Long-term effects of stem girdling on needle structure in Scots pine
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DOI:
10.3832/ifor2648-011URI (for links/citations):
http://www.sisef.it/iforest/pdf/?id=ifor2648-011https://elib.sfu-kras.ru/handle/2311/110443
Author:
Roman, Gebauer
Roman, Plichta
Jiří, Foit
Václav, Čermák
Урбан, Йозеф Йозеф
Corporate Contributor:
Институт экологии и географии
Лаборатория биогеохимии экосистем
Date:
2018-08Journal Name:
IForestJournal Quartile in Scopus:
Q2Journal Quartile in Web of Science:
Q3Bibliographic Citation:
Roman, Gebauer. Long-term effects of stem girdling on needle structure in Scots pine [Текст] / Gebauer Roman, Plichta Roman, Foit Jiří, Čermák Václav, Йозеф Йозеф Урбан // IForest. — 2018. — № 11. — С. 476-481Abstract:
Stem girdling is the process of completely removing a strip of cork and phloem
tissue. Phloem is the living tissue which serves as the main long-distance pathway
for transporting carbohydrates produced during photosynthesis to all parts
of the plant where needed, from source leaves to sinks. Stem girdling has
been used to study several functional aspects of phloem and their direct impacts
on tree growth. Although both photosynthesis and transpiration processes
take place in needles, no studies exist which investigate the effect of
source-sink disturbance on needle structure. In this study, we evaluated
changes in needle morphology and anatomy in current-year Scots pine needles
227 and 411 days after girdling (DAG). Although the studied needle parameters
recorded 227 DAG were from 2 to 20% higher than the same parameters in
control needles, the differences were not significant. On the other hand, needles
411 DAG were thinner, with decreased cross-sectional areas, phloem areas,
vascular cylinder areas, needle dry mass, needle density, and needle flatness
when compared to control needles. Marked variations in needle growth
were observed 411 DAG, with a smaller number of correlations among almost
all studied needle parameters in needles 411 DAG when compared to control
needles or needles 227 DAG. Structural development determining needle flatness,
needle density, and leaf mass per area (LMA) appeared to have driving
factors that were independent of the other studied needle parameters, as correlations
with other parameters were not significant in any treatment. The
changes in overall needle structure observed after long-term stem girdling
provide new insights into the processes that occur as a result of source-sink
disturbances. This type of data could be helpful, for example, in studies
specifically focused on phloem transport, tree carbon relationships, or investigations
modeling gas exchange. Our study might also support gene expression
studies, which could provide further knowledge about the regulatory mechanisms
that determine needle size and structural form.