Seed shadows, survival and recruitment: how simple mechanisms lead to dynamics of population recruitment curves

According to the Janzen-Connell hypothesis, seedling recruitment around tro pical trees is more likely away from parent trees because of density- or di stance-dependent predation or pathogen attack on seeds and seedlings. This was expected to lead to a more regular distribution of conspecific adults t han would be expected by chance, and to favour coexistence. We first show t heoretically that, even if yearly survival increases only slightly with dis tance to parent trees, an outward shift of seedling recruitment curves with time is very likely simply because seedlings live more than one year befor e recruiting to the juvenile stage. We tested this hypothesis for a humid s avanna, dioecious palm tree, Borassus aethiopum, for which three discrete s tages were defined by clear morphological traits. We found that (1) individ uals of the second seedling stage are found on average further from their m other than individuals of the first seedling stage, and juveniles are found even further away (relative outward shifts between the three successive st ages), and that (2) the older a female is, the further away its seedlings a re (temporal outward shifts of distributions of seedlings). Both yearly rec ruitment (transition between two stages) and survival of seedlings are dist ance dependent and not density dependent. A matrix population model was use d to demonstrate that, during the reproductive part of female palm life cyc le, the cumulative effects of these distance-dependent variations in yearly recruitment and survival rates are sufficient to explain qualitatively the observed outward shifts.