Variation in needle longevity is related to needle-fascicle production rate in Pinus sylvestris

Latitudinal variation in needle longevity of conifers in response to climatic variability is a well-known phenomenon, but its significance has only rarely been studied. Scots pine ( Pinus sylvestris L.) stands were investigated in four locations in Lapland (northern Finland and northern Sweden, 67–6...

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Bibliographic Details
Published in:Tree Physiology
Main Authors: Pensa, Margus, Jalkanen, Risto
Format: Text
Language:English
Published: Oxford University Press 2005
Subjects:
Original Articles
The Needle
Northern Finland
Northern Sweden
Lapland
Online Access:http://treephys.oxfordjournals.org/cgi/content/short/25/10/1265
https://doi.org/10.1093/treephys/25.10.1265
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Summary:Latitudinal variation in needle longevity of conifers in response to climatic variability is a well-known phenomenon, but its significance has only rarely been studied. Scots pine ( Pinus sylvestris L.) stands were investigated in four locations in Lapland (northern Finland and northern Sweden, 67–68° N) and in four locations in Estonia (59° N) to test the hypothesis that plasticity in needle longevity results in similar needle biomass per foliated shoot length across latitudes. The needle-trace method (NTM) revealed the dynamics of needle fascicles attached to stem shoots. Long-term mean needle age was 2 years greater in Lapland than in Estonia. In both regions, mean needle age was strongly and negatively related to yearly needle-fascicle production rate relative to the number of needles on the same shoot axis. Although significantly fewer needle-fascicles were produced annually in trees in Lapland than in Estonia, the overall number of fascicles attached to the stem shoots, needle-fascicle density and individual needle dry mass did not differ between regions. Consequently, needle biomass per foliated shoot length was similar in trees in both regions. Thus, our results support the theory that plasticity in needle longevity helps Scots pine to compensate for reduced needle production so that the same foliar biomass per shoot is retained under a wide range of growth conditions.

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