Morphology and Allometry of Juvenile Açaí Palms Under Cultivation Conditions in Central Amazonia

Morphology and Allometry of Juvenile Açaí Palms Under Cultivation Conditions in Central Amazonia

Two Amazonian species of açaí palm trees (<i>Euterpe oleracea</i> and <i>Euterpe precatoria</i>) are exploited in the commercial production of açaí pulp or juice. While <i>E. oleracea</i> benefits from developed cultivation technologies, <i>E. precatoria<...

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Main Authors: Jhon Paul Mathews Delgado, Raimundo Nonato Vieira da Cunha, Ronaldo Ribeiro de Morais, Maria Teresa Gomes Lopes, Santiago Linorio Ferreyra Ramos, Maria do Rosário Lobato Rodrigues, Nathalia Maíra Cabral de Medeiros, Carlos Henrique Salvino Gadelha Meneses, Edson Barcelos, Ricardo Lopes
Format: Article
Language:English
Published: MDPI AG 2024-10-01
Series:Horticulturae
Subjects:
<i>E. oleracea</i>
<i>E. precatoria</i>
açaí cultivation
leaf morphology
allometric equations
Amazonian crops
Online Access:https://www.mdpi.com/2311-7524/10/10/1119
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Summary:Two Amazonian species of açaí palm trees (<i>Euterpe oleracea</i> and <i>Euterpe precatoria</i>) are exploited in the commercial production of açaí pulp or juice. While <i>E. oleracea</i> benefits from developed cultivation technologies, <i>E. precatoria</i> lacks such advancements. Studies on the morphology and development of açaí palms under cultivation conditions can contribute to increasing the productivity of the species. The aim of this study was to carry out morphological characterization, assess growth and development in the juvenile phase of the plants, and obtain allometric models for <i>E. precatoria</i> and <i>E. oleracea</i>. Evaluations were conducted between 44 and 48 months post-planting. Allometric equations were formulated to accurately estimate leaf area. The results showed that <i>E. oleracea</i> begins reproduction earlier and exhibits greater growth in stem dimensions and leaf areas compared to <i>E. precatoria</i>, indicating that <i>E. precatoria</i> can be cultivated at higher planting densities. Allometric models, based on leaf length and width, effectively predicted individual leaf areas for both species, demonstrating their utility in optimizing cultivation strategies.
ISSN:2311-7524

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