Phylogenetic patterns of rarity in a regional species pool of tropical woody plants

Aim: Rarity, which is believed to influence extinction risk, can be defined in terms of local abundance, geographical range size and habitat breadth. Phylogenetic patterns in these attributes provide insight into the extent to which rarity and extinction risk are conserved during evolution and the p...

Full description

Saved in:
Bibliographic Details
Published in:Global ecology and biogeography 2017-09, Vol.26 (9/10), p.1043-1054
Main Authors: Loza, M. Isabel, Jiménez, Iván, Jørgensen, Peter M., Arellano, Gabriel, Macía, Manuel J., Torrez, Vania W., Ricklefs, Robert E.
Format: Article
Language:English
Subjects:
Abundance
Andean floras
Axes (reference lines)
Biological evolution
Bolivia
Endangered & extinct species
Evolution
Extinction
Flowers & plants
Forests
Genera
geographical range size
habitat breadth
Habitats
Heritability
local abundance
Madidi
phylogenetic conservatism
phylogenetic signal
Phylogenetics
Phylogeny
Plant species
Plants (botany)
rarity
Species extinction
Taxa
Taxonomy
Variance
Woody plants
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Aim: Rarity, which is believed to influence extinction risk, can be defined in terms of local abundance, geographical range size and habitat breadth. Phylogenetic patterns in these attributes provide insight into the extent to which rarity and extinction risk are conserved during evolution and the potential for species-level heritability. We evaluated phylogenetic signal (i.e., related species resembling each other more than species drawn at random) and evolutionary conservatism (similarity among related species exceeding that expected from a Brownian model of evolution) in three axes of rarity (local abundance, geographical range size and habitat breadth) among species in a regional pool of tropical woody plants. Location: The Madidi region in Bolivia. Time period: 2001–2010. Major taxa studied: Lignophyta clade. Methods: We used a network of 48 1-ha forest plots and 442 0.1-ha forest plots to measure local abundance and habitat breadth of 1,700+ woody plant species (from 100+ plant families). We estimated geographical range size from occurrence records of individual species across the Neotropics. We characterized overall phylogenetic patterns of rarity using Blomberg's K and applied variance partitioning among taxonomic levels, as well as disparity analysis, to describe patterns of trait distribution at different depths in the phylogeny. Results: We found phylogenetic signal, but not evolutionary conservatism, in the three axes of rarity. The variance in rarity among supra-specific taxa, particularly families and genera, exceeded that calculated from random draws of species from the Madidi region. Phylogenetic signal, estimated by the proportion of variance among supra-specific taxonomic levels, varied between 23 and 36% for local abundance and geographical range size, and between 9 and 10% for habitat breadth. Main conclusions: The regional pool of woody plant species in Madidi exhibits phylogenetic signal in rarity that is consistent with biologically significant species-level heritability.
ISSN:1466-822X
1466-8238
DOI:10.1111/geb.12615