Yetlanezi Velázquez-Cárdenas scite author profile

Yetlanezi Velázquez-Cárdenas

2Publications

2Citation Statements Received

41Citation Statements Given

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Affiliations

Universidad Autónoma Metropolitana

Publications

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Ethnoichthyology and Ethnotaxonomy of the Kichwa Indigenous People of Arawanu (Arajuno), in the Ecuadorian Amazon

et al. 2022

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The Amazon Basin is home to a great number of Indigenous nationalities that have coevolved with aquatic habitats and fish resulting in a precise traditional ecological knowledge. Nevertheless, this biocultural heritage is threatened by the degradation of rivers and fisheries, and cultural erosion. This research was designed and carried out in the community of Arawanu (Arajuno in Spanish), in the Ecuadorian Amazon, and was requested by the local Kichwa people looking for guidance to gather, systematize and disseminate their ethnoichthyological knowledge. Data collection was carried out through participatory workshops using the pile sorting technique in group dynamics, to identify, name and classify local fish and compile biocultural information about them. From the Linnaean taxonomic perspective, 86 taxa were identified, included in 26 families, and corresponded with 16 Kichwa ethnofamilies and 58 ethnospecies. Five classification levels were identified: (I) Aycha: unique beginner–Animalia kingdom; (II) Yaku Aycha: life form–Pisces superclass; (III) Ayllukuna: ethnofamilies–Linnaean families; (IV) Ethnogenera–Linnaean genus; and (V) Ethnospecies–Linnaean species. A one-to-one correspondence was registered between 35 Kichwa ethnospecies and Linnean species, along with one case of over-differentiation and 21 cases of subdifferentiation (Type A: 7; Type B: 14). The Kichwa ethnoichthyological classification is multidimensional and considers attributes like skin and scales, fishbones and spines, meat quality, body shape, diet, and salience. Of the 58 ethnospecies, 38 were valued for consumption, while medicinal and spiritual uses were mentioned for 40 of them. The participatory work created a forum to discuss the value and threats to ichthyofauna and freshwater systems, enabled the dissemination of their biocultural heritage, and highlighted the cultural relevance of hydro-social ecosystems in their livelihood. The collected information may be critical to adapt local education systems to the Kichwa worldview and to pass down traditional ecological knowledge to future generations, fostering a respectful, careful and conscious relationship between humans and nature. Our results offer a solid and novel information compilation and practical guidance for participatory ethnobiological surveys. Additionally, the ethnobiological and the ethnotaxonomical information establishes the basis to develop sustainable fishing strategies and promote conservation of the local ichthyofauna.

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Do Harvest Practices of Bromeliads and Forest Management in Sierra Norte of Oaxaca Have a Negative Effect on their Abundance and Phorophyte Preference?

Velázquez-Cárdenas¹,

Rendón-Aguilar²,

Espejo‐Serna³

2021

Ethnobio Conserv

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The present study recorded inhabitants' traditional knowledge and uses of bromeliads and the phorophytes present in their ecosystems in two localities of Oaxaca. We also evaluated the effect of harvest practices on the abundance and distribution of the populations of these epiphytes on different phorophytes, considering the existence, or not, of a Forest Management Program. Structured interviews were conducted with 60 adults to identify the species of bromeliads of greater cultural importance (BGCI). We identified recurrent harvest sites (RHS) and occasional harvest sites (OHS) in order to estimate the abundance and phorophyte preference of BGCI. Traditional names and uses of epiphytes and phorophytes are described; it was identified that Tillandsia deppeana, T. lucida and Catopsis occulta had the highest BGCI in both localities. Their populations showed greater abundance values in OHS in both localities compared with RHS (χ 2 gl6 = 296.99, p < 0.05). T. deppeana and T. lucida were shown to prefer Quercus elliptica, while distribution of C. occulta showed a preference for Q. rugosa and Pinus oocarpa; however, phorophyte preference patterns of bromeliads may be influenced by the intensity of forest management. Decrease in abundance as the size category increased was recorded in three species, as well as the adult harvest. Finally, the inhabitants of both communities demonstrate similarities in their traditional knowledge, the intensity of harvest may be a factor influencing their abundance and preference of phorophytes, but also forest management programs determine the availability of bromeliads populations, due to the phorophytes specificity that some bromeliads exhibited.

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