This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Abbott LK, Robson AD (1978) Growth of subterranean clover in relation to the formation of endomycorrhizas by introduced and indigenous fungi in a field soil. New Phytol 81:575–587
Abbott LK, Robson AD (1982) The role of vesicular-arbuscular mycorrhizal fungi in agriculture and selection of fungi for inoculation. Aust J Agric Res 33:389–408
Al-Karaki GN, Clark RB (1998) Growth, mineral acquisition and water use by mycorrhizal wheat grown under water stress. J Plant Nutr 21:263–276
Allen MF, Sexton JC, Moore TS Jr, Christensen M (1981) Influence of phosphate source on vesicular-arbuscular mycorrhizae of Bouteloua gracilis. New Phytol 87:687–694
Baon JB, Smith SE, Alston AM (1993) Mycorrhizal responses of barley cultivars differing in P efficiency. Plant Soil 157:97–105
Bowen GD, Rovira AD (1999) The rhizosphere and its management to improve plant growth. Adv Agron 66:1–102
Charron G, Furlan V, Bernier-Cordou M, Doyon G (2001) Response of onion plants to arbuscular mycorrhizae. 1. Effects of inoculation method and phosphorus fertilization on biomass and bulb firmness. Mycorrhiza 11:187–197
Drüge Š, Schönbeck F (1992) Effect of vesicular-arbuscular mycorrhizal infection on transpiration, photosynthesis and growth of flax (Linus usitabissimum L.) in relation to cytokinin levels. J Plant Physiol 140:40–48
Ellis JR, Watson DMH, Varvel GE, Jawson MD (1995) Methyl bromide soil fumigation alters plant elements concentrations. Soil Sci Soc Am J 59:848–852
Enkhtuya B, Rydlova J, Vosatka M (2000) Effectiveness of indigenous and non-indigenous isolates of arbuscular mycorrhizal fungi in soils from degraded ecosystems and manmade habitats. Appl Soil Ecol 14:201–211
Fries LLM, Pacovsky RS, Safir GR, Kaminski J (1998) Phosphorus effect on phosphatase activity in endomycorrhizal maize. Physiol Plant 103:162–171
Goicoechea N, Antolin MC, Strnad M, Sachez-Diaz M (1996) Root cytokines, acid phosphates and nodule activity in drought-stressed mycorrhizal or nitrogen-fixing alfalfa plants. J Exp Bot 47:683–686
Haas JH, Bar-Yosef B, Krikun J, Barak R, Markovitz T, Kramer S (1987) Vesicular-arbuscular mycorrhizal fungus infestation and phosphorus fertigation to overcome pepper stunting after methyl bromide fumigation. Agron J 79:905–910
Hetrick ABD, Kitt DG, Wilson T (1986) The influence of phosphorus fertilization, drought, fungal species, and non-sterile soil on mycorrhizal growth response in tall grass praiser plants. Can J Bot 64:1199–1203
Hetrick BAD, Wilson GWT, Todd TC (1996) Mycorrhizal response in wheat cultivars: relationship to phosphorus. Can J Bot 74:19–25
Johnson NC (1993) Can fertilization of soil select less mutualistic mycorrhizae. Ecol Appl 3:749–757
Kothari SK, Marschner H, Romheld V (1990) Effect of VA mycorrhizal fungi and rhizosphere microorganisms on root and shoot morphology, growth and water relationship in maize. New Phytol 116:303–311
Li XL, George E, Marschner H (1991) Extension of the phosphorus depletion zone in VA-mycorrhizal white clover in a calcareous soil. Plant Soil 135:41–48
Liu A, Hamel C, Hamilton RI, Smith DL (2000) Mycorrhizae formation and nutrient uptake of new corn (Zea Mays L.) hybrids with extreme canopy and leaf architecture as influenced by soil N and P levels. Plant Soil 22:157–166
Medeiros CAB, Clark RB, Ellis JR (1994) Growth and nutrient uptake of sorghum cultivated with vesicular-arbuscular mycorrhiza isolates at varying pH. Mycorrhiza 4:185–191
Olsen JK, Schaefer JT, Edwards DG, Hunter MN, Galea VJ, Muller LM (1999) Effects of mycorrhizae, established from an existing intact hyphal network, on the growth response of capsicum (Capsicum annuum L.) and tomato (Lycopersicon esculentum Mill.) to five rates of applied phosphorus. Aust J Agric Res 50:223–237
Ortaş I, Harris PJ (1996) The effect of partial soil sterilization and seasonal change on soil degradation (N-mineralization and soil chemical properties). In: Adana (ed) International conference on land degradation. Adana, Istambul, pp 204–217
Ortaş I, Harris PJ, Rowell DL (1996) Enhanced uptake of phosphorus by mycorrhizal sorghum plants as influenced by forms of nitrogen. Plant Soil 184:255–264
Ortaş I, Ortakcı D, Kaya Z (2002) Various mycorrhizal fungi propagated on different hosts have different effect on citrus growth and nutrient uptake. Commun Soil Sci Plant 33:259–272
Ortaş I (2003) Effect of selected mycorrhizal inoculation on phosphorus sustainability in sterile and non-sterile soils in the harran plain in south Anatolia. J Plant Nutr 26:1–17
Ortaş I, Sari N (2003) Enhanced yield and nutrient content of sweet corn with mycorrhizal inoculation under field conditions. Agric Med 133:188–195
Ortaş I, Sari N, Akpınar Ç (2003) Effects of mycorrhizal inoculation and soil fumigation on the yield and nutrient uptake of some solanaceas crops (tomato, eggplant and pepper) under field conditions. Agric Med 133:249–258
Ortaş I, Akpinar A, Coskan A, Demirbas A (2004) Producing mycorrhizal seedling for sustainable agriculture (short presentation at 8th meeting of COST Action 3.83). In: COST (ed) Exploring and exploiting the natural AM fungus diversity in stressed soil-plant system (from molecular techniques to biotechnological tools). COST, Grenada, pp 61
Peterson RL, Massicotte HB, Melville LH (2004) Mycorrhizas: anatomy and cell biology. CABI, Ottawa
Posta K, Fuleky G (1997) The effect of phosphorus on the mycorrhizal colonization of maize by Glomus Mosseae (Nicol. Gerd). Novenytermeles 46:573–582
Ryan MH, Angus JF (2003) Arbuscular mycorrhizae in wheat and field pea crops on a low P soil: increased Zn-uptake but no increase in P-uptake or yield. Plant Soil 250:225–239
Sanders FE, Tinker PB (1973) Phosphate inflow into mycorrhizal roots. Pest Sci 4:385–395
Smith SE, Read DJ (1997) Mycorrhizal symbiosis, 2nd edn. Academic, London
Stribley DP, Tinker PB, Rayne, JHB (1980) Relation of internal phosphorus concentration and plant weight in plants infected by vesicular arbuscular mycorrhizas. New Phytol 78:263–268
Tarafdar JC, Marschner H (1994) Phosphatase activity in the rhizosphere and VA mycorrhizal wheat supplied with inorganic and organic phosphorus. Soil Biol Biochem 26:387–395
Tarkalson DD, Jolley VD, Robbins CW, Terry RE (1998) Mycorrhizal colonization and nutrition of wheat and sweet corn grown in manure-treated and untreated topsoil and subsoil. J Plant Nutr 21:1985–1999
Tinker PB (1975) The chemistry of phosphorus and mycorrhizal effects on plant growth. In: Sender FS, Mosse B, Tinker PB (eds) Endomycorrhizas. Academic, London, pp 353–371
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2007 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Ortaş, I., Varma, A. (2007). Field Trials of Bioinoculants. In: Varma, A., Oelmüller, R. (eds) Advanced Techniques in Soil Microbiology. Soil Biology, vol 11. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-70865-0_26
Download citation
DOI: https://doi.org/10.1007/978-3-540-70865-0_26
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-70864-3
Online ISBN: 978-3-540-70865-0
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)