EHUX PROJECT PUBLICATION LIST


Compiled by Roger Harris
Plymouth Marine Laboratory, Prospect Place, Plymouth PL1 3DH.

Introduction

This bibliography was compiled in December 1996 and represents the publications output from the European Community MAST project EHUX. This project included European partners from the UK (Plymouth, Southampton, Bristol, Swansea, Natural History Museum), Netherlands (Texel, Amsterdam, Leiden), Norway (Bergen, Oslo, Trondheim), Spain (Oviedo) and Germany (Bremerhaven). The project looked at many different aspects of cellular biology, ecology and biogeochemistry of Emiliania huxleyi, and these publications together represent some of the most important recent work on Emiliania huxleyi:


1) Westbroek, P., Brown, C.W., van Bleijswijk, J., Brownlee, C., Brummer, G.J., Conte, M., Egge, J., Fernandez, E., Jordan, R., Knappertsbusch, M., Stefels, J. Veldhuis, M., Wal, P. van der, and Young, J., 1993. A model system approach to biological climate forcing. The example of Emiliania huxleyi. Global and Planetary Change, 8, 27-46.

2) Nimer NA. and Merrett M.J., 1993. Calcification rate in Emiliania huxleyi Lohmann in response to light, nitrate and availability of inorganic carbon. New Phytologist, 123, 673-677.

3) Bratbak G, J.K. Egge & M. Heldal, 1993. Viral mortality of the marine alga Emiliania huxleyi (Haptophyceae) and termination of algal blooms. Marine Ecology Progress Series, 93, 39-48.

4) Medlin, L.K., Barker, G.L.A., Baumann, M., Hayes, P.K., Lange, M., 1994. Molecular biology and the systematics of the Prymnesiophytes. In: The Haptophyte algae (ed. J.C. Green and B.S.C. Leadbeater) Systematics Association Special Volume No.5., pp. 393-411, Oxford: Clarendon Press.

5) Westbroek, P., van Hinte, J.E., Brummer, G.J., Veldhuis, M., Brownlee, C., Green, J., Harris, R., and Riddervold Heimdal, B., 1994. Emiliania huxleyi as a key to biosphere-geosphere interactions. In: The Haptophyte algae (ed. J.C. Green and B.S.C. Leadbeater) Systematics Association Special Volume No.5., pp. 321-334, Oxford: Clarendon Press.

6) Conte M.H., J. K. Volkman and G. Eglinton, 1994. Lipid biomarkers of the Haptophyta. In: The Haptophyte algae (ed. J.C. Green and B.S.C. Leadbeater) Systematics Association Special Volume No.5., pp. 351-377, Oxford: Clarendon Press.

7) Smith, P. Westbroek and G.J. Brummer. Anti-calcification as a possible biological function. The example of Emiliania huxleyi. C.R. Ac. Sci., in press.

8) Harris, R.P., 1994. Zooplankton grazing on the coccolithophore Emiliania huxleyi and its role in inorganic carbon flux. Marine Biology, 119, 431-439.

9) Brownlee, C., Nimer, N., Dong, L.F. & Merrett, M.J., 1994. Cellular regulation during calcification in Emiliania huxleyi. In: The Haptophyte algae (ed. J.C. Green and B.S.C. Leadbeater) Systematics Association Special Volume No.5., pp. 133-148, Oxford: Clarendon Press.

10) Brownlee, C., Davies, M., Nimer, N., Dong L.F. & Merrett, M.J., 1995. Calcification, photosynthesis and intracellular regulation in Emiliania huxleyi. Proceedings of the VII International Biomineralization Symposium. Bulletin de l'Institut Oceanographique, Monaco, 14, 19-35.

11) Fernandez, E., Balch, W.M., Maranon, E. & P.M. Holligan, 1994. High rates of lipid biosynthesis in cultured mesocosm and coastal populations of the coccolithophore Emiliania huxleyi. Marine Ecological Progress Series, 114, 13-22.

12) Barker, G.L.A., J.C. Green, Hayes, P.K. & L.K. Medlin, 1994. Preliminary results using the RAPD analysis to screen bloom populations of Emiliania huxleyi (Haptophyta). Sarsia, 79, 301-306.

13) Aksnes D.L., K.B. Ulvestad, B.M. Balino, J. Berntsen, J.K. Egge & E. Svendsen, 1995. Ecological modelling in coastal waters towards predictive physical-chemical-biological simulation models. Ophelia, 41, 5-36.

14) Conte M. H., A. Thompson and G. Eglinton, 1994. Primary production of lipid biomarker compounds by Emiliania huxleyi: Results from an experimental mesocosm study in fjords of south-western Norway. Sarsia, 79, 319-332.

15) Egge J.K. & B.R. Heimdal, 1994. Blooms of phytoplankton including Emiliania huxleyi (Haptophyta): effects of nutrient supply in different N:P ratios. Sarsia, 79, 332-348.

16) Fagerbakke K.M., M. Heldal, S. Norland, B.R. Heimdal & H. Batvik, 1994. Emiliania huxleyi: chemical composition and size of coccoliths from enclosure experiments and a Norwegian fjord. Sarsia, 79, 349-355.

17) Kristiansen S., T. F. Thingstad, P. van der Wal, T. Farbrot & E. Skjoldal, 1994. An Emiliania huxleyi dominated subsurface bloom in Samnangerfjord, western Norway. Importance of hydrography and nutrients. Sarsia, 79, 357-368.

18) Paasche, E. & S. Brubak, 1994. Enhanced calcification in the coccolithophorid Emiliania huxleyi (Haptophyceae) under phosphorus limitation. Phycologia, 33, 324-330.

19) Young, J.R., 1994. Variation in Emiliania huxleyi coccolith morphology in samples from the Norwegian EHUX mesocosm experiment, 1992. Sarsia, 79, 417-425.

20) Bratbak G., M. Heldal & T. Thingstad 1993. Viruses and the microbial loop. Paradigms and paradoxes of the microbial loop. Oral presentation. A symposium in honour of Lawrence Pomeroy, University of Georgia.

21) Fernandez, E., Maranon, E., Harbour, D.S., Kristiansen, S. & Heimdal, B.R., 1994. Patterns of carbon and nitrogen uptake during blooms of Emiliania huxleyi in two Norwegian fjords. Marine Biology (submitted).

22) Conte, M.H., Thompson, T.T., Eglinton, G. & Green, J., 1995. Lipid biomarker diversity in the coccolithophorid Emiliania huxleyi (Prymnesiophyceae) and the related species Gephyrocapsa oceanica (Prymnesiophyceae). Journal of Phycology, 31, 272-282.

23) Fernandez, E., Fritz, J.J. & Balch, W.M., 1994. Growth-dependent chemical composition of the coccolithophorid Emiliania huxleyi in light-limited chemostats. Marine Ecology Progress Series (in press)

24) Aksnes, D.L., Egge, J.K., Rosland, R. & Heimdal, B.R., 1994. Representation of Emiliania huxleyi in phytoplankton simulation models. A first approach. Sarsia, 79, 291-300.

25) Bleijswijk, J. van, Kempers, R., van der Wal, P., Westbroek, P., Egge, J. & Lukk, T., 1994. Standing stocks of PIC, POC, PON and Emiliania huxleyi coccospheres and liths in sea-water enclosures with different phosphate loadings. Sarsia, 79, 307-318.

26) Heimdal, B.R., Egge, J.K., Veldhuis, M.J.W. & Westbroek, P., 1994. The 1992 Norwegian Emiliania huxleyi experiment. An overview. Sarsia, 79, 285-290.

27) Purdie, D.A. & Finch, M.S., 1994. The impact of a coccolithophore bloom on dissolved carbon dioxide in sea-water enclosures in a Norwegian fjord. Sarsia, 79, 379-387.

28) Veldhuis, M.J.W., Stoll, M., Bakker, D., Brummer,G.-J., Kraak, M., Kop, A., van der Weerlee, E, van Koutrik, A & Heimdal, B.R., 1994. Calcifying phytoplankton in Bjornafjorden, Norway; the prebloom situation. Sarsia, 79, 389-399.

29) Wal, P. van der, Bleijswijk, J. van & Egge, J.K., 1994. Primary productivity and calcification rate in blooms of the coccolithophorid Emiliania huxleyi (LOHMANN) Hay et Mohler developing in mesocosms. Sarsia, 79, 401-408.

30) Wal, P. van der, Kraay, G.W. & Meer, J. van der, 1994. Community structure and nutritional state of phytoplankton mesocosms with different initial N:P ratios studies with high performance liquid chromatography. Sarsia, 79, 409-416.

31) Nejstgaard, J.C., Witte, H.J., Wal, P. van der. & Jacobsen, A., 1994. Copepod grazing during a mesocosm study of an Emiliania huxleyi (Prymnesiophyceae) bloom. Sarsia, 79, 369-377.

32) Tyrrell, T. and Taylor, A.H., 1995. Latitudinal and seasonal variations in carbon dioxide and oxygen in the north-east Atlantic, and the effects on Emiliania huxleyi and other phytoplankton. Global Biogeochemical Cycles, 9, 584-604.

33) van Bleijswijk, J.D.L. & Veldhuis, M.J.W., 1995. In situ gross growth rates of Emiliania huxleyi in enclosures with different phosphate loading revealed by deil changes in DNA content. Marine Ecology Progress Series, 121, 271-277.

34) Young,, J.R. M. Kucera, Hsiao-wen Chung, Automated coccolith biometrics on captured light microscope images of Emiliania huxleyi. In: Proceedings of the ODP and the Marine Biosphere Conference (ed. Whatley, R. & Moguilevsky, A.) Aberystwyth, April 1994. (in press)

35) Pond, D.W., Harris, R.P. and Brownlee, C., 1995. A microinjection technique using a pH sensitive dye to determine the gut pH of Calanus helgolandicus. Marine Biology, 123, 75-79.

36) Saunders, R.J., Purdie, D.A. & Bratbak, G. Bacterioplankton dynamics in a Norwegian Fjord following an algal bloom. Marine Ecology Progress Series (submitted)

37) Nimer N.A., Brownlee C. & Merrett M.J., 1994. Carbon dioxide availability, intracellular pH and growth of the coccolithophore Emiliania huxleyi. Marine Ecology Progress Series, 109, 257-262.

38) Nielsen, M.V., 1995. Photosynthetic characteristics of the coccolithophorid Emiliania huxleyi (Prymnesiophyceae) exposed to elevated concentrations of dissolved inorganic carbon. Journal of Phycology, 31, 715-719.

39) Barker, G.L.A., Hayes, P.K., Medlin, L.K. and Green, J. C., 1994. Genetic diversity in the cocclithophorid Emiliania huxleyi. The Phycologist, 35, 22.

40) Maranon, E., Fernandez, E., Harris, R.P. and Harbour, D.S., 1996. Effects of the diatom Emiliania huxleyi succession on photosynthesis, calcification and carbon metabolism by size-fractionated phytoplankton. Hydrobiologia, 317, 189-198.

41) Medlin, L.K., Lange, M., Barker, G.L.A. and Hayes, P.K. 1995. Can Molecular techniques change our ideas about the species concept? In: NATO ASI Series - Molecular Ecology of Aquatic Microbes (ed. Joint, I,) pp.133-152. Berlin: Spring-Verlag.

42) Levasseur, M., Michaud, S., Nejstgaard, J., Egge, J., Sanders, R., Cantin, G., Fernandez, E., Solberg, P., Heimdal, B. & Gosselin, M. Bacterial and zooplankton regulation of DMSP and DMS production during Emiliania huxleyii blooms. Limnology and Oceanography (submitted)

43) Wal, P. van der, Kempers, R.S. and Veldhuis, M.J.W., 1995. Production and downward flux of organic matter and calcite in a North Sea bloom of the coccolithophore Emiliania huxleyi. Marine Ecology Progress Series, 126, 247-265.

44) Pond, D.W. and Harris, R.P., 1996. The lipid composition of the coccolithophore Emiliania huxleyi and its possible ecophysiological significance. Journal of the Marine Biological Association of the United Kingdom, 76, 570-594.

45) Crawford, D.W. and Purdie, D.A. PCO2 increase in blooms of Emiliania huxleyi: theoretical considerations on the asymmetry between acquisition of HCO3- and respiration of free CO2. Limnology and Oceanography (submitted).

46) Bhattacharya, D. and Medlin, L., 1995. The phylogeny of plastids: a review based on comparisons of small-subunit ribosomal RNA coding regions. Journal of Phycology, 31, 489-498.

47) Medlin, L.K., Cooper, A., Hill, C., Wrieden-Prigge, S. and Wellbrock, U. Phylogenetic position of the chromista plastids based on small subunit rRNA coding regions. Current Genetics (in press).

48) Bratbak, G., Levasseur, M., Michaud, S., Cantin, G., Fernandez, E., Heimdal, B.R. and Heldal, M., 1995. Viral activity in relation to Emiliania huxleyi blooms: a mechanism of DMSP release? Marine Ecology Progress Series, 129, 133-142.

49) Tyrrell, T. & Taylor, A.H., 1995. A modelling study of Emiliania huxleyi in the NE Atlantic. Journal of Marine Systems, 9, 83-112.

50) Nanninga, H.J. & Tyrrell, T., 1996. The importance of light for the formation of algal blooms by Emiliania huxleyi. Marine Ecology Progress Series, 136, 195-203.

51) Nielsen, M.V. & Sandvik, R. Light absorption measurements of coccolithophorids: methodological problems due to coccoliths.

52) Harris, P.G., Carter, J.F., Head, R.N., Harris, R.P., Eglinton, G. & Maxwell, J.R. (1995) Identification of chlorophyll transformation products in zooplankton faecal pellets and marine sediment extracts by liquid chromatography/mass spectrometry atmospheric pressure chemical ionization. Rapid Communications in Mass Spectrometry, 9, 1177-1183.

53) Harris, R.P., 1996. Coccolithophorid dynamics: the European Emiliania huxleyi programme, EHUX. Journal of Marine Systems, 9, 1-11.

54) Nanninga, H.J., Rinenaldus, P. & Westbroek, P. Immunological quantitation of a polysaccharide formed by Emiliania huxleyi. Journal of Marine Systems, 9, 67-74.

55) Fernandez, E., Maranon, E. & Balch, W.M., 1996. Intracellular carbon partitioning in the coccolithophore Emiliania huxleyi. Journal of Marine Systems, 9, 57-66.

56) Zonneveld, C., 1996. Modelling the kinetics of non-limiting nutrients in microalgae. Journal of Marine Systems, 9, 121-136.

57) Bratbak, G., Wilson, W. & Heldal, M., 1996. Viral control of Emiliania huxleyi blooms? Journal of Marine Systems, 9, 75-82.

58) Maier-Reimer, E., 1996. Dynamic vs. apparent Redfield ratios in the ocean: A case for 3D-models. Journal of Marine Systems, 9, 113-120.

59) Medlin, L., Barker, G.L.A., Campbell, L., Green, J.C., Hayes, P.K., Marie, D., Wreiden, S. & Vaulot, D., 1996. Genetic characterisation of Emiliania huxleyi. Journal of Marine Systems, 9, 13-31.

60) Green, J.C., Course, P.A. & Tarran, G.A., 1996. The life-cycle of Emiliania huxleyi: a brief review and a study of relative ploidy levels analysed by flow cytometry. Journal of Marine Systems, 9, 33-44.

61) Anning, T., Nimer, N., Merrett, M.J., Paasche, E. & Brownlee, C., 1996. Costs and benefits of calcification in coccolithophorids. Journal of Marine Systems, 9, 45-56.

62) Batvik, H., Heimdal, B.R., Fakerbakke, K.M. & Green, J.C. Effects of nutrient regime on coccolith morphology and size in Emiliania huxleyi (Prymnesiophycae) In prep.

63) Egge, J.K. & A. Jacobsen, 199. Influence of silicate on particulate carbon production in phytoplankton. Marine Biology Progress Series, (in press).


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