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Effects of wood bark ash on the growth and nutrition of a Scots pine afforestation in central Finland

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Abstract

Results are presented from a fertilization experiment with wood bark ash (0, 1, 2, 5, 10, 20 Mg ha-1) applied to prevent and cure visible nutrient disorders of young Scots pine established on a peatland field. 13 years after fertilization, dieback of trees and other symptoms of nutrient disorders were substantially reduced or even eliminated, especially where higher doses had been applied. The volume of the growing stock was more than 70 m3 ha-1 for the highest dose while control plots produced less than 15 m3 ha-1. Vegetation characteristics changed following ash treatments with high ash doses favouring grasses and low ash doses promoting mosses. Some major changes in soil and foliar nutrient concentrations were evident due to ash fertilization. K and B, however, were clearly the most limiting nutrients that could be cycled where high doses of ash were used. This was particularly the case with a dose of 20 Mg ha-1. Decomposition of the topsoil was at its highest on plots with ash doses of 5 and 10 Mg ha-1 ash and at its lowest when the dose was 2 Mg ha-1. This was partly due to differences in the C/N ratio of the soil. All decomposition parameters indicated a high degree of humification in the topsoil. High N content (of organic material), low C/N in the soil and optimum levels of foliar N concentrations suggested sufficient N mineralization for tree growth to have occurred in the soil.

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References

  • Ahti E 1983 Fertilizer-induced leaching of phosphorus and potassium from peatlands drained for forestry. Commun. Inst. For. Fenn. 111, 1–20.

    Google Scholar 

  • Alexander M 1977 Introduction to Soil Microbiology. Second Edition. Wiley, New York. 467 p.

    Google Scholar 

  • Binkley D 1986 Forest Nutrition Management. Wiley, New York. 290 p.

    Google Scholar 

  • Björkman E 1941 Mykorrhizans utbildning och frekvens hos skogsträd p» askgödslade och ogödslade delar av dikat myr. Medd. Stat. skogsförsöksanst. 32.

  • Bowden R D 1991 Inputs, outputs and accumulation of nitrogen in an early successional moss (Polytrichum) ecosystem. Ecol. Monogr. 61, 207–223.

    Google Scholar 

  • Braekke F H 1983 Occurrence of growth disturbance problems in Norwegian and Swedish forestry. Commun. Inst. For Fenn. 116, 20–25.

    Google Scholar 

  • Busby J R and Whitfield D W A 1978 Water potential, water content and net assimilation of some boreal mosses. Can. J. Bot. 56, 1551–1558.

    Google Scholar 

  • Ferm A and Markkola A 1985 Hieskoivun lehtien, oksien ja silmujen ravinnepitoisuuksien kasvukautinen vaihtelu. Abstract: Nutritional variation of leaves, twigs and buds in Betula pubescens stands during the growing season. Folia For. 613, 1–28.

    Google Scholar 

  • Foth H D and Ellis B G 1988 Soil Fertility, Wiley, New York. 212 p.

    Google Scholar 

  • Fyles J W and McGill W B 1987 Decomposition of boreal forest litters from central Alberta under laboratory conditions. Can. J. For. Res. 17, 109–114.

    Google Scholar 

  • Halonen O, Tulkki H and Derome J 1983 Nutrient analysis methods. Metsäntutkimuslaitoksen tiedonantoja 121, 1–28.

    Google Scholar 

  • Heinonen J 1981 Koealojen peruslaskenta. Mimeograph. 38 p.

  • Hill M O, Bunce R G H and Shaw M W 1975 Indicator species analysis, a divisive polythetic method of classification, and its application to survey of native pinewoods in Scotland. J. Ecol. 63, 597–613.

    Google Scholar 

  • Hill M O and Gaugh H G 1980 Detrended correspondence analysis, an improved ordination technique. Vegetatio 42, 47–58.

    Google Scholar 

  • Hill M O and Smith A J E 1976 Principal component analysis of taxonomic data with multi-state discrete characters. Taxon 25, 249–255.

    Google Scholar 

  • Holmen H 1964 Forest ecological studies on drained peat land in the province of Uppland, Sweden. Parts I–III. Studia For. Suecica 16, 1–236.

    Google Scholar 

  • Hopmans P and Clerehan S 1991 Growth and uptake of N, P, K and B by Pinus radiata D. Don in response to applications of borax. Plant and Soil 131, 115–127.

    Google Scholar 

  • Huikari O 1953 Tutkimuksia ojituksen ja tuhkalannoituksen vaikutuksesta eräiden soiden pieneliöstöön. Summary: Studies on the effect of drainage and ash fertilization upon the microbes of some swamps. Commun. Inst. For. Fenn. 42, 1–18.

    Google Scholar 

  • Hundt I, Bergmann W and Schilling G 1970 Untersuchungen über den Einfluss des Mikronährstoffes B auf den Nuklein-säurestoffwechsel und die Gewebestruktur von Helianthus annuus L. Albr. Thaer-Archiv 14, 725–737.

    Google Scholar 

  • Hytönen J 1991 Pellonmetsityksen onnistuminen Keski-Pohjanmaalla. Abstract: Field afforestation in central Ostrobothnia, western Finland. Metsäntutkimuslaitoksen tiedonantoja 391, 22–28.

    Google Scholar 

  • Jukka L (Ed) 1988 Metsänterveysopas. Metsätuhot ja Niiden torjunta. Samerka Oy, Helsinki. 168 p.

    Google Scholar 

  • Karsisto M 1979 Maanparannustoimenpiteiden vaikutuksista orgaanista ainetta hajottavien mikrobien aktiivisuuteen suometsissä. Osa II. Tuhkalannoituksen vaikutus. Summary: Effect of forest improvement measures on activity of organic matter decomposing micro-organisms in forested peatland. Part II. Effect of ash fertilization. Suo 30, 81–91.

    Google Scholar 

  • Karsisto M and Leppänen R 1980 Tuhkalannoituksen vaikutus maaperän mikrobistoon. Muhoksen tutkimusaseman tiedonantoja 20, 16–19.

    Google Scholar 

  • Kaunisto S and Paavilainen E 1988 Nutrient stores in old drainage areas and growth of stands. Commun. Inst. For. Fenn. 145, 1–39.

    Google Scholar 

  • Kellomäki S and Hari P 1976 Rate and photosynthesis of some forest mosses as function of temperature and light intensity and the effect of water content of moss cushion on photosynthetic rate. Silva Fenn. 10, 288–295.

    Google Scholar 

  • Krueger R W, Lovatt C J and Albert R S 1987 Metabolic requirements of Cucurbita pepo for boron. Plant Physiol. 83, 254–258.

    Google Scholar 

  • Lambert M J and Ryan P J 1990 Boron nutrition of Pinus radiata in relation to soil development and management. For. Ecol. Manage. 30, 45–53.

    Google Scholar 

  • Malmström C 1935 Om näringsförh»llandenas betydelse för torvmarkers skogsproduktiva förm»ga. Meddelanden fr»n Statens skogsförsöksanstalt 28, 571–650.

    Google Scholar 

  • Mengel K and Helal M 1968 Der Einfluss einer variierten N-und K-Ernährung auf den Gehalt an löslichen Aminoverbindungen in der oberirdischen Pflanzenmasse von Hafer. Z. Pflanzenernaehr. Bodenkd. 120, 12–20.

    Google Scholar 

  • Mikola P 1954 Kokeellisia tutkimuksia metsäkarikkeiden hajaantumisnopeudesta. Summary: Experiments on the rate of decomposition of forest litter. Commun. Inst. For. Fenn. 43, 1–50.

    Google Scholar 

  • Mikola J and Komppula J 1981 Respiratory activity of milled peat: A rapid method of measurement and observations on the effects of moisture, temperature, pH and peat quality. Soil Sci. 131, 156–162.

    Google Scholar 

  • Oechel W C and vanCleve K 1986 The role of bryophytes in nutrient cycling in the taiga. In Forest Ecosystems in the Alaskan Taiga: A Synthesis of Structure and Function. Eds. KvanCleve, F SChapinIII, P WFlanagan, L AViereck and C TDyrness. pp 121–137. Springer-Verlag, New York.

    Google Scholar 

  • Paarlahti K, Reinkainen A and Veijalainen H 1971 Nutritional diagnosis of Scots pine stands by needle and peat analysis. Commun. Inst. For. Fenn. 74, 1–58.

    Google Scholar 

  • Raitio H 1983 Macro- and microscopic symptoms in growth disturbed forest trees. Commun. Inst. For. Fenn. 116, 35–39.

    Google Scholar 

  • Reinikainen A 1965 Vegetationsuntersuchungen auf dem Walddüngungs-Versuchsfeld des Moores Kivisuo, Kirchsp. Leivonmäki, Mittelfinland. Commun. Inst. For. Fenn. 59, 1–62.

    Google Scholar 

  • Rosswall T, Flower-Ellis J G K Johansson L G Ryden B E and Sonesson M 1975 Stordalen (Abisko), Sweden. Structure and function of tundra ecosystems. Ecol. Bull. 20, 265–294.

    Google Scholar 

  • Schulten H-R, Hempfling K Haider F Gröblinghoff F Ludeman H-D and Frund R 1990 Characterization of cultivation effects on soil organic matter. Z. Pflanzenernaehr. Bodenkd. 153, 97–105.

    Google Scholar 

  • Shelp B J 1990 The influence of boron nutrition on nitrogen partitioning in broccoli plants. Commun. Soil Sci. Plant Anal. 21, 49–60.

    Google Scholar 

  • Shepard J P and Mitchell M J 1990 Nutrient cycling in a red pine plantation thirty-nine years after potassium fertilization. Soil Sci. Soc. Am. J. 54, 1433–1440.

    Google Scholar 

  • Shiralipour A, Harris H C and West S H 1969 Boron deficiency and amino acid and protein contents of peanut leaves. Crop Sci. 9, 455–456.

    Google Scholar 

  • Silfverberg K and Hotanen J-P 1989 Puuntuhkan pitkäaikais-vaikutukset ojitetulla mesotrofisella kalvakkanevalla. Summary: Long-term effects of wood-ash on a drained mesotrophic Sphagnum papillosum fen in Oulu district. Folia For. 742, 1–23.

    Google Scholar 

  • Silfverberg K and Huikari O 1985 Tuhkalannoitus metsäo-jitetuilla turvemailla. Abstract: Wood-ash fertilization on drained peatlands. Folia For. 633, 1–25.

    Google Scholar 

  • Silfverberg K and Issakainen J 1987a Turpeentuhkan vaikutuksesta puuston kasvuun ja ravinnetilaan käytännön lannoitustyömailla. Summary: Growth and foliar nutrients in peat-ash fertilized stands. Suo 38, 53–62.

    Google Scholar 

  • Silfverberg K and Issakainen J 1987b Tuhkan mäarän ja laadun vaikutus neulasten ravinnepitoisuuksiin ja painoon rämemänniköissä. Abstract: Nutrient contents and weight of Scots pine needles in ash-fertilized peatland stands. Metsäntutkimuslaitoksen tiedonantoja 271, 1–25.

    Google Scholar 

  • Silvola J, Välijoki J and Aaltonen H 1985 Effect of draining and fertilization on soil respiration at three ameliorated peatland sites. Acta For. Fenn. 191, 1–32.

    Google Scholar 

  • Skre O and Oechel W C 1981 Moss functioning in different taiga ecosystems in interior Alaska. I. seasonal, phenotypic and drought effects on photosynthesis and response patterns. Oecologia 48, 50–59.

    Google Scholar 

  • Stark N 1979 Plant ash as a natural fertilizer. Environ. Exp. Bot. 19, 59–68.

    Article  Google Scholar 

  • Stone E L 1968 Microelement nutrition of forest frees: A review. In Forest Fertilization: Theory and Practice. pp 132–175. Tennessee Valley Authority, Muscle Shoals, AL.

    Google Scholar 

  • Stone E L 1990 Boron deficiency and excess in forest trees: A review. For. Ecol. Manage. 37, 49–75.

    Google Scholar 

  • Tamminen P 1991 Kangasmaan ravinnetunnusten ilmaiseminen ja viljavuuden alueellinen vaihtelu Etelä-Suomessa. Summary: Expression of soil nutrient status and regional variation in soil fertility of forested sites in southern Finland. Folia For. 777, 1–40.

    Google Scholar 

  • Veijalainen H 1980 Tuhka kasvuhäiriön torjunnassa. Muholssen tutkimusaseman tiedonantoja 20, 28–30.

    Google Scholar 

  • Veijalainen H 1983 Geographical distribution of growth disturbances in Finland. Commun. Inst. For. Fenn. 116, 13–16.

    Google Scholar 

  • Veijalainen H, Reinikainen A and Kolari K K 1984 Metsäpuiden kasvuhäiriö Suomessa. Kasvuhäiriöprojektin väliraportti. Summary: Growth disturbances of forest trees. Interim report. Folia For. 601, 1–41.

    Google Scholar 

  • Weber A, Karsisto M, Leppänen R, Sundman V and Skujins J 1985 Microbial activities in a histosol: Effects of wood ash and NPK-fertilizers. Soil Biol. Biochem. 17, 291–296.

    Article  Google Scholar 

  • Wikner B 1983 Distribution and mobility of boron in forest ecosystems. Commun. Inst. For. Fenn. 116, 131–141.

    Google Scholar 

  • Wyn Jones R G, Brady C J and Speirs J 1979 Ionic and osmotic relations in plant cells. In Recent Advances in the Biochemistry of Cereals. Eds. D LLaidman and R GWyn Jones. pp. 63–103. Academic Press, London and Orlande, FL.

    Google Scholar 

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Authors and Affiliations

  1. Kannus Research Station, The Finnish Forest Research Institute, SF-69100, Kannus, Finland

    A. Ferm

  2. Department of Biology, The University of Joensuu, SF-80100, Joensuu, Finland

    T. Hokkanen

  3. Research Station, The Finnish Forest Research Institute, Muhos, SF-91500, Muhos, Finland

    M. Moilanen & J. Issakainen

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  1. A. Ferm
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  2. T. Hokkanen
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  3. M. Moilanen
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  4. J. Issakainen
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Ferm, A., Hokkanen, T., Moilanen, M. et al. Effects of wood bark ash on the growth and nutrition of a Scots pine afforestation in central Finland. Plant Soil 147, 305–316 (1992). https://doi.org/10.1007/BF00029082

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