77Trappe, J. M. 1982. Synoptic keys tothe genera <strong>and</strong> species of Zygomycetousmycorrhizal fungi. Phytopathology 72:1102-1108.Trappe, J. M., <strong>and</strong> N. C. Schenck. 1982.<strong>Taxonomy</strong> of the fungi formingendomycorrhizae. A. Vesiculararbuscularmycorrhizal fungi(Endogonales). Pp. 1-9. In: Methods<strong>and</strong> principles of mycorrhizal research.Ed., N. C. Schenck. St. Paul Minnesota.Trappe, J. M., <strong>and</strong> R. D. Fogel. 1977.Ecosystem functions of mycorrhizae.Pp. 205-214. In: The Blowgroundecosystem: a synthesis of plantassociatedprocesses. Ed., J. K.Marshall. Colorado State University,Range Sci. Dept., Sci. Ser. No. 26, FortCollins, Colorado.Trappe, J. M., H. E. Bloss, <strong>and</strong> J. A.Menge. 1984. Glomus deserticola sp.nov. Mycotaxon 20: 123-127.Trinick, M. J. 1977. Vesiculararbuscularinfection <strong>and</strong> soil phosphorusutilization in Lupinus spp. New Phytol.78: 297-304.Tulasne, L. R., <strong>and</strong> C. Tulasne. 1845.Fungi nonnulli hypogaei, novi v. minuscogniti act. Giorn. Bot. Ital. 2: 35-36.Walker, C. 1983. Taxonomic conceptsin the Endogonaceae: spore wallcharacteristics in species descriptions.Mycotaxon 18: 443-455.Walker, C. 1986. Taxonomic conceptsin the Endogonaceae: II. A fifthmorphological wall type inEndogonaceae spores. Mycotaxon 25: 95-97.Walker, C. 1987. Current concepts inthe taxonomy of the Endogonaceae. Pp.300-302. In: <strong>Mycorrhizae</strong> in the nextDecade, Practical Applications <strong>and</strong>Research Priorities. Eds., D. M. Sylvia,L. L. Hung, <strong>and</strong> J. H. Graham. IFAS,University of Florida. Gainesville,Florida.Walker, C., <strong>and</strong> F. E. S<strong>and</strong>ers. 1986.Taxonomic concepts in theEndogonaceae: III. The separation ofScutellospora gen. nov. from GigasporaGerd. & Trappe. Mycotaxon 27: 169-182.
78Walker, C., <strong>and</strong> L. H. Rhodes. 1981.Glomus albidus: A new species in theEndogonaceae. Mycotaxon 12: 509-514.Walker, C. <strong>and</strong> R. E. Koske. 1987.Taxonomic concepts in theEndogonaceae: IV. Glomus fasciculatumredescribed. Mycotaxon 30: 253-262.Walker, C., L. E. Reed, <strong>and</strong> F. E.S<strong>and</strong>ers. 1984. Acaulospora nicolsonii,a new Endogonaceous species fromGreat Britian. Trans. Br. Mycol. Soc. 83:360-364.Wang, G. M., D. P. Stribley, P. B.Tinker, <strong>and</strong> C. Walker. 1993. Effects ofpH on arbuscular mycorrhiza I. Fieldobservations on the long-term limingexperiments at Rothamstead <strong>and</strong>Woburn. New Phytol. 124: 465-472.Warcup, J. H. 1951. The ecology ofsoil fungi. Trans. Brit. Mycol. Soc. 34:376-399.Warner, N. J., M. F. Allen, <strong>and</strong> J. A.MacMahon. 1987. Dispersal agents ofvesicular-arbuscular mycorrhizal fungiin a disturbed arid ecosysyem.Mycologia 79: 721-730.Weaver, J. E. 1926. Root developmentof field crops. McGraw-Hill Book Co.,New York, New York. 291 pp.Wilkinson, L., M. Hill, <strong>and</strong> E. Vang.1992. SYSTAT: Statistics, version 5.2edition. Systat, Inc., Evanston, Illinois.724 pp.Williams, S. E., A. G. Wollum, <strong>and</strong> E. F.Aldon. 1974. Growth of Atriplexcanescens (Pursh) Nutt. improved byformation of vesicular-arbuscularmycorrhizae. Soil Sci. Amer. Proc. 38:962-965.Wilson, J. M. 1984. Comparativedevelopment of infection by threevesicular-arbuscular mycorrhizal fungi.New Phytol. 97: 413-426.Woods, F. W., <strong>and</strong> K. Brock. 1964.Interspecific transfer of 45 Ca <strong>and</strong> 32 P byroot systems. <strong>Ecology</strong> 45: 886-889.Wright, S. F., J. B. Morton, <strong>and</strong> J. E.Sworobuk. 1987. Identification of avesicular-arbuscular mycorrhizal fungusby using monoclonal antibodies in anenzyme-linked immunosorbent assay.Appl. Environ. Microbiol. 53: 2222-2225.
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Taxonomy and EcologyOf Inland Sand
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AbstractAgropyron inerme root syste
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IntroductionInland sand dunes in Co
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3Literature Review"Mycorrhiza" is a
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5nonsporocarpic, and produced spore
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7Spores of VAM fungi are multinucle
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9germination shield is formed, andg
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11wall thickening or spore inner wa
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13especially phosphate ions, some o
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15by the relative location of GOT a
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17D. DIFFICULTIES IN VAMFUNGAL TAXO
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19fungi are distributed over a wide
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21dune plants, the development of e
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23annually, a mean annual temperatu
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25C. EFFECTS OF SOIL DEPTH,MOISTURE
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27vegetated quadrats on each of the
- Page 33 and 34: 29Table 1 Occurrence of genera and
- Page 35 and 36: 31G. dominkii is the most abundant
- Page 37 and 38: 33abc d eFIG. 2 Glomus sp Light and
- Page 39 and 40: 35percent usually was strongly infl
- Page 41 and 42: 37FIG. 8 Regression of mycorrhizali
- Page 43 and 44: 39July transect data analyses (TABL
- Page 45 and 46: 41significantly with changes in the
- Page 47 and 48: 43FIG. 10 Regression of mycorrhizal
- Page 49 and 50: 45the July transect (FIG. 15). Howe
- Page 51 and 52: 47FIG. 17 Regression of mycorrhizal
- Page 53 and 54: 49C. COMPARISONS OF VAMCOLONIZATION
- Page 55 and 56: 51the survival strategies that adap
- Page 57 and 58: 53association with other species. T
- Page 59 and 60: 55believe the overriding factor is
- Page 61 and 62: 57my understanding of the ecology o
- Page 63 and 64: 59that soil characteristics and dis
- Page 65: 60AKNOWLEDGEMENTSI would like to ex
- Page 68 and 69: 61Allen, M. F., J. A. MacMahon, and
- Page 70 and 71: 63Bolgiano, N. C., G. R. Safir, and
- Page 72 and 73: 65mycorrhizal fungi: a determinant
- Page 74 and 75: 67Hayman, D. 1982. Influence of soi
- Page 76 and 77: 69Koske, R. E. 1985. Glomusaggregat
- Page 78 and 79: 71Morton, J. B. 1986. Three new spe
- Page 80 and 81: 73Powell, C. L., and D. J. Bagyaraj
- Page 82 and 83: 75Simon, L., M. Lalonde, and T. D.
- Page 86: 79Wullstein, L. H., and S. A. Pratt
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