25 research outputs found
Spatial distribution of feces and estimates of nitrogen return by dairy cows on mombasa grass pastures
Variant of estimation method of above-ground plant biomass in grassland with gamma model 1. Use of an electronic capacitance probe
Variant of estimation method of aboveground plant biomass in grassland with the gamma model. 2. Proposal of a modified method with visual observation and tests in Zoysia pastures
Seasonal differences in the adaptability of herbage species to environmental variations in a long-term grazing experiment
From agriculture based on fossil fuel resources to agriculture based on biological interactions and matter cycling in agroecosystems
On the Local Coexistence of Species in Plant Communities
Abstract: Coexistence of many competitive species is very common in natural plant communities. For example, almost all forests and grasslands consist of various species. Extremely high biodiversity is seen in tropical rain forests. Grassland communities also often consist of many species. In plant communities, spatially competitive species of plants coexist in a mosaic pattern. Communities with a single species are very extremely rare in nature. However, mathematical studies show that the local coexistence of spatially competitive species is rarely achieved even with two competitive species. Many studies have introduced external factors to promote coexistence, such as immigration of seeds, seed dormancy, spatial heterogeneity and stochastic environments. Certainly coexistence is achieved under some circumstance in these models. However, we lack the evidence of such external factors in many plant communities. Natural coexistence of competitive species seems more prevailing than that expected from that with external reasoning. Therefore, it is reasonable to consider the possibility of internal factors promoting local coexistence of competitive species. Here we consider a plant community of two spatially competitive species in a lattice environment. We simulate the competitive interactions between the two species. Unlike the traditional models, we assume that the competition between the two species induces the replacement/takeover of one species by the other. This competitive superiority means that the reaction acts like predation in a mathematical context. We show tha