Response of Arbuscular Mycorrhizal Fungi on Wheat (Triticum aestivum L.) Grown Conventionally and on Beds in a Sandy Loam Soil
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Duxbury JM, Abrol IP, Gupta RK, Bronson KF (2000) Analysis of long-term soil fertility experiments with rice-wheat rotations in South Asia. In: Abrol IP et al (eds) Long-term soil fertility experiments with rice-wheat rotations in South Asia. Rice- Wheat Consortium Paper Series No. 6. Rice-Wheat Consortium for the Indo-Gangetic Plains, New Delhi, pp 7–22
Sayre KD, Hobbes PR (2004) The raised bed system of cultivation for irrigated production conditions. In: Lal R, Hobbs P, Uphoff N, Hansen DO (eds) Sustainable agriculture and the rice-wheat system. Marcel Dekker, Inc., New York
Sayre KD, Moreno Ramos OH (1997) Application of raised bed-planting system to wheat. Wheat special report no. 31. CIMMYT, Mexico
Connor DJ, Timsina J, Humphreys E (2003) Prospects for permanent beds for the rice-wheat system. Improving the productivity and Sustainability of rice-wheat systems: issues and impacts, vol 65. ASA Special Publication, Madison, pp 197–210
Höflich G, Tauschke M, Kühn G, Werner K, Frielinghaus M, Höhn W (1994) Influence of long-term conservation tillage on soil and rhizosphere microorganisms. Biol Fertil Soils 29:81–86
Balota EL, Colozzi-Filho A, Andrade DS, Dick RP (2003) Microbial biomass in soils under different tillage and cop rotation systems. Biol Fert Soils 38:15–20
Runion GB, Prior SA, Reeves DW, Rogers HH, Reicosky DC, Peacock AD, White DC (2004) Microbial responses to wheel-traffic in conventional and no-tillage systems. Commun Soil Sci Plant Anal 35:2891–2903
Wright SF, Upadhyaya A (1998) A survey of soils for aggregate stability and glomalin, a glycoprotein produced by hyphae of arbuscular mycorrhizal fungi. Plant Soil 198:97–107
Plenchette C, Clermont-Dauphin C, Meynard JM, Fortin JA (2005) Managing arbuscular mycorrhizal fungi in cropping systems. Can J Plant Sci 85:31–40
Al-Karaki G, McMichael B, Zak J (2004) Field response of wheat to arbuscular mycorrhizal fungi and drought stress. Mycorrhiza 14:263–269
Mäder P, Edenhofer S, Boller T, Wiemken A, Niggli U (2000) Arbuscular mycorrhizae in a long-term field trial comparing low-input (organic, biological) and high-input (conventional) farming systems in a crop rotation. Biol Fertil Soils 31:150–156
Oehl F, Sieverding E, Mäder P, Dubois D, Ineichen K, Boller T, Wiemken A (2004) Impact of long-term conventional and organic farming on the diversity of arbuscular mycorrhizal fungi. Oecologia 138:574–583
Goss MJ, de Varennes A (2002) Soil disturbance reduces the efficacy of mycorrhizal associations for early soybean growth and N-2 fixation. Soil Biol Biochem 34:1167–1173
Olsen SR, Cole CV, Watanabe FS, Dean LA (1954) Estimation of available phosphorus in soils by extraction with Sodium bicarbonate. US Department of Agriculture, Washington, DC (Circular 939)
Datta NP, Khera MS, Saini TR (1962) A rapid calorimetric procedure for the determination of the organic carbon in soils. J Ind Soc Soil Sci 10:67–74
Gerdemann JW, Nicolson TH (1963) Spores of mycorrhizal Endogone species extracted by wet sieving and decanting. Trans Br Mycol Soc 46:235–244
Hanway JJ, Heidel H (1952) Soil analysis methods as used in Iowa State College Soil Testing Laboratory. Iowa Agric 57:1–31
Jackson ML (1973) Soil chemical analysis. Prentice-Hall, Inc, Englewood Cliffs
Sharma MP, Gaur A, Bhatia NP, Adholeya A (1996) Growth responses and dependence of Acacia nilotica var. cupriciformis on the indigenous arbuscular mycorrhizal consortium of a marginal wasteland soil. Mycorrhiza 6:441–446
Gaur A, Adholeya A, Mukerji KG (1998) A comparison of AM fungi inoculants using Capsicum and Polianthes in marginal soil amended with organic matter. Mycorrhiza 7:307–312
Kitson R, Mellon MG (1944) Colorimetric determination of phosphorus as molybdivanado phosphoric acid. Indian Engl Chem Anal Ed 16:379–383
Phillips SJM, Hayman DS (1970) Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Trans Br Mycol Soc 55:158–160
Biermann B, Linderman RG (1981) Quantifying vesicular-arbuscular mycorrhizae: proposed method towards standardization. New Phytol 87:63–67
Cassida LE (1977) Microbial metabolic activity in soil as measured by dehydrogenase determination. Appl Environ Microbiol 34:630–636
SAS Institute Inc. (1991) SAS/STAT User’s Guide, release 6.03. SAS Institute Inc., Cary
Tripathi SC, Monga AD, Chauhan DS, Sharma RK, Kharub AS, Chhokar RS, Shoren J (2004) Bed planting: a new technique to diversify/intensify rice-wheat system in India. In: New directions for a diverse planet: proceedings of the 4th International Crop Science Congress Brisbane, Australia
Jeffries P, Gianinazzi S, Perotto K, Barea JM (2003) The contribution of arbuscular mycorrhizal fungi in sustainable maintenance of plant health and soil fertility. Biol Fert Soils 37:1–16
Castillo CG, Rubio R, Rouanet JL, Borie F (2006) Early effects of tillage and crop rotation on arbuscular mycorrhizal fungal propagules in an Ultisol. Biol Fertil Soils 43:83–92
Hossain MI, Meisner CA, Duxbury JM, Lauren JG, Rahman MM, Meer MM, Rashid MH (2004) Use of raised beds for increasing wheat production in rice-wheat cropping systems. In: New directions for a diverse planet: proceedings of the 4th international crop science Congress Brisbane, Australia
Plenchette C, Morel C (1996) External phosphorus requirement of mycorrhizal and nonmycorrhizal barley and soybean plants. Biol Fertil Soils 21:303–308
Roldán A, Salinas-García JR, Alguacil MM, Díaz E, Caravaca F (2005) Soil enzyme activities suggest advantages of conservation tillage practices in sorghum cultivation under subtropical conditions. Geoderma 129:178–185
Hetrick BAD, Wilson GWT, Cox TS (1993) Mycorrhizal dependence of modern wheat cultivars and ancestors: a synthesis. Can J Bot 71:512–517
Anjum T, Javaid A, Shah MBM (2006) Correlation between plant growth and arbuscular mycorrhizal colonization in some rainy season grasses. Pak J Bot 38:843–849