# Different Methodologies Result in Opposite Patterns of Diversification Rates in Flowering Plants Across Latitudes

**Authors:** Hong Qian, Michael Kessler

PMC · DOI: 10.1002/ece3.73010 · 2026-01-28

## TL;DR

This study finds that diversification rates of flowering plants decrease with increasing latitude when using a phylogeny-free method, contradicting previous findings that used phylogeny-based methods.

## Contribution

The study applies a non-phylogeny method to estimate diversification rates in angiosperms, revealing a trend opposite to prior phylogeny-based results.

## Key findings

- Diversification rates of angiosperms decrease with increasing latitude using the method-of-moments estimator.
- Results contradict previous studies that found increasing diversification rates with latitude in angiosperms.
- More data from under-studied angiosperm groups are needed to improve phylogenetic resolution and method robustness.

## Abstract

There are two major groups of methods estimating diversification rates: One group depends on well resolved phylogenies and the other is phylogeny‐free. Previous studies on angiosperms (flowering plants) have used phylogeny‐based methods to estimate diversification rates and concluded that diversification rates increase with increasing latitudes, a trend opposite to that of liverworts, mosses and ferns, for which diversification rates were estimated with the method‐of‐moments estimator, a nonphylogeny method. In this study, we use the method‐of‐moments estimator to estimate diversification rates of angiosperm species within genera worldwide. We find that diversification rates decrease with increasing latitudes. The result of our study is thus contrary to those of previous studies on angiosperms. We discuss the degree to which these differences are due to methodological limitations of using phylogeny‐based approaches to estimate diversification rates of angiosperms. More data from poorly studied angiosperm groups are needed so that we can move toward developing well‐resolved species‐level phylogenies for angiosperms, which will allow a better assessment of the robustness of various diversification estimation methods.

Variation in mean net diversification rate (MNDR) of angiosperms in geographic units across latitude and between tropical and temperate latitudes.

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12852505/full.md

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Source: https://tomesphere.com/paper/PMC12852505