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The leaf-area shrinkage effect can bias paleoclimate and ecology research.

Authors :
Blonder B
Buzzard V
Simova I
Sloat L
Boyle B
Lipson R
Aguilar-Beaucage B
Andrade A
Barber B
Barnes C
Bushey D
Cartagena P
Chaney M
Contreras K
Cox M
Cueto M
Curtis C
Fisher M
Furst L
Gallegos J
Hall R
Hauschild A
Jerez A
Jones N
Klucas A
Kono A
Lamb M
Matthai JD
McIntyre C
McKenna J
Mosier N
Navabi M
Ochoa A
Pace L
Plassmann R
Richter R
Russakoff B
Aubyn HS
Stagg R
Sterner M
Stewart E
Thompson TT
Thornton J
Trujillo PJ
Volpe TJ
Enquist BJ
Source :
American journal of botany [Am J Bot] 2012 Nov; Vol. 99 (11), pp. 1756-63. Date of Electronic Publication: 2012 Nov 06.
Publication Year :
2012

Abstract

Premise of the Study: Leaf area is a key trait that links plant form, function, and environment. Measures of leaf area can be biased because leaf area is often estimated from dried or fossilized specimens that have shrunk by an unknown amount. We tested the common assumption that this shrinkage is negligible.<br />Methods: We measured shrinkage by comparing dry and fresh leaf area in 3401 leaves of 380 temperate and tropical species and used phylogenetic and trait-based approaches to determine predictors of this shrinkage. We also tested the effects of rehydration and simulated fossilization on shrinkage in four species.<br />Key Results: We found that dried leaves shrink in area by an average of 22% and a maximum of 82%. Shrinkage in dried leaves can be predicted by multiple morphological traits with a standard deviation of 7.8%. We also found that mud burial, a proxy for compression fossilization, caused negligible shrinkage, and that rehydration, a potential treatment of dried herbarium specimens, eliminated shrinkage.<br />Conclusions: Our findings indicate that the amount of shrinkage is driven by variation in leaf area, leaf thickness, evergreenness, and woodiness and can be reversed by rehydration. The amount of shrinkage may also be a useful trait related to ecologically and physiological differences in drought tolerance and plant life history.

Details

Language :
English
ISSN :
1537-2197
Volume :
99
Issue :
11
Database :
MEDLINE
Journal :
American journal of botany
Publication Type :
Academic Journal
Accession number :
23132615
Full Text :
https://doi.org/10.3732/ajb.1200062