Drivers and constraints on floral latitudinal diversification gradients

0491791 - GLÚ 2019 RIV GB eng J - Journal Article
Jardine, P. E. - Harrington, G. J. - Sessa, J. A. - Dašková, Jiřina
Drivers and constraints on floral latitudinal diversification gradients.
Journal of Biogeography. Roč. 45, č. 6 (2018), s. 1408-1419. ISSN 0305-0270. E-ISSN 1365-2699
Institutional support: RVO:67985831
Keywords : fossil record * latitudinal diversity gradient * plants * pollen * richness * speciation
OECD category: Paleontology
Impact factor: 3.884, year: 2018

Aim: The latitudinal diversity gradient (LDG) is a primary emergent property of the biosphere, yet the cause(s) of this pattern are still debated. Key to many hypotheses is the origins and maintenance of tropical hyperdiversity, and the role of climate in driving low latitude speciation. Here, we analyse patterns of tropical and extratropical floral diversification and migration during the early Palaeogene greenhouse interval, to shed further light on the relationship between climatic change, latitude and floral diversity.
Location: The early Palaeogene, from similar to 63 to 42 million years ago, of the US Gulf Coastal Plain (GCP) and Colombia.
Taxon: Terrestrial plants, using pollen and spores as a proxy.
Methods: We analyse species diversity trends using coverage and sample size-based interpolation and extrapolation, Chao1 estimated richness, and evenness metrics. Capture-mark-recapture (CMR) modelling is used to estimate origination and extinction probabilities. Origination patterns on the GCP are separated into insitu speciation versus immigration.
Results: While Colombian (tropical) palynofloral richness and origination rates increased in conjunction with warming, GCP richness remained stable. The single rise in GCP origination rates, coincident with the Palaeocene-Eocene Thermal Maximum, was largely driven by the immigration of Eurasian taxa, rather than insitu origination, which was the case in Colombia.
Main conclusions: These results show that the relationships among climatic parameters and diversification and dispersal are not straightforward. While temperature may have driven diversification in the tropics, other factors, such as precipitation, insolation or biological interactions, may have constrained diversification in the extratropics. Furthermore, our results suggest that outward dispersal from the tropics was limited in the warm world of the early Palaeogene, with most GCP immigrants being sourced from other extratropical regions. These findings suggest that the tropics and extratropics may have functioned independently at this time.
Permanent Link: http://hdl.handle.net/11104/0285420