C. elegans hermaphrodites undergo semelparous reproductive death

Ageing in the nematode Caenorhabditis elegans is unusual in terms of the severity and early onset of senescent pathology, particularly affecting organs involved in reproduction ([Ezcurra et al., 2018][1]; [Garigan et al., 2002][2]; [Herndon et al., 2002][3]). In post-reproductive C. elegans hermaphrodites, intestinal biomass is converted into yolk leading to intestinal atrophy and yolk steatosis ([Ezcurra et al., 2018][1]; [Sornda et al., 2019][4]). We recently showed that post-reproductive mothers vent yolk which functions as a milk ( yolk milk ), supporting larval growth that is consumed by larvae ([Kern et al., 2020][5]). This form of massive reproductive effort involving biomass repurposing leading to organ degeneration is characteristic of semelparous organisms (i.e. that exhibit only a single reproductive episode) ranging from monocarpic plants to Pacific salmon where it leads to rapid death (reproductive death) ([Finch, 1990][6]; [Gems et al., 2020][7]). Removal of the germline greatly increases lifespan in both C. elegans and Pacific salmon, in the latter case by suppressing semelparous reproductive death ([Hsin and Kenyon, 1999][8]; [Robertson, 1961][9]). Here we present evidence that reproductive death occurs in C. elegans , and that it is suppressed by germline removal, leading to extension of lifespan. Comparing three Caenorhabditis sibling species pairs with hermaphrodites and females, we show that lactation and massive early pathology only occurs in the former. In each case, hermaphrodites are shorter lived and only in hermaphrodites does germline removal markedly increase lifespan. Semelparous reproductive death has previously been viewed as distinct from ageing; however, drawing on recent theories of ageing ([Blagosklonny, 2006][10]; [de Magalhães and Church, 2005][11]; [Maklakov and Chapman, 2019][12]), we argue that it involves exaggerated versions of programmatic mechanisms that to a smaller extent contribute to ageing in non-semelparous species. Thus, despite the presence of reproductive death, mechanisms of ageing in C. elegans are informative about ageing in general. ### Competing Interest Statement The authors have declared no competing interest. [1]: #ref-10 [2]: #ref-15 [3]: #ref-20 [4]: #ref-37 [5]: #ref-26 [6]: #ref-11 [7]: #ref-17 [8]: #ref-23 [9]: #ref-33 [10]: #ref-5 [11]: #ref-8 [12]: #ref-31