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Forest stand and canopy development unaltered by 12 years of CO2 enrichment.

Richard J NorbyJeffrey M WarrenColleen M IversenJoanne ChildsSara S JawdyAnthony P Walker
Published in: Tree physiology (2021)
Canopy structure-the size and distribution of tree crowns and the spatial and temporal distribution of leaves within them-exerts dominant control over primary productivity, transpiration, and energy exchange. Stand structure-the spatial arrangement of trees in the forest (height, basal area, and spacing)-has a strong influence on forest growth, allocation, and resource use. Forest response to elevated atmospheric CO2 is likely to be dependent on canopy and stand structure. Here, we investigated eCO2 effects on forest structure of a L. styraciflua stand in a free-air CO2 enrichment (FACE) experiment, considering leaves, tree crowns, forest canopy, and stand structure. During the 12-year experiment the trees increased in height by 5 m, and basal area increased 37%. Basal area distribution among trees shifted from a relatively narrow distribution to a much broader one, but there was little evidence of a CO2 effect on height growth or basal area distribution. The differentiation into crown classes over time led to an increase in the number of unproductive intermediate and suppressed trees and a greater concentration of stand basal area in the largest trees. A whole-tree harvest at the end of the experiment permitted detailed analysis of canopy structure. There was little effect of CO2 enrichment on the relative leaf area distribution within tree crowns and little change from 1998 to 2009. Leaf characteristics (leaf mass per unit area and nitrogen content) varied with crown depth; any effects of elevated CO2 were much smaller than the variation within the crown and were consistent throughout the crown. In this young, even-aged, monoculture plantation forest, there was little evidence that elevated CO2 accelerated tree and stand development, and there were remarkably small changes in canopy structure. Questions remain as to whether a more diverse, mixed species forest would respond similarly.
Keyphrases
  • climate change
  • body mass index
  • particulate matter
  • air pollution
  • single molecule