Abstract
In many woody dicot plant species, colder temperatures correlate with a greater degree of leaf dissection and with larger and more abundant leaf teeth (the serrated edges along margins). The measurement of site-mean characteristics of leaf size and shape (physiognomy), including leaf dissection and tooth morphology, has been an important paleoclimate tool for over a century. These physiognomic-based climate proxies require that all woody dicot plants at a site, regardless of species, change their leaf shape rapidly and predictably in response to temperature. Here we experimentally test these assumptions by growing five woody species in growth cabinets under two temperatures (17 and 25°C). In keeping with global site-based patterns, plants tend to develop more dissected leaves with more abundant and larger leaf teeth in the cool treatment. Overall, this upholds the assumption that leaf shape responds in a particular direction to temperature change. The assumption that leaf shape variables respond to temperature in the same way regardless of species did not hold because the responses varied by species. Leaf physiognomic models for inferring paleoclimate should take into account these species-specific responses.
Highlights
Seeds of A. negundo were purchased from TreeSeeds.com (Winooski, Vermont, USA) and grown in 10.5 cm by 12 cm deep square pots
Seeds of B. lenta were purchased from TreeHelp.com (Buffalo, New York, USA) and grown in 7.5 cm by 9.5 cm deep square pots
All seeds were first soaked in water for 24 hours and cold stratified for 90 (A. negundo, C. caroliniana) or 60 days (B. lenta, Q. rubra)
Summary
Seeds of A. negundo were purchased from TreeSeeds.com (Winooski, Vermont, USA) and grown in 10.5 cm by 12 cm deep square pots. Seeds of B. lenta were purchased from TreeHelp.com (Buffalo, New York, USA) and grown in 7.5 cm by 9.5 cm deep square pots. Seeds of C. caroliniana were purchased from Sheffield’s Seed Co., Inc.
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