top of page

Big Cypress National Park

Publication: Reconstructing leaf area from fragments (Am. J. Bot).

I am very pleased to announce the publication of a new study, this time in paleobotany! This work represents the major part of my master's thesis work, on which I continued to work in parallel with my thesis.


Abstract

PREMISE: Fossil leaf traits can enable reconstruction of ancient environments and climates. Among these, leaf size has been particularly studied because it reflects several climatic forcings (e.g., precipitation and surface temperature) and, potentially, environment characteristics (e.g., nutrient availability, local topography, and openness of vegetation). However, imperfect preservation and fragmentation can corrupt its utilization. We provide improved methodology to estimate leaf size from fossil fragments.


METHODS: We apply three methods: (1) visually reconstructing leaf area based on taxon‐specific gross morphology; (2) estimating intact leaf area from vein density based on a vein scaling relationship; and (3) a novel complementary method, determining intact leaf length based on the tapering of the midvein in the fragment. We test the three methods for fossils of extinct Eotrigonobalanus furcinervis (Fagaceae) from two lignite horizons of the middle and late Eocene of central Germany respectively (~45/46 and 35/36 Ma).


RESULTS: The three methods, including the new one, yield consistent leaf size reconstructions. The vein scaling method showed a shift to larger leaf size, from the middle to the late Eocene.


CONCLUSIONS: These methods constitute a toolbox with different solutions to reconstruct leaf size from fossil fragments depending on fossil preservation. Fossil leaf size reconstruction has great potential to improve physiognomy‐based paleoenvironmental reconstructions and the interpretation of the fossil record.

Figure 3 - Measurements for the different leaf area reconstruction methods.


Citation: Toumoulin A., Kunzmann L., Moraweck K. and Sack L. (2020). Reconstructing leaf area from fragments: testing three methods using a fossil Paleogene species. American Journal of Botany 107, DOI: https://doi.org/10.1002/ajb2.1574

14 views0 comments

Recent Posts

See All

Pop-sci post in Time Scavengers' blog

In return for the Tilly Edinger Travel Grant, which will support our participation to vEGU21 this year, I wrote a post for Time Scavengers, where I present my background and research! Don't hesitate t

bottom of page