Abstract
Temperature is an important factor for the cambial growth in temperate trees. We investigated the way daily temperatures patterns (maximum, average and minimum) from late winter to early spring affected the timing of cambial reactivation and xylem differentiation in stems of the conifer Chamaecyparis pisifera. When the daily temperatures started to increase earlier from late winter to early spring, cambial reactivation occurred earlier. Cambium became active when it achieves the desired accumulated temperature above the threshold (cambial reactivation index; CRI) of 13 °C in 11 days in 2013 whereas 18 days in 2014. This difference in duration required for achieving accumulated temperature can be explained with the variations in the daily temperature patterns in 2013 and 2014. Our formula for calculation of CRI predicted the cambial reactivation in 2015. A hypothetical increase of 1–4 °C to the actual daily maximum temperatures of 2013 and 2014 shifted the timing of cambial reactivation and had different effects on cambial reactivation in the two consecutive years because of variations in the actual daily temperatures patterns. Thus, the specific annual pattern of accumulation of temperature from late winter to early spring is a critical factor in determining the timing of cambial reactivation in trees.
Highlights
Wood is used as raw material for timber, furniture, pulp and paper, chemicals and fuel[1,2]
When the air temperature starts to rise from late winter to early spring, dormant cambium becomes active under natural c onditions[6, 7]
We examined how the daily temperatures affected the timing of cambial reactivation and onset of xylem differentiation from late winter to early spring under natural conditions in the evergreen conifer Chamaecyparis pisifera
Summary
Wood is used as raw material for timber, furniture, pulp and paper, chemicals and fuel[1,2]. An increase in temperature from late winter to early spring has been clearly demonstrated to be a direct trigger for cambial reactivation in temperate t rees[6,7]. Future global warming will lead to an earlier resumption of cambial activity in spring, resulting in longer growth periods in temperate trees[10,44]. In the cool temperate regions, seasonal changes in climatic factors other than temperatures, such as daylight or humidity might influence cambial activity[11,19,27,28,44,51]. Studies on how the changing pattern of daily temperatures interacts with other factors and influence cambial activity and xylem growth are essential to our understanding of tree response to changes in environmental conditions
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