TY - JOUR
T1 - The Evolution, Assembly, and Dynamics of Marine Holobionts
AU - González-Pech, Raúl A.
AU - Li, Vivian Y.
AU - Garcia, Vanessa
AU - Boville, Elizabeth
AU - Mammone, Marta
AU - Kitano, Hiroaki
AU - Ritchie, Kim B.
AU - Medina, Mónica
N1 - Publisher Copyright:
© 2024 Annual Reviews Inc.. All rights reserved.
PY - 2024/1/17
Y1 - 2024/1/17
N2 - The holobiont concept (i.e., multiple living beings in close symbiosis with one another and functioning as a unit) is revolutionizing our understanding of biology, especially in marine systems. The earliest marine holobiont was likely a syntrophic partnership of at least two prokaryotic members. Since then, symbiosis has enabled marine organisms to conquer all ocean habitats through the formation of holobionts with a wide spectrum of complexities. However, most scientific inquiries have focused on isolated organisms and their adaptations to specific environments. In this review, we attempt to illustrate why a holobiont perspective-specifically, the study of how numerous organisms form a discrete ecological unit through symbiosis-will be a more impactful strategy to advance our understanding of the ecology and evolution of marine life. We argue that this approach is instrumental in addressing the threats to marine biodiversity posed by the current global environmental crisis.
AB - The holobiont concept (i.e., multiple living beings in close symbiosis with one another and functioning as a unit) is revolutionizing our understanding of biology, especially in marine systems. The earliest marine holobiont was likely a syntrophic partnership of at least two prokaryotic members. Since then, symbiosis has enabled marine organisms to conquer all ocean habitats through the formation of holobionts with a wide spectrum of complexities. However, most scientific inquiries have focused on isolated organisms and their adaptations to specific environments. In this review, we attempt to illustrate why a holobiont perspective-specifically, the study of how numerous organisms form a discrete ecological unit through symbiosis-will be a more impactful strategy to advance our understanding of the ecology and evolution of marine life. We argue that this approach is instrumental in addressing the threats to marine biodiversity posed by the current global environmental crisis.
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U2 - 10.1146/annurev-marine-022123-104345
DO - 10.1146/annurev-marine-022123-104345
M3 - Review article
C2 - 37552896
AN - SCOPUS:85182733232
SN - 1941-1405
VL - 16
SP - 443
EP - 466
JO - Annual Review of Marine Science
JF - Annual Review of Marine Science
ER -