Modeling the effects of trait-mediated dispersal on coexistence of mutualists
Autor: | Ratnasingham Shivaji, Jerome Goddard, James T. Cronin, Amila Muthunayake |
---|---|
Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
mutualism
Population Population Dynamics reaction diffusion model 02 engineering and technology Biology Models Biological 0502 economics and business 0202 electrical engineering electronic engineering information engineering QA1-939 education Symbiosis Organism Ecosystem Mutualism (biology) education.field_of_study Habitat fragmentation trait-mediated dispersal Ecology Applied Mathematics 05 social sciences General Medicine Interaction systems dispersal-mediated allee effect Computational Mathematics Habitat Modeling and Simulation Trait Biological dispersal 020201 artificial intelligence & image processing habitat fragmentation General Agricultural and Biological Sciences 050203 business & management TP248.13-248.65 Mathematics Biotechnology |
Zdroj: | Mathematical Biosciences and Engineering, Vol 17, Iss 6, Pp 7838-7861 (2020) |
ISSN: | 1551-0018 |
DOI: | 10.3934/mbe.2020399?viewType=HTML |
Popis: | Even though mutualistic interactions are ubiquitous in nature, we are still far from making good predictions about the fate of mutualistic communities under threats such as habitat fragmentation and climate change. Fragmentation often causes declines in abundance of a species due to increased susceptibility to edge effects between remnant habitat patches and lower quality "matrix" surrounding these focal patches. It has been argued that ecological communities are replete with trait-mediated indirect effects, and that these effects may sometimes contribute more to the dynamics of a population than direct density-mediated effects, e.g., lowering an organism's fitness through competitive interactions. Although some studies have focused on trait-mediated behavior such as trait-mediated dispersal, in which an organism changes its dispersal patterns due to the presence of another species, they have been mostly limited to predator-prey systems-little is known regarding their effect on other interaction systems such as mutualism. Here, we explore consequences of fragmentation and trait-mediated dispersal on coexistence of a system of two mutualists by employing a model built upon the reaction diffusion framework. To distinguish between trait-mediated dispersal and density-mediated effects, we isolate effects of trait-mediated dispersal on the mutualistic system by excluding any direct density-mediated effects in the model. Our results demonstrate that fragmentation and trait-mediated dispersal can have important impacts on coexistence of mutualists. Specifically, one species can be better able to invade and persist than the other and be crucial to the success of the other species in the patch. Matrix quality degradation can also bring about a complete reversal of the role of which species is supporting the other's persistence in the patch, even as the patch size remains constant. As most mutualistic relationships are identified based on density-mediated effects, such an effect may be easily overlooked. |
Databáze: | OpenAIRE |
Externí odkaz: |