New algorithm explores future changes in plant populations
August 23rd, 2009 - 11:18 am ICT by ANIWashington, August 23 (ANI): In a new research, a team of scientists has developed an algorithm that may be used to predict the future changes in plant populations.
The algorithm has been developed by scientists Sean Hammond and Karl Niklas.
It is called spatially explicit, reiterative algorithm, or SERA-that explores whether changes occurring in plant communities, such as self-thinning and the competitive displacement of one species by another, can be attributed to the characteristics of the individual plants that comprise the community.
“Our model predicts how a plant population or community will behave when plant-plant interactions are predicated exclusively on the constraints imposed by a few physical principles and by competition for physical space and light,” stated Dr. Niklas.
Recent empirical studies have shown that a variety of plant communities in different environments exhibit some of the same size-dependent and age-dependent trends.
One example is the relationship between the mass of tree canopies and the diameter of the tree trunks.
In the simulations of plant growth within a community performed by SERA, various trends emerged as a result of competition for light and space among the individual plants, and these trends are in agreement with the trends found empirically in plant populations.
Other results of SERA simulations were also found to be in agreement with empirical data.
Although a few million years late, SERA predicted that angiosperms would outcompete gymnosperms as the dominant land plants, and it was able to accurately predict the age at which a variety of plant species would reach reproductive maturity.
“Remarkably, our model predicts the behavior of real plant populations, and thus suggests to us that many ‘complex’ ecological interactions emerge as a result of a few very ’simple’ processes,” commented Dr. Niklas.
SERA may be very useful in predicting changes in community development and composition as environmental and climatic variability increases. (ANI)
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Tags: algorithm, displacement, dominant land, ecological interactions, empirical data, empirical studies, land plants, light and space, million years, physical principles, physical space, plant communities, plant growth, plant interactions, plant population, plant populations, plant species, reproductive maturity, tree canopies, tree trunks