Angiosperm speciation cools down in the tropics

Igea, Javier; Tanentzap, Andrew J.

doi:10.1111/ele.13476

Cited by 80 publications

(100 citation statements)

References 76 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…15,16 ) suggesting that nontropical species exhibit high diversification rates despite the lower species richness of communities outside of the tropics. Our results are consistent with recent work that examined speciation rates across geographic space in angiosperms and showed lower angiosperm speciation in the tropics 14 . Our work significantly extends this effort by explicitly considering multiple definitions of tropicality, as well as the relationship between temperature and diversification over geological time and across multiple subclades.…”

Section: Discussionsupporting

confidence: 93%

“…This association is present both globally across all rosids and in rosid subclades, and is robust to several analytical methods, sensitivity tests, and several data sets representing temperaturespecies associations. Similar patterns of increased diversification with global cooling have been found in mammals 9 , birds 7 , and some other flowering plant lineages 10,11,14,38 . Both falling global temperature and aridification are compatible with the timing of diversification reconstructed here for rosids and most rosid subclades (~10-15 Myr to the present), a timeframe that also corresponds to the origin of many modern-day temperate plant Net diversification rate curves were generated using BAMM for each of the 17 rosid orders (clades) (a-q); each curve is a median line colored by order; the solid line is the original net diversification rate curve, the dotted line represents the rate of tropical lineages, and the dashed line represents the rate of non-tropical lineages (no curves displayed for any lineage with sample number < 3).…”

Section: Discussionsupporting

confidence: 65%

“…We found compelling evidence of a negative relationship between temperature and diversification in the rosids. These results are part of an emerging pattern in large-scale diversification studies 10,13,14,66 (but see refs. 15,16 ) suggesting that nontropical species exhibit high diversification rates despite the lower species richness of communities outside of the tropics.…”

Section: Discussionmentioning

confidence: 59%

“…The nature of this relationship has been highly variable, with some studies recovering a negative correlation (e.g., accelerated evolution during cool periods [9][10][11] ) and others a positive correlation (rapid evolution during warm periods 6,12 ). Likewise, studies of latitudinal gradients in diversification rate have found patterns congruent with both of these relationships (i.e., higher diversification at higher latitudes 13,14 , or higher diversification at lower latitudes 15,16 ) or, in some cases, with neither relationship 10,17 . There remains little consensus on the origins of these contrasting biodiversity patterns, with numerous hypotheses proposed across different taxa using different methodological approaches: e.g., the diversification rate hypothesis, the ecological regulation hypothesis, and the tropical conservatism hypothesis [18][19][20] .…”

mentioning

confidence: 91%

See 3 more Smart Citations

Recent accelerated diversification in rosids occurred outside the tropics

et al. 2020

View full text Add to dashboard Cite

Conflicting relationships have been found between diversification rate and temperature across disparate clades of life. Here, we use a supermatrix comprising nearly 20,000 species of rosids-a clade of~25% of all angiosperm species-to understand global patterns of diversification and its climatic association. Our approach incorporates historical global temperature, assessment of species' temperature niche, and two broad-scale characterizations of tropical versus non-tropical niche occupancy. We find the diversification rates of most subclades dramatically increased over the last 15 million years (Myr) during cooling associated with global expansion of temperate habitats. Climatic niche is negatively associated with diversification rates, with tropical rosids forming older communities and experiencing speciation rates~2-fold below rosids in cooler climates. Our results suggest long-term cooling had a disproportionate effect on non-tropical diversification rates, leading to dynamic young communities outside of the tropics, while relative stability in tropical climes led to older, slower-evolving but still species-rich communities.

show abstract

Section: Discussionsupporting

confidence: 93%

Section: Discussionsupporting

confidence: 65%

Section: Discussionmentioning

confidence: 59%

mentioning

confidence: 91%

See 2 more Smart Citations

Recent accelerated diversification in rosids occurred outside the tropics

et al. 2020

View full text Add to dashboard Cite

show abstract

“…We believe that the latitudinal nestedness gradient is caused by the well‐known pattern of decreasing temperature with latitude (Morueta‐Holme et al 2013). While still being debated (Igea and Tanentzap 2020), speciation rate is expected to be high at low latitudes and species ranges tend to be small, leading to different small‐ranged endemic species present in different areas. This would in turn lead to high turnover of species in regions at low latitudes.…”

Section: Discussionmentioning

confidence: 99%

Geographic patterns and environmental correlates of taxonomic and phylogenetic beta diversity for large‐scale angiosperm assemblages in China

et al. 2020

View full text Add to dashboard Cite

A full understanding of the origin and maintenance of β‐diversity patterns in a region requires exploring the relationships of both taxonomic and phylogenetic β‐diversity (TBD and PBD, respectively), and their respective turnover and nestedness components, with geographic and environmental distances. Here, we simultaneously investigated all these aspects of β‐diversity for angiosperms in China. Specifically, we evaluated the relative importance of environmental filtering vs dispersal limitation processes in shaping β‐diversity patterns. We found that TBD and PBD as quantified using a moving window approach decreased towards higher latitudes across the whole of China, and their turnover components were correlated with latitude more strongly than their nestedness components. When quantifying β‐diversity as pairwise distances, geographic and climatic distances across China together explained 60 and 53% of the variation in TBD and PBD, respectively. After the variation in β‐diversity explained by climatic distance was accounted for, geographic distance independently explained about 23 and 12% of the variation in TBD and PBD, respectively, across China. Overall, our results suggest that environmental filtering based on climatic tolerance conserved across lineages is the main force shaping β‐diversity patterns for angiosperms in China.

show abstract

A trait‐based approach to determining principles of plant biogeography

Vasconcelos

2023

American J of Botany

View full text Add to dashboard Cite

Lineage-specific traits determine how plants interact with their surrounding environment. Unrelated species may evolve similar phenotypic characteristics to tolerate, persist in, and invade environments with certain characteristics, resulting in some traits becoming relatively more common in certain types of habitats. Analyses of these general patterns of geographical trait distribution have led to the proposal of general principles to explain how plants diversify in space over time. Trait-environment correlation analyses quantify to what extent unrelated lineages have similar evolutionary responses to a given type of habitat. In this synthesis, I give a short historical overview on trait-environment correlation analyses, from some key observations from classic naturalists to modern approaches using trait evolution models, large phylogenies, and massive data sets of traits and distributions. I discuss some limitations of modern approaches, including the need for more realistic models, the lack of data from tropical areas, and the necessary focus on trait scoring that goes beyond macromorphology. Overcoming these limitations will allow the field to explore new questions related to trait lability and niche evolution and to better identify generalities and exceptions in how plants diversify in space over time.

show abstract

Angiosperm speciation cools down in the tropics

Cited by 80 publications

References 76 publications

Recent accelerated diversification in rosids occurred outside the tropics

Recent accelerated diversification in rosids occurred outside the tropics

Geographic patterns and environmental correlates of taxonomic and phylogenetic beta diversity for large‐scale angiosperm assemblages in China

A trait‐based approach to determining principles of plant biogeography

Contact Info

Product

Resources

About