The loss of mixotrophy in Alexandrium pseudogonyaulax: Implications for trade-offs between toxicity, mucus trap production, and phagotrophy
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The loss of mixotrophy in Alexandrium pseudogonyaulax : Implications for trade-offs between toxicity, mucus trap production, and phagotrophy. / Blossom, Hannah Eva; Hansen, Per Juel.
In: Limnology and Oceanography, Vol. 66, No. 2, 2021, p. 528-542.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - The loss of mixotrophy in Alexandrium pseudogonyaulax
T2 - Implications for trade-offs between toxicity, mucus trap production, and phagotrophy
AU - Blossom, Hannah Eva
AU - Hansen, Per Juel
PY - 2021
Y1 - 2021
N2 - Two important competitive traits in protists, particularly in harmful algal bloom forming species, are lytic toxicity and mixotrophy. This study focuses on Alexandrium pseudogonyaulax, a dinoflagellate species that is both toxic and mixotrophic, and in addition uses a mucus trap to immobilize and capture potential prey. A single strain of A. pseudogonyaulax was sub-cultured and grown under two different conditions; one subculture was grown autotrophically, while the other was periodically offered algal prey. After three years, the sub-strain that was fed remained an avid mixotroph, while the autotrophically grown sub-strain almost completely lost its ability to feed. The emergence of these two “sub-strains”, with different nutritional strategies, allowed us to investigate possible trade-offs between lytic toxicity, mixotrophy, and mucus trap production. Both sub-strains were still capable of producing mucus traps, and successfully captured other cells. Although the non-feeding sub-strain lost its ability to feed, it was more lytic than the feeding sub-strain, which may suggest a trade-off between lytic toxicity and feeding ability. However, this increased toxicity was not enough to outcompete other faster growing competitors such as Teleaulax acuta and Heterocapsa rotundata. In contrast, the feeding sub-strain was able to inhibit the growth of these same competing species. The results indicate that for A. pseudogonyaulax, the benefits of phagotrophy far outweigh those of lytic toxicity or the mucus trap alone. The non-feeding strain used here provides evidence of the loss of mixotrophy under culture conditions, highlighting one of the obstacles in the study of mixotrophic protists.
AB - Two important competitive traits in protists, particularly in harmful algal bloom forming species, are lytic toxicity and mixotrophy. This study focuses on Alexandrium pseudogonyaulax, a dinoflagellate species that is both toxic and mixotrophic, and in addition uses a mucus trap to immobilize and capture potential prey. A single strain of A. pseudogonyaulax was sub-cultured and grown under two different conditions; one subculture was grown autotrophically, while the other was periodically offered algal prey. After three years, the sub-strain that was fed remained an avid mixotroph, while the autotrophically grown sub-strain almost completely lost its ability to feed. The emergence of these two “sub-strains”, with different nutritional strategies, allowed us to investigate possible trade-offs between lytic toxicity, mixotrophy, and mucus trap production. Both sub-strains were still capable of producing mucus traps, and successfully captured other cells. Although the non-feeding sub-strain lost its ability to feed, it was more lytic than the feeding sub-strain, which may suggest a trade-off between lytic toxicity and feeding ability. However, this increased toxicity was not enough to outcompete other faster growing competitors such as Teleaulax acuta and Heterocapsa rotundata. In contrast, the feeding sub-strain was able to inhibit the growth of these same competing species. The results indicate that for A. pseudogonyaulax, the benefits of phagotrophy far outweigh those of lytic toxicity or the mucus trap alone. The non-feeding strain used here provides evidence of the loss of mixotrophy under culture conditions, highlighting one of the obstacles in the study of mixotrophic protists.
U2 - 10.1002/lno.11621
DO - 10.1002/lno.11621
M3 - Journal article
VL - 66
SP - 528
EP - 542
JO - Limnology and Oceanography
JF - Limnology and Oceanography
SN - 0024-3590
IS - 2
ER -
ID: 237114924