Micropeltation in Myrtaceae: a neglected subject

The majority of taxa with peltate leaves are perennial herbs native to swampy or aquatic habitats or to mesic shaded understorey habitats. These large peltate leaves are formed by a meristematic bridge at the lamina–petiole junction. However, there are also several strong-light exposed, small-leaved...

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Published in	Trees (Berlin, West) Vol. 38; no. 6; pp. 1459 - 1467
Main Authors	Dörken, Veit M., Ladd, Philip G., Parsons, Robert F.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2024 Springer Nature B.V
Subjects	Agriculture Aquatic habitats Biomedical and Life Sciences convergent evolution Forestry Interception Leaves Life Sciences Light interception Meristems Myrtaceae Original Article petioles Plant Anatomy/Development Plant Pathology Plant Physiology Plant Sciences Transpiration understory Ontogeny Meristematic fusion Light harvesting Meristematic bridge Leaf reduction
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Abstract	The majority of taxa with peltate leaves are perennial herbs native to swampy or aquatic habitats or to mesic shaded understorey habitats. These large peltate leaves are formed by a meristematic bridge at the lamina–petiole junction. However, there are also several strong-light exposed, small-leaved, xero- and scleromorphic Myrtaceae with leaf peltation which is formed without a meristem fusion/bridge. Here, abaxial laminar tissue at the insertion point of the petiole forms a basal extension, so that a weak peltation occurs. This shifts the petiole onto the adaxial laminar surface. The formation of micropeltation in Myrtaceae leads to erect leaves that are strongly appressed to the shoot axis and the entire foliate, vertical shoots appear as “green columns”, a result that is also the case in taxa with reflexed minute leaves. It seems that micropeltation achieves the same goal as leaf reflexion in small-leaved taxa—reduction of heat-load and transpiration during the hottest phases of the day by a lower light interception at midday compared to the morning and evening. Thus, physiologically micropeltation and reflexion of minute leaves seem to be the result of convergent evolution.
AbstractList	The majority of taxa with peltate leaves are perennial herbs native to swampy or aquatic habitats or to mesic shaded understorey habitats. These large peltate leaves are formed by a meristematic bridge at the lamina–petiole junction. However, there are also several strong-light exposed, small-leaved, xero- and scleromorphic Myrtaceae with leaf peltation which is formed without a meristem fusion/bridge. Here, abaxial laminar tissue at the insertion point of the petiole forms a basal extension, so that a weak peltation occurs. This shifts the petiole onto the adaxial laminar surface. The formation of micropeltation in Myrtaceae leads to erect leaves that are strongly appressed to the shoot axis and the entire foliate, vertical shoots appear as “green columns”, a result that is also the case in taxa with reflexed minute leaves. It seems that micropeltation achieves the same goal as leaf reflexion in small-leaved taxa—reduction of heat-load and transpiration during the hottest phases of the day by a lower light interception at midday compared to the morning and evening. Thus, physiologically micropeltation and reflexion of minute leaves seem to be the result of convergent evolution.
Author	Parsons, Robert F. Ladd, Philip G. Dörken, Veit M.
Author_xml	– sequence: 1 givenname: Veit M. orcidid: 0000-0002-8451-6893 surname: Dörken fullname: Dörken, Veit M. email: veit.doerken@uni-konstanz.de organization: Department of Biology, University of Konstanz – sequence: 2 givenname: Philip G. orcidid: 0000-0002-7730-9685 surname: Ladd fullname: Ladd, Philip G. organization: Environment and Conservation Science, Murdoch University – sequence: 3 givenname: Robert F. surname: Parsons fullname: Parsons, Robert F. organization: Department of Environment and Genetics, La Trobe University
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Snippet	The majority of taxa with peltate leaves are perennial herbs native to swampy or aquatic habitats or to mesic shaded understorey habitats. These large peltate...
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SubjectTerms	Agriculture Aquatic habitats Biomedical and Life Sciences convergent evolution Forestry Interception Leaves Life Sciences Light interception Meristems Myrtaceae Original Article petioles Plant Anatomy/Development Plant Pathology Plant Physiology Plant Sciences Transpiration understory
Title	Micropeltation in Myrtaceae: a neglected subject
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