IR Home
MEPS
Home
Editors
Forthcoming
Information
Subscribe
Journals
Home
MEPS
AME
CR
DAO
ESEP
ESR
Search
Subscribe
Book Series
EE Books
Top Books
ESEP Books
Order
EEIU Brochures
(pdf format)
Discussion Forums
Home
Research
IR Research
Institutions
International Ecology Institute
Eco-Ethics International Union
Foundation
Otto Kinne Foundation
 | |
MEPS 286:1-12 (2005)
|
Abstract
|
Impact of antifouling booster biocides on single microalgal species and on a natural marine phytoplankton community
Rosângela A. Devilla1,2,*, Murray T. Brown2, Maria Donkin2, Glen A. Tarran1, James Aiken1, James W. Readman1
1Plymouth Marine Laboratory, Prospect Place, West Hoe, Plymouth, Devon PL1 3DH, UK
2Dept. of Biological Sciences, Plymouth Environmental Research Centre, University of Plymouth, Drake Circus, Plymouth, Devon PL4 8AA, UK
*Email: roadev@yahoo.co.uk
ABSTRACT: Phytoplankton were exposed to 4 antifouling booster biocides (Sea-Nine 211®, Irgarol 1051®, diuron and zinc pyrithione) to investigate toxicological responses. Initially, single species/ single biocide exposure
experiments revealed changes in pigment ratios under all biocide exposures for the prymnesiophyte Emiliania huxleyi, but not for the cyanophyte Synechococcus sp. Growth inhibition results following 72 h exposures indicated that
Synechococcus sp. was more tolerant to zinc pyrithione (NOEC of 1.0 µg l–1) and Sea-Nine 211® (NOEC of 0.9 µg l–1) than E. huxleyi (EC50 of 0.54 and EC50 of
0.35 µg l–1, respectively). In contrast, Synechococcus sp. was more sensitive to diuron (EC50 of 0.55 µg l–1) than E. huxleyi (EC50 of 2.26 µg l–1),
whereas exposure to Irgarol 1051® similarly impacted both species (EC50 of 0.16 and 0.25 µg l–1, respectively). In addition, the impact on photosynthesis and on pigment chemotaxonomy was investigated through
a laboratory exposure experiment using a natural phytoplankton community. Pigment signatures were measured by High Performance Liquid Chromatography (HPLC) and densities of size-classified phytoplankton groups were monitored using Analytical Flow
Cytometry (AFC). Group-specific sensitivity of the natural phytoplankton community was detected through pigment composition after 72 h exposure to 5 µg l–1 zinc pyrithione and 10 µg l–1 Sea-Nine
211®. Zeaxanthin increased proportionally, indicating a relative increase in Cyanophyceae. This result was corroborated using AFC. Primary production, estimated by 14C-HCO3– uptake, was compared to
maximum quantum yield of Photosystem II (FV/FM), which was quantified by Fast Repetition Rate Fluorimetry (FRRF). The 2 techniques were in good agreement (R2 = 0.89, p = 0.0001), both primary production and
FV/FM being impaired by exposure to all biocides tested. These results are discussed in the context of the potential environmental impact of biocides on phytoplankton communities and the ecological implications of any
modifications in species composition.
KEY WORDS: Marine phytoplankton · Antifouling booster biocides · Emiliania huxleyi · Synechococcus sp. · Analytical Flow Cytometry · Pigments · Fast Repetition Rate Fluorescence ·
14C-HCO3– uptake
Full text in pdf format
Published in MEPS Vol.
286
(2005) on February 2
Print ISSN: 0171-8630; Online ISSN: 1616-1599.
Copyright © Inter-Research, Oldendorf/Luhe, 2005
|
