Population Density as an Equalizing (or Misbalancing) Mechanism for Species Coexistence

Despite the general acknowledgment of the role of niche and fitness differences in community dynamics, species abundance has been coined as a relevant feature not just regarding niche perspectives, but also according to neutral perspectives. Here we explore a minimum probabilistic stochastic model to evaluate the role of populations relative initial and total abundances on species chances to outcompete each other and their persistence in time (i.e., unstable coexistence). The present results show that taking into account the stochasticity in demographic properties and conservation of individuals in closed communities (zero-sum assumption), population initial abundance can strongly influence species chances to outcompete each other, and also influence the period of coexistence of these species in a particular time interval. Systems carrying capacity can have an important role in species coexistence by exacerbating fitness inequalities and affecting the size of the period of coexistence. This study also shows that populations initial abundances can act as an equalizing mechanism, reducing fitness inequalities, which can favor species coexistence and even make less fitted species to be more likely to outcompete better fitted species, and thus to dominate ecological communities in the absence of niche mechanisms.