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Fertilizing Interior Forests: the scientific basis (and some informed speculation) Rob Brockley B.C. Ministry of Forests and Range Kalamalka Forestry Centre.

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Presentation on theme: "Fertilizing Interior Forests: the scientific basis (and some informed speculation) Rob Brockley B.C. Ministry of Forests and Range Kalamalka Forestry Centre."— Presentation transcript:

1 Fertilizing Interior Forests: the scientific basis (and some informed speculation) Rob Brockley B.C. Ministry of Forests and Range Kalamalka Forestry Centre Vernon, BC

2 Why fertilize?

3

4 l Every tree to be harvested in the next 40-60 years is in the ground today

5 Why fertilize? l Every tree to be harvested in the next 40-60 years is in the ground today l Forest fertilization is a proven silvicultural treatment for accelerating the operability of established stands without sacrificing harvest volume

6 Why fertilize? l Every tree to be harvested in the next 40-60 years is in the ground today l Forest fertilization is a proven silvicultural treatment for accelerating the operability of established stands without sacrificing harvest volume l Fertilization can be used strategically to impact the amount and timing of future harvest

7 How fertilization mitigates MPB mortality Conceptual Harvest volume Area age class distribution years from now2500 MPB mortality area

8 How fertilization mitigates MPB mortality Conceptual Area age class distribution years from now2500 MPB mortality area l Fertilizing 30- to 70-year-old stands (blue) can increase harvest volumes 20–40 years from now Harvest volume

9 How fertilization mitigates MPB mortality Conceptual Harvest volume Area age class distribution years from now2500 MPB mortality area l Fertilizing 30- to 70- year-old stands (blue) can increase harvest volumes 20–40 years from now l Fertilizing 15- to 30-year-old stands (yellow) can increase harvest volumes 40–70 years from now

10 Fertilization research in the BC interior l Lodgepole pine

11 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials

12 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials

13 Relative 6-year BA response following N fertilization Relative cumulative frequency distribution (n=46)

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18 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

19 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

20 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

21 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

22 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

23 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

24 BA response following N and N+S fertilization Relative cumulative frequency distribution (n=26) N N+S

25 Effect of N and N+S fertilization on 6-year volume response of lodgepole pine in north-central B.C. EP 886.01 (n=8)

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27 Effect of N and N+S fertilization on 6-year volume response of lodgepole pine in south-central B.C. EP 886.01 (n=7)

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29 6-year relative BA response vs. initial foliar N

30 6-year relative BA response vs. initial foliar SO 4

31 Lodgepole pine foliar boron concentration Relative cumulative frequency distribution (n=58)

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35 Effects of N and B fertilization on foliar B concentration EP 886.05 critical value

36 Effects of N and B fertilization on foliar B concentration EP 886.05 critical value

37 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials l Douglas-fir

38 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials l Douglas-fir  5 screening trials

39 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials l Douglas-fir  5 screening trials  6 area-based trials

40 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials l Douglas-fir  5 screening trials  6 area-based trials l Interior spruce

41 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials l Douglas-fir  5 screening trials  6 area-based trials l Interior spruce  14 screening trials

42 Fertilization research in the BC interior l Lodgepole pine  ~ 70 screening trials  ~ 50 area-based trials l Douglas-fir  5 screening trials  6 area-based trials l Interior spruce  14 screening trials  12 area-based trials

43 Douglas-fir fertilization research

44 l 5 screening trials (SBS, ICH)

45 Effects of individual and combined applications of N and “complete mix” fertilizer on 1 st year needle mass of Douglas-fir EP 886.08 (n=5)

46

47 Effects of individual and combined applications of N and “complete mix” fertilizer on 1 st year foliar N/S ratio in Douglas-fir EP 886.08 (n=5) critical level

48 Effects of individual and combined applications of N and “complete mix” fertilizer on 1 st year foliar N/S ratio in Douglas-fir EP 886.08 (n=5) critical level

49 Douglas-fir fertilization research l 5 screening trials (SBS, ICH) l 6 area-based trials (ICH)

50 Douglas-fir fertilization research l 5 screening trials (SBS, ICH) l 6 area-based trials (ICH)  19-34 years

51 Douglas-fir fertilization research l 5 screening trials (SBS, ICH) l 6 area-based trials (ICH)  19-34 years  SI 24-29 m @ 50 years

52 Effect of N and N+S fertilization on 9-year stand volume increment of Douglas-fir EP 886.01 (n=5)

53

54 Foliar N/S ratio by treatment and year EP 886.01 (Douglas-fir; n=5) critical level

55 Foliar N/S ratio by treatment and year EP 886.01 (Douglas-fir; n=5) critical level

56 Effect of N and N+S fertilization on 9-year stand volume increment of Douglas-fir EP 886.01 Inst. #25

57 Effect of N and N+S fertilization on 9-year stand volume increment of Douglas-fir EP 886.01 Inst. #28

58 Effect of N and N+S fertilization on 9-year stand volume increment by initial foliar N class

59 Other relevant studies

60 Site and stand characteristics of the Inland NW Douglas-fir fertilizer installations (n=94) Moore et al. (1991)

61 Effects of fertilization on relative 6-year volume response of Douglas-fir Inland Northwest (Moore et al. 1991)

62 Effect of N fertilization on 6-year gross volume increment of Douglas-fir in the Inland NW Moore et al. (1991)

63 6-year net basal area response following N fertilization by N application rate and foliar K status (from Mika and Moore 1990) Poor Good Foliar K status

64 6-year net basal area response following N fertilization by N application rate and foliar K status (from Mika and Moore 1990) Poor Good Foliar K status

65 6-year net volume response following N fertilization by foliar K status (from Brockley 2006) Poor (n=1)Good (n=5) Foliar K status

66 Root tip phenolic:sugar concentration ratios in Douglas-fir seedlings supplied with different amounts of N and K (from Shaw et al. 1998)

67 Interior spruce fertilization research

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69 Effects of broadcast burning on foliar N status of white spruce plantations in the B.C. interior Curran and Ballard (1990)

70 Interior spruce fertilization research l 14 screening trials (SBS, ICH, ESSF)

71 Effects of individual and combined applications of N and “complete mix” fertilizer on 1 st year needle mass of interior spruce (n=10) Swift and Brockley (1994)

72

73 Effects of individual and combined applications of N and “complete mix” fertilizer on 1 st year foliar N/S ratio in interior spruce (n=10) Swift and Brockley (1994) critical level

74 Effects of individual and combined applications of N and “complete mix” fertilizer on 1 st year foliar N/S ratio in interior spruce (n=10) Swift and Brockley (1994) critical level

75 Effect of fertilization on 3-year height increment of young Engelmann spruce in the ESSF dc (Brockley 1992) Year 3 Year 2 Year 1

76

77 Interior spruce fertilization research l 14 screening trials (SBS, ICH, ESSF) l 9 area-based “conventional” trials (SBS, ICH, ESSF)

78 Interior spruce fertilization research l 14 screening trials (SBS, ICH, ESSF) l 9 area-based “conventional” trials (SBS, ICH, ESSF)  19 to 30 years

79 Interior spruce fertilization research l 14 screening trials (SBS, ICH, ESSF) l 9 area-based “conventional” trials (SBS, ICH, ESSF)  19 to 30 years  SI 18-24 m @ 50 years

80 Effect of N and N+S fertilization on 9-year stand volume increment of interior spruce EP 886.01 (n=5)

81 Foliar N/S ratio by treatment and year EP 886.01 (spruce; n=5) critical level

82 Foliar N/S ratio by treatment and year EP 886.01 (spruce; n=5) critical level

83 Effect of N and N+S fertilization on 9-year stand volume increment of interior spruce EP 886.01 Inst. #27 (ESSFwc4, SI 18)

84 Effect of N and N+S fertilization on 9-year stand volume increment of interior spruce EP 886.01 Inst. #29 (ICHmc2, SI 18)

85 Effect of N and N+S fertilization on 9-year stand volume increment of interior spruce EP 886.01 Inst. #21 (ICHmm, SI 23)

86 Effect of N and N+S fertilization on 9-year stand volume increment of interior spruce EP 886.01 Inst. #22 (ICHwk1, SI 24)

87 Effect of N and N+S fertilization on 9-year stand volume increment of interior spruce EP 886.01 Inst. #20 (SBSmc2, SI 19)

88 Foliar B concentration by treatment and year EP 886.01 Inst. #20 critical level

89 Effect of N and N+S fertilization on 9-year stand volume increment by initial foliar N class

90 Interior spruce fertilization research l 14 screening trials (SBS, ICH, ESSF) l 9 area-based “conventional” trials (SBS, ICH, ESSF)  19 to 34 years  SI 24-29 m @ 50 years l 3 area-based “maximum productivity” trials (SBS)

91 Interior spruce fertilization research l 14 screening trials (SBS, ICH, ESSF) l 9 area-based “conventional” trials (SBS, ICH, ESSF)  19 to 34 years  SI 24-29 m @ 50 years l 3 area-based “maximum productivity” trials (SBS)  9 to 13 years

92 Effects of “single” vs. “repeated” fertilization Single fertilization Unfertilized Fertilize

93 Effects of “single” vs. “repeated” fertilization Single fertilization Unfertilized Multiple fertilization Fertilize

94 Treatments l Control l N+B l N+S+B l “Complete blend” l Optimum Nutrition 1 (1.3%N) l Optimum Nutrition 2 (1.6%N) every 6 years

95 Control Fall 2001 ON 2 Fall 2001

96 EP 886.13 Inst. #3 (Crow Creek) Spruce (SBSmc2)

97 EP 886.13 Inst. #3 (Crow Creek) Spruce (SBSmc2)

98 EP 886.13 Inst. #3 (Crow Creek) Spruce (SBSmc2)

99 EP 886.13 Inst. #5 (Lodi Lake) Spruce (SBSwk1)

100 EP 886.13 Inst. #5 (Lodi Lake) Spruce (SBSwk1)

101 EP 886.13 Inst. #5 (Lodi Lake) Spruce (SBSwk1)

102 EP 886.13 Inst. #1 (Sheridan Creek) Lodgepole pine (SBSdw2)

103 EP 886.13 Inst. #1 (Sheridan Creek) Lodgepole pine (SBSdw2)

104 EP 886.13 Inst. #1 (Sheridan Creek) Lodgepole pine (SBSdw2)

105 Other relevant studies

106 Effect of N fertilization on 5-year stand volume increment of white spruce in Alberta (n=3) Krause et al. (1982)

107 Effect of N and N+K fertilization on 10-year stand volume increment of 35-year-old white spruce Gagnon et al. (1976)

108 Effect of repeated fertilization on 5-year tree BA increment of 70-year-old white spruce van Cleve and Zasada (1976)

109 Norway spruce fertilization response (m 3 /ha) Northern Sweden (from Pettersson 2001)

110 Effects of fertilization on the white pine weevil

111 Pissodes strobi

112 White pine weevil damage by treatment EP 886.13 Installation #5 (Lodi Lake) vanAkker et al. (2005)

113 Effect of repeated fertilization on 9-year height increment of young interior spruce EP 886.13 Inst. #5 (Lodi Lake) 7- to 9-year 4- to 6-year 1- to 3-year

114 White pine weevil damage by treatment EP 886.13 Installation #9 (Hand Lake) L. vanAkker et al. (2005)

115 Summary

116 Douglas-fir

117 Summary Douglas-fir l stands in the ICH generally respond well to N fertilization

118 Summary Douglas-fir l stands in the ICH generally respond well to N fertilization l best responses (20-25 m 3 /ha or 30% over 9 years) are associated with low foliar N (< 1.15%)

119 Summary Douglas-fir l stands in the ICH generally respond well to N fertilization l best responses (20-25 m 3 /ha or 30% over 9 years) are associated with low foliar N (< 1.15%) l no apparent relationship between growth response and SI

120 Summary Douglas-fir l stands in the ICH generally respond well to N fertilization l best responses (20-25 m 3 /ha or 30% over 9 years) are associated with low foliar N (< 1.15%) l no apparent relationship between growth response and SI l little evidence of improved growth when S is combined with N in fertilizer prescriptions

121 Summary Douglas-fir l stands in the ICH generally respond well to N fertilization l best responses (20-25 m 3 /ha or 30% over 9 years) are associated with low foliar N (< 1.15%) l no apparent relationship between growth response and SI l little evidence of improved growth when S is combined with N in fertilizer prescriptions l additional area-based trials are needed in other BEC zones (SBS) and in older stands (> 40 years)

122 Summary Douglas-fir l stands in the ICH generally respond well to N fertilization l best responses (20-25 m 3 /ha or 30% over 9 years) are associated with low foliar N (< 1.15%) l no apparent relationship between growth response and SI l little evidence of improved growth when S is combined with N in fertilizer prescriptions l additional area-based trials are needed in other BEC zones (SBS) and in older stands (> 40 years) l effects of repeated fertilization need to be documented

123 Summary Interior spruce

124 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir

125 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir l best responses (20-25 m 3 /ha or 30-40% over 9 years) are associated with low foliar N (< 1.1%) and SI < 20

126 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir l best responses (20-25 m 3 /ha or 30-40% over 9 years) are associated with low foliar N (< 1.1%) and SI < 20 l smallest growth responses are associated with highest SI (> 23)

127 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir l best responses (20-25 m 3 /ha or 30-40% over 9 years) are associated with low foliar N (< 1.1%) and SI < 20 l smallest growth responses are associated with highest SI (> 23) l little evidence of improved growth when S is combined with N in fertilizer prescriptions

128 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir l best responses (20-25 m 3 /ha or 30-40% over 9 years) are associated with low foliar N (< 1.1%) and SI < 20 l smallest growth responses are associated with highest SI (> 23) l little evidence of improved growth when S is combined with N in fertilizer prescriptions l B deficiencies (< 10 ppm) may limit growth response to N and NS fertilization on some SBS sites

129 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir l best responses (20-25 m 3 /ha or 30-40% over 9 years) are associated with low foliar N (< 1.1%) and SI < 20 l smallest growth responses are associated with highest SI (> 23) l little evidence of improved growth when S is combined with N in fertilizer prescriptions l B deficiencies (< 10 ppm) may limit growth response to N and NS fertilization on some SBS sites l planted spruce is apparently very well suited to “high input” silviculture

130 Summary Interior spruce l fertilization response is more variable and, on average, smaller than D-fir l best responses (20-25 m 3 /ha or 30-40% over 9 years) are associated with low foliar N (< 1.1%) and SI < 20 l smallest growth responses are associated with highest SI (> 23) l little evidence of improved growth when S is combined with N in fertilizer prescriptions l B deficiencies (< 10 ppm) may limit growth response to N and NS fertilization on some SBS sites l planted spruce is apparently very well suited to “high input” silviculture l additional area-based trials are needed on N deficient sites in several BEC zones (ICH, ESSF, SBS) and in older stands (> 40 years)

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