Agriculture Reference
In-Depth Information
Dimock EJ (1958) Litter fall in a young stand of Douglas-fir. Northwest Sci 32:19-29
Edmonds RL (1979) Decomposition and nutrient release in Douglas-fir needle litter in relation to
stand development. Can J For Res 9:132-138
Edmonds RL (1987) Decomposition rates and nutrient dynamics in small-diameter woody litter in
four forest ecosystems in Washington, USA. Can J For Res 17:499-509
Edmonds RL (1991) Organic matter decomposition in western United States forests. In:
Management and productivity of western-montane forest soils. USDA Forest Service
Intermountain Research Station General Technical Report INT-280. Boise, ID, pp 118-125
Edmonds RL, Eglitis A (1989) The role of the Douglas-fir beetle and wood borers in
the decomposition and nutrient release from Douglas-fir logs. Can J For Res 19:853-859
Edmonds RL, Vogt D, Sandberg D, Driver CH (1986) Decomposition of Douglas-fir and
red alder wood in clear-cuttings. Can J For Res 16:822-831
Ferrari JB (1999) Fine-scale patterns of leaf litterfall and nitrogen cycling in an old-growth forest.
Can J For Res 29:291-302
Fogel R, Cromack K (1977) Effect of habitat and substrate quality on Douglas-fir litter decomposi-
tion in western Oregon. Can J Bot 55:1632-1640
Fortin M-J (1999) Spatial statistics in landscape ecology. In: Klopatek JM, Gardner RH (eds) Land-
scape ecological analysis: issues and applications. Springer-Verlag, New York, pp 253-279
Geiszler DR, Gara RI, Driver CH, Gallucci VF, Martin RE (1980) Fire, fungi, and beetle influ-
ences on a lodgepole pine ecosystem of south-central Oregon. Oecologia 46:239-243
Goheen DJ, Hansen EM (1993) Effects of pathogens and bark beetles on forests. In: Schowal-
ter T, Filip GM (eds) Beetle-Pathogen interactions in conifer forests. Academic, San Diego,
pp 175-196
Gottfried GL (1978) Five-year growth and development in a virgin Arizona mixed conifer stand.
USDA Forest Service Rocky Mountain Forest and Range Experiment Station, Research Paper
RM-203. Fort Collins, CO USA
Graham RL (1982) Biomass dynamics of dead Douglas-fir and western hemlock boles in mid-
elevation forests of the Cascade Range. Ph.D. Dissertation. Oregon State University, Corvallis,
Oregon, USA. 121 pp
Grier CC, Logan RS (1977) Old-growth
Pseudotsuga menziesii
communities of a western Oregon
watershed: Biomass distribution and production budgets. Ecol Monogr 47:373-400
Habeck JR (1985) Impact of fire suppression on forest succession and fuel accumulations in long
fire interval wilderness habitat types. Proceedings:symposium and workshop on wilderness
fire. U.S. department of agriculture, forest service, intermountain forest and range experiment
station, Ogden, UT., USA, Missoula, MT, pp 76-85
Harmon ME, Franklin JF, Swanson FJ, Sollins P, Gregory SV, Lattin JD, Anderson NH, Cline
SP, Aumen NG, Sedell JR, Lienkaemper GW, Cromack K, Cummins KW (1986) Ecology of
coarse woody debris in temperate ecosystems. Adv Ecol Res 15:133-302
Harmon ME, Hua C (1991) Coarse woody debris dynamics in two old-growth ecosystems.
Bioscience 41:604-610
Harmon ME, Woodall CW, Fasth B, Sexton J (2008) Woody detritus density and density reduction
factors for tree species in the United States: a synthesis. USDA forest service northern research
station, General Technical Report NRS-29 Newton Square, PA USA, 84 pp
Hart SC, Firestone MK, Paul EA (1992) Decomposition and nutrient dynamics of ponderosa pine
needles in a Mediterranean-type climate. Can J For Res 22:306-314
Hartley CCP (1958) Evaluation of wood decay in experimental work. Collections
Hicke JA, Johnson MC, Hayes JL, Preisler HK (2012) Effects of bark beetle-caused tree mortal-
ity on wildfire. For Ecol Manag 271:81-90. doi:http://dx.doi.org/10.1016/j.foreco.2012.02.005
Hiers JK, O'Brien JJ, Mitchell RJ, Grego JM, Loudermilk EL (2009) The wildland fuel cell con-
cept: an approach to characterize fine-scale variation in fuels and fire in frequently burned
longleaf pine forests. Int J Wildland Fire 18(3):315-325. doi:10.1071/WF08084
Hoffman CM, Hull Sieg C, McMillin JD, Fulé PZ (2012) Fuel loadings 5 years after a bark beetle
outbreak in south-western USA ponderosa pine forests. Int J Wildland Fire 21(3):306-312.
doi:http://dx.doi.org/10.1071/WF11019
Search WWH ::
Custom Search