- Page 2: Soil Biology Series Editor: Ajit Va
- Page 6: Professor Dr. Ajit Varma Jawaharlal
- Page 10: VI Preface Intheframeworkofagricult
- Page 14: Contents Part I Introduction 1 What
- Page 18: Contents XI 2.1 Plant Compounds....
- Page 22: Contents XIII 3.3 Influence on Phos
- Page 26: Contents XV 5 Conclusions .........
- Page 30: Contents XVII 9 Detection of In Sit
- Page 36: Contributors XXI Giri, B. School of
- Page 40: Contributors XXIII Tebbe, C.C. Inst
- Page 44: 1 What Are Soils? François Buscot
- Page 48: What Are Soils? 5 rate. Each time a
- Page 52: What Are Soils? 7 2.3 Input of Orga
- Page 56: What Are Soils? 9 metabolic process
- Page 60: What Are Soils? 11 around absorbing
- Page 64: What Are Soils? 13 ing it to the tr
- Page 68: What Are Soils? 15 5.3 Understandin
- Page 72: What Are Soils? 17 Luis P, Walther
- Page 76: 20 B. Giri et al. rides (Smiles 198
- Page 80: 22 B. Giri et al. to form black iro
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24 B. Giri et al. Angiosperms Ferns
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26 B. Giri et al. Table 3. Microbia
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28 B. Giri et al. bulk of soil bact
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30 B. Giri et al. pans, salt marshe
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32 B. Giri et al. Table 5. Majorgro
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34 B. Giri et al. et al. 2001, 2002
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36 B. Giri et al. these constituent
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38 B. Giri et al. 5.1 Nitrogen Tran
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40 B. Giri et al. Table 6. Metaboli
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42 B. Giri et al. 5.4 Iron Transfor
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44 B. Giri et al. Fig. 6. Piriformo
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46 B. Giri et al. Fig. 7. Above Bla
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48 B. Giri et al. those which contr
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50 B. Giri et al. BenizriE,Dedourge
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52 B. Giri et al. Kaplan WA (1983)
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54 B. Giri et al. Schimel JP, Fires
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Part II Microorganisms and Soil Gen
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60 A.A. Gorbushina and W.E. Krumbei
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62 A.A. Gorbushina and W.E. Krumbei
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64 A.A. Gorbushina and W.E. Krumbei
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66 A.A. Gorbushina and W.E. Krumbei
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68 A.A. Gorbushina and W.E. Krumbei
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70 A.A. Gorbushina and W.E. Krumbei
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72 A.A. Gorbushina and W.E. Krumbei
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74 A.A. Gorbushina and W.E. Krumbei
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76 A.A. Gorbushina and W.E. Krumbei
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78 A.A. Gorbushina and W.E. Krumbei
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80 A.A. Gorbushina and W.E. Krumbei
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82 A.A. Gorbushina and W.E. Krumbei
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84 A.A. Gorbushina and W.E. Krumbei
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86 G. Guggenberger matter cycling i
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88 G. Guggenberger in particular un
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90 G. Guggenberger tidoglycans, pro
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92 G. Guggenberger sition and humif
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94 G. Guggenberger Fig. 4. Decompos
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96 G. Guggenberger the extraction p
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98 G. Guggenberger Fig. 5. Solid st
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100 G. Guggenberger Fig. 7.Schemati
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102 G. Guggenberger chemical breakd
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104 G. Guggenberger References Acha
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106 G. Guggenberger Largeau C, Dere
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108 J.-L. Chotte - Soil organic mat
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110 J.-L. Chotte for colonizing the
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112 J.-L. Chotte coprotein having N
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114 J.-L. Chotte effect varies depe
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116 J.-L. Chotte Beare MH, Reddy MV
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118 J.-L. Chotte Kouakoua E, Sala G
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Part III Microorganisms and Biogeoc
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124 O. Dilly highly oxidised or hig
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126 O. Dilly Table 2. Free energy o
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128 O. Dilly Specific rate of popul
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130 O. Dilly Under aerobic conditio
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132 O. Dilly Fig. 5. Anabolic effic
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134 O. Dilly extensive root densiti
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136 O. Dilly 6 Conclusions Microbia
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138 O. Dilly Swift MJ, Woomer P (19
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140 Ellen Kandeler, Michael Stemmer
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142 Ellen Kandeler, Michael Stemmer
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144 Ellen Kandeler, Michael Stemmer
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146 Ellen Kandeler, Michael Stemmer
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148 Ellen Kandeler, Michael Stemmer
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150 Ellen Kandeler, Michael Stemmer
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152 Ellen Kandeler, Michael Stemmer
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154 Ellen Kandeler, Michael Stemmer
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156 Ellen Kandeler, Michael Stemmer
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8 Contribution of Bacteria to Initi
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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Contribution of Bacteria to Initial
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9 Influence of Microorganisms on Ph
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Influence of Microorganisms on Phos
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Influence of Microorganisms on Phos
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Influence of Microorganisms on Phos
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Influence of Microorganisms on Phos
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Influence of Microorganisms on Phos
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Influence of Microorganisms on Phos
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Influence of Microorganisms on Phos
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10 1 Introduction Interactions Betw
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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Interactions Between Mycorrhizal Fu
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11 Mycorrhizosphere: Strategies and
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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Mycorrhizosphere: Strategies and Fu
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12 1 Introduction Interactions Betw
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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Interactions Between Microorganisms
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13 1 Introduction Transgenic Rhizos
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Transgenic Rhizospheres of Crop Pla
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Transgenic Rhizospheres of Crop Pla
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Transgenic Rhizospheres of Crop Pla
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Transgenic Rhizospheres of Crop Pla
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Transgenic Rhizospheres of Crop Pla
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14 1 Introduction Regulation of Mic
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Regulation of Microbial Activities
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Regulation of Microbial Activities
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Regulation of Microbial Activities
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Regulation of Microbial Activities
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Regulation of Microbial Activities
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Regulation of Microbial Activities
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Regulation of Microbial Activities
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308 B. Büdel lichens, bryophytes)
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310 B. Büdel Fig. 2. Scheme of a M
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312 B. Büdel Table 1. Genera of cy
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314 B. Büdel that this species for
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316 B. Büdel Table 3. Lichen gener
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318 B. Büdel 1. Physical crusts; f
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320 B. Büdel cyanobacteria, algae,
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322 B. Büdel Hunt CD, Durrell LW (
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16 Microorganisms in Toxic Metal-Po
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Microorganisms in Toxic Metal-Pollu
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Part VI Techniques to Investigate S
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360 C.C. Tebbe Thehugegapbetweenvia
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362 C.C. Tebbe 3 Ribosomal RNA as a
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364 C.C. Tebbe to obtain PCR-amplif
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366 C.C. Tebbe Fig. 1. SSCP profile
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368 C.C. Tebbe Table 2. Examples of
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370 C.C. Tebbe 8 Recombinant Marker
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372 C.C. Tebbe can be intrinsic, li
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374 C.C. Tebbe and they detect comb
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376 C.C. Tebbe Amann R, Ludwig W (2
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378 C.C. Tebbe Fitts R, Diamond M,
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380 C.C. Tebbe Ogram A, Sayler GS,
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382 C.C. Tebbe Tourasse NJ, Gouy M
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384 E.A. Hobbie 2 Natural Abundance
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386 E.A. Hobbie 2.1.1 Carbon Isotop
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388 E.A. Hobbie surements are expen
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390 E.A. Hobbie Table 1. Isotopic f
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392 E.A. Hobbie 2.1.2 Nitrogen Isot
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394 E.A. Hobbie ectomycorrhizal fun
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396 E.A. Hobbie 1998; Henn and Chap
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398 E.A. Hobbie determined by using
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400 E.A. Hobbie Hayes JM (2002) Fra
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402 E.A. Hobbie Schmidt S, Stewart
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404 Subject Index Animal manure 149
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406 Subject Index Chaetomium 33 Cha
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408 Subject Index Endophytic microo
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410 Subject Index Green fluorescenc
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412 Subject Index Megaspora 316 Mel
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414 Subject Index Obligate anoxybio
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416 Subject Index Prasiococcus 313
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418 Subject Index Solorinaa 316 Sol