Abstract
In the absence of fire in black spruce-feathermoss stands, a thick forest floor layer dominated by bryophytes and sphagnum accumulates. This layer is associated with wet, cool and nutrient-poor soil conditions conducive to the paludification process and pushing the ecosystem towards an unproductive open black spruce forest. The presence of Populus tremuloides in theses stands may halt this process because this species has a high nutrient cycling rate and a litter that represses moss cover. The main hypothesis of this study is that, despite similar abiotic conditions (slope and drainage), the presence of Populus tremuloides in a stand dominated by Picea mariana affects surface soil nutrient availability, total N, pH as well as the decomposition process. The abundance of Populus tremuloides trees was associated with higher exchangeable cations, cationic exchangeable capacity and pH of the forest floor layer on all sites. A decrease in organic matter thickness with increasing aspen presence was also found on all sites, suggesting that this species affects the decomposition process by the quality of its litter as well as by a general improvement of soil physical and chemical properties. The decomposition rate of a standard substrate as well as in vitro potential net nitrogen mineralization were positively related to Populus tremuloides on only one of the three sites, and non-significant on the other sites. Strong immobilization of added nitrogen during incubation was observed on all sites and was not related to aspen, which suggested that in these stands, the soil microbial community is uniformly and strongly nitrogen limited. The zone of influence of Populus tremuloides was evaluated in areas around the soil sampling plot ranging from 3 to 7 m. The results revealed that this zone varies with soil properties. The results suggest that the presence of Populus tremuloides accelerate nutrient cycling, which could affect stand productivity to some extent.
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References
D H Alban (1982) ArticleTitleEffects of nutrient accumulation by aspen, spruce, and pine on soil properties Soil Sci. Soc. Am. J. 46 853–861 Occurrence Handle1:CAS:528:DyaL38XlvVWjsLc%3D Occurrence Handle10.2136/sssaj1982.03615995004600040037x
D H Alban J Pastor (1993) ArticleTitleDecomposition of aspen, spruce, and pine boles on two sites in Minnesota Can. J. For. Res. 23 1744–1749 Occurrence Handle1:CAS:528:DyaK2cXitFGqtbk%3D
Y Bergeron A Bouchard (1984) ArticleTitleUse of ecological groups in analysis and classification of plant communities in a section of western Quebec Vegetatio 56 45–63 Occurrence HandleA1984SR49000005 Occurrence Handle10.1007/BF00036136
Y Bergeron S Gauthier V Kafka P Lefort D Lesieur (2001) ArticleTitleNatural fire frequency for the eastern Canadian boreal forest: consequences for sustainable forestry Can. J. For. Res. 31 384–391 Occurrence Handle10.1139/cjfr-31-3-384
Bergeron Y, Gauthier S, Flannigan M and Kafka V 2004 Fire regimes at the transition between mixedwoods and conifer boreal forest in northwestern Quebec. Ecology (in press).
D Binkley (1986) Forest Nutrition Management John Wiley & Sons New York 290
Binkley D 1995 The influence of tree species on forest soils: Processes and patterns. In Proceedings of the Tree and Soil Workshop. Eds. D J Mead and I S Cornforth. pp. 1–33. Agronomy Society of New Zealand, Canterbury, Special Publication No. 10.
J G Bockheim E A Jepsen D M Heisey (1991) ArticleTitleNutrient dynamics in decomposing leaf litter of four tree species on a sandy soil in northwestern Wisconsin Can. J. For. Res. 21 803–812 Occurrence Handle1:CAS:528:DyaK3MXmtVOjs7s%3D
S E Boettcher P J Kalisz (1991) ArticleTitleSingle-tree influence on earthworms in forest soils in eastern Kentucky Soil Sci. Soc. Am. J. 55 862–865 Occurrence Handle10.2136/sssaj1991.03615995005500030040x
C Boudreault Y Bergeron S Gauthier P Drapeau (2002) ArticleTitleBryophyte and lichen communities in mature to old-growth stands in eastern boreal forests of Canada Can. J. For. Res. 32 1080–1093 Occurrence Handle10.1139/x02-027
T J Carleton P F Maycock (1978) ArticleTitleDynamics of the boreal forest south of James Bay Can. J. Bot. 56 1157–1173 Occurrence Handle10.1139/b78-130
MR Carter (1993) Soil Sampling and Methods of Analysis Canadian Society of Soil Science Boca Raton, FL 461
I G W Corns (1989) ArticleTitleEcosystems with potential for aspen management In Managing for aspen, a shared responsibility: Proceedings of the Joint Technical Session of the Forest Ecology, Silviculture and Tree Improvement Forest Management, and Forest Economics and Policy Working Groups. For. Chron. 65 16–22
L Côté S Brown D Paré J Fyles J Bauhus (2000) ArticleTitleDynamics of carbon and nitrogen mineralization in relation to stand type, stand age and soil texture in the boreal mixedwood Soil Biol. Biochem. 32 1079–1090
Environment Canada 1993 Canadian Climate Normals, 1961–1990. Atmospheric Environment Service, Ottawa, Ont.
A C Finzi C D Canham (1998) ArticleTitleNon-additive effects of litter mixtures on net N mineralization in a southern New England forest For. Ecol. Manage. 105 129–136 Occurrence Handle10.1016/S0378-1127(97)00277-6
P W Flanagan K Cleve ParticleVan (1983) ArticleTitleNutrient cycling in relation to decomposition and organic-matter quality in taiga ecosystems Can. J. For. Res. 13 795–817 Occurrence Handle1:CAS:528:DyaL2cXmslantg%3D%3D
D R Foster (1983) ArticleTitleThe history and pattern of fire in the boreal forest of southeastern Labrador Can. J. Bot. 61 2459–2471 Occurrence Handle10.1139/b83-269
D R Foster (1985) ArticleTitleVegetation development following fire in Picea mariana (black spruce)-Pleurozium forests of south-eastern Labrador, Canada J. Ecol. 73 517–534
S Gauthier L Grandpré ParticleDe Y Bergeron (2000) ArticleTitleDifferences in forest composition in two boreal forest ecoregions of Quebec J. Veg. Sci. 11 781–790
Grondin P 1996 Écologie forestière. In Manuel de foresterie. Eds. J Bérard and M Côté. pp. 133–278. Les Presses de l'Université Laval, Québec.
WH Hendershot H Lalande M Duquette (1993) on exchange and exchangeable cations MR Carter (Eds) Canadian Society of Soil Science Boca Raton FL 167–176
S E Hobbie (1992) Effects of plant species on nutrient cycling Trends Ecol. Evol. 7 336–339
Keeney D R and Nelson D W 1982 Nitrogen-inorganic forms. In Methods of Soil Analysis. Part 2, Chemical and Microbiological Properties. Eds. A L Page and R H Miller. pp. 643–698. American Society of Agronomy, Madison, WI.
S Légaré Y Bergeron A Leduc D Paré (2001) ArticleTitleComparison of the understory vegetation in boreal forest types of southwest Quebec Can. J. Bot. 79 1019–1027
S Légaré D Paré Y Bergeron (2004) ArticleTitleThe response of black spruce growth to an increased proportion of aspen in mixed stands Can. J. For. Res. 34 405–416
M A K Lodhi (1977) ArticleTitleThe influence and comparison of individual forest trees on soil properties and possible inhibition of nitrification due to intact vegetation Am. J. Bot. 64 260–264 Occurrence Handle1:CAS:528:DyaE2sXhvVygu7s%3D
M-H Longpré Y Bergeron D Paré M Béland (1994) ArticleTitleEffect of companion species on the growth of jack pine (Pinus banksiana) Can. J. For. Res. 24 1846–1853
MacLean D A, Woodley S J, Weber M G and Wein R W 1983 Fire and nutrient cycling. In The Role of Fire in Northern Circumpolar Ecosystems. Eds. R W Wein and D A MacLean. pp. 11–132. John Wiley & Sons Ltd., New York.
C A McClaugherty J Pastor J D Aber J M Melillo (1985) ArticleTitleForest litter decomposition in relation to soil nitrogen dynamics and litter quality Ecology 66 266–275 Occurrence HandleA1985ABS6200027
McKeague J A 1976 Manual on Soil Sampling and Methods of Analysis. Canadian Society of Soil Science, Ottawa, Ont.
T R Moore J A Trofymow B Taylor C Prescott C Camiré L Duchesne J Fyles L Kozak M Kranabetter I Morrison M Siltanen S Smith B Titus S Visser R Wein S Zoltai (1999) ArticleTitleLitter decomposition rate in Canadian forests Global Change Biol. 5 75–82 Occurrence Handle10.1046/j.1365-2486.1998.00224.x
Oechel W C and Van Cleve K 1986 The role of bryophytes in nutrient cycling in the taiga. In Forest Ecosytems in Alaskan Taiga. Eds. K Van Cleve, F S Chapin III, P W Flanagan, L A Viereck, C T Dyrness. pp. 121–137. Springer-Verlag, New York.
D Paré Y Bergeron (1996) ArticleTitleEffect of colonizing tree species on soil nutrient availability in a clay soil of the boreal mixedwood Can. J. For. Res. 25 1022–1031
S J Riha B R James G P Senesac E Pallant (1986) ArticleTitleSpatial variability of soil pH and organic matter in forest plantations Soil Sci. Soc. Am. J. 50 1347–1352
C C Rhoades (1997) ArticleTitleSingle-tree influences on soil properties in agroforestry: Lessons from natural forest and savanna ecosystems Agrofor. Syst. 35 71–94
A Rothe D Binkley (2001) ArticleTitleNutritional interactions in mixed species forests: A synthesis Can. J. For. Res. 31 1855–1870 Occurrence Handle10.1139/cjfr-31-11-1855
A Rothe K Kreutzer H Küchenhoff (2002) ArticleTitleInfluence of tree species composition on soil and soil solution properties in two mixed spruce-beech stands with contrasting history in Southern Germany Plant Soil 240 47–56 Occurrence Handle1:CAS:528:DC%2BD38XkvVWqu7w%3D
Soil Classification Working Group 1998 The Canadian System of Soil Classification, Third Edition. Agriculture and Agri-Food Canada, Research Branch, Publication 1646. 187 pp.
J Staelens L Nachtergale S Luyssaert N Lust (2003) ArticleTitleA model of wind-influenced leaf litterfall in a mixed hardwood forest Can. J. For. Res. 33 201–209 Occurrence Handle10.1139/x02-174
K D Thomas C E Prescott (2000) ArticleTitleNitrogen availability in forest floors of three tree species on the same site: The role of litter quality Can. J. For. Res. 30 1698–1706 Occurrence Handle1:CAS:528:DC%2BD3cXovVGhsLg%3D
J A Trofymow T R Moore B Titus C Prescott I Morrison M Siltanen S Smith J Fyles R Wein C Camiré L Duschene L Kozak M Kranabetter S Visser (2002) ArticleTitleRates of litter decomposition over 6 years in Canadian forests: Influence of litter quality and climate Can. J. For. Res. 32 789–804 Occurrence Handle10.1139/x01-117
D P Turner E H Franz (1985) ArticleTitleThe influence of western hemlock and western redcedar on microbial numbers, nitrogen mineralization, and nitrification Plant Soil 88 259–267 Occurrence Handle10.1007/BF02182452
N Breemen Particlevan A C Finzi C D Canham (1997) ArticleTitleCanopy tree–soil interactions within temperate forests: Effects of soil elemental composition and texture on species distributions Can. J. For. Res. 27 1110–1116
K Cleve ParticleVan L L Noonan (1975) ArticleTitleLitter fall and nutrient cycling in the forest floor of birch and aspen stands in interior Alaska Can. J. For. Res. 5 626–639
Van Cleve K and Viereck L A 1981 Forest succession in relation to nutrient cycling in the boreal forest of Alaska. In Forest Succession: Concepts and Application. Eds. D C West, H H Shugart and D B Botkin. pp. 185–211. Springer-Verlag, New York.
Viereck L A and Dyrness C T 1979 Ecological effects of the Wickersham Dome fire near Fairbanks, Alaska. USDA For. Serv., Gen. Tech. Rep. PNW-90.
J S Vincent L Hardy (1977) ArticleTitleL'évolution et l'expansion des lacs glaciaires Barlow et Ojibway en territoire québécois Géogr. Phys. Quatern. 31 357–372
M G Weber K Cleve ParticleVan (1981) ArticleTitleNitrogen dynamics in the forest floor of interior Alaska black spruce ecosystems Can. J. For. Res. 11 743–751 Occurrence Handle1:CAS:528:DyaL38XhtVeju7k%3D
D A Wedin D Tilman (1990) ArticleTitleSpecies effects on nitrogen cycling: A test with perennial grasses Oecologia 84 433–441 Occurrence HandleA1990EF11400001
Z Yu M J Apps J S Bhatti (2002) ArticleTitleImplications of floristic and environmental variation for carbon cycle dynamics in boreal forest ecosystems of central Canada J. Veg. Sci. 13 327–340
P J Zinke (1962) ArticleTitleThe pattern of influence of individual forest trees on soil properties Ecology 43 130–133 Occurrence HandleA1962B875500032
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Légaré, S., Paré, D. & Bergeron, Y. Influence of Aspen on Forest Floor Properties in Black Spruce-dominated Stands. Plant Soil 275, 207–220 (2005). https://doi.org/10.1007/s11104-005-1482-6
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DOI: https://doi.org/10.1007/s11104-005-1482-6