@article{485a2c81d8c545eabeb5f4b08db395d4,
title = "Behavioural differences underlie toxicity and predation variation in blooms of Prymnesium parvum",
abstract = "Much of the evolutionary ecology of toxic algal blooms (TABs) remains unclear, including the role of algal toxins in the adaptive {\textquoteleft}strategies{\textquoteright} of TAB-forming species. Most eukaryotic TABs are caused by mixotrophs that augment autotrophy with organic nutrient sources, including competing algae (intraguild predation). We leverage the standing diversity of TABs formed by the toxic, invasive mixotroph Prymnesium parvum to identify cell-level behaviours involved in toxin-assisted predation using direct observations as well as comparisons between genetically distinct low- and high-toxicity isolates. Our results suggest that P. parvum toxins are primarily delivered at close range and promote subsequent prey capture/consumption. Surprisingly, we find opposite chemotactic preferences for organic (prey-derived) and inorganic nutrients between differentially toxic isolates, respectively, suggesting behavioural integration of toxicity and phagotrophy. Variation in toxicity may, therefore, reflect broader phenotypic integration of key traits that ultimately contribute to the remarkable flexibility, diversity, and success of invasive populations.",
keywords = "algal toxins, allelopathy, biological invasions, chemotaxis, collective behaviour, eco-evolutionary feedbacks, harmful algal bloom, intraguild predation, microbial cooperation, mixotrophy",
author = "Driscoll, {William W.} and Wisecaver, {Jennifer H.} and Hackett, {Jeremiah D.} and Espinosa, {Noelle J.} and Jared Padway and Engers, {Jessica E.} and Bower, {Jessica A.}",
note = "Funding Information: We thank R. Ferri{\`e}re, C. Bowler, K. D. Hambright, J. W. Pepper, O. Eldakar, J. A. Molina, and M. Travisano for helpful discussions; G. Southard and Texas Parks and Wildlife Department for providing bloom samples; and A. Noble, A. Peters, N. Hakim, T. Eldreny, A. Moran, and P. Patel for assisting with data collection. This work was supported by the National Science Foundation Dimensions of Biodiversity Program under Grant No. DEB-1831493 to W.W.D and J.H.W. W.W.D was additionally supported by NSF IOS-1010669, NSF ABI-1262472, as well as a MEMO LIFE (ANR-10-LABX-54) Postdoctoral Fellowship. Funding Information: We thank R. Ferri{\`e}re, C. Bowler, K. D. Hambright, J. W. Pepper, O. Eldakar, J. A. Molina, and M. Travisano for helpful discussions; G. Southard and Texas Parks and Wildlife Department for providing bloom samples; and A. Noble, A. Peters, N. Hakim, T. Eldreny, A. Moran, and P. Patel for assisting with data collection. This work was supported by the National Science Foundation Dimensions of Biodiversity Program under Grant No. DEB‐1831493 to W.W.D and J.H.W. W.W.D was additionally supported by NSF IOS‐1010669, NSF ABI‐1262472, as well as a MEMO LIFE (ANR‐10‐LABX‐54) Postdoctoral Fellowship. Publisher Copyright: {\textcopyright} 2023 The Authors. Ecology Letters published by John Wiley & Sons Ltd.",
year = "2023",
month = may,
doi = "10.1111/ele.14172",
language = "English (US)",
volume = "26",
pages = "677--691",
journal = "Ecology letters",
issn = "1461-023X",
publisher = "Wiley-Blackwell",
number = "5",
}