Constraints on the body plan of colonial organisms are almost absent, similar to unitary organisms. However, coral colonies delay reproduction until reaching a critical size, just like other organisms. To understand this process, fragmented colonies of five coral species were nurtured for extended periods, and it was found that most fragments were able to reproduce regardless of their size and growth rates. These findings highlight the importance of aging in colonial animals, which are often considered non-aging.
Constraints on organisms possessing a unitary body plan appear almost absent from colonial organisms. Like unitary organisms, however, coral colonies seemingly delay reproduction until reaching a critical size. Elucidating ontogenetic processes, such as puberty and aging are complicated by corals' modular design, where partial mortality and fragmentation lead to distortions in colony size-age relationships. We explored these enigmatic relations and their influence on reproduction by fragmenting sexually mature colonies of five coral species into sizes below the known size at first reproduction, nurturing them for prolonged periods, and examining their reproductive capacity and trade-offs between growth rates and reproductive investment. Most fragments were reproductive regardless of their size, and growth rates hardly affected reproduction. Our findings suggest that once the ontogenetic milestone of puberty is reached, corals retain reproductive capacity irrespective of colony size, highlighting the key role that aging may have in colonial animals, which are commonly considered non-aging.
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