Physiological Effects on Coexisting Microalgae of the Allelochemicals Produced by the Bloom-Forming Cyanobacteria Sp. and

Overview

Journal Toxins (Basel)

Publisher MDPI

Specialty Toxicology

Date 2019 Dec 11

PMID 31817796

Citations 3

Authors

Sylwia Sliwinska-Wilczewska

Aldo Barreiro Felpeto

Katarzyna Mozdzen

Vitor Vasconcelos

Adam Latala

Affiliations

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Abstract

Only a few studies have documented the physiological effects of allelopathy from cyanobacteria against coexisting microalgae. We investigated the allelopathic ability of the bloom-forming cyanobacteria sp. and filtrates on several aspects related to the physiology of the target species: population growth, cell morphology, and several indexes of photosynthesis rate and respiration. The target species were the following: two species of green algae (, ) and two species of diatoms (, ). These four species coexist in the natural environment with the employed strains of sp. and employed. The tests were performed with single and repeated addition of cyanobacterial cell-free filtrate. We also tested the importance of the growth phase in the strength of the allelopathic effect. The negative effects of both cyanobacteria were the strongest with repeated exudates addition, and generally, Synechococcus sp. and N. spumigena were allelopathic only in the exponential growth phase. was not negatively affected by filtrates in any of the parameters studied, while , , and were affected in several ways. was characterized by a stronger allelopathic activity than sp., showing a negative effect on all target species. The highest decline in growth, as well as the most apparent cell physical damage, was observed for the diatom . Our findings suggest that cyanobacterial allelochemicals are associated with the cell physical damage, as well as a reduced performance in respiration and photosynthesis system in the studied microalgae which cause the inhibition of the population growth. Moreover, our study has shown that some biotic factors that increase the intensity of allelopathic effects may also alter the ratio between bloom-forming cyanobacteria and some phytoplankton species that occur in the same aquatic ecosystem.

Citing Articles

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The Importance of Allelopathic Picocyanobacterium sp. on the Abundance, Biomass Formation, and Structure of Phytoplankton Assemblages in Three Freshwater Lakes.

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