AI Article Synopsis
- Evolutionary processes and ecological mechanisms that create and sustain biodiversity are complex and varied.
- Traditional theories explaining biodiversity, like niche differentiation and habitat variety, work well for larger organisms but struggle to clarify the high diversity seen in microscopic organisms.
- A new spatial model suggests that antibiotic interactions among microbes could play a significant role in maintaining this diversity, particularly in bacterial communities that often exceed the diversity found in larger, macrobial systems.
Article Abstract
Evolutionary processes generating biodiversity and ecological mechanisms maintaining biodiversity seem to be diverse themselves. Conventional explanations of biodiversity such as niche differentiation, density-dependent predation pressure, or habitat heterogeneity seem satisfactory to explain diversity in communities of macrobial organisms such as higher plants and animals. For a long time the often high diversity among microscopic organisms in seemingly uniform environments, the famous "paradox of the plankton," has been difficult to understand. The biodiversity in bacterial communities has been shown to be sometimes orders of magnitudes higher than the diversity of known macrobial systems. Based on a spatially explicit game theoretical model with multiply cyclic dominance structures, we suggest that antibiotic interactions within microbial communities may be very effective in maintaining diversity.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC117383 | PMC |
| http://dx.doi.org/10.1073/pnas.012399899 | DOI Listing |
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