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The influence of leaf size and shape on leaf thermal dynamics: does theory hold up under natural conditions?
Author(s) -
Leigh A.,
Sevanto S.,
Close J.D.,
Nicotra A.B.
Publication year - 2017
Publication title -
plant, cell and environment
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.646
H-Index - 200
eISSN - 1365-3040
pISSN - 0140-7791
DOI - 10.1111/pce.12857
Subject(s) - thermal , range (aeronautics) , adaptive value , leaf size , boundary layer , margin (machine learning) , biology , botany , horticulture , ecology , materials science , physics , thermodynamics , composite material , machine learning , computer science
Laboratory studies on artificial leaves suggest that leaf thermal dynamics are strongly influenced by the two‐dimensional size and shape of leaves and associated boundary layer thickness. Hot environments are therefore said to favour selection for small, narrow or dissected leaves. Empirical evidence from real leaves under field conditions is scant and traditionally based on point measurements that do not capture spatial variation in heat load. We used thermal imagery under field conditions to measure the leaf thermal time constant (τ) in summer and the leaf‐to‐air temperature difference (∆T) and temperature range across laminae (T range ) during winter, autumn and summer for 68 Proteaceae species. We investigated the influence of leaf area and margin complexity relative to effective leaf width ( w e ), the latter being a more direct indicator of boundary layer thickness. Normalized difference of margin complexity had no or weak effects on thermal dynamics, but w e strongly predicted τ and ∆T, whereas leaf area influenced T range . Unlike artificial leaves, however, spatial temperature distribution in large leaves appeared to be governed largely by structural variation. Therefore, we agree that small size, specifically w e , has adaptive value in hot environments but not with the idea that thermal regulation is the primary evolutionary driver of leaf dissection.