Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data

Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data

Based on a four year leaf growth data-set we modelled the thermal time-dependent leafontogeny in upper and lower canopy layers of mature sessile oak trees, in a Quercetum petraeae-cerrisforest stand (NE Hungary). Our regression models revealed no considerable differences between thetiming of leaf un...

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Main Authors: NYITRAI, Balázs, KANALAS, Péter, SZŐLLŐSI, Erzsébet, LAKATOS, Ágnes, OLÁH, Viktor, MÉSZÁROS, Ilona
Format: Article
Language:English
Published: Sciendo 2012-01-01
Series:Acta Silvatica & Lignaria Hungarica
Subjects:
leaf ontogeny
leaf traits
leaf morphology
chlorophyll fluorescence
light environment
Quercus petraea
Online Access:http://aslh.nyme.hu/fileadmin/dokumentumok/fmk/acta_silvatica/cikkek/Vol08-2012/02_olah_et_al_pvc.pdf
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spelling doaj-94b2c382f7e844e099f2a12fd467984c2020-11-24T20:48:54ZengSciendoActa Silvatica & Lignaria Hungarica1786-691X1787-064X2012-01-0182130Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring DataNYITRAI, BalázsKANALAS, PéterSZŐLLŐSI, ErzsébetLAKATOS, ÁgnesOLÁH, ViktorMÉSZÁROS, IlonaBased on a four year leaf growth data-set we modelled the thermal time-dependent leafontogeny in upper and lower canopy layers of mature sessile oak trees, in a Quercetum petraeae-cerrisforest stand (NE Hungary). Our regression models revealed no considerable differences between thetiming of leaf unfolding and leaf expansion of different canopy layers. On the other hand seasonalcourse in leaf mass-to-area ratio (LMA) indicated that sun leaves needed considerably longer thermaltime to fully develop their anatomical structures compared to shade leaves. LMA of sun leaves washigher during the whole leaf maturation process suggesting that ‘sun’ and ‘shade’ characteristicsdevelop in very early stage of leaf ontogeny. Functioning of photosynthetic apparatus (Fv/Fo) in shadeleaves have built up faster and performed better in all developmental stages which could be attributedto two main factors: 1) very early determination of leaf traits as a function of light environment and 2)evolving shading effect of upper canopy layer eliminates photoinhibition in lower leaves.http://aslh.nyme.hu/fileadmin/dokumentumok/fmk/acta_silvatica/cikkek/Vol08-2012/02_olah_et_al_pvc.pdfleaf ontogenyleaf traitsleaf morphologychlorophyll fluorescencelight environmentQuercus petraea
collection DOAJ
language English
format Article
sources DOAJ
author NYITRAI, Balázs
KANALAS, Péter
SZŐLLŐSI, Erzsébet
LAKATOS, Ágnes
OLÁH, Viktor
MÉSZÁROS, Ilona
spellingShingle NYITRAI, Balázs
KANALAS, Péter
SZŐLLŐSI, Erzsébet
LAKATOS, Ágnes
OLÁH, Viktor
MÉSZÁROS, Ilona
Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data
Acta Silvatica & Lignaria Hungarica
leaf ontogeny
leaf traits
leaf morphology
chlorophyll fluorescence
light environment
Quercus petraea
author_facet NYITRAI, Balázs
KANALAS, Péter
SZŐLLŐSI, Erzsébet
LAKATOS, Ágnes
OLÁH, Viktor
MÉSZÁROS, Ilona
author_sort NYITRAI, Balázs
title Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data
title_short Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data
title_full Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data
title_fullStr Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data
title_full_unstemmed Springtime Leaf Development of Mature Sessile Oak Trees as Based on Multi-Seasonal Monitoring Data
title_sort springtime leaf development of mature sessile oak trees as based on multi-seasonal monitoring data
publisher Sciendo
series Acta Silvatica & Lignaria Hungarica
issn 1786-691X
1787-064X
publishDate 2012-01-01
description Based on a four year leaf growth data-set we modelled the thermal time-dependent leafontogeny in upper and lower canopy layers of mature sessile oak trees, in a Quercetum petraeae-cerrisforest stand (NE Hungary). Our regression models revealed no considerable differences between thetiming of leaf unfolding and leaf expansion of different canopy layers. On the other hand seasonalcourse in leaf mass-to-area ratio (LMA) indicated that sun leaves needed considerably longer thermaltime to fully develop their anatomical structures compared to shade leaves. LMA of sun leaves washigher during the whole leaf maturation process suggesting that ‘sun’ and ‘shade’ characteristicsdevelop in very early stage of leaf ontogeny. Functioning of photosynthetic apparatus (Fv/Fo) in shadeleaves have built up faster and performed better in all developmental stages which could be attributedto two main factors: 1) very early determination of leaf traits as a function of light environment and 2)evolving shading effect of upper canopy layer eliminates photoinhibition in lower leaves.
topic leaf ontogeny
leaf traits
leaf morphology
chlorophyll fluorescence
light environment
Quercus petraea
url http://aslh.nyme.hu/fileadmin/dokumentumok/fmk/acta_silvatica/cikkek/Vol08-2012/02_olah_et_al_pvc.pdf
work_keys_str_mv AT nyitraibalazs springtimeleafdevelopmentofmaturesessileoaktreesasbasedonmultiseasonalmonitoringdata
AT kanalaspeter springtimeleafdevelopmentofmaturesessileoaktreesasbasedonmultiseasonalmonitoringdata
AT szollosierzsebet springtimeleafdevelopmentofmaturesessileoaktreesasbasedonmultiseasonalmonitoringdata
AT lakatosagnes springtimeleafdevelopmentofmaturesessileoaktreesasbasedonmultiseasonalmonitoringdata
AT olahviktor springtimeleafdevelopmentofmaturesessileoaktreesasbasedonmultiseasonalmonitoringdata
AT meszarosilona springtimeleafdevelopmentofmaturesessileoaktreesasbasedonmultiseasonalmonitoringdata
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