Leaf economic traits from fossils support a weedy habit for early angiosperms

Leaf economic traits from fossils support a weedy habit for early angiosperms

Many key aspects of early angiosperms are poorly known, including their ecophysiology and associated habitats. Evidence for fast-growing, weedy angiosperms comes from the Early Cretaceous Potomac Group, where angiosperm fossils, some of them putative herbs, are found in riparian depositional setting...

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Bibliographic Details
Published in:American journal of botany Vol. 97; no. 3; pp. 438 - 445
Main Authors: Royer, Dana L., Miller, Ian M., Peppe, Daniel J., Hickey, Leo J.
Format: Journal Article
Language:English
Published: United States Botanical Society of America 01-03-2010
Botanical Society of America, Inc
Subjects:
Albian
Angiosperms
Biomass
Cretaceous
Ecophysiology
evolution
Flora
Fossils
Gymnosperms
Habitats
Herbs
leaf economics spectrum
leaf mass per area
Leaves
Paleobotany
paleoecology
Petioles
Plants
Riparian forests
riparian habitats
Taxa
North America
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Summary:Many key aspects of early angiosperms are poorly known, including their ecophysiology and associated habitats. Evidence for fast-growing, weedy angiosperms comes from the Early Cretaceous Potomac Group, where angiosperm fossils, some of them putative herbs, are found in riparian depositional settings. However, inferences of growth rate from sedimentology and growth habit are somewhat indirect; also, the geographic extent of a weedy habit in early angiosperms is poorly constrained. Using a power law between petiole width and leaf mass, we estimated the leaf mass per area (LMA) of species from three Albian (110–105 Ma) fossil floras from North America (Winthrop Formation, Patapsco Formation of the Potomac Group, and the Aspen Shale). All LMAs for angiosperm species are low (<125 g/m 2 ; mean = 76 g/m 2 ) but are high for gymnosperm species (>240 g/m 2 ; mean = 291 g/m 2 ). On the basis of extant relationships between LMA and other leaf economic traits such as photosynthetic rate and leaf lifespan, we conclude that these Early Cretaceous landscapes were populated with weedy angiosperms with short-lived leaves (<12 mo). The unrivalled capacity for fast growth observed today in many angiosperms was in place by no later than the Albian and likely played an important role in their subsequent ecological success.
Bibliography:These authors contributed equally to this work.
Work was supported in part by the National Science Foundation (grant EAR‐0742363 to D.L.R.). The authors thank the Denver Museum of Nature & Science volunteers for work in the laboratory and collections; S. Hu and P. Sweeney (Yale Peabody Museum) for help with collecting and identifying some of the herbs from Connecticut, respectively; K. Wilson (National Herbarium of New South Wales), I. Schönberger and J. Cruickshank (Allan Herbarium), and G. Rapson and L. van Essen (Dame Ella Campbell Herbarium) for help with pulling herbarium sheets for photography; S. Gunter for help photographing New Zealand herbarium specimens; and S. Wing for helpful comments.
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ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.0900290