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Hu J, Chana PT, Wu F, Wu S, Zhanga J, Lin X, Wonga MH
(2013) Arbuscular mycorrhizal fungi induce differen-
tial Cd and P acquisition by Alfred stonecrop (
Sedum
alfredii
Hance) and upland kangkong (
Ipomoea aquat-
ica
Forsk.) in an intercropping system. Appl Soil Ecol
63:29-35
Huang HL, Zhang SZ, Chen BD, Wu NY, Shan XQ,
Christie P (2006) Uptake of atrazine and cadmium
from soil by maize (
Zea mays
L.) in association with
the arbuscular mycorrhizal fungus
Glomus etunica-
tum
. J Agric Food Chem 54:9377-9382
Huang HL, Zhang SZ, Shan XQ, Chen BD, Zhu YG, Bell
JNB (2007) Effect of arbuscular mycorrhizal fungus
(
Glomus caledonium
) on the accumulation and metab-
olism of atrazine in maize (
Zea mays
L.) and atrazine
dissipation in soil. Environ Pollut 146:452-457
Hung LL, Sylvia DM (1988) Production of vesicular-
arbuscular mycorrhizal fungus inoculum in aeroponic
culture. Appl Environ Microb 54:353-357
IFOAM (International Federation of Organic Agriculture
Movements) (1998) Basic standards for organic pro-
duction and processing. IFOAM, Tholey-Theley,
Germany
Ijdo M, Schtickzelle N, Cranenbrouck S, Declerck S (2010)
Do arbuscular mycorrhizal fungi with contrasting life-
history strategies differ in their responses to repeated
defoliation? FEMS Microbiol Ecol 72:114-122
Ishii T, Shrestha YH, Kadoya K (1996) Effect of sod cul-
ture system of Bahia grass (
Paspalum notatum
Flügge.) on vesicular-arbuscular mycorrhizal forma-
tion of
Satsuma mandarin
trees. Proc Int Soc Citricul
2:822-824
Jakobsen I, Abbott LK, Robson AD (1992) External
hyphae of vesicular arbuscular mycorrhizal fungi
associated with
Trifolium subterraneum
L. I. Spread
of hyphae and phosphorus infl ow in roots. New Phytol
120:509-516
Jansa J, Mozafar A, Anken T, Ruh R, Sanders IR, Frossard
E (2002) Diversity and structure of AMF communities
as affected by tillage in a temperate soil. Mycorrhiza
12:225-234
Jansa J, Mozafar A, Kuhn G, Anken T, Ruh R, Sanders IR,
Frossard E (2003) Soil tillage affects the community
structure of mycorrhizal fungi in maize roots. Ecol
Appl 13:1164-1176
Jansa J, Smith FA, Smith SE (2008) Are there benefi ts of
simultaneous root colonization by different arbuscular
mycorrhizal fungi? New Phytol 177:779-789
Jarstfer AG, Sylvia DM (1992) Inoculum production and
inoculation strategies for vesicular arbuscular
mycorrhizal fungi. In: Blaine Meeting F Jr (ed) Soil
microbial ecology. Application in agricultural and
environmental
rotations-response of corn and mycorrhizae. Agron J
85:1174-1180
Jeffries P, Dodd CJ (1991) The use of mycorrhizal inocu-
lants in forestry and agriculture. In: Arora DK, Rai B,
Mukerji KG, Knudsen GR (eds) Handbook of applied
mycology. Vol 1, Soil and plants. Marcel Dekker,
New York, pp 77-129
Jefwa J, Vanlauwe B, Coyne D, van Asten P, Gaidashova
S, Rurangwa E, Mwashasha M, Elsen A (2010)
Benefi ts and potential use of arbuscular mycorrhizal
fungi (AMF). In banana and plantain (
Musa
spp.)
systems in Africa. Acta Hort (ISHS) 879:479-486
Jin H, Germida JJ, Walley FL (2013) Impact of arbuscular
mycorrhizal fungal inoculants on subsequent arbuscu-
lar mycorrhizal fungi colonization in pot-cultured fi eld
pea (
Pisum sativum
L.). Mycorrhiza 23:45-59
Johanson JF, Paul LR, Finlay RD (2004) Microbial inter-
actions in the mycorrhizosphere and their signifi cance
for sustainable agriculture. FEMS Microbiol Ecol
48:1-13
Johnson N, Graham J, Smith F (1997) Functioning of
mycorrhizal associations along the mutualism-
parasitism continuum. New Phytol 135:575-585
Johnson D, Leake JR, Read DJ (2001) Novel in-growth
core system enables functional studies of grassland
mycorrhizal mycelial networks. New Phytol
152:555-562
Johnson D, Vandenkoornhuyse PJ, Leake JR, Gilbert L,
Booth RE, Grime JP, Young JPW, Read DJ (2003)
Plant communities affect arbuscular mycorrhizal fun-
gal diversity and community composition in grassland
microcosms. New Phytol 161:503-515
Jordan NR, Zhang Z, Huerd S (2000) Arbuscular mycor-
rhizal fungi: potential roles in weed management.
Weed Res 40:397-410
Juniper S, Abbott LK (2006) Soil salinity delays germina-
tion and limits growth of hyphae from propagules of
arbuscular mycorrhizal fungi. Mycorrhiza 16:371-379
Kabir Z (2005) Tillage or no-tillage: impact on mycorrhi-
zae. Can J Plant Sci 85:23-29
Kabir Z, Koide RT (2000) The effect of dandelion or a
cover crop on mycorrhiza inoculum potential, soil
aggregation and yield of maize. Agric Ecosyst Environ
78:167-174
Kabir Z, O'Halloran IP, Hamel C (1999) Combined
effects of soil disturbance and fallowing on plant and
fungal components of mycorrhizal corn (
Zea mays
L.).
Soil Biol Biochem 31:307-314
Kahiluoto H, Ketoja E, Vestberg M (2000) Promotion of
utilization of arbuscular mycorrhiza through reduced
P fertilization. 1. Bioassays in a growth chamber. Plant
Soil 227:191-206
Kapoor R, Sharma D, Bhatnagar AK (2008) Arbuscular
mycorrhizae in micropropagation systems and their
potential applications. Sci Hortic 116:227-239
Karasawa T, Takebe M (2012) Temporal or spatial
arrangements of cover crops to promote arbuscular
mycorrhizal colonization and P uptake of upland crops
grown after non-mycorrhizal crops. Plant Soil
353:355-366
management.
Marcel
Dekker,
New York, pp 349-369
Jarstfer AG, Sylvia DM (1999) Aeroponic culture of VAM
fungi. In: Varma A, Hock B (eds) Mycorrhiza: struc-
ture, function, molecular biology and biotechnology.
Springer, Berlin, pp 427-441
Jawson MD, Franzlubbers AJ, Galusha DK, Aiken RM
(1993) Soil fumigation within monoculture and
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