A three-stage symbiosis forms the foundation of seagrass ecosystems

Tjisse Van Der Heide; Laura L. Govers; Jimmy De Fouw; Han Olff; Matthijs Van Der Geest; Marieke M. Van Katwijk; Theunis Piersma; Johan Van De Koppel; Brian R. Silliman; Alfons J.P. Smolders; Jan A. Van Gils

doi:10.1126/science.1219973

A three-stage symbiosis forms the foundation of seagrass ecosystems

Tjisse Van Der Heide^*, Laura L. Govers, Jimmy De Fouw, Han Olff, Matthijs Van Der Geest, Marieke M. Van Katwijk, Theunis Piersma, Johan Van De Koppel, Brian R. Silliman, Alfons J.P. Smolders, Jan A. Van Gils

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

224 Citations (Scopus)

Abstract

Seagrasses evolved from terrestrial plants into marine foundation species around 100 million years ago. Their ecological success, however, remains a mystery because natural organic matter accumulation within the beds should result in toxic sediment sulfide levels. Using a meta-analysis, a field study, and a laboratory experiment, we reveal how an ancient three-stage symbiosis between seagrass, lucinid bivalves, and their sulfide-oxidizing gill bacteria reduces sulfide stress for seagrasses. We found that the bivalve-sulfide- oxidizer symbiosis reduced sulfide levels and enhanced seagrass production as measured in biomass. In turn, the bivalves and their endosymbionts profit from organic matter accumulation and radial oxygen release from the seagrass roots. These findings elucidate the long-term success of seagrasses in warm waters and offer new prospects for seagrass ecosystem conservation.

Original language	English
Pages (from-to)	1432-1434
Number of pages	3
Journal	Science
Volume	336
Issue number	6087
DOIs	https://doi.org/10.1126/science.1219973
Publication status	Published - 15 Jun 2012
Externally published	Yes

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@article{c440ce96dac7464c95f0d072260eb23f,

title = "A three-stage symbiosis forms the foundation of seagrass ecosystems",

abstract = "Seagrasses evolved from terrestrial plants into marine foundation species around 100 million years ago. Their ecological success, however, remains a mystery because natural organic matter accumulation within the beds should result in toxic sediment sulfide levels. Using a meta-analysis, a field study, and a laboratory experiment, we reveal how an ancient three-stage symbiosis between seagrass, lucinid bivalves, and their sulfide-oxidizing gill bacteria reduces sulfide stress for seagrasses. We found that the bivalve-sulfide- oxidizer symbiosis reduced sulfide levels and enhanced seagrass production as measured in biomass. In turn, the bivalves and their endosymbionts profit from organic matter accumulation and radial oxygen release from the seagrass roots. These findings elucidate the long-term success of seagrasses in warm waters and offer new prospects for seagrass ecosystem conservation.",

author = "\{Van Der Heide\}, Tjisse and Govers, \{Laura L.\} and \{De Fouw\}, Jimmy and Han Olff and \{Van Der Geest\}, Matthijs and \{Van Katwijk\}, \{Marieke M.\} and Theunis Piersma and \{Van De Koppel\}, Johan and Silliman, \{Brian R.\} and Smolders, \{Alfons J.P.\} and \{Van Gils\}, \{Jan A.\}",

year = "2012",

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doi = "10.1126/science.1219973",

language = "English",

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T1 - A three-stage symbiosis forms the foundation of seagrass ecosystems

AU - Van Der Heide, Tjisse

AU - Govers, Laura L.

AU - De Fouw, Jimmy

AU - Olff, Han

AU - Van Der Geest, Matthijs

AU - Van Katwijk, Marieke M.

AU - Piersma, Theunis

AU - Van De Koppel, Johan

AU - Silliman, Brian R.

AU - Smolders, Alfons J.P.

AU - Van Gils, Jan A.

PY - 2012/6/15

Y1 - 2012/6/15

N2 - Seagrasses evolved from terrestrial plants into marine foundation species around 100 million years ago. Their ecological success, however, remains a mystery because natural organic matter accumulation within the beds should result in toxic sediment sulfide levels. Using a meta-analysis, a field study, and a laboratory experiment, we reveal how an ancient three-stage symbiosis between seagrass, lucinid bivalves, and their sulfide-oxidizing gill bacteria reduces sulfide stress for seagrasses. We found that the bivalve-sulfide- oxidizer symbiosis reduced sulfide levels and enhanced seagrass production as measured in biomass. In turn, the bivalves and their endosymbionts profit from organic matter accumulation and radial oxygen release from the seagrass roots. These findings elucidate the long-term success of seagrasses in warm waters and offer new prospects for seagrass ecosystem conservation.

AB - Seagrasses evolved from terrestrial plants into marine foundation species around 100 million years ago. Their ecological success, however, remains a mystery because natural organic matter accumulation within the beds should result in toxic sediment sulfide levels. Using a meta-analysis, a field study, and a laboratory experiment, we reveal how an ancient three-stage symbiosis between seagrass, lucinid bivalves, and their sulfide-oxidizing gill bacteria reduces sulfide stress for seagrasses. We found that the bivalve-sulfide- oxidizer symbiosis reduced sulfide levels and enhanced seagrass production as measured in biomass. In turn, the bivalves and their endosymbionts profit from organic matter accumulation and radial oxygen release from the seagrass roots. These findings elucidate the long-term success of seagrasses in warm waters and offer new prospects for seagrass ecosystem conservation.

U2 - 10.1126/science.1219973

DO - 10.1126/science.1219973

M3 - Article

C2 - 22700927

AN - SCOPUS:84862270951

SN - 0036-8075

VL - 336

SP - 1432

EP - 1434

JO - Science

JF - Science

IS - 6087

ER -

A three-stage symbiosis forms the foundation of seagrass ecosystems

Abstract

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