Abstract
Nodulation (mean number of nodules per seedling) was 5 times greater for Elaeagnus angustifolia than for Alnus glutinosa overall when seedlings were grown in pots containing either an upland or an alluvial soil from central Illinois, USA. However, the upland Alfisol had 1.3 times greater nodulation capacity for A. glutinosa than for E. angustifolia. The presence of A. glutinosa trees on either soil was associated with a two-fold increase in nodulation capacity for E. angustifolia. Nodulation increases for soils under A. glutinosa were obtained for A. glutinosa seedlings in the Alfisol, but decreased nodulation for A. glutinosa seedlings occurred in the Mollisol. Greatest nodulation of E. angustifolia seedlings occurred near pH 6.6 for soil pH values ranging from 4.9 to 7.1, while greatest nodulation of A. glutinosa occurred at pH 4.9 over the same pH range. Nodulation was not affected by total soil nitrogen concentrations ranging from 0.09 to 0.20%. Mollisol pH was significantly lower under A. glutinosa trees than under E. angustifolia trees. For 4- to 8-year-old field-grown trees, A. glutinosa nodule weights were negatively correlated with soil pH, while for similar aged E. angustifolia trees nodulation in the acidic Alfisol was not detected.
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References
Baker D D 1987 Relationships among pure cultured strains of Frankia based on host specificity. Physiol. Plant. 70, 245–248.
Burggraaf A J D, Quispel A, Tak T and Valstar J 1981 Methods of isolation and cultivation of Frankia species from actinorhizas. Plant and Soil 61, 157–168.
Carroll County Soil Survey 1975 USDA Soil Conservation Service with Illinois Agric. Exp. Sta. Univ. Illinois, Urbana, 138 p.
Champaign County Soil Survey 1982 USDA Soil Conservation Service with Illinois Agric. Exp. Sta. Univ. Illinois. Urbana. 178 p.
Dawson J O 1986 Actinorhizal plants: Their use in forestry and agriculture. Outl. Agric. 15, 202–208.
Dawson J O and Sun S H 1981 The effect of Frankia isolates from Comptonia peregrina and Alnus crispa on the growth of Alnus glutinosa, A. cordata and A. incana clones. Can. J. For. Res. 11, 758–762.
Dawson J O and Klemp M T 1987 Variation in the capacity of black alder to nodulate in central Illinois soils. In Proceedings Central Hardwoods Forest Conference VI. Eds. R LHay, F WWoods and HDeselm. pp 255–260. Dept. Forestry, Univ. Tenn., Knoxville, TN.
Funk D T, Schlesinger R C and Ponder F 1979 Autumn-olive as a nurse plant for black walnut. Bot Gaz. 140 (Suppl.) S110-S114.
Houwers A and Akkermans A D L 1981 Influence of inoculation on yield of Alnus glutinosa in the Netherlands. Plant and Soil 61, 189–202.
Huss-Danell K and Frej A K 1986 Distribution of Frankia in soils from forest and afforestation sites in northern Sweden. Plant and Soil 90, 407–418.
Gleason H A and Cronquist A 1963 Manual of Vascular Plants of Northeast United States and Canada. Van Nostrand, New York. 810 p.
Knowlton S, Berry A and Torrey J G 1980 Evidence that associated soil bacteria may influence root hair infection of actinorhizal plants by Frankia. Can. J. Microbiol. 26, 971–977.
Lawrence D B, Schoenike R E, Quispel A and Bond G 1967 The role of Dryas drummondii in vegetation development following ice recession at Glacier Bay, Alaska, with special reference to its nitrogen fixation by root nodules. J. Ecol. 55, 793–813.
MacConnell I T and Bond G 1957 A comparison of the effect of combined nitrogen on nodulation in non-legumes and legumes. Plant and Soil 8, 378–388.
Nelson D W and Sommers L E 1973 Determination of total nitrogen in plant material. Agron. J. 65, 109–112.
Normand P and Lalonde M 1986 The genetics of actinorhizal Frankia: A review. Plant and Soil 90, 429–453.
Petrides G A 1972 A Field Guide to Trees and Shrubs. Houghton Mifflin, Boston. 428 p.
Quispel A 1954 The influence of the inoculation density and external factors on the nodulation of Alnus glutinosa and its importance to our understanding of the mechanism of the infection. Acta Bot. Neerl. 3, 512–532.
Righetti T L, Chard C H and Backhaus R A 1986 Soil and environmental factors related to nodulation in Cowania and Purshia. Plant and Soil 91, 147–160.
Smolander A 1990 Frankia populations in soils under different tree species — with special emphasis on soils under Betula pendula. Plant and Soil 121, 1–10.
Smolander A, vanDijk C and Sundman V 1988 Survival of Frankia strains introduced into soil. Plant and Soil 106, 65–72.
VanDijk C 1978 Spore formation and endophyte diversity in root nodules of Alnus glutinosa (L.) VIII. New Phytol. 81, 601–615.
VanDijk C 1979 Endophyte distribution in the soil. In Symbiotic Nitrogen Fixation in The Management of Temperate Forests. Eds. J CGordon, C TWheeler and D APerry. pp 84–94. Ore. St. Univ., Corvallis, OR.
Van Dijk C 1984 Ecological Aspects of Spore Formation in the Frankia-Alnus Symbiosis. Ph.D. thesis, Univ. Leiden. 154 p.
VanSambeek J W, Schlesinger R C, Ponder F and Rietveld W J 1985 Actinorhizal species as nurse crops for black walnut. In Proceedings Central Hardwood Forest Conf. V. Eds. J ODawson and K AMajerus. pp 257–263. Dept. For., Univ. of Illinois, Urbana, IL.
Weber A, Nurmiaho-Lassila E and Sundman V 1987 Features of intrageneric Alnus-Frankia specificity. Physiol. Plant. 70, 289–296.
Wollum A G, Youngberg C T and Chichester F W 1968 Relation of previous timber stand age to nodulation of Ceanothus velutinus. For. Sci. 14, 114–118.
Wollum A G and Youngberg C T 1969 The effect of soil temperature on nodulation of Ceanothus velutinus Dougl. Soil Sci. Soc. Am. Proc. 33, 801–803.
Zitzer S F and Dawson J O 1989 Seasonal changes in nodular nitrogenase activity of Alnus glutinosa and Elaeagnus angustifolia. Tree Physiol. 5, 185–194.
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Zitzer, S.F., Dawson, J.O. Soil properties and actinorhizal vegetation influence nodulation of Alnus glutinosa and Elaeagnus angustifolia by Frankia . Plant Soil 140, 197–204 (1992). https://doi.org/10.1007/BF00010597
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DOI: https://doi.org/10.1007/BF00010597