Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera

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Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera. / Jesus, Bruno; Jauffrais, Thierry; Trampe, Erik C. L.; Goessling, Johannes W.; Lekieffre, Charlotte; Meibom, Anders; Kühl, Michael; Geslin, Emmanuelle.

In: ISME Journal, Vol. 16, No. 3, 2022, p. 822-832.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Jesus, B, Jauffrais, T, Trampe, ECL, Goessling, JW, Lekieffre, C, Meibom, A, Kühl, M & Geslin, E 2022, 'Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera', ISME Journal, vol. 16, no. 3, pp. 822-832. https://doi.org/10.1038/s41396-021-01128-0

APA

Jesus, B., Jauffrais, T., Trampe, E. C. L., Goessling, J. W., Lekieffre, C., Meibom, A., Kühl, M., & Geslin, E. (2022). Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera. ISME Journal, 16(3), 822-832. https://doi.org/10.1038/s41396-021-01128-0

Vancouver

Jesus B, Jauffrais T, Trampe ECL, Goessling JW, Lekieffre C, Meibom A et al. Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera. ISME Journal. 2022;16(3):822-832. https://doi.org/10.1038/s41396-021-01128-0

Author

Jesus, Bruno ; Jauffrais, Thierry ; Trampe, Erik C. L. ; Goessling, Johannes W. ; Lekieffre, Charlotte ; Meibom, Anders ; Kühl, Michael ; Geslin, Emmanuelle. / Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera. In: ISME Journal. 2022 ; Vol. 16, No. 3. pp. 822-832.

Bibtex

@article{2b2568471bf34fe6bdc3d7e7dfb827c4,
title = "Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera",
abstract = "Foraminifera are ubiquitously distributed in marine habitats, playing a major role in marine sediment carbon sequestration and the nitrogen cycle. They exhibit a wide diversity of feeding and behavioural strategies (heterotrophy, autotrophy and mixotrophy), including species with the ability of sequestering intact functional chloroplasts from their microalgal food source (kleptoplastidy), resulting in a mixotrophic lifestyle. The mechanisms by which kleptoplasts are integrated and kept functional inside foraminiferal cytosol are poorly known. In our study, we investigated relationships between feeding strategies, kleptoplast spatial distribution and photosynthetic functionality in two shallow-water benthic foraminifera (Haynesina germanica and Elphidium williamsoni), both species feeding on benthic diatoms. We used a combination of observations of foraminiferal feeding behaviour, test morphology, cytological TEM-based observations and HPLC pigment analysis, with non-destructive, single-cell level imaging of kleptoplast spatial distribution and PSII quantum efficiency. The two species showed different feeding strategies, with H. germanica removing diatom content at the foraminifer{\textquoteright}s apertural region and E. williamsoni on the dorsal site. All E. williamsoni parameters showed that this species has higher autotrophic capacity albeit both feeding on benthic diatoms. This might represent two different stages in the evolutionary process of establishing a permanent symbiotic relationship, or may reflect different trophic strategies.",
author = "Bruno Jesus and Thierry Jauffrais and Trampe, {Erik C. L.} and Goessling, {Johannes W.} and Charlotte Lekieffre and Anders Meibom and Michael K{\"u}hl and Emmanuelle Geslin",
note = "Publisher Copyright: {\textcopyright} 2021, The Author(s).",
year = "2022",
doi = "10.1038/s41396-021-01128-0",
language = "English",
volume = "16",
pages = "822--832",
journal = "I S M E Journal",
issn = "1751-7362",
publisher = "nature publishing group",
number = "3",

}

RIS

TY - JOUR

T1 - Kleptoplast distribution, photosynthetic efficiency and sequestration mechanisms in intertidal benthic foraminifera

AU - Jesus, Bruno

AU - Jauffrais, Thierry

AU - Trampe, Erik C. L.

AU - Goessling, Johannes W.

AU - Lekieffre, Charlotte

AU - Meibom, Anders

AU - Kühl, Michael

AU - Geslin, Emmanuelle

N1 - Publisher Copyright: © 2021, The Author(s).

PY - 2022

Y1 - 2022

N2 - Foraminifera are ubiquitously distributed in marine habitats, playing a major role in marine sediment carbon sequestration and the nitrogen cycle. They exhibit a wide diversity of feeding and behavioural strategies (heterotrophy, autotrophy and mixotrophy), including species with the ability of sequestering intact functional chloroplasts from their microalgal food source (kleptoplastidy), resulting in a mixotrophic lifestyle. The mechanisms by which kleptoplasts are integrated and kept functional inside foraminiferal cytosol are poorly known. In our study, we investigated relationships between feeding strategies, kleptoplast spatial distribution and photosynthetic functionality in two shallow-water benthic foraminifera (Haynesina germanica and Elphidium williamsoni), both species feeding on benthic diatoms. We used a combination of observations of foraminiferal feeding behaviour, test morphology, cytological TEM-based observations and HPLC pigment analysis, with non-destructive, single-cell level imaging of kleptoplast spatial distribution and PSII quantum efficiency. The two species showed different feeding strategies, with H. germanica removing diatom content at the foraminifer’s apertural region and E. williamsoni on the dorsal site. All E. williamsoni parameters showed that this species has higher autotrophic capacity albeit both feeding on benthic diatoms. This might represent two different stages in the evolutionary process of establishing a permanent symbiotic relationship, or may reflect different trophic strategies.

AB - Foraminifera are ubiquitously distributed in marine habitats, playing a major role in marine sediment carbon sequestration and the nitrogen cycle. They exhibit a wide diversity of feeding and behavioural strategies (heterotrophy, autotrophy and mixotrophy), including species with the ability of sequestering intact functional chloroplasts from their microalgal food source (kleptoplastidy), resulting in a mixotrophic lifestyle. The mechanisms by which kleptoplasts are integrated and kept functional inside foraminiferal cytosol are poorly known. In our study, we investigated relationships between feeding strategies, kleptoplast spatial distribution and photosynthetic functionality in two shallow-water benthic foraminifera (Haynesina germanica and Elphidium williamsoni), both species feeding on benthic diatoms. We used a combination of observations of foraminiferal feeding behaviour, test morphology, cytological TEM-based observations and HPLC pigment analysis, with non-destructive, single-cell level imaging of kleptoplast spatial distribution and PSII quantum efficiency. The two species showed different feeding strategies, with H. germanica removing diatom content at the foraminifer’s apertural region and E. williamsoni on the dorsal site. All E. williamsoni parameters showed that this species has higher autotrophic capacity albeit both feeding on benthic diatoms. This might represent two different stages in the evolutionary process of establishing a permanent symbiotic relationship, or may reflect different trophic strategies.

U2 - 10.1038/s41396-021-01128-0

DO - 10.1038/s41396-021-01128-0

M3 - Journal article

C2 - 34635793

AN - SCOPUS:85116727707

VL - 16

SP - 822

EP - 832

JO - I S M E Journal

JF - I S M E Journal

SN - 1751-7362

IS - 3

ER -

ID: 282948290