Modeling tree masting:- Some species of trees go through a process called masting, involving periodical cycles of synchronized mass production of fruits and seeds.[Newswise] 
Science & Tech

Modeling tree masting

Some species of trees go through a process called masting, involving periodical cycles of synchronized mass production of fruits and seeds, followed by much lower production in the next year or over several subsequent years.

NewsGram Desk

Modeling tree masting:- Some species of trees go through a process called masting, involving periodical cycles of synchronized mass production of fruits and seeds, followed by much lower production in the next year or over several subsequent years. Researchers at Hokkaido University have developed new computer-based models of masting that, amongst other uses, could help predict the effects of climate change on woodland and forests. Their work is published in the journal Ecological Modelling.

The effects of masting are not included in most commonly used dynamic vegetation models, a weakness that stimulated Tomomichi Kato, of Hokkaido University’s Research Faculty of Agriculture, and Lea Végh, of the National Institute for Environmental Studies, to address this gap.

The over-production of seeds during masting imposes considerable nutritional and energy costs on the trees, but it is believed to have evolved to ensure the survival of sufficient seeds. If the animals that feed on the seeds have a sudden excess supply, they cannot eat all of them and enough seeds will remain to develop into seedlings.

“In addition to understanding the effects of masting on trees, our model could be useful for projecting the long-term trend of food availability, such as acorn production, for wild animals,” says Végh.

Masting can cause an increase in the population of rodents, and lead to moth, tick and Lyme disease outbreaks, so it can have significant effects on the complex interactions between humans and the natural world.

Végh and Kato developed four models of masting using combinations of three major masting theories, which cover the trees’ resource budget, pollen limitation and exposure to weather patterns. The initial versions of their models are focused on the Japanese Oak (Quercus crispula), which allowed the predictions to be validated by observations in a local temperate forest research facility rich in oak trees.

The results indicated that masting could affect tree mortality. When trees allocate too many resources to the flowering and acorn production, they might not be able to secure resources for other processes, increasing the rate of tree death.

Of the four models, the one that focused on the resource budget and pollen limitation gave the best agreement with real observations.

“Our models can be readily adapted to other species, making them suitable for worldwide application, such as simulating the effects of climate change on masting and mitigating negative impacts on forest ecosystems and human–wildlife interactions,” says Kato.

Further developments of the model will initially cover all of Japan and parts of East Asia. To apply it even more widely, the researchers will then seek opportunities for obtaining validation data from collaborators in the USA and Europe. Newswise/SP

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