Intimate Mixtures

1. Tend individual Sw Intimate Mixtures Manipulate broadleaf density

2. Tending Individual Sw • Significant improvements in diameter and height growth for conifers have been reported following removal of broadleaf overstory • Questions: • How many trees to treat? • How large a radius to treat? • What age to treat? P. Comeau - U of A

3. Plant 200 to 400 Sw / ha • Individually tend each Sw • brush a radius around each stem

4. Wonowon - year 1 - spot treatment Iron Creek - year 1 - glyphosate Iron Creek - Year 10 Wonowon - year 12

5. 1951 - 25 Sw/aspen stands aged 5 to 65 years were selected All competition within 2 times the Sw crown radius was removed on 1/2 of the 656 sample trees • After 48 years release improved Sw growth by • 29% in diameter • 38% in height • 48% in volume over the control Overall responses varied with site & age classes

6. Sw Individual Tree Release Control Treated Control Photo Courtesy - D. Sidders CFS

7. Tending individual spruce - Estimated effect of number of spruce treated on yield • Proportion of area treated is a function of number of spruce treated and treatment radius • Aspen yield estimated from proportion of area untreated • Assume aspen yield of 260 m3/ha of aspen at age 90 for untreated areas • Assume a spruce yield of 150 m3/ha for untreated areas P. Comeau - U of A

8. Tending Individual Sw - Conclusions • Long term research results confirm the feasibility of individual tree release • Ballpark volume projections can be made for different scenarios using existing G&Y information

9. Tend individual Sw Intimate Mixtures Manage broadleaf density • Manipulate aspen density to control light levels for: • Sw to develop into a codominant position • Minimize sprouting of cut aspen Timeframe may extend beyond standard FGAP • Full site occupancy with Sw • Apply treatments as required to establish Sw • Site preparation, planting , early brushing • establishment density should consider the potential for whipping damage

10. Relationships Between White Spruce Growth or Mortality and Basal Area of Aspen(based on Wright et al. 1998) Basal area (m2/ha) Source: Comeau 2000

11. Light availability decreases with depth in the aspen canopy Light availability below the aspen canopy is correlated with measurable stand attributes Manipulate Broadleaf Density - Light Regimes Growth of Sw is expected to be approaching maximum when light transmittance exceeds 60%

12. 60% light availability at 10,000 spha when QMD is around 3cm Relationship of Understory Light Levels to QMD and density Comeau 2001

13. To maintain 60 % full light the basal area needs to be reduced to less than 8 To maintain 40% full light requires a basal area of 14m2 Relationship of Understory Light Levels to Basal Area Light available at a height of 1 metre

14. All of these stands have BA of 7.7 m2/haand 60% light in the understorey Mean DBH = 2.5 cm Density = 15 675 stems/ha Mean DBH = 4.0 cm Density = 6125 stems/ha Mean DBH = 7.0 cm Density = 2000 stems/ha Density is not a good predictor of light regimes

15. Aspen distribution is regular within small areas, but varies across a single site. Prescriptions to manipulate broadleaf densities need to take this variation into account

16. Manipulate Broadleaf Density - Conclusion • Understory light levels: • can be predicted • can be manipulated to favour Sw growth • can be manipulated to reduce At sprouting

17. Manipulate Broadleaf Density Conclusion cont’d • Tables or graphs of light transmittance can be used to make decisions on appropriate levels of aspen density • Combined with an aspen growth model the table could be used to predict light transmittance over time & timing requirements of future At spacing

18. Regimes - Next Steps ? • Detailed development & analysis of regimes • Calculation of Establishment Costs • $/ha and $/m3 • Estimates of Likelihood of Success • Regime Details (specifics) • Growth & Yield Implications • Financial Analysis • Determination of Viable Regimes • Establish Stocking Standards • A “Due Diligence” Process to Support Management Decisions P. Comeau