A1 Refereed original research article in a scientific journal
Using forestry inventories and satellite imagery to assess floristic variation in bamboo-dominated forests in Peruvian Amazonia
Authors: Pablo Pérez Chaves, Natalia Reategui Echeverri, Kalle Ruokolainen, Risto Kalliola, Jasper Van doninck, Elvira Gómez Rivero, Gabriela Zuquim, Hanna Tuomisto
Publisher: WILEY
Publication year: 2020
Journal: Journal of Vegetation Science
Journal name in source: JOURNAL OF VEGETATION SCIENCE
Journal acronym: J VEG SCI
Number of pages: 15
ISSN: 1100-9233
eISSN: 1654-1103
DOI: https://doi.org/10.1111/jvs.12938(external)
Abstract
Questions Does the floristic composition of trees differ between bamboo forests and adjacent non-bamboo forests? Can the degree of compositional differences be predicted from differences in canopy reflectance as measured by Landsat satellites? Are the results sensitive to different taxonomical data cleaning strategies, or to which tree-size class is considered? Are some tree taxa associated with either bamboo or non-bamboo forests? Location Peruvian Amazonia. Methods We used national forestry inventory data to characterise floristic composition of trees at 25 sites. Bamboo and non-bamboo forests were identified with a pixel-based time series analysis using the entire Landsat TM/ETM+ archive. To visualise floristic similarity among the plots, we used non-metric multidimensional scaling. Floristic differences between bamboo and non-bamboo forests were tested using an analysis of similarity (ANOSIM). Mantel tests were used to assess correlation between floristic turnover and differences in canopy reflectance. We tested the impact of applying three different taxonomic data cleaning strategies and of analysing different tree-size classes. Finally, we ran an indicator species analysis to identify taxa that were associated with either bamboo or non-bamboo forests. Results In floristic ordinations, bamboo-dominated forests appeared floristically distinct from non-bamboo forests regardless of the taxonomic cleaning strategy and tree-size class. This floristic separation was also confirmed through analysis of floristic similarity (ANOSIM). Turnover in floristic composition was strongly correlated with differences in the reflectance values of Landsat bands, especially when using genus-level rather than species-level data. Different palm taxa were associated with bamboo (Socratea) and non-bamboo forests (Iriartea). Conclusions Floristic differences of trees between bamboo-dominated and non-bamboo forests are consistent enough to be observable with different tree-size classes and taxonomic cleaning strategies. Although coarsening the taxonomic resolution to the genus level may hide ecological detail from the results, the fact that it allows keeping incompletely identified stems in the analyses seems to compensate for this.
Questions Does the floristic composition of trees differ between bamboo forests and adjacent non-bamboo forests? Can the degree of compositional differences be predicted from differences in canopy reflectance as measured by Landsat satellites? Are the results sensitive to different taxonomical data cleaning strategies, or to which tree-size class is considered? Are some tree taxa associated with either bamboo or non-bamboo forests? Location Peruvian Amazonia. Methods We used national forestry inventory data to characterise floristic composition of trees at 25 sites. Bamboo and non-bamboo forests were identified with a pixel-based time series analysis using the entire Landsat TM/ETM+ archive. To visualise floristic similarity among the plots, we used non-metric multidimensional scaling. Floristic differences between bamboo and non-bamboo forests were tested using an analysis of similarity (ANOSIM). Mantel tests were used to assess correlation between floristic turnover and differences in canopy reflectance. We tested the impact of applying three different taxonomic data cleaning strategies and of analysing different tree-size classes. Finally, we ran an indicator species analysis to identify taxa that were associated with either bamboo or non-bamboo forests. Results In floristic ordinations, bamboo-dominated forests appeared floristically distinct from non-bamboo forests regardless of the taxonomic cleaning strategy and tree-size class. This floristic separation was also confirmed through analysis of floristic similarity (ANOSIM). Turnover in floristic composition was strongly correlated with differences in the reflectance values of Landsat bands, especially when using genus-level rather than species-level data. Different palm taxa were associated with bamboo (Socratea) and non-bamboo forests (Iriartea). Conclusions Floristic differences of trees between bamboo-dominated and non-bamboo forests are consistent enough to be observable with different tree-size classes and taxonomic cleaning strategies. Although coarsening the taxonomic resolution to the genus level may hide ecological detail from the results, the fact that it allows keeping incompletely identified stems in the analyses seems to compensate for this.
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