‘More tight-less tight’ Patterns in the Climatic Niche Evolution of Gymnocalycium (Cactaceae): Were Pleistocene Glaciations a Prelude?
Rahul Raveendran Nair, Alicia N. Sérsic, Pablo H. Demaio, Solana B. Perotti, Diego E. Gurvich, Patrick Stephens, Patrick Stephens, Patrick Stephens, Patrick Stephens

TL;DR
This study explores how Gymnocalycium cacti evolved their climate niches, finding that their ecological preferences changed over time, possibly influenced by Pleistocene glaciations.
Contribution
This is the first study to analyze the evolutionary dynamics of the ecological niches of Gymnocalycium species.
Findings
Narrow-ranged Gymnocalycium species show evolving climatic niches rather than high conservatism.
Thermal and precipitation niches evolved differently across the Gymnocalycium phylogeny.
Pleistocene glaciations likely influenced lineage divergence and niche evolution in Gymnocalycium.
Abstract
Cacti have undergone some of the fastest diversification events in the plant kingdom despite their slow growth rates and extended generation times. This rapid evolution may be driven by intense ecological interactions. Here we tested, for the first time, the evolutionary dynamics of the ecological niches of Gymnocalycium species focusing on two key environmental factors: temperature and precipitation. To explore patterns of niche conservatism and/or evolution and identify major contributing factors, we reconstructed ancestral niches associated with these climatic dimensions using the binned ancestral range coding method. Our findings reveal that (1) the climatic-niches of narrow-ranged Gymnocalycium species are not highly conserved across the phylogeny (i.e., niches are evolving), (2) the evolutionary dynamics of thermal and precipitation niches across the Gymnocalycium phylogeny do not…
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Taxonomy
TopicsPlant Diversity and Evolution · Plant and animal studies · Ecology and Vegetation Dynamics Studies
