Effects of guanotrophication and warming on the abundance of green algae, cyanobacteria and microcystins in Lake Lesser Prespa, Greece

Maliaka, Valentini; Verstijnen, Yvon; Faassen, Elisabeth J.; Smolders, Alfons J. P.; Lürling, Miquel

doi:10.1371/journal.pone.0229148

Cited by 11 publications

(5 citation statements)

References 61 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Cyanobacteria proliferated in warm conditions, especially during the PRM, where sediment temperatures were comparatively high (Figure 2), and significant positive correlations were observed with rising temperatures and cyanobacterial abundance (Pearson's correlation .398; significant at .05 level). The relationship between cyanobacterial assemblages and sediment temperature were observed in several shallow marine ecosystems and in many of the cases, there observed an increase in cyanobacterial biomass with temperature (Accoroni et al, 2016;El Hag & Fogg, 1986;Maliaka et al, 2020;Paerl & Otten, 2013;Waterbury, 1986). The temperature has a direct effect on the prevalence of cyanobacteria (Robarts & Zohary, 1987), and global warming can promote the development of cyanobacterial blooms (Paerl & Huisman, 2009).…”

Section: Discussionmentioning

confidence: 99%

Environmental influences on the cyanobacterial mat formation in the mangrove ecosystems along the southwest coast of India

2021

View full text Add to dashboard Cite

Cyanobacteria are Gram-negative, oxygen-evolving photoautotrophic bacteria found in almost every conceivable habitat around the world. Cyanobacteria are extremophiles identified from geothermal springs to cold deserts (Amarouche-Yala et al., 2014;Mataloni & Komárek, 2004) and existed for about 2.8 billion years on earth (Olson, 2006). As the oldest oxygen-evolving photosynthetic microorganisms on earth, cyanobacteria significantly influenced ambient atmospheric and biosphere status (Demoulin et al., 2019;Paerl & Huisman, 2009). Planktic species have been the subject of numerous investigations in terms of risk assessment; however, little is known about benthic cyanobacterial forms (Gaget et al., 2017). Although reports on the prevalence of benthic cyanobacteria have increased

show abstract

Section: Discussionmentioning

confidence: 99%

Environmental influences on the cyanobacterial mat formation in the mangrove ecosystems along the southwest coast of India

2021

View full text Add to dashboard Cite

show abstract

“…This suggests that temperature conditions in the vicinity of Lake Warnołty can be favorable to form persistent cyanobacterial blooms, also in a longer time period or even the year-round, about which we still know little. Furthermore, it is highly possible that cormorants in Lake Warnoły and the other Polish lakes [20][21][22][23] similar to pelicans in Greek Lake Lesser Prespa [75] may contribute to guanotrophication and locally lead to the occurrence of harmful blooms. Future research towards the monitoring of the cormorant impact on water quality, including persistence and intensity of harmful cyanobacteria, should be continued.…”

Section: Discussionmentioning

confidence: 99%

Cyanobacterial Blooms and Zooplankton Structure in Lake Ecosystem under Limited Human Impact

Napiórkowska‐Krzebietke

Kalinowska

Bogacka-Kapusta

et al. 2020

Water

View full text Add to dashboard Cite

Cyanobacterial blooms are tightly related to increasing trophic conditions of lakes and climate warming. Abiotic and biotic parameters were studied in a shallow lake, in which the island with the largest cormorants colony in north-eastern Poland is situated. We hypothesized that the strongest cyanobacterial blooms will persist near the cormorant’s island and will decrease with an increasing distance from it. Filamentous cyanobacteria (Pseudanabaena, Planktolyngbya, Limnothrix, Planktothrix) were the main phytoplankton components during summer and autumn. Their strongest blooms (up to 66 mg L−1) were recorded near the roosting area. The content of nutrients and chlorophyll a, and the biomass of phytoplankton (primarily cyanobacteria) and zooplankton, decreased gradually with the increasing distance from the island. The changes from hypertrophic to eutrophic conditions were confirmed by a decrease in values of the trophic state index from 72 (site 1) to 58 (site 5). This all suggests that cormorants might have a significant impact on the deterioration of water quality (at distance to 1.6 km) and can contribute to faster water eutrophication. Our results suggest that protection of breeding sites for many waterbirds, such as cormorants, becomes a real threat for the functioning of aquatic ecosystems due to a large load of nutrients.

show abstract

“…Vromolimni, which means 'dirty water' in Greek, is a main breeding area for Dalmatian Pelican and Great White Pelican for decades [9] which undoubtedly have led to a considerable nutrient enrichment of the pond stimulating growth of cyanobacteria [51]. In the Vromolimni pond relatively high MC concentrations were measured in 2012 and in July 2014 (Figure 8).…”

Section: Vromolimni Pondmentioning

confidence: 99%

Interannual and Spatial Variability of Cyanotoxins in the Prespa Lake Area, Greece

Maliaka

Lürling

Fritz

et al. 2021

Water

Self Cite

View full text Add to dashboard Cite

The Prespa Lakes area in Greece—comprised partly of lake Great and lake Lesser Prespa and the Vromolimni pond—has a global importance for biodiversity. Although the waters show regular cyanobacteria blooms, assessments of water quality threats are limited. Samples collected in 2012 revealed scattered and low microcystin (MC) concentrations in Great Prespa (<0.2 μg MC L−1) whereas considerable spatial heterogeneity in both total chlorophyll (2.4–93 µg L−1) and MC concentrations (0.04–52.4 µg MC L−1) was detected in Lesser Prespa. In 2013, there was far less spatial variability of MC concentrations in Lesser Prespa (0.4–1.53 µg L−1), however in 2014, increased concentrations were detected near the lakeshore (25–861 µg MC L−1). In Vromolimni pond the MC concentrations were on average 26.6 (±6.4) µg MC L−1 in 2012, 2.1 (±0.3) µg MC L−1 in 2013 and 12.7 (±12.5) µg MC L−1 in 2014. In 2013, no anatoxins, saxitoxins, nor cylindrospermopsins were detected in Lesser Prespa and Vromolimni waters. Tissue samples from carps, an otter and Dalmatian Pelicans contained 0.4–1.9 µg MC g−1 dry weight. These results indicate that cyanotoxins could be a threat to the ecosystem functions of particularly Lesser Prespa and Vromolimni.

show abstract

Effects of guanotrophication and warming on the abundance of green algae, cyanobacteria and microcystins in Lake Lesser Prespa, Greece

Cited by 11 publications

References 61 publications

Environmental influences on the cyanobacterial mat formation in the mangrove ecosystems along the southwest coast of India

Environmental influences on the cyanobacterial mat formation in the mangrove ecosystems along the southwest coast of India

Cyanobacterial Blooms and Zooplankton Structure in Lake Ecosystem under Limited Human Impact

Interannual and Spatial Variability of Cyanotoxins in the Prespa Lake Area, Greece

Contact Info

Product

Resources

About