Mammal and butterfly species richness in Chile: taxonomic covariation and history

Abstract: Understanding species richness spatial distribution is of fundamental importance to face the current biodiversity crisis that affects biotas around the world. Taxonomical covariation in species occurrence may offer the possibility to identify common factors that restrict species richness, as well as some guidelines to the identification of key areas for conservation purposes. To this aim, we analyze the geographic distribution of mammals and butterflies in Chile using 0.5° latitude and longitude quadrats. We f… Show more

“…yr. BP based on the evidence from Monte Verde and other archeological sites in the Americas (Dillehay et al, 2008;Meltzer, 2009), originated at midlatitudes from rapid postglacial woodland expansion from small and restricted glacial refuges and sparse Nothofagus forests in the neighborhood of glaciated territories (Heusser and Heusser, 2006;Markgraf et al, 2009). Although the structure and composition of forests today is a consequence of the warmer climate developed during the current interglacial, the latitudinal distribution of tree species richness, as well as vertebrates and invertebrates (Samaniego and Marquet, 2009) still bears the imprint of glacial impacts on vegetation cover, as the biologically richest forests are found in the transition between temperate and Mediterraneanclimate regions (Fig. 2).…”

From the Holocene to the Anthropocene: A historical framework for land cover change in southwestern South America in the past 15,000 years

“…yr. BP based on the evidence from Monte Verde and other archeological sites in the Americas (Dillehay et al, 2008;Meltzer, 2009), originated at midlatitudes from rapid postglacial woodland expansion from small and restricted glacial refuges and sparse Nothofagus forests in the neighborhood of glaciated territories (Heusser and Heusser, 2006;Markgraf et al, 2009). Although the structure and composition of forests today is a consequence of the warmer climate developed during the current interglacial, the latitudinal distribution of tree species richness, as well as vertebrates and invertebrates (Samaniego and Marquet, 2009) still bears the imprint of glacial impacts on vegetation cover, as the biologically richest forests are found in the transition between temperate and Mediterraneanclimate regions (Fig. 2).…”

From the Holocene to the Anthropocene: A historical framework for land cover change in southwestern South America in the past 15,000 years

“…On our transect, productivity, as established by available moisture and mean annual temperature, is highest at intermediate elevations in the Puna shrub belt in the zone where plant cover and diversity peak (Latorre, 2002), as we show butterfly diversity does as well. A larger-scale analysis of factors governing butterfly species richness in different regions of Chile showed that, in the Northern Puna highlands and Atacama desert ecoregions, the most important predictors for butterfly richness are increases in temperature and elevation (Samaniego and Marquet, 2009).…”

Species Richness and Phenology of Butterflies Along an Altitude Gradient in the Desert of Northern Chile

“…5); these floristic elements became dominant 35 Ma, under cool conditions (Hinojosa et al, 2006a). Undoubtedly, historical constraints at different temporal scales are a distinctive character of the southern South American biota highlighted in the current distribution of taxa with different phylogenetic histories and physiological requirements, such as plants, mammals and butterflies Samaniego & Marquet, 2009).…”

Historical and phylogenetic constraints on the incidence of entire leaf margins: insights from a new South American model