Interactions between climate, natural disturbances, and regeneration in boreal and hemi-boreal forests

Natural disturbance is an important driving force of community dynamics in many forest types around the globe. Understanding spatial and temporal properties of disturbance events in the present and in the past is important in formulating the nature conservation strategies as well as for the modeling...

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Bibliographic Details
Main Author: Drobyshev, Igor
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Section of Plant Ecology and Systematics, Ekologi Huset, S-223 62 Lund, Sweden 2004
Subjects:
Ecology
conservation strategies
Plant ecology
Växtekologi
taiga
seasonal climate
shoot increment
larch
reconstruction
human
canopy gap
fire history
boreal
natural disturbances
dendrochronology
Norway
Online Access:https://lup.lub.lu.se/record/466788
Description
Summary:Natural disturbance is an important driving force of community dynamics in many forest types around the globe. Understanding spatial and temporal properties of disturbance events in the present and in the past is important in formulating the nature conservation strategies as well as for the modeling of climate and human impacts on forest vegetation. In this thesis I studied wind and fire disturbances in natural spruce and pine dominated forests in European Russia. In the case of Norway spruce (Picea abies (L.) Karst.) forests, the goal was to quantitatively evaluate the role of naturally formed canopy gaps and their role in canopy dynamics. In the case of Scots pine (Pinus sylvestris L.) dominated forests, I analysed the link between climate variation, human presence in the landscape, and fire activity. Here, the primary goal was to establish a relationship between tree-ring variables and independently dated fire events to infer common climatic information contained in both datasets. By doing so, an attempt was made to improve the separation of climate- and human-related influences in site fire chronologies. Finally, I analysed the link between weather variation and fire activity at the regional scale, and evaluated the value of tree-ring data as a proxy for regional-scale fire activity. My studies in the spruce-dominated forests suggested that the impact of wind disturbance on canopy dynamics may be forest-type specific at the spatial scale of 103 ha and the temporal scale of a few decades. An agreement between the outcome of gap-associated tree regeneration and canopy composition was observed in boreal stands. In the hemi-boreal stands, a large proportion of stand area under canopy gaps and poor spruce regeneration in larger gaps led to an increase in the abundance of deciduous species implying a decrease in canopy spruce and an increase in deciduous species in the coming decades. In pine-dominated forests, it was possible to establish a relationship between tree-ring chronologies and independently dated fire ...

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