Skip navigation

Repositorio Institucional Continental


Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.12394/7628
Title: Forest structure of three endemic species of the genus polylepis (Rosaceae) in central Perú
Alternative Titles: Estructura forestal de tres especies endémicas del género Polylepis (Rosaceae) en la Región Central del Perú
Authors: Camel, Vladimir F.
Quispe-Melgar, Harold R.
Ames-Martínez, Fressia N.
Navarro Romo, Wendy C.
Segovia-Salcedo, María C.
Kessler, Michael
Keywords: Ecosistemas
Ecología
Perú
Publisher: Universidad Continental
Issue Date: Nov-2019
Date available: 9-Jul-2020
Creation date: 2019
Bibliographic citation: Camel, V., Quispe-Melgar, H.R., Ames-Martínez, F.N., Navarro Romo, W.C., Segovia-Salcedo, M.C.,Kessler, M. (2019) Forest structure of three endemic species of the genus polylepis (Rosaceae) in central Perú. Ecologia Austral, 29(3), 285-295.
Abstract: Polylepis (Rosaceae) is the dominant tree genus in High-Andean forest ecosystems. These ecosystems are severely threatened, but litle is known about their structure and functioning. We provide the first reports of the dasometric structure and spatial distribution of eight forests of Polylepis canoi, P. flavipila and P. rodolfo-vasquezii in the Central Peruvian Andes as fundamental information for management and conservation policies. We sampled all individuals ≥1 cm of diameter at ground level (DGL) in 20 plots of 10x10 m in each forest, and measured total height (TH) and DGL. Also, we mapped the spatial distribution of the individuals in two plots of 30x30 m (X and Y axes). We found differences in the dasometric structure between forests of the same species, which, in some cases, were associated with climate, soil or elevation variables. However, no well-defined pattern was found. The allometric relationships of the linear and non-linear models did not differ widely with respect to the R2 nor to the Akaike (AIC) scores, indicating that the forests did not show a saturation of tree height with increasing diameter. In the P. canoi forests, individuals with diameters ≥10 cm were the most abundant. In contrast, the forests of P. rodolfo-vasquezii showed a predominance of individuals with diameters ≤10 cm, whereas P. flavipila presented an altered structure with no relationship between DGL and TH in one of the evaluated forests. The analysis of spatial distribution according to the Ripley’s K function on a small scale revealed that P. flavipila and P. canoi presented random patterns, whereas P. rodolfo-vasqueziishowed an aggregate pattern. Finally, our results showed that even forests of the same species have different dasometric structures, whereas spatial patterns differ only between species. So, caution must be taken when extrapolating information between species or forests during ecological studies and conservation actions.
Included in: http://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/issue/view/85
metadata.dc.format.extent: p. 285-295
Access: Acceso abierto
Source: Universidad Continental
Repositorio Institucional - Continental
Appears in Collections:Artículos Científicos

Files in This Item:
There are no files associated with this item.
Show full item record


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.