作为源于海冰的冰藻和源于水体浮游植物的生物标志物, 对两个区域冬季磷虾对冰藻和浮游植物的依赖进行研究。结果显示, 处于较高纬度、海冰密集度较高的48.1亚区的南极磷虾体内含有更高的IPSO₂₅, 而处于开阔水域48.3亚区的磷虾体内有更高比例的HBI III, 另外48.3亚区磷虾的δ¹³C和δ¹⁵N稳定同位素显著高于48.1亚区的磷虾。48.1亚区南极磷虾越冬期间对浮游植物和冰藻的依赖与体长相关, 其中体长相对较短的早期成体呈现更高的依赖性, 同时该区域磷虾对冰藻的摄食提高了其营养级地位。48.3区南极磷虾越冬期间两种类异戊二烯含量与δ¹⁵N稳定同位素数值呈负相关关系, 表明该区域南极磷虾在初级生产匮乏时会摄食动物性饵料。若未来南大洋大西洋扇区海冰持续减少, 这将对整个磷虾种群、磷虾渔业的可持续发展和区域生态系统的稳定性产生威胁。     

南极大磷虾粉对点带石斑鱼幼鱼氟蓄积的影响

为研究南极大磷虾(Euphausia superba)粉对点带石斑鱼幼鱼氟蓄积和生长的影响,作者通过饲养点带石斑鱼(Epinephelus malabaricus)幼鱼(初始体质量为(3.50±0.30)g,体长(5.5±0.3)cm)100 d,在基础日粮中添加0%(对照组)、2%、4%和6%的南极大磷虾粉制成4组饲料,饲料中氟质量分数分别为145.81、202.71、257.53和317.60 mg/kg。结果显示:南极大磷虾粉中的氟在点带石斑鱼幼鱼组织中的分布程度,以脊椎骨和鳃中为最高,氟质量分数分别为(58.020~114.380)mg/kg和(46.029~123.874)mg/kg,其次是皮(含鳞片)((44.127~88.761)mg/kg),再次是肝((7.654~18.248)mg/kg),而肌肉中氟蓄积最低((3.352~3.999)mg/kg);脊椎骨、皮(含鳞片)和鳃中氟含量随饲养时间的延续而产生蓄积,且与饲料中南极大磷虾粉的水平呈正相关,肝中氟含量随饲养时间延续而产生蓄积,但与南极大磷虾粉的水平无相关性,肌肉中氟含量与饲养时间和南极大磷虾粉水平均无相关性;100 d时,4%组和6%组的特定生长率处于最高水平,且显著高于对照组(P0.05)。本研究表明在饲料中添加4%~6%南极大磷虾粉,对点带石斑鱼幼鱼生长具有明显的促进作用。