Leftover trees enhance the biodiversity of new forests

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Trees left standing after deforestation have a discernible impact on the composition of local biodiversity in secondary growth forests, according to a new study published in PLOS ONE. Researchers working on the Osa Peninsula in Costa Rica discovered that remnant trees could affect species composition of regenerated forests up to 20 years after being logged.

Trees left standing after deforestation have a discernible impact on the composition of local biodiversity in secondary growth forests, according to a new study published in PLOS ONE. Researchers working on the Osa Peninsula in Costa Rica discovered that remnant trees could affect species composition of regenerated forests up to 20 years after being logged.

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When land that was once forest is abandoned after being cleared for timber or agricultural purposes, what emerges is known as a second-growth forest. Such "secondary forests" currently account for the majority of woodland in Europe and the U.S. and increasingly in the tropics as old-growth forests are lost. Ecologists have long suspected that remnant trees left over from original forests--often found in clusters known as "tree islands"--aid and accelerate the growth and development of secondary forests by altering soil chemistry, producing seeds and attracting small animals that disperse the seeds.

A team of scientists, including Manette Sandor and Robin Chazdon from the University of Connecticut, monitored the biodiversity of small plots of land in a secondary-growth forests that had previously been cleared for cattle pastures. By examining aerial photography and interviewing locals, the researchers were able to ascertain that the areas of woodland were approximately 20-years-old and had been farmed for 20 to 30 years before secondary growth occurred. The researchers chose ten remnant trees visible in old aerial photographs, each 50 meters from the edge of the old growth forest. Then they monitored plots of land around the trees, comparing these plots to others in secondary-growth forests that did not have remnant trees left over.

After monitoring the biodiversity of the plots, the researchers discovered that the areas without remnant trees housed 40 fewer species. Chazdon attributes this to the "ecological memory" of the left over trees.

"[Remnant trees] link the forests of the future with the forests of the past," she told mongabay.com. "During succession, because of their height and the biological resources they provide, they attract birds and bats that arrive from patches of old-growth forests in the landscape. So they support biodiversity outside of old-growth forests and also provide a focal point for the dispersal of old-growth tree species."

According to Chazdon, there is a worrying trend happening on the Osa Peninsula where farmers are removing forests to make way for pineapple cultivation, an important part of Costa Rica’s rural economy.

Read more from our affiliate, Mongabay.

Costa Rica image via Shutterstock.