ENVIRONMENTAL CONSEQUENCES in rocky mountain coniferous ...

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~ypsFek, V , , and M. RypSEkova, 1975. Brown rot of wood as a model for studies of 1 ignocellulose humification. Biolog. Plant. 17:452-457. Spaulding, P., and J. R. Hnasbraugh. 1944. Decay of logging slash in the northeast. USDA Tech. ~ u l l . 876, 22 p. Takao, S. 1965. Organic acid production by Basidiomycetes. I. Screening of acid-producing strains. Appl. Microbiol. 13:732-737.
MICROBIAL PROCESSES ASSOCIATED WITH NITROGEN CYCLING IN NORTHERN ROCKY MOUNTAIN FOREST SOILS Martin F. Jurgensen, Professor of Forest Soils Department of Forestry Mi chi gan Techno1 ogi cal University Michael J. Larsen, Research Mycologist Center for Forest Mycology Research USDA Forest Service, Forest Products Laboratory A1 an E. Harvey, Research Plant Path01 ogist USDA Forest Service, Intermountain Forest and Range Experiment Station ABSTRACT The soil microflora is of critical importance for the cycling of nitrogen (N) in forest ecosystems. Forest management practices such as timber harvesting, residue removal and prescribed burning greatly affect the activity of these microorganisms. N fixation by free-living soil bacteria in the Northern Rocky Mountain region was reduced following harvesting. This was particularly true in the surface organic horizons and appeared related to low moisture levels on the surface of cleared sites. Decaying wood incorporated in the soil was a major site of N fixation. The establ ishment +- of N-fi xing plants, such as Alnus, Ceanothus , Lu inus and Astra alus on logged areas could more than compensate ' for t e lower N ixation rates by soil bacteria. However, the occurrence of these plants are habitat-type related, and most of the sites studied did not have a significant N-fixing plant component. Increases in ammonium and nitrate concentrations occurred in the soil following logging, especially when the sites were burned. Such increases in available soil N levels could be beneficial for subsequent regeneration establishment and growth. However, both ammonium and nitrate concentrations returned to their original levels within several years after cutting. Higher nitrate concentrations after harvesting could increase leaching losses of N from the site. Changes in soil organic matter content must be considered when evaluating the effects of harvesting methods on soil N strata. KEYWORDS: nitrogen fixation, nitrogen mineral i zation, ammonium, nitrate, timber harvesting, fire, 1 i tter
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ENVIRONMENTAL CONSEQUENCES OF TIMBE
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USDA Forest Service General Technic
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REW 'ORD One of the pressing proble
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BIOLOGICAL IMPLICATIONS Biological
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By the mid-1 960's the apparently u
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Scientist, audience: "The Three-Mil
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I believe that the future of forest
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enewable resource that can be proce
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productive capacity. Recent legisla
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Much of the research investigating
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Six sale area blocks were logged (f
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Understory Removal Figure 4.--Eccpe
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Gentle slopes and easy access to cu
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Each of the four cutting units was
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A concerted effort was made to coor
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oriented toward the basic response
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WOODY MATERIAL IN NORTHERN ROCKY MO
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STANDING, 3 " 1 DIA. ? (GREEN & DEA
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I 11 Table 1,--Volume of wood by co
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Small material under 3 inch (7.6 cm
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Depending on the cutting and treatm
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MICROENVIRONMENTAL RESPONSE TO HARV
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I Where: Cs is the concentration at
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Figure I.-- Residue treatments used
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HARVESTING AND RESIDUE INFLUENCES R
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I 1 1 1 1 1 1 1 1 1 1 1 JAN. FEB. M
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Sensible heat flux, evaporative flu
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SOLO, 1977- 78 UNCUT CUT Mean max.
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It is logical that if surface tempe
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0 - 5 - 10 - 15 20 - Chips - Clrare
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Brown, crumbly, decayed material (B
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At Coram, steep harvested slopes ha
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surface of unburned and hard-burned
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canopy. Light then indirectly cause
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Moisture Moisture is frequently ide
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Net radiation--the measure of the a
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Table 5.--Possible solutions for po
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Cochran, P. H. 1969. Thermal proper
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Lommen, P. W., Cr, R. Schwintzer, C
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Stark, Nel 1 ie. 1980. The impacts
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and water use during the growing se
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The main study site (fig. 1) occupi
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The four residues util i zation tre
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RAIN The major precipitation instru
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Figure 5.--SG,L. wuwr zc)as measure
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S treamf 1 ow A &foot H-flume was i
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Figure 7.--Snow water equivalent on
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Soi 1 Water Water present in the so
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SILVICULTURE TREATMENTS Si 1 vicul
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As indicated in figure 11 and appen
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The most consistent difference in w
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MEAN CONSUMPTIVE USE -ALL YEARS (19
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Lowest daily water use occurred at
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6. Water use began in Apri 1 , acce
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Klages, M. G., R. C. McConnell , an
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APPENDICES Appendix A.--Hydrograph
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Appendix C.--Rainfall reaching the
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Appendix E.--Water use during the g
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One of the most efficient methods o
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Control Chipped Picked up Broadcast
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Control Chapped Picked up Broadcast
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Control Chipped Picked up Broadcast
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' Control Chipped and Picked up and
Page 127 and 128: One of the least detrimental residu
Page 129 and 130: INTRODUCTION In the early days, the
Page 131 and 132: %pire 1.--Measured concentrations (
Page 133 and 134: The silvicul tural treatments appli
Page 135 and 136: I 2 Table 2. --Percent of total qua
Page 137 and 138: Unmerchantable TOP Shrubs Lower Cro
Page 139 and 140: create a nitrogen deficiency during
Page 141 and 142: Steele, R. W. 1975. Understory burn
Page 143 and 144: National Forest. This paper summari
Page 145 and 146: UNIT 2 CONVENT IONALLY Du Bois, Wyo
Page 147 and 148: Trees Figures 3 and 4 show the oven
Page 149 and 150: Weights of typical trees on these t
Page 151 and 152: pi1 ed-burned treatments were lowes
Page 153 and 154: MINERAL SOIL Total nutrient content
Page 155 and 156: Tab1 e 5. --Concentrations of avai
Page 157 and 158: Table 6. --Average concentrations o
Page 159 and 160: sites. Burning then transformed the
Page 161 and 162: RESIDUE DECAY PROCESSES AND ASSOCIA
Page 163 and 164: The hardwood or angiospermous timbe
Page 165 and 166: Woody Substrates Gyrnnospermsr (Int
Page 167 and 168: Natural inoculation of residues may
Page 169 and 170: On the Coram site, brown-rot fungi
Page 171 and 172: Table 2.--Probability (P) of encoun
Page 173 and 174: Recognizable brown-cubical decayed
Page 175 and 176: I Newly formed, small-dimension res
Page 177: Highley, T. L. 1976. Hemicellulases
Page 181 and 182: Nonsymbiotic N Fixation Free-1 ivin
Page 183 and 184: In a previous paper (Jurgensen and
Page 185 and 186: Symbiotic N Fixation The establishm
Page 187 and 188: carbon and NHq (Ahlgren, 1974). Mic
Page 189 and 190: Prescribed f~re CLEARCUT - BURN CLE
Page 191 and 192: Hungerford, R.9. 1980. Microenvi ro
Page 193 and 194: ECOLOGY OF ECTOMYCORRHIZAE IN NORTH
Page 195 and 196: Coram - Subalpine fir Site (ABLAICL
Page 197 and 198: Figure 2.-- ReZative yield capabiZi
Page 199 and 200: Figure 5. -- Percentage of soCZ-woo
Page 201 and 202: Figure 9,-- Percentage of toid ectm
Page 203 and 204: Effect of Soil Components on Ectomy
Page 205 and 206: Effect of Organic Matter Quantity o
Page 207 and 208: PARTIAL CUT Effect of Harvesting on
Page 209 and 210: Figure 20. -- Average nwnbers of ac
Page 211 and 212: Gijbl , F. 1967. Mykorrhizauntersuc
Page 213 and 214: BIOLOGICAL IMPLICATIONS Initial cha
Page 215 and 216: FOREST SOIL BIOLOGY The act of incr
Page 217 and 218: the soil will retain its ability to
Page 219 and 220: Since the best quantity of organic
Page 221 and 222: We can also visualize situations on
Page 223 and 224: Harvey, A. E., M. F. Jurgensen, and
Page 225 and 226: INTRODUCTION Vegetation integrates
Page 227 and 228: Because of cool, wet weather in 197
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We determined volume and cover usin
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The stems were divided at 4 mm (0.1
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RESIDUES TREATMENT EFFECTS As descr
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Overall shrub recovery rates do not
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Rose behaved similar to ninebark (f
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Meanwhile, small shrub cover change
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Biomass Regression analyses relatin
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SILVICULTURE TREATMENT EFFECTS Harv
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RESIDUES TREATMENT EFFECTS Major sh
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Lesser vegetation--herbs and small
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Leaf and stem components of the shr
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APPENDIX I Trees and shrubs found o
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INTRODUCTION Many western larch (La
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Figure 2. --Lower cutting blocks on
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each permanent point) of the clearc
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Figure 3.--Marking gemination and c
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were not significant. These treatme
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Tab1 e 2. --Fi 11 ed conifer seed (
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Dispersal of sound seed on the uppe
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Table $.--Number of 3- and 5-year-o
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Table 6. --Germination of conifers
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Survival, growth and form will be m
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Es tab1 ishment and Initial Develop
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to the amount of residue originally
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As the following tabulation shows,
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Soot-Seeded Broadcast burning, and
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Natural Regeneration Natural regene
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.4s shown in fig. 5, vegetation was
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Interestingly, the high phenol leve
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DeByle, Norbert V. 1980. Harvesting
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EFFECT OF SILVICULTURAL PRACTICES,
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mountain pine beetle. These two for
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GROUP SELECTION 22 CONTROL SHELTERW
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FIELD AND LABORATORY PROCEDURES To
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I Many of the groups were trapped v
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shelterwood with residues, were sig
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HARVESTING AND RESIDUE MANAGEMENT T
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indicate a treatment effect of burn
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Undisturbed Forest .". . . . Clearc
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1 equally abundant in all treatment
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I not seem to be directly caused by
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the undisturbed forests. Some resea
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Huhta, V., E. Karppinen, M. Nurmine
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POPULATIONS OF SOME FOREST LITTER,
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STUDY DESIGN The study area is loca
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GROUP SELECTION 22 CONTROL '... . .
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Sampling in 1977 was restricted to
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Table 1 .--Mean total mesofauna pop
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0 - (JUNE) from S helterwood (AUGUS
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SHELTERWOOD--RESIDUE BURNED The eff
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In the first season or two followin
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LITERATURE CITED Ahlgren, I. F. 197
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A REVIEW OF SOME INTERACTIONS BETWE
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and Keen 1960; Felix and others 197
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Pissodes strobi Peck, In a thinned
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foresters feel as though "It's 1 i
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The large aerial spray programs aga
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Weakened living trees, or trees kil
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Most western pine beetle attacks in
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The galleries, or mines, of wood bo
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Other wood borers. --Several specie
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Deterioration of spruce (Picea a. )
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The eruption of Mount Saint Helens
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Bark and engraver beetles infesting
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In the northern Rockies, one conife
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management, and not the beetle." If
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investigation regardin controlled b
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WOOD BORERS Mitchell and Martin (In
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Still, by 1938, there was a feeling
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I Different i nvesti gators have us
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if the forest floor is completely c
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Carabids as biological control agen
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een placed for protection from rode
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with every tree in the stand contin
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Spiders as predators.--Studies have
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At least two studies have been made
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In the long-leaf pine forests in th
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RESIDUES, FIRES, INSECTS, AND FORES
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In the spruce-fir stands infested w
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Recently, Senator John Me1 cher (Mo
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plans. Since fire, too, is a decomp
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CHANGING FOREST INSECT PROBLEMS Ins
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Basham, J. T. 1957. The deteriorati
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Cole, D. M. 1978. Feasibility of si
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Fellin, D. G. and P. C. Johnson. 19
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Graham, S. A. 1922. Some entomoloqi
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Huhta, V., M. Nurminen and A. Valpa
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Lawrence, W. H. and 3. H. Rediske.
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Miller, J. M. and J. E. Patterson.
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Rice, L * A. 1932. The effect of fi
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Stoddard, H. L. Sr. 1963. Bird habi
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Weaver, Harol d. 1951. Fire as an e
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RESOURCE MANAGEMENT IMPLICATIONS Th
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INFLUENCE OF HARVESTING AND RESIDUE
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F
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NEAR COMPLETE Figure 2.--Byrmnts f
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Figure 3.-- Bymrmrs fireZine intens
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F5qure 4. --Byramrs fireZ-Cne inten
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1. Nomographs of Rate of Spread, Fi
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3. Consider other fire-related fact
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Puckett, John V., Cameron M. Johnst
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Important and rapid progress has be
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tlarvested Areas What happened when
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UNCUT SHELTERWOOD Protect understor
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Initially the areas are rated low.
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The primary reason for this discrep
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f n contrast to displaced bears, so
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Quantitative data on grizzly behavi
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Asherin, Duane A. 1976. Changes in
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Leege, Thomas A. 1969. Burning sera
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Reynolds, Hudson G. 1969. Aspen gro
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INFLUENCES OF HARVESTING AND RESIDU
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CLEARCUT LOGGING & COMPLETE BURN DE
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C LEARCUT LOGGING & BROADCAST BURN
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EFFECTS OF SMALL MAMMALS ON FOREST
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I I Habitat Manipulation Small mamm
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Fala, Robert A. 1975. Effects of pr
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Tevis, Lloyd Jr. l956b. Pocket goph
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forests are cavity nesters. They ar
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GROUP SELECTION: A1 1 merchantab le
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TABLE 3. Pre- and post-logging volu
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Censuses Censuses for all species (
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Fbgure 6.-- Lightn
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Pileated Woodpeckers on the CEF nes
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TABLE 7. Percent of sampling time t
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I Observed woodpecker feeding Down,
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Table 9 shows feeding time in the l
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L c - 10- ul 2 0 8- 6 - 4 2 - - 0 .
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Figure 15. -- A Hairy Woodpecker ne
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~
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oth offered advice on study site se
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Hairy Woodpecker Downy Woodpecker B
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THE SITUATION Forest land managers
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In the descriptive approach, howeve
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ORGANIZING INFORMATION One differen
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As has already been stated, the for
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Figure 7.--Matrix of interactions b
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understory biomass density, X2 repr
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or, by rearrangement, AX. I afi Ax,
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DISCUSSION It is important to note
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LITERATURE CITED Billings, W. D. 19
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Richard T. Wick Burlington Northern
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themselves, the traditional industr
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highways. Of course, all roads are
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Darrel L. Kenops District Ranger US
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In the future we will see our const
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Lyon, L. Jack, Project Leader, Ecol
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The Intermountain Station, headquar
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