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Journal of plankton research
2025 Mar-Apr;47 (2): fbae068.

encounters: temporal and spatial constraints on blooms.

Patricio A D��az, ��ngela M Baldrich, Francisco Rodr��guez, Manuel D��az, Gonzalo ��lvarez, Iv��n P��rez-Santos, Camila Schwerter, Camilo Rodr��guez-Villegas, Pamela Carbonell, B��rbara Cantarero, Loreto L��pez, Beatriz Reguera
Author Information
  1. Patricio A D��az: Centro i~mar, Universidad de Los Lagos, Camino Chinquihue Km 6, Casilla 557, 5480000 Puerto Montt, Chile. ORCID
  2. ��ngela M Baldrich: Centro i~mar, Universidad de Los Lagos, Camino Chinquihue Km 6, Casilla 557, 5480000 Puerto Montt, Chile.
  3. Francisco Rodr��guez: Centro Oceanogr��fico de Vigo, Instituto Espa��ol de Oceanograf��a (IEO-CSIC), Subida a Radio Faro 50, 36390 Vigo, Spain.
  4. Manuel D��az: Programa de Investigaci��n Pesquera, Instituto de Acuicultura, Universidad Austral de Chile, Los Pinos s/n, 5480000 Puerto Montt, Chile.
  5. Gonzalo ��lvarez: Facultad de Ciencias del Mar, Departamento de Acuicultura, Universidad Cat��lica del Norte, Larrondo 1281, 1780000 Coquimbo, Chile.
  6. Iv��n P��rez-Santos: Centro i~mar, Universidad de Los Lagos, Camino Chinquihue Km 6, Casilla 557, 5480000 Puerto Montt, Chile.
  7. Camila Schwerter: Centro i~mar, Universidad de Los Lagos, Camino Chinquihue Km 6, Casilla 557, 5480000 Puerto Montt, Chile.
  8. Camilo Rodr��guez-Villegas: Centro i~mar, Universidad de Los Lagos, Camino Chinquihue Km 6, Casilla 557, 5480000 Puerto Montt, Chile.
  9. Pamela Carbonell: Centro de Estudios de Algas Nocivas (CREAN), Instituto de Fomento Pesquero (IFOP), Padre Harter 574, 5480000, Puerto Montt, Chile.
  10. B��rbara Cantarero: Centro i~mar, Universidad de Los Lagos, Camino Chinquihue Km 6, Casilla 557, 5480000 Puerto Montt, Chile.
  11. Loreto L��pez: Centro de Estudios de Algas Nocivas (CREAN), Instituto de Fomento Pesquero (IFOP), Padre Harter 574, 5480000, Puerto Montt, Chile.
  12. Beatriz Reguera: Centro Oceanogr��fico de Vigo, Instituto Espa��ol de Oceanograf��a (IEO-CSIC), Subida a Radio Faro 50, 36390 Vigo, Spain.
PMID: 40092427 DOI: 10.1093/plankt/fbae068

Abstract

Species of the complex are the main cause of diarrhetic shellfish poisoning worldwide. These mixotrophs perform photosynthesis with plastids stolen from specific ciliate prey. Current transport models forecast advection of established populations, but modelling bloom development and maintenance also needs to consider the prey ( spp.) of . Predator and prey have distinct niches, and bloom success relies on matching prey populations in time and place. During autumn 2019, red tides of in Reloncav�� Fjord, Chile, were not followed by growth The dynamics of encounters during this and additional multiscale cases elsewhere are examined. Analogies with some classic predator-prey models (match-mismatch hypothesis; Lasker's stable ocean hypothesis) are explored. Preceding dense populations of do not guarantee blooms if spatial co-occurrence is not accompanied by water column structure, which leads to thin layer formation, as in Lasker's stable ocean hypothesis or if the predator growth season is over. Tracking the frequency of vacuolate cells, irrefutable signal of prey acquisition, with advanced fluid-imaging instruments, is envisaged as a next-generation tool to predict rising populations.

Keywords

Chilean Patagonia Dinophysis acuminata complex Dinophysis���Mesodinium match���mismatch Mesodinium rubrum/M. major complex Reloncav�� Fjord

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Journal Article

Word Cloud

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