Are invasive species always negative to aquatic ecosystem services? The role of dark false mussel for water quality improvement in a multi-impacted urban coastal lagoon

The dark false mussel Mytilopsis leucophaeata occurs as non-native species in Asia, Europe and South America. Despite the low population density usually found in its native range, M. leucophaeata forms dense clusters in newly invaded areas which lead to impacts on local organisms and environment. So...

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Bibliographic Details
Published in:Water research (Oxford) 2020-10, Vol.184, p.116108-116108, Article 116108
Main Authors: Neves, Raquel A.F., Naveira, Clarissa, Miyahira, Igor Christo, Portugal, Samira G.M., Krepsky, Natascha, Santos, Luciano N.
Format: Article
Language:English
Subjects:
Biofiltration
Microcosms
Mytilopsis leucophaeata
Non-native species
Rodrigo de freitas lagoon
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Summary:The dark false mussel Mytilopsis leucophaeata occurs as non-native species in Asia, Europe and South America. Despite the low population density usually found in its native range, M. leucophaeata forms dense clusters in newly invaded areas which lead to impacts on local organisms and environment. Some of the impacts of non-native species on newly colonized areas may be positive. However, despite the empirical evidences of increase in water transparency by freshwater dresseinids, the hypothesis that dark false mussel enhances the quality of brackish water has never been tested so far. Thus, the present study aimed to determine M. leucophaeata impacts on the water quality of a nutrient-enriched coastal lagoon by (1) analyzing a historical water dataset for pre- and post-invasion at Rodrigo de Freitas Lagoon (Brazil) and (2) experimentally testing dark false mussel direct effects on water quality. Historical field data evidenced significant lower phytoplankton abundance and chlorophyll a, and higher water transparency for the post-invasion period. These pattens were also supported by time-series analyses, which detected a decreasing trend for total coliforms density and an increased trend for dissolved oxygen over time. Moreover, time series indicated a gradual increase in lagoon water level with time, but none or minor changes were evidenced for floodgates operation routine, meteorological variables, and the frequency of sewage input. In microcosms, M. leucophaeata was effective to increase water transparency and decrease E. coli densities. The combination of field and laboratory data partially supported the hypothesis that M. leucophaeata invasion promoted an improvement in lagoon water quality, but increased phosphorus availability through excretion in microcosm assays. Management of dark false mussel populations seems to be a potential strategy for water quality improvement within already invaded systems where high sewage-enriched effluents are released. However, as non-native species often unbalance ecological relationships and functioning of the invaded ecosystems, new introductions of M. leucophaeata must be avoided. [Display omitted] •Native to the USA, M. leucophaeata is now invading Asia, Europe and South America.•A multi-impacted tropical lagoon was used as model to test water quality hypothesis.•Historical field data and experimental results were assessed in a complementary way.•The brackish dreissenid M. leucophaeata induced significant shifts in
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2020.116108