Abstract
The harvesting of açaí berries (palm fruits from the genus Euterpe) in Amazonia has increased over the last 20 years due to a high local and global market demand and triggered by their widely acclaimed health benefits as a ‘superfood’. Although such increase represents a financial boom for local communities, unregulated extraction in Amazonia risks negative environmental effects including biodiversity loss through açai intensification and deforestation. Alternatively, the introduction of certified sustainable agroforestry production programs of açaí has been strategically applied to reduce the exploitation of Amazonian forests. Local açaí producers are required to follow principles of defined sustainable management practices, environmental guidelines, and social behaviors, paying specific attention to fair trade and human rights. In this study we investigate whether sustainable agroforestry and certification effectively promotes biodiversity conservation in Amazonia. To address this question, we conducted a forestry inventory in two hectares of long-term certified açai harvesting areas to gain further knowledge on the plant diversity and forest structure in açaí managed forests and to understand the contribution of certification towards sustainable forest management. On average, we found that certified managed forests harbor 50% more tree species than non-certified açaí groves. Trees in certified areas also have significantly higher mean basal area, meaning larger and hence older individuals are more likely to be protected. Certified harvesting sites also harbor dense populations of threatened species as classified by the International Union for Conservation of Nature (e.g. Virola surinamensis, classified as ‘endangered’). Besides increasing the knowledge of plant diversity in açaí managed areas, we present baseline information for monitoring the impact of harvesting activities in natural ecosystems in Amazonia.
Highlights
The expansion of the acaı (Euterpe sp.) fruit economy in Amazonia has supplied a growing worldwide demand but has helped to establish new frontiers of commercialization
In this study we investigate whether sustainable agroforestry and certification effectively promotes biodiversity conservation in Amazonia
Management practices typically include the gradual removal of other native trees near acaı palms, promoting canopy opening, and reducing overall competition for light and nutrients
Summary
The expansion of the acaı (Euterpe sp.) fruit economy in Amazonia has supplied a growing worldwide demand but has helped to establish new frontiers of commercialization. Acaı agroforestry does not involve outright deforestation, intensive management practices gradually replace native tree species by thinning and/or with dense acaı palm plantings in the understory to enhance productivity (Homma et al 2006; Freitas et al 2015). Management practices typically include the gradual removal of other native trees near acaı palms, promoting canopy opening, and reducing overall competition for light and nutrients. Due to high demand for organic and sustainable products, acaı food companies (especially from North America and Europe) have invested in certification programs that inform consumers about whether the product is in accordance with health, ecosystem conservation, and human rights (e.g. USDA Organic, Regenerative Organic, Biodynamic, Fair trade and Fair for Life)
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