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Spatial distribution and environmental preferences of 10 economically important forest palms in western South America

Auteur: 
Mia Vedel-Sørensen, Jantrararuk Tovaranonte, Peder Klit Bøcher, Henrik Balslev, Anders S. Barfod
Jaar: 
2013
Artikel Volume: 
307
Artikel pagina's: 
284-292
Artikel type: 
Journal Article
Artikel URL: 
Sustainable management strategies for tropical forest ecosystems require a detailed understanding of the distribution of tropical forest species, limitations on distribution, as well as occurrence patterns in the absence of limitations. In the Americas, many tropical palms (Arecaceae) are locally abundant keystone species that provide a number of non-timber forest products. Here we focus on 10 such species (Aphandra natalia, Attalea phalerata, Euterpe oleracea, Iriartea deltoidea, Mauritia flexousa, Oenocarpus bataua, Phytele- phas aequatorialis, Phytelephas macrocarpa, and Phytelephas seemannii) found in western South America. This study aimed to determine: (i) what variables control potential species distribution, (ii) whether their distribution is spatially constrained and if so, (iii) how their potential ranges compare to their actual ranges. We built species distribution models using Maxent software with three groups of predictor vari- ables: C (climatic), N (non-climatic environmental), S (spatial), and combinations thereof: C, CN and CNS. The CNS predictor variable combination gave superior predictive ability based on median Area Under the Curve (AUC) values and was consistent with available range maps. In contrast, individual C and CN pre- dictor variables gave inferior AUC values and showed less similarity to range maps. We concluded that the CNS model that combined climatic, non-climatic, and spatial variables best represented the actual distribution of the 10 palm species, whereas C and CN models approached their potential distribution. Precipitation during the driest quarter and annual precipitation were the most important predictors of the potential distribution, whereas temperature of the coldest month, soil, and the Normalized Difference Vegetation Index (NDVI) were less important. We found that the actual distributions of palm species were spatially constrained, and that the spatial variables largely coincided with the dispersal barriers of the Andean Cordillera and past climatic fluctuations. The estimated potential range varied from nearly equal to the actual range, to up to 0.55 ? 106 km2 (55.1 ? 106 ha) larger than the actual range, depending on model, threshold settings, and species.Wethus concluded that current palm resources in the forests of western South America have major potential for ecological expansion. These results are relevant to cur- rent palm management and resource conservation planning, as well as future strategies that will have to address climate change and increasing human disturbance.

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