'In vitro' and 'in situ' decomposition of nuisance macroalgae Cladophora glomerata and Pilayella littoralis

The decomposition of two macroalgal species Cladophora glomerata (CHLOROPHYTA) and Pilayella littoralis (PHAEOPHYTA) was studied in the laboratory and field conditions. These species are known to cause the extensive 'macroalgal blooms' in the whole coastal range of the Baltic Sea. The obje...

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Bibliographic Details
Published inHydrobiologia Vol. 475-476; no. 1; pp. 469 - 476
Main Authors Paalme, Tiina, Kukk, Henn, Kotta, Jonne, Orav, Helen
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Nature B.V 01.05.2002
Subjects
Aerobic conditions
Algae
Anaerobic conditions
Benthic fauna
Brackish
Cladophora glomerata
Decomposition
Invertebrates
Low temperature
Marine
Nitrogen
Nutrient content
Pilayella littoralis
ANE, Baltic Sea
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Summary:The decomposition of two macroalgal species Cladophora glomerata (CHLOROPHYTA) and Pilayella littoralis (PHAEOPHYTA) was studied in the laboratory and field conditions. These species are known to cause the extensive 'macroalgal blooms' in the whole coastal range of the Baltic Sea. The objective of the experiments was to determine decomposition rates of the macroalgae, follow the changes in tissue nutrient content and validate the role of benthic invertebrates in this process. In the laboratory conditions, the differences in the decomposition rates of the algae were mainly due to the oxygen conditions. The weight loss of C. glomerata was slightly higher in anaerobic conditions than in aerobic conditions. If 99% of initial dry weight of P. littoralis was lost in aerobic conditions then only 20% was lost in anaerobic conditions. In general, the loss of phosphorus and nitrogen in algal tissues followed the weight loss. As an exception, the amount of nitrogen changed very little during the decomposition of C. glomerata. In field conditions, the photosynthetic activity exceeded the decomposition rate of C. glomerata at lower temperatures in spring. The decomposition of P. littoralis was estimated at 49% of its initial dry weight. The addition of benthic invertebrates had no effect on the decomposition process. In summer, the decomposition rates were estimated at 65% for C. glomerata and 68% for P. littoralis being in the same order of magnitude as observed in laboratory conditions. If the decomposition of C. glomerata was faster at the end of the experiment, the most significant losses of weight of P. littoralis took place during the first 2 weeks of deployment. Idotea baltica significantly contributed to the loss of C. glomerata. The decomposition rate of P. littoralis was reduced by the presence of Mytilus edulis and increased by Gammarus oceanicus.[PUBLICATION ABSTRACT]
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0018-8158
1573-5117
DOI:10.1023/A:1020364114603