The invasive mysid Hemimysis anomala: an up-to-date review of its biology, ecology, distribution and ecological impacts DOI Creative Commons
Hervé Rogissart, Jean‐Claude Marty,

Jonathan Grimond

и другие.

NeoBiota, Год журнала: 2025, Номер 98, С. 117 - 144

Опубликована: Март 28, 2025

The “bloody-red shrimp” species Hemimysis anomala , native to the Ponto-Caspian Region, has spread rapidly and adapted over recent decades new aquatic ecosystems worldwide, causing many ecological alterations. reported impacts associated with this invasion are numerous, including overall food web structure modifications. This review focuses on H. examining its biology, ecology, distribution impacts. species’ rapid success is attributed high fecundity, fast growth rates broad adaptability various habitats. Recent observations suggest that may expand further, especially in Western European lakes, reservoirs Laurentian Great Lakes. We present insights into habitat, seasonal dynamics influence trophic interactions within zooplankton communities. Additionally, we discuss methods used study citizen-science initiatives enhance data collection community engagement. objective of research provide up-to-date pieces information ’s habitat preferences collected through scientific diving participatory research. By characterising spatial temporal variation occurrence abundance, identify key environmental biotic factors limit or support further spread. also highlight knowledge gaps priorities for future studies better assess webs invaded ecosystems.

Язык: Английский

The invasive mysid Hemimysis anomala: an up-to-date review of its biology, ecology, distribution and ecological impacts DOI Creative Commons
Hervé Rogissart, Jean‐Claude Marty,

Jonathan Grimond

и другие.

NeoBiota, Год журнала: 2025, Номер 98, С. 117 - 144

Опубликована: Март 28, 2025

The “bloody-red shrimp” species Hemimysis anomala , native to the Ponto-Caspian Region, has spread rapidly and adapted over recent decades new aquatic ecosystems worldwide, causing many ecological alterations. reported impacts associated with this invasion are numerous, including overall food web structure modifications. This review focuses on H. examining its biology, ecology, distribution impacts. species’ rapid success is attributed high fecundity, fast growth rates broad adaptability various habitats. Recent observations suggest that may expand further, especially in Western European lakes, reservoirs Laurentian Great Lakes. We present insights into habitat, seasonal dynamics influence trophic interactions within zooplankton communities. Additionally, we discuss methods used study citizen-science initiatives enhance data collection community engagement. objective of research provide up-to-date pieces information ’s habitat preferences collected through scientific diving participatory research. By characterising spatial temporal variation occurrence abundance, identify key environmental biotic factors limit or support further spread. also highlight knowledge gaps priorities for future studies better assess webs invaded ecosystems.

Язык: Английский

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