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微型异养鞭毛虫摄食选择性的研究进展 被引量:2

Progress in the study of the selective feeding of heterotrophic nanoflagellate
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摘要 微型异养鞭毛虫(HNF)是海洋微微型浮游生物的重要摄食者,通过摄食作用对后者的种类(或类群)组成、粒径分布、数量结构和营养价值等属性具有重要的影响,而这与HNF的摄食选择性有直接关系。对HNF摄食选择性的研究有助于深入了解HNF在海洋微食物环乃至整个海洋生态系统中的作用。就国际上已开展的HNF摄食选择性相关研究进行了回顾,分析和总结了影响HNF选择性摄食的关键因素,如食物大小、游动性、营养价值及食物细胞表面的生化结构特征等,并重点介绍了HNF摄食选择性形成的主要机制以及HNF的选择性摄食在调节海洋微微型浮游生物群落结构中的作用。 Heterotrophic nanoflagellate (abbr. , HNF) is the principal consumer of pieoplankton in marine ecosysterr. Recognizing its selective feeding impact is essential to evaluate the role of HNF in the marine microbial food web. Over the last few decades, there has been a concerted effort by many researchers to the understanding of selective grazing behaviors among HNF. This paper, (1) summarize current knowledge on factors affecting HNF selective feeding; (2) discuss mechanisms involved in HNF selective feeding; (3) review the influence of HNF selective feeding on the shape, size structure, taxonomic composition and physiological status of picoplankton communities.
作者 黄凌风 林施泉 熊源 陆家昌 吴林南
机构地区 厦门大学海洋与环境学院 福建省海陆界面生态环境重点实验室
出处 《海洋学报》 CAS CSCD 北大核心 2013年第2期1-8,共8页
基金 国家973计划项目课题(No.2011CB409804) 国家自然科学基金项目(No.40876078)
关键词 微型异养鞭毛虫 微微型浮游生物 异养细菌 摄食选择性 heterotrophic nanoflagellate picoplankton heterotrophic bacteria selective feeding
分类号 Q945.11 [生物学—植物学]
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参考文献69

  • 1黄凌风,郭丰,唐启升,等.微食物环及其在能流,物流过程中的作用[C].唐启升,苏纪兰.中国海洋生态系统动力学研究:关键科学问题与研究发展战略.北京:科学出版社,2000:645.
  • 2黄凌风,潘科,郭丰,欧林坚,林施泉.异养性海洋鞭毛虫摄食生态学研究进展[J].海洋科学,2006,30(4):78-82. 被引量:8
  • 3Montagnes D J S, Barbosa A B, t3oenigk J, et al. Selective feeding behaviour of key free-living protists: avenues for cominued study[J]. Aquat Microb Ecol, 2008, 53(1): 83--98.
  • 4Christaki U, Vfizquez-Dominguez E, Courties C, et al. Grazing impact of different heterotrophie nanoflagellates on eukaryotic (Ostreococcus tauri) and prokaryotic picoautotrophs (Prochlorococcus and Synechococcus)[J]. Environ Mierobiol, 2005, 7(8): 1200--1210.
  • 5Zwirglmaier K, Spence E, Zubkov M V, et al. Differential grazing of two heterotrophic nanoflageUates on marine Synechococcus strains[J]. Envi- ron Microbiol, 2009, 11(7) : 1767--1776.
  • 6Sherr E B,Sherr B F. Significance of predation by protists in aquatic microbial food webs[J], Antonie van Leeuwenhoek, 2002,81: 293—308.
  • 7Martin-Cereceda M,Williams RAJ,Novarino G. Easy visualization of the protist O.ryrrhis marina grazing on a live fluorescently labelled hetero-trophic nanoflagellate[J]. Curr Microbiol,2008,57(1) : 45—50.
  • 8Sleigh M A. Trophic strategies[M]//Leadbeater BSC, Green J C. The Flagellates : Unity, Diversity and Evolution. London: Taylor Francis,2000: 147—165.
  • 9Marchant H J, Scott F J. Uptake of sub-micrometre particles and dissolved organic material by Antarctic choanoflagellates[J]. Mar Ecol Prog Ser,1993, 92: 59—59.
  • 10Boenigk J, Arndt H. Bacterivory by heterotrophic flagellates: community structure and feeding strategies[J]. Antonie van Leeuwenhoek, 2002,81: 465—480.

二级参考文献47

  • 1Solic M, Krstulovic N. Bacterial carbon flux through the microbial loop in Kastela Bay (Adriatic Sea)[J].Ophelia, 1995, 41:345-360.
  • 2Van Wambeke F, Christaki U, Gaudy R. Carbon fluxes from the microbial food web to mesozooplankton. An approach in the surface layer of a pelagic area ( NW Mediterranean Sea) [J]. Oceanol Acta,1996, 19(1):57-66.
  • 3Vors N, Buck K R, Chavez F P, et al. Nanoplankton of the Equatorial Pacific with emphasis on the heterotrophic protists[J]. Deepsea Res, 1995, 42:2-3.
  • 4Caron D A, Goldman J C, Dennett M R. Effect of temperature on growth, respiration, and nutrient regeneration by an omnivorous microflagellate [J].Appl Environ Microbiol, 1986, 52:1 340-1 347.
  • 5Tamigneaux E, Mingelbier M, Klein B, et al. Grazing by protists and seasonal changes in the size structure of protozooplankton and phytoplankton in a temperate nearshore environment (western Gulf of St.Lawrence, Canada)[J]. Mar Eeol Prog Ser, 1997,146:231-247.
  • 6Froneman P, Oerissinotto R. Microzooplankton grazing in the Southern Ocean: Implication for the carboncycle[J]. Mar Eeol, 1996, 17:99-115.
  • 7Becquevort S. Nanoprotozooplankton in the Atlantic sector of the Southern Ocean during early spring: biomass and feeding activities[J]. Deep-Sea Res (Part2), 1997, 44:355-373.
  • 8Sherr E B, Sherr B F. Bacterivory and herbivory:Key roles of phagotrophic protests in pelagic food webs[J]. Mlcrob Eeol, 1994, 28:223-235.
  • 9Caron D A, Goldman J C. Nutrient regeneration by marine protozoa[A]. Capriulo G M. The ecology of marine protozoa[C]. New York: Oxford University Press, 1999. 283-306.
  • 10Tortell P D, Maldonado M T, Price N M. The role of heterotrophic bacteria in iron-limited ocean ecosystems[J]. Nature, 1996, 383:330-332.

共引文献7

同被引文献47

  • 1茆健强,周国勤,陈兵,杜宣.复合微生物制剂改善池塘水环境效果试验[J].水产养殖,2006,27(1):25-27. 被引量:16
  • 2黄凌风,潘科,郭丰,欧林坚,林施泉.异养性海洋鞭毛虫摄食生态学研究进展[J].海洋科学,2006,30(4):78-82. 被引量:8
  • 3Thomas D N, Dieckmann G S. Antarctic sea ice--a habitat for extremophiles[ J]. Science, 2002, 295 (5555) : 641---644.
  • 4Gradinger R. Sea-ice algae: Major contributors to primary production and algal biomass in the Chukchi and Beaufort Seas during May/June 2002 [J]. Deep Sea Research Part II: Topical Studies in Oceanography, 2009, 56(17) : 1201--1212.
  • 5National Snow and Ice Data Center. Arctic sea ice extent settles at record seasonal minimum[ EB/OL]. (2012-09-19), http ://nsidc. org/arcticsea- icenews/2012/09/arctic-sea-ice-extent-settles-at -record-seasonal-minimum/.
  • 6National Snow and Ice Data Center. Poles Apart: A record-breaking summer and winter EB/OL]. (2012-10-02). http://www, baidu, corn/link? url = 2 eZmcepAquaRNdmz9 I6 aTFGYhfKYSLTPxp8 Qlc 1 sV9-RzNdR3 xk -zO Ded9 pa0TmOS5 xTspDP91 QrftxyeKp7 hwZjpVH_6tQZPwZBZTpX-onvDH- mkSs2OZgszYtB_FVEjzRrW4sqmpTBp9pWhipylqK&wd = &eqid = cea63c0700003e3100000002565c03c6.
  • 7Stroeve J C, Holland M M, Meier W, et al. Arctic sea ice decline : Faster than forecast [J]. Geophysical Research Letters, 2007, 34 (9) : L09501 doi: 10. 1029/2007GL029703.
  • 8Gosselin M. Levasseur M, Wheeler P A, et al. New measurements of phytoplankton and ice algal production in the Arctic Ocean[J] search Part II: Topical Studies in Oceanography, 1997, 44(8) : 1623--1644.
  • 9Gradinger R, Friedrich C, Spindler M. Abundance, bionmss and composition of the sea ice biota of the Greenland Sea pack ice [ J] search Part II: Topical Studies in Oceanography, 1999, 46(6-7) : 1457--1472.
  • 10Deep Sea Re- Deep Sea Re- Werner I, Gradinger R. Under-ice amphipods in the Greenland Sea and Fram Strait (Arctic) : environmental controls and seasonal patterns below the pack ice[J]. Marine Biology, 2002, 140(2) : 317--326.

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海洋学报
2013年 第2期

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