The Morphological and Ecogeographic Characterization of the <i>Musa</i> L. Collection in the Gene Bank of INIAP, Ecuador

The Morphological and Ecogeographic Characterization of the <i>Musa</i> L. Collection in the Gene Bank of INIAP, Ecuador

The genus <i>Musa</i> L. is one of the most important genera worldwide due to its use in food as a source of carbohydrates. A morphological characterization was performed to evaluate the potential of 100 accessions of <i>Musa</i> spp. from the Amazon region of Ecuador, applyi...

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Main Authors: Nelly Avalos Poaquiza, Ramiro Acurio Vásconez, Luis Lima Tandazo, Álvaro Monteros-Altamirano, César Tapia Bastidas, Sigcha Morales Franklin, Marten Sørensen, Nelly Paredes Andrade
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Crops
Subjects:
genetic diversity
conservation
climate adaptation
plant genetic resources
Online Access:https://www.mdpi.com/2673-7655/5/3/34
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Summary:The genus <i>Musa</i> L. is one of the most important genera worldwide due to its use in food as a source of carbohydrates. A morphological characterization was performed to evaluate the potential of 100 accessions of <i>Musa</i> spp. from the Amazon region of Ecuador, applying 73 qualitative and quantitative descriptors in addition to the ecogeographic characterization. The multivariate analyses identified four large groups: The first is composed of the <i>Musa</i> AAB Simmonds ecotype “Hartón Plantain” and the “Cuerno Clone”. The second group is composed of the <i>Musa acuminata</i> Colla ecotype “Orito”. The third group is composed of the <i>Musa acuminata</i> ecotype “Malay plantain or red plantain”; and the fourth group is composed of the <i>Musa</i> × <i>paradisiaca</i> L. AAB ecotype “Barraganete” and banana or banana materials and the <i>Musa</i> AAB Simmonds ecotype “Plátano Dominico”. The qualitative descriptors with the highest discriminant value were the shape of the ♂ floret bud, the appearance of the rachis, and the pigmentation of the compound tepal, and the quantitative discriminant characters were the height of the pseudostem, the length of the leaf blade, the width of the leaf blade, and the weight of the raceme. The analysis with CAPFITOGEN of these 100 accessions through the ecogeographic characterization map identified 23 categories, highlighting category 20 with a coverage of 40.35%, which mainly includes the provinces of Orellana, Sucumbíos, part of Napo, Pastaza, and Morona Santiago. This category occurs within an annual temperature range between 21.6 °C and 27 °C, an apparent density of 1.25 to 1.44 g cm<sup>−3</sup>, and a cation exchange capacity (CEC) of 4 to 29 Cmol kg<sup>−1</sup>. The morphological characterization of 100 Musa accessions revealed significant phenotypic variability, with four distinct morphological groups identified through cluster analysis. Key differences were observed in traits such as bunch weight, fruit length, and vegetative vigor. This variability highlights the potential of certain accessions for use in genetic improvement programs. The findings contribute valuable information for the efficient conservation, selection, and utilization of the <i>Musa</i> germplasm in Ecuadorian agroecosystems. The results demonstrate the existence of an important genetic variability in the INIAP <i>Musa</i> Germplasm Bank in the Ecuadorian Amazon region.
ISSN:2673-7655

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