Bacteria orchestrate gametophyte growth, oogenesis and sporophyte development in Saccharina latissima in a sex-dependent manner

O_LIMarine organisms, including green and brown macroalgae, exhibit a broad dependency on their microbiome which has been demonstrated in model species including Ulva compressa and Ectocarpus siliculosus with relatively simple building plans. However, it remains elusive if and how Saccharina latissima, a complex brown macroalgae with high degrees of organ and tissue differentiation, is controlled by its microbiome. C_LIO_LIWe monitored gametophyte cultures of mixed sexes, induced oogenesis and followed sporophyte development both under axenic conditions and in cultures complemented with bacterial isolates from the sugar kelp core microbiome. C_LIO_LIFemale gametophytes generally performed better in the presence of bacteria while males performed worse. Some bacterial isolates inhibit oogenesis in females entirely, whereas others have a stimulating effect. Under axenic conditions sporophytes did form, but growth, pigmentation and the establishment of an apical-basal polarization axis were severely disrupted. These defects could be resolved by complementation with many bacteria from the S. latissima core microbiome. C_LIO_LISugar kelp depends heavily on specific bacterial symbionts for growth, reproduction and development and their effect is sex-dependent in gametophytes. This work provides a platform to investigate the precise methods of cross-kingdom communication which has a large potential in the kelp production industry. C_LI