The Root Collar Diameter Growth Reveals a Strong Relationship with the Height Growth of Juvenile Scots Pine Trees from Seeds Differentiated by Spectrometric Feature

This study is intended for forest owners considering options to increase the efficiency of the production of forest seedlings in automated nurseries. In the short rotation technology of the Scots pine (Pinus sylvestris L.), the production of seedlings was integrated in the process of grading seeds b...

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Bibliographic Details
Published in:Forests 2023-06, Vol.14 (6), p.1164
Main Authors: Novikova, Tatyana P., Tylek, Paweł, Mastrangelo, Clíssia Barboza, Drapalyuk, Michael V., Kharin, Sergei V., Novikov, Arthur I.
Format: Article
Language:English
Subjects:
Adaptation
adaptive forest management
automation
Collars
computer software
Environmental aspects
Evergreen trees
forest landscape restoration
forest seeds
Forests
Growing season
Integrated approach
juveniles
Morphogenesis
Pelleting
Physiological aspects
Pine
Pine trees
Pinus sylvestris
Pinus sylvestris L
Plant propagation
Propagation
Regression analysis
root crown
Rotation
Scots pine
seed coat colour grading
seed size grading
Seedlings
Seeds
Spectrometry
Statistical analysis
Stems
Trees
Vegetation
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Summary:This study is intended for forest owners considering options to increase the efficiency of the production of forest seedlings in automated nurseries. In the short rotation technology of the Scots pine (Pinus sylvestris L.), the production of seedlings was integrated in the process of grading seeds by spectrometric features, followed by the fall outplanting of containerized seedlings to a restorable post-pyrogenic site. There are studies of the spectrometric effect grading viable seeds, but a negligible amount of testing has been conducted on the seedling’s field performance from these seeds. It was very important for us to evaluate the morphogenesis of juvenile Scots pine trees in relation to the change in morphological features—increase in root collar diameter (RCD-increment) and increase in stem height (SH-increment)—in the second and third growing season from the field outplanting. To determine the nature of the interaction between independent (RCD increase), dependent (SH-increment), and categorical (seed spectrometric categories and timespans) variables, a regression analysis was performed using the R statistical software. All coefficients of the linear models are statistically significant at the 1% significance level, and all are positively associated with an increase in seedling height. On average, a RCD increment by 0.1 cm causes a SH-increment by 0.72 ± 0.16 cm (p = 9.779 × 10−6). In addition, in 2020, compared to 2019, the SH-increment was 5.46 ± 0.37 cm (p < 0.001). The seeds’ differentiation into spectrometric categories is strongly correlated with the stem height increment (p < 0.001). Thus, in order to improve the plant propagation protocol, it seems advisable to first condition the seeds in accordance with the spectrometric feature, and to then apply a coating (by pelleting or encapsulating) in order to improve the storage and seeding conditions. For a medium-term assessment of the short rotation technology with an integrated seed spectrometric grading in the future, the morphogenesis of Scots pine trees at 5, 7 and 10 growing seasons from the seedlings field outplanting is controlled.
ISSN:1999-4907
1999-4907
DOI:10.3390/f14061164