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References
Allen S J 2000 Integrated disease management. How are we doing? In Proceedings of the 10th Australian Cotton Conference. pp. 439-442. CRDC. Narrabri, Australia.
Allen S J and Lonergan P A 1998 Trends in diseases in Australian cotton. In Proceedings of the 9th Australian Cotton Conference. pp. 541-547. CRDC. Narrabri, Australia.
Antoun H, Beauchamp C J, Goussard N, Chabot R and Lalande R 1998 Potential of Rhizobium and Bradyrhizobium species as plant growth promoting rhizobacteria on legumes: effect on radishes (Raphanus sativus L.). Plant and Soil 204: 57-67.
Baker K F and Cook R J 1974 Biological control of plant pathogens. pp. 433. Freeman and company. San Francisco, USA.
Beare M H, Coleman D C, Crossley D A Jr., Hendrix P F and Odum E P 1995 A hierarchial approach to evaluating the significance of soil biodiversity to biogeochemical cycling. Plant and Soil. 170: 5-22.
Bowen G D and Rovira A D 1999 The rhizosphere and its improvements to plant growth. Advances in Agronomy 66: 1-102.
Cotterill P J and Sivasithamparam K 1989 An autecological study of the take-all fungus (Gaeumannomyces graminis var. tritici) in Western Australia. Australian Journal of Agricultural Research 40: 229-240.
Chakraborty S and Warcup J H 1985 Reduction of take-all by mycophagous amoebae in pot bioassays. In The Ecology and Management of Soil-borne Plant Pathogens. C A Parker, K A Moore, P T W Wong, A D Rovira and J F Kollmorgan (eds.) pp. 14-16. The American Phytopathological Society. St. Paul, Minnesota.
Cook R J and Baker K F 1983 The nature and practice of biological control of plant pathogens. American Phytopathological Society. St Paul, Minnesota.
Curl E A 1988 The role of soil microfauna in plant-disease suppression. CRC Critical Reviews in Plant Sciences 7: 175-196.
Curl E A, Gudauskas R T, Harper J D and Peterson C M 1983 Modification of the rhizosphere fungus flora by mycophagous insects. In Abstracts, 3rd International Mycological Congress. pp. 425. Mycological Society of Japan. Tokyo.
Dalal R C 1997 Longterm phosphorus trends in vertisols under continuous cereal cropping. Australian Journal of Soil Research 35: 327-339.
Dalal R C and Chan K Y 2001 Soil organic matter in rainfed cropping systems of the Australian cereal belt. Australian Journal of Soil Research 39: 435-464.
Davies F T Jr, Potter J R and Linderman R G 1992 Mycorrhiza and repeated drought exposure affect drought resistance and extraradical hyphae development of pepper plants independent of plant size and nutrient content. Journal of Plant Physiology 139: 289-294.
Dewan M M and Sivasithamparam K 1990 Differences in pathogenicity of isolates of the take-all fungus from roots of wheat and ryegrass. Soil Biology and Biochemistry 22: 119-122.
Doran J W and Safely M 1997 Defining and assessing soil health and sustainable productivity. In Biological Indicators of Soil Health. C E Pankhurst, B Doube and V V S R Gupta (eds.) pp. 1-28. CAB International. Oxon, UK.
Duffy B and Défago G 2000 How pathogens influence biological control. In Proceedings of the 5th International PGPR Conference. October-November 2000. Argentina.
Fernando W G D and Linderman R G 1997 The effect of mycorrhizal (Glomus intraradices) colonization on the development of root and stem rot (Phytophthora vignae) of cowpea. Journal of the National Science Council of Sri Lanka 25: 39-47.
Garrett S D 1970 Pathogenic root-infecting fungi. Cambridge Univ. Press. London.
Gill J S, Sivasithamparam K and Smettem K R 2002 Size of bare-patches in wheat caused by Rhizoctonia solani AG-8 is determined by the established mycelial network at sowing. Soil Biology and Biochemistry. 34: 889-893.
Graham J H and Menge J A 1982 Influence of vesicular –arbuscular mycorrhizae and soil phosphate on take-all disease of wheat. Phytopathology 72: 95-98.
Gupta V V S R 1994 The impact of soil and crop management practices on the dynamics of soil microfauna and mesofauna. In Soil Biota-Management in Sustainable Farming Systems. C E Pankhurst, B M Doube, VVSR Gupta and P R Grace (eds.) pp. 107-124. CSIRO. Australia.
Gupta V V S R and Germida J J 1988 Distribution of microbial biomass and its activity in different soil aggregate size classes as affected by cultivation. Soil Biology and Biochemistry 20: 777-787.
Gupta V V S R and Yeates G W 1997 Soil microfauna as indicators of soil health. In Biological Indicators of Soil Health. C E Pankhurst, B Doube and V V S R Gupta (eds.) pp. 201-233. CAB International. Oxon, UK.
Gupta V V S R and Neate S M 1999 Root disease incidence-A simple phenomenon or a product of diverse microbial/biological interactions. In Proceedings of the First Australasian SoilBorne Disease symposium. R C Magarey (ed.) pp. 3-4. BSES. Brisbane, Australia.
Gupta V V S R, Coles R B, Kranz B D and Pankhurst C E 1995 Protozoan - microfloral interactions: effects of microbial metabolites on soil protozoa. Australian Microbiology 16: PO3.18.
Gupta V V S R, Coles R, McClure S, Neate S M, Roget D K and Pankhurst C E 1996 The role of micro-fauna in the survival and effectiveness of plant pathogenic fungi in soil. ASM & NZSM Conference. Christchurch. Australian Microbiology 17: A64.
Gupta V V S R, Neate S M and Dumitrescu I 1999. Effects of microfauna and mesofauna on Rhizoctonia solani in a South Australian soil. In Proceedings of the First Australasian soil-borne disease symposium. R.C. Magarey (ed.) pp. 134-136. BSES. Brisbane, Australia.
Hendrix P F, Parmelee R W, Crossley D A, Coleman D C, Odum E P and Groffman P M 1986 Detritus food webs in conventional and no-tillage agroecosystems. Bioscience 36: 374-80.
Herdina and Roget D K 2000 Prediction of take-all disease risk in field soils using a rapid and quantitative DNA soil assay. Plant and Soil 227: 87-98.
Herdina, Roget D K, Coppi J A and Gupta V V S R 2001 Investigation of the mechanisms of disease suppression in soil using DNA techniques. In Proceedings of the Second Australasian Soil-borne Disease Symposium. I J Porter et al. (eds.) pp. 88-89. Department of Natural Resources and Environment. Victoria, Australia.
Hoper H and Alabouvette C 1996 Importance of physical and chemical soil properties in the suppressiveness of soils to plant diseases. European Journal of Soil Science 32: 41-58.
Hornby D and Bateman G L 1997 Potential use of plant pathogens as bioindicators of soil health. In Biological Indicators of Soil Health. C.E. Pankhurst, B.Doube and V V S R Gupta (eds.) pp. 179-200. CAB International. Oxon, UK.
Huber D M 1981 The role of nutrients and chemicals. In Biology and control of takeall. M J C Asher and P J Shipton (eds.) pp. 317- 341. Academic Press. London.
Kloepper J W, Rodriguez-Kabana R, Zehnder G W, Murphy J F, Sikora E and Fernandez C 1999 Plant root-bacterial interactions in biological control of soilborne diseases and potential extension to systemic and foliar diseases. Australasian Plant Pathology 28: 21-26.
Kloepper J W, Reddy M S, Rodríguez-Kábana R, Kenney D S, Martinez-Ochoa N, Kokalis-Burelle N and Arthur K 2000 Development of an integrated biological preparation for growth enhancement of various vegetable transplant plugs suppressive to plant diseases. In Proceedings of the 5th International PGPR conference, October- November 2000. Argentina.
Kobayashi D and Palumbo J D 2000 Bacterial endophytes and their effects on plants and uses in agriculture. In Microbial endophytes. C W Bacon and J F White, (eds) pp. 199-233. Marcel Dekker Inc. New York.
Lartey R T, Curl E A, Peterson C M and Harper J D 1989 Mycophagous grazing and food preference of Proisotoma minuta (Collembola: Isotomidae) and Onychiurus encarpatus (Collembola: Onychiuridae). Environmental Entomology 18: 334-337.
Lee K E and Foster R C 1991 Soil fauna and soil structure. Australian Journal of Soil Research 29: 745-775.
Lemanceau Ph, Steinberg C, Thomas D J I, Edel V, Raaijmakers J M and Alabouvette C 2000 Natural suppressiveness to soil borne diseases. In Proceedings of the 5th International PGPR conference, October-November 2000. Argentina.
Lussenhop J and Wicklow D T 1984 Invertebrates disperse fungal propagules in soil. Bulletin of the Ecological Society 65: 1073-1079.
MacDonald H J and Rovira A D 1985 Development of inoculation technique for Rhizoctonia solani and its application to screening cereal cultivars for resistance. In Ecology and Management of Soilborne Plant diseases. C A Parker, A D Rovira, K J Moore, P T Wong and J F Kollmorgen (eds.) pp. 174-176. American Phytopathological Society. St Paul, MN, USA.
Mazzola M and Cook R J 1991 Effects of fungal root pathogens on the population dynamics of biocontrol strains of fluorescent pseudomonads in the wheat rhizosphere. Applied and Environmental Microbiology 57: 2171-2178.
Mele P M and Carter M R 1993 Effect of climatic factors on the use of microbial biomass as an indicator of changes in soil organic matter. In Soil Organic Matter Dynamics and Sustainability of Tropical Agriculture. K Mulongoy and R Merckx (eds.) pp. 57-63. John Wiley and Sons Ltd. Chichester, UK.
Neate S N 1994 Soil and crop management practices that affect root diseases of crop plants. In Soil Biota-Management in Sustainable Farming Systems. C E Pankhurst, B M Doube, V V S R Gupta and P R Grace (eds.) pp. 96-106. CSIRO. Australia.
Nilsson H E 1969 Studies on root and foot rot diseases of cereals and grasses. I. On resistance of Ophiobolus graminis Sacc. Lanbruks. Annaler 35: 275-807.
Old K M 1986 Mycophagous amoebae: Their biology and significance in the ecology of soil-borne plant pathogens. Progress in Protozoology 1: 163-194.
Pankhurst C E, Hawke B G, McDonald H J, Kirkby C A, Buckerfield J C, Michelsen P, Gupta V V S R and Doube B M 1995 Evaluation of soil biological properties as potential bioindicators of soil health. Australian Journal of Experimental Agriculture 35. 1015-1028.
Roget D K 1995 Decline in root rot (Rhizoctonia solani AG-8) in wheat in a tillage and rotation experiment at Avon, South Australia. Australian Journal of Experimental Agriculture 35: 1009-1013.
Roget D K 2001 Prediction modelling of soilborne plant diseases. Australasian Plant Pathology 30: 85-89.
Roget D K, Neate S N and Rovira A D 1996 The effect of sowing point design and tillage practices on the incidence of rhizoctonia root rot, take-all and cereal cyst nematode. Australian Journal of Experimental Agriculture. 36: 683-693.
Roget D K, Coppi J A, Herdina and Gupta V V S R 1999 Assessment of suppression to Rhizoctonia solani in a range of soils across SE Australia. In Proceedings of the First Australasian Soil-borne Disease Symposium. R C Magarey (ed.) pp. 129-130. BSES. Brisbane, Australia.
Roper M M and Gupta V V S R 1995. Management practices and soil biota. Australian Journal of Soil Research 33: 321-39.
Rovira A D 1986 Influence of crop rotation and tillage on Rhizoctonia bare patch of wheat. Phytopathology 76: 669-673.
Rovira A D, Elliott L F and Cook R J 1990 The impact of cropping systems on rhizosphere organisms affecting plant health. In The Rhizosphere. J M Lynch (ed.) pp. 389-436. Wiley Interscience. Chichester, UK.
Shaw C G and Kile G A 1991 Armillaria Root Disease. Agriculture Handbook No 691. USDA. Washington.
Simon A and Sivasithamparam K 1989 Pathogen suppression: A case study in biological suppression of Gaeumannomyces graminis var. tritici in soil. Soil Biology and Biochemistry 21: 331-337.
Sivasithamparam K 1993 Ecology of root-infecting pathogenic fungi in mediterranean environments. Advances in Plant Pathology 10: 245-279.
Sivasithamparam K 1998 Root cortex-the final frontier for the biocontrol of root-rot with fungal antagonists: a case study on a sterile red fungus. Annual Review of Phytopathology 36: 439-452.
Smiley R W and Cook R J 1973 Relationship between take-all of wheat and rhizosphere pH in soils fertilised with ammonium and nitrate nitrogen. Phytopathology 63: 882-890.
Smith S E, Read D J 1997 Mycorrhizal symbiosis. Academic Press. London. UK.
Sturtz A V, Christie B R and Nowak J 2000 Bacterial endophytes: Potential role in developing sustainable systems of crop production. Critical Reviews in Plant Sciences 19: 1-30.
Subramanian K S and Charest S 1999 Acquisition of N by external hyphae of an arbuscular mycorrhizal fungus and its impact on physiological responses in maize under drought-stressed and well-watered conditions. Mycorrhiza 9: 69-75.
Thongbai P, Hannam R J, Graham R D and Webb M J 1993 Interaction between zinc nutritional status of cereals and Rhizoctonia root rot severity. I. Field observations. Plant and Soil 153: 207-214.
Tisdall J M 1991 Fungal hyphae and the structural stability of soil. Australian Journal of Soil Research 29: 729-743.
Tisdall J M, Smith S E and Rengasamy P 1997 Aggregation of soil by fungal hyphae. Australian Journal of Soil Research 35: 55-60.
Tu J C 1978 Protection of soybean from severe phytophthora root rot by Rhizobium. Physiological Plant Pathology 12: 233.
van Veen J A and Heijnen C E 1994 The fate and activity of microorganisms introduced in soil. In Soil Biota-Management in Sustainable Farming Systems. C E Pankhurst, B M Doube, V V S R Gupta, P R Grace (eds.) pp. 107-124. CSIRO. Australia.
Van Loon L C, Bakker P A H M and Poeterse C M J 1998 Systemic resistance induced by rhizosphere bacteria. Annual Review of Phytopathology 36: 453-483.
Wilhelm N S, Graham R D and Rovira A D 1990 Control of Mn status and infection rate by genotype of both host and pathogen in the wheat take-all interaction. Plant and Soil 123: 267-275.
Wiseman B M, Neate S M, Ophel Keller K and Smith S E 1996. Suppression of Rhizoctonia solani anastomosis group 8 in Australia and its biological nature. Soil Biology and Biochemistry 28: 727-732.
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Gupta, V., Sivasithamparam, K. (2007). Relevance of Plant Root Pathogens to Soil Biological Fertility. In: Abbott, L.K., Murphy, D.V. (eds) Soil Biological Fertility. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-6619-1_8
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