Optimal rotation age for carbon sequestration and biodiversity conservation in Vietnam

Abstract

Biodiversity loss is a major problem in terms of loss of genetic and ecosystem services and more specifically via impacts on the livelihoods, food security and health of the poor. This study modeled forest management strategies that balance economic gains and biodiversity conservation benefits in planted tropical forests. A forest-level model was developed that maximized the net present value (NPV) from selling timber and carbon sequestration while maintaining a given level of biodiversity (as per the population density of birds). The model was applied to Eucalyptus urophylla planted forests in Yen Bai Province, Vietnam. It was found that the inclusion of biodiversity conservation in the model induces a longer optimal rotation age compared to the period that maximizes the joint value from timber and carbon sequestration (from 8 to 10.9years). The average NPV when considering timber values plus carbon sequestration was 13million Vietnamese Dong (VND) ha−1 (765USDha−1), and timber, carbon sequestration and biodiversity values were 11million VND (676 USD) ha−1. Given this differential, governments in such tropical countries may need to consider additional incentives to forest owners if they are to encourage maximizing biodiversity and its associated benefits. The results also have some implications for implementing the climate control measure of “Reducing Emissions from Deforestation and Forest Degradation-plus (REDD+)” in developing countries, i.e., payment for carbon sequestration and biodiversity benefits in planted forests.