Environmental Engineering Reference
In-Depth Information
Subramanian KS, Charest C, Dwyer LM, Hamilton RI
(1997) Effects of mycorrhizas on leaf water potential,
sugar and P contents during and after recovery of
maize. Can J Bot 75:1582-1591
Subramanian KS, Santhanakrishnan P, Balasubramanian P
(2006) Responses of fi eld-grown tomato plants to
arbuscular mycorrhizal fungal colonization under vary-
ing intensities of drought stress. Sci Hort 107:245-253
Surendran U, Vani D (2013) Infl uence of arbuscular
mycorrhizal fungi in sugarcane productivity under
semiarid tropical agro ecosystem in India. Int J Plant
Prod 7:269-278
Sutton JC, Sheppard BR (1976) Aggregation of sand-
dune soil by endomycorrhizal fungi. Can J Bot
54:326-333
Sylvia DM, Jarstfer AG (1992) Sheared-root inocula of
vesicular-arbuscular mycorrhizal fungi. Appl Environ
Microbiol 58:229-232
Tarkalson DD, Von DJ, Robbins CW, Terry RE (1998)
Mycorrhizal colonization and nutrition of wheat and
sweet corn grown in manure-treated and untreated top-
soil and subsoil. J Plant Nutr 21:1985-1999
Tataranni G, Dichio B, Xiloyannis C (2012) Soil fungi-
plant interaction. In: Montanaro G, Dichio B (eds)
Advances in selected plant physiology aspects.
Environ Sci 7:161-190
Tewari L, Johri BN, Tandon SM (1993) Host genotype
dependency and growth enhancing ability of
VA-mycorrhizal fungi for
Eleusine coracana
(fi nger
millet). World J Microbiol Biotechnol 9:191-195
Thanuja TV, Hedge RV, Sreenivasa MN (2002) Induction
of rooting and root growth in black pepper cutting
(
Piper nigrum
L.) with inoculation of arbuscular
mycorrhizae. Sci Hortic 92:339-346
Thingstrup I, Rubaek G, Sibbesen E, Jakobsen I (1998)
Flax (
Linum usitatissimum
L.) depends on arbuscular
mycorrhizal fungi for growth and P uptake at interme-
diate but not high soil P levels in the fi eld. Plant Soil
203:37-46
Thompson JP (1994) Inoculation of vesicular-arbuscular
mycorrhizal fungi from cropped soil overcomes long-
fallow disorder of linseed (
Linum usitatissimum
L.) by
improving P and Zn uptake. Soil Biol Biochem
26:1133-1143
Tian CY, Feng G, Li XL, Zhang FS (2004) Different
effects of arbuscular mycorrhizal fungal isolates from
saline or non-saline soil on salinity tolerance of plants.
Appl Soil Ecol 26:143-148
Tian CY, Kasiborski B, Koul R, Lammers PJ, Bücking H,
Shachar-Hill Y (2010) Regulation of the nitrogen trans-
fer pathway in the arbuscular mycorrhizal symbiosis:
gene characterization and the coordination of expres-
sion with nitrogen fl ux. Plant Physiol 153:1175-1187
Tobar RM, Azcón R, Barea JM (1994) Improved nitrogen
uptake and transport from
15
N-labelled nitrate by
external hyphae of arbuscular mycorrhizae under
water-stressed conditions. New Phytol 126:119-122
Trappe JM, Molina R, Castellano M (1984) Reactions of
mycorrhizal fungi and mycorrhiza formation to pesti-
cides. Annu Rev Phytopathol 22:331-359
Trejo D, Ferrera-Cerrato R, García R, Varela L, Lara L,
Alarcón A (2011) Efectividad de siete consorcios nati-
vos de hongos micorrízicos arbusculares en plantas de
café en condiciones de invernadero y campo. Rev Chil
Hist Nat 84:23-31
Troeh ZL, Loynachan TE (2003) Endomycorrhizal fungal
survival in continuous corn, soybean and fallow.
Agron J 95:224-230
Turkmen O, Sensoy S, Demir S, Erdine C (2008) Effects
of two different AMF species on growth and nutrient
content of pepper seedlings grown under moderate salt
stress. Afr J Biotechnol 7:392-396
Udaiyan K, Manian S, Muthukumar T, Greep S (1995)
Biostatic effect of fumigation and pesticide drenches
on an endomycorrhizal-rhizobium-legume tripartite
association under fi eld conditions. Biol Fertil Soils
20:275-283
Udaiyan K, Greep S, Muthukumar T, Chitra A (1999)
Effect of fumigation and pesticide drenches on VAM
status and growth in cereals. J Environ Biol
20:167-175
Valarini PJ, Curaqueo G, Seguel A, Manzano K, Rubio R,
Cornejo P, Borie F (2009) Effect of compost applica-
tion on some properties of a volcanic soil from central
south Chile. Chil J Agric Res 69:416-425
Valentine AJ, Osborne BA, Mitchell DT (2001)
Interactions between phosphorus supply and total
nutrient availability on mycorrhizal colonization,
growth and photosynthesis of cucumber. Sci Hort
88:177-189
van der Heijden MGA, Klironomos JN, Ursic M,
Moutoglis P, Streitwolf-Engel R, Boller T, Wiemken
A, Sanders IR (1998) Mycorrhizal fungal diversity
determines plant biodiversity, ecosystem variability
and productivity. Nature 396:69-72
Vassilev N, Nikolaeva I, Vassileva M (2005) Polymer
based preparation of soil inoculants: applications to
arbuscular mycorrhizal fungi. Rev Environ Sci
Biotechnol 4:235-243
Veresoglou SD, Rillig MC (2012) Suppression of fungal
and nematode plant pathogens through arbuscular
mycorrhizal fungi. Biol Lett 8:214-217
Vestberg M, Saari K, Kukkonen S, Hurme T (2005)
Mycotrophy of crops in rotation and soil amendment
with peat infl uence the abundance and effectiveness of
indigenous arbuscular mycorrhizal fungi in fi eld soil.
Mycorrhiza 15:447-458
Vigo C, Norman JR, Hooker JE (2000) Biocontrol of the
pathogen
Phytophthora parasitica
by arbuscular
mycorrhizal fungi is a consequence of effects on infec-
tion loci. Plant Pathol 49:509-514
Vivas A, Barea JM, Biro B, Azcón R (2006) Effectiveness
of autochthonous bacterium and mycorrhizal fungus
on
Trifolium
growth, symbiotic development and soil
enzymatic activities in Zn contaminated soil. J Appl
Microbiol 100:587-598
Wagner SC, Skipper HD, Walley F, Bridges WB Jr (2001)
Long-term survival of
Glomus claroideum
propagules
from pot cultures under simulated conditions.
Mycologia 93:815-820
Search WWH ::
Custom Search