Exploring variation in leaf mass per area (LMA) from leaf to cell: An anatomical analysis of 26 woody species

• Premise of the study: Plant species differ widely in the leaf biomass invested per unit area (LMA). LMA can be explained by variation in leaf thickness and/or density, both of which are influenced by anatomical tissue composition. The aim of this study is to quantify the anatomical characteristics...

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Bibliographic Details
Published in:American journal of botany 2013-10, Vol.100 (10), p.1969-1980
Main Authors: Villar, Rafael, Ruiz-Robleto, Jeannete, Ubera, José Luis, Poorter, Hendrik
Format: Article
Language:English
Subjects:
air
air spaces
Biodiversity
Biomass
Body tissues
Botany
Cell Count
Cell Size
Density
Ecology
Epidermal cells
Epidermis
Flowers & plants
Fractions
greenhouses
leaf density
leaf thickness
Leaves
Mesophyll
Mesophyll cells
Mesophyll Cells - cytology
Models, Anatomic
Organ Size
Plant cells
Plant Cells - physiology
Plant ecology
Plant Epidermis - anatomy & histology
Plant Epidermis - cytology
Plant Leaves - anatomy & histology
Plant Leaves - cytology
Plants
Quantitative Trait, Heritable
Species
Species Specificity
specific leaf area
vascular tissue
Wood - anatomy & histology
Wood - cytology
woody plants
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Summary:• Premise of the study: Plant species differ widely in the leaf biomass invested per unit area (LMA). LMA can be explained by variation in leaf thickness and/or density, both of which are influenced by anatomical tissue composition. The aim of this study is to quantify the anatomical characteristics that underlie variation in LMA in a range of woody species.• Methods: Twenty-six woody species, forming 13 species pairs with a deciduous and evergreen species from the same genus or family, were grown in a glasshouse. The youngest full-grown leaves were analyzed for LMA and morpho-anatomical characteristics at leaf, tissue, and cell level.• Key Results: Considered over all species studied, leaf thickness and density were equally important to explain the variation in LMA, but the class difference between deciduous and evergreen species was mainly determined by thickness, whereas variation within each group was largely due to density. Evergreens had thicker leaves, predominantly caused by a larger volume of mesophyll and air spaces, whereas the higher leaf density within each group was due to a lower proportion of epidermis and air spaces, and overall smaller cells.• Conclusions: The anatomical basis for variation in LMA in woody species depends on the contrast made. Higher LMA in evergreens is mainly due to a greater leaf thickness, caused by a larger volume of mesophyll and air spaces. Within deciduous species and evergreens, higher LMA is caused by a higher density, due to higher volumetric fractions of mesophyll and lower fractions of air spaces and epidermis.
ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.1200562