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(2001)
Soil Biological Fertility (2007)
Canola residues do not reduce establishment, growth, and yield of following summer crops
Robertson M. J.,
Holland J. F., Bambach R.
Crop and Pasture Science. 2009 60(7). p.640
Research approaches to study the functioning of vesicular-arbuscular mycorrhizas in the field
Jakobsen I.
Plant and Soil. 1994 159(1). p.141
(1991)
Nutrient use efficiency and arbuscular mycorrhizal root colonisation of winter wheat cultivars in different farming systems of the DOK long-term trial
Hildermann Isabell,
Messmer Monika,
Dubois David,
Boller Thomas,
Wiemken Andres, Mäder Paul
Journal of the Science of Food and Agriculture. 2010 p.n/a
What is the significance of the arbuscular mycorrhizal colonisation of many economically important crop plants?
Smith F. Andrew, Smith Sally E.
Plant and Soil. 2011 348(1-2). p.63
Dryland Agriculture (2015)
Hyphae of a vesicular—arbuscular mycorrhizal fungus maintain infectivity in dry soil, except when the soil is disturbed
JASPER D. A.,
ABBOTT L. K., ROBSON A. D.
New Phytologist. 1989 112(1). p.101
Plant and microbial strategies to improve the phosphorus efficiency of agriculture
Richardson Alan E.,
Lynch Jonathan P.,
Ryan Peter R.,
Delhaize Emmanuel,
Smith F. Andrew,
Smith Sally E.,
Harvey Paul R.,
Ryan Megan H.,
Veneklaas Erik J.,
Lambers Hans,
Oberson Astrid,
Culvenor Richard A., Simpson Richard J.
Plant and Soil. 2011 349(1-2). p.121
Yield response in chickpea cultivars and wheat following crop rotations affecting population densities of Pratylenchus thornei and arbuscular mycorrhizal fungi
Reen R. A.,
Thompson J. P.,
Clewett T. G.,
Sheedy J. G., Bell K. L.
Crop and Pasture Science. 2014 65(5). p.428
Changes in phosphorus fractions at various soil depths following long-term P fertiliser application on a Black Vertosol from south-eastern Queensland
Wang X.,
Lester D. W.,
Guppy C. N.,
Lockwood P. V., Tang C.
Soil Research. 2007 45(7). p.524
Developments in Fungal Biology and Applied Mycology (2017)
Fertiliser N and P applications on two Vertosols in north-eastern Australia. 1. Comparative grain yield responses for two different cultivation ages
Lester David W.,
Birch Colin J., Dowling Chris W.
Australian Journal of Agricultural Research. 2008 59(3). p.247
Intensified dryland crop rotations support greater grain production with fewer inputs
Rosenzweig Steven T.,
Stromberger Mary E., Schipanski Meagan E.
Agriculture, Ecosystems & Environment. 2018 264 p.63
Agricultural uses of plant biostimulants
Calvo Pamela,
Nelson Louise, Kloepper Joseph W.
Plant and Soil. 2014 383(1-2). p.3
Organic Crop Production – Ambitions and Limitations (2008)
Pflanzliche Stoffaufnahme und mikrobielle Wechselwirkungen in der Rhizosphäre (1996)
Dynamics of arbuscular mycorrhizal fungi spore populations and their viability under contrasting tillage systems in wheat at different phenological stages
Schalamuk S.,
Velázquez S., Cabello M.
Biological Agriculture & Horticulture. 2013 29(1). p.38
Diversity and Integration in Mycorrhizas (2002)
Subsoil Constraints for Crop Production (2022)
Zinc in Soils and Plants (1993)
Plant Nutrition — Physiology and Applications (1990)
Sustainable Agroecosystem Management (2009)
Bioavailability and movement of hydroxyapatite nanoparticles (HA-NPs) applied as a phosphorus fertiliser in soils
Xiong Lei,
Wang Peng,
Hunter Malcolm N., Kopittke Peter M.
Environmental Science: Nano. 2018 5(12). p.2888
Mycorrhizal Symbiosis (2008)
Diversity, richness and degree of colonization of arbuscular mycorrhizal fungi in coconut cultivated along with intercrops in high productive zone of Kerala, India
Rajeshkumar P. P.,
Thomas George V.,
Gupta Alka, Gopal Murali
Symbiosis. 2015 65(3). p.125
Biodiversity of soil microbial communities in agricultural systems
Pankhurst C. E.,
Ophel-Keller K.,
Doube B. M., Gupta V. V. S. R.
Biodiversity and Conservation. 1996 5(2). p.197
Distribution of arbuscular mycorrhizal fungi spores in soils of smallholder agroforestry and monocultural coffee systems in southwestern Ethiopia
Muleta Diriba,
Assefa Fassil,
Nemomissa Sileshi, Granhall Ulf
Biology and Fertility of Soils. 2008 44(4). p.653
Endomycorrhizal Fungal Survival in Continuous Corn, Soybean, and Fallow
Troeh Zahra I., Loynachan Thomas E.
Agronomy Journal. 2003 95(1). p.224
Little evidence that farmers should consider abundance or diversity of arbuscular mycorrhizal fungi when managing crops
Ryan Megan H., Graham James H.
New Phytologist. 2018 220(4). p.1092
Effect of agricultural management practices on arbuscular mycorrhizal fungal abundance in low-input cropping systems of southern Africa: a case study from Zimbabwe
Lekberg Y.,
Koide R. T., Twomlow S. J.
Biology and Fertility of Soils. 2008 44(7). p.917
(1992)
From Ethnomycology to Fungal Biotechnology (1999)
Vesicular-Arbuscular Mycorrhiza and Phosphorus Uptake of Chickpea Grown in Northern Syria
Weber Edwin,
George Eckhard,
Beck Douglas P.,
Saxena Mohan C., Marschner Horst
Experimental Agriculture. 1992 28(4). p.433
Mycorrhizae in Sustainable Agriculture (2015)
Pelletized Biochar as a Carrier for AM Fungi in the On-Farm System of Inoculum Production in Compost and Vermiculite Mixtures
Douds David D.,
Lee Joe,
Uknalis Joe,
Boateng Akwasi A., Ziegler-Ulsh Christine
Compost Science & Utilization. 2014 22(4). p.253
Diversity of communities of arbuscular mycorrhizal (AM) fungi present in conventional versus low-input agricultural sites in eastern Pennsylvania, USA
Franke-Snyder Marlise,
Douds David D,
Galvez Larisa,
Phillips John G,
Wagoner Peggy,
Drinkwater Laurie, Morton Joseph B
Applied Soil Ecology. 2001 16(1). p.35
Rice-based crop rotation for enhancing native arbuscular mycorrhizal (AM) activity to improve phosphorus nutrition of upland rice (Oryza sativa L.)
Maiti Dipankar,
Singh Rama Kant, Variar Mukund
Biology and Fertility of Soils. 2012 48(1). p.67
Mycorrhizal Fungi: Use in Sustainable Agriculture and Land Restoration (2014)
Indigenous arbuscular mycorrhizal (AM) fungi contribute to wheat phosphate uptake in a semi-arid field environment, shown by tracking with radioactive phosphorus
Smith Sally E.,
Manjarrez Maria,
Stonor Rebecca,
McNeill Ann, Smith F. Andrew
Applied Soil Ecology. 2015 96 p.68
Marschner's Mineral Nutrition of Plants (2023)
Mycorrhizal Fungi: Use in Sustainable Agriculture and Land Restoration (2014)
Diversity of Glomale Mycorrhizal Fungi in Maize/Sesbania Intercrops and Maize Monocrop Systems in Southern Malawi
Jefwa Joyce M.,
Sinclair Robert, Maghembe Jumanne A.
Agroforestry Systems. 2006 67(2). p.107
Arbuscular mycorrhizas in southeastern Australian processing tomato farm soils
Cavagnaro Timothy Richard, Martin Ashley W.
Plant and Soil. 2011 340(1-2). p.327
Relationship between hyphal and arbuscular colonization and sporulation in a mycorrhiza of Paspalum notatum Flugge
DOUDS DAVID D.
New Phytologist. 1994 126(2). p.233
White clover living mulch increases the yield of silage corn via arbuscular mycorrhizal fungus colonization
Deguchi Shin,
Shimazaki Yumi,
Uozumi Sunao,
Tawaraya Keitaro,
Kawamoto Hidenori, Tanaka Osamu
Plant and Soil. 2007 291(1-2). p.291
Zinc bioavailability in wheat grain in relation to phosphorus fertiliser, crop sequence and mycorrhizal fungi
Ryan Megan H,
McInerney Jennifer K,
Record Ian R, Angus John F
Journal of the Science of Food and Agriculture. 2008 88(7). p.1208
Phosphorus management on extensive organic and low-input farms
Cornish P. S.
Crop and Pasture Science. 2009 60(2). p.105
Mycorrhizal Symbioses of Cotton Grown on Sodic Soils: A Review from an Australian Perspective
ESKANDARI Samieh,
GUPPY Christopher N.,
KNOX Oliver G.G.,
BACKHOUSE David, HALING Rebecca E.
Pedosphere. 2017 27(6). p.1015
Mycorrhizae in Sustainable Agriculture (2015)
Mycorrhiza - Eco-Physiology, Secondary Metabolites, Nanomaterials (2017)
Stale seedbed technique for weed control negatively impacts the indigenous AM fungal population
Douds David D.,
Lee Joe,
McKeever Lindsay,
Duffield Ross,
Ziegler-Ulsh Christine, Moyer Jeff
Biological Agriculture & Horticulture. 2018 34(3). p.199
Survival of propagules of arbuscular mycorrhizal fungi in soils in eastern Australia used to grow cotton
McGEE P. A,
PATTINSON G. S.,
HEATH R. A.,
NEWMAN C. A., ALLEN S.J.
New Phytologist. 1997 135(4). p.773
Sunflower Technology and Production (2015)
Local soil, but not commercial AMF inoculum, increases native and non‐native grass growth at a mine restoration site
Emam Taraneh
Restoration Ecology. 2016 24(1). p.35
The management of populations of vesicular-arbuscular mycorrhizal fungi in acid-infertile soils of a savanna ecosystem
Dodd J. C.,
Arias I.,
Koomen I., Hayman D. S.
Plant and Soil. 1990 122(2). p.229
Microorganisms in Plant Conservation and Biodiversity (2004)
Population of arbuscular mycorrhizal fungi in semi-arid environment of Jordan as influenced by biotic and abiotic factors
Mohammad M.Jamil,
Hamad S.Rushdi, Malkawi H.Issa
Journal of Arid Environments. 2003 53(3). p.409
Diversity and Integration in Mycorrhizas (2002)
Biological Approaches to Sustainable Soil Systems (2006)
Legacy effects of pre‐crop plant functional group on fungal root symbionts of barley
Roy Julien,
van Duijnen Richard,
Leifheit Eva F.,
Mbedi Susan,
Temperton Vicky M., Rillig Matthias C.
Ecological Applications. 2021 31(6).
Efficiency of Sandy Everlasting [Helichrysum arenarium (L.) Moench] cultivation from in vitro seedlings and achenes
Sawilska Anna K., Jendrzejczak Ewa
Industrial Crops and Products. 2013 43 p.50
Functional Diversity of Mycorrhiza and Sustainable Agriculture (2017)
The impact of alien plant invasion on mycorrhizas in mountain fynbos vegetation
Allsopp N., Holmes P.M.
South African Journal of Botany. 2001 67(2). p.150
Combined effects of soil disturbance and fallowing on plant and fungal components of mycorrhizal corn (Zea mays L.)
Kabir Z,
O'Halloran I.P, Hamel C
Soil Biology and Biochemistry. 1999 31(2). p.307
Biodiversity of arbuscular mycorrhizal fungi in agroecosystems
Douds David D., Millner Patricia D.
Agriculture, Ecosystems & Environment. 1999 74(1-3). p.77
Reduced growth of autumn-sown wheat in a low-P soil is associated with high colonisation by arbuscular mycorrhizal fungi
Ryan Megan H.,
Herwaarden Anthony F. van,
Angus John F., Kirkegaard John A.
Plant and Soil. 2005 270(1). p.275
Effects of vesicular-arbuscular mycorrhizae on growth and phosphorus and zinc nutrition of peanut (Arachis hypogaea L.) in an Oxisol from subtropical Australia
Bell M. J.,
Middleton K. J., Thompson J. P.
Plant and Soil. 1989 117(1). p.49
Carbon Capture and Storage (2015)
Soil disturbance reduces the infectivity of external hyphae of vesicular—arbuscular mycorrhizal fungi
JASPER D. A.,
ABBOTT L. K., ROBSON A. D.
New Phytologist. 1989 112(1). p.93
Winter wheat cover cropping, VA mycorrhizal fungi and maize growth and yield
Boswell E.P.,
Koide R.T.,
Shumway D.L., Addy H.D.
Agriculture, Ecosystems & Environment. 1998 67(1). p.55
Monitoring the decline in AM fungus populations and efficacy during a long term bare fallow
Douds David D.,
Nagahashi Gerald,
Wilson David O., Moyer Jeff
Plant and Soil. 2011 342(1-2). p.319
Fallow- and Flooded-Soil Syndromes: Effects on Crop Production
Wetterauer D. G., Killorn R. J.
Journal of Production Agriculture. 1996 9(1). p.39
The role of arbuscular mycorrhizas in improving plant zinc nutrition under low soil zinc concentrations: a review
Cavagnaro Timothy R.
Plant and Soil. 2008 304(1-2). p.315
An economic approach to evaluate the role of mycorrhizas in managed ecosystems
Miller Murray,
Mcgonigle Terence, Addy Heather
Plant and Soil. 1994 159(1). p.27
Arbuscular mycorrhizal fungi and organic farming
Gosling P.,
Hodge A.,
Goodlass G., Bending G.D.
Agriculture, Ecosystems & Environment. 2006 113(1-4). p.17
Intensifying rotations increases soil carbon, fungi, and aggregation in semi-arid agroecosystems
Rosenzweig Steven T.,
Fonte Steven J., Schipanski Meagan E.
Agriculture, Ecosystems & Environment. 2018 258 p.14
Large variation in mycorrhizal colonization among wild accessions, cultivars, and inbreds of sunflower (Helianthus annuus L.)
Turrini A.,
Giordani T.,
Avio L.,
Natali L.,
Giovannetti M., Cavallini A.
Euphytica. 2016 207(2). p.331
Earthworm Aporrectodea trapezoides had no effect on the dispersal of a vesicular-arbuscular mycorrhizal fungi, Glomus intraradices
Pattinson G.S.,
Smith S.E., Doube B.M.
Soil Biology and Biochemistry. 1997 29(7). p.1079
Field inoculation with arbuscular-mycorrhizal fungi overcomes phosphorus and zinc deficiencies of linseed (Linum usitatissimum) in a vertisol subject to long-fallow disorder
Thompson J. P.,
Clewett T. G., Fiske M. L.
Plant and Soil. 2013 371(1-2). p.117
Some soil factors constraining buffel grass (
Silcock Richard G.
The Rangeland Journal. 2022 44(2). p.77
Improving mycorrhizal colonisation of cotton in sodic soils
Eskandari Samieh,
Guppy Christopher N.,
Knox Oliver G.G.,
Backhouse David, Haling Rebecca E.
Rhizosphere. 2016 2 p.48
(1992)
Break crops and rotations for wheat
Angus J. F.,
Kirkegaard J. A.,
Hunt J. R.,
Ryan M. H.,
Ohlander L., Peoples M. B.
Crop and Pasture Science. 2015 66(6). p.523
Endophytes: Biology and Biotechnology (2017)
Arbuscular mycorrhizal fungi acted synergistically with Bradyrhizobium sp. to improve nodulation, nitrogen fixation, plant growth and seed yield of mung bean (Vigna radiata) but increased the population density of the root-lesion nematode Pratylenchus thornei
Gough Elaine C.,
Owen Kirsty J.,
Zwart Rebecca S., Thompson John P.
Plant and Soil. 2021 465(1-2). p.431
Long‐term Soil Tillage and Cover Cropping Affected Arbuscular Mycorrhizal Fungi, Nutrient Concentrations, and Yield in Sunflower
Rosner K.,
Bodner G.,
Hage‐Ahmed K., Steinkellner S.
Agronomy Journal. 2018 110(6). p.2664
Direct Measurement of Arbuscular Mycorrhizal Phosphorus Uptake into Field‐Grown Winter Wheat
Schweiger P.F., Jakobsen I.
Agronomy Journal. 1999 91(6). p.998
Mycorrhizal Biology (2000)
Mycorrhizal Technology in Agriculture (2002)
Concepts in Mycorrhizal Research (1996)
Soil sterilization methods to show VA-mycorrhizae aid P and Zn nutrition of wheat in vertisols
Thompson J.P.
Soil Biology and Biochemistry. 1990 22(2). p.229
Phosphorus Nutrition of Proteaceae in Severely Phosphorus-Impoverished Soils: Are There Lessons To Be Learned for Future Crops?
Lambers Hans,
Finnegan Patrick M.,
Laliberté Etienne,
Pearse Stuart J.,
Ryan Megan H.,
Shane Michael W., Veneklaas Erik J.
Plant Physiology. 2011 156(3). p.1058
Early effects of tillage and crop rotation on arbuscular mycorrhizal fungal propagules in an Ultisol
Castillo C. G.,
Rubio R.,
Rouanet J. L., Borie F.
Biology and Fertility of Soils. 2006 43(1). p.83
Precipitation as the most affecting factor on soil–plant environment conditions affects the mycorrhizal spore numbers in three different ecological zones in Turkey
Ortas Ibrahim, Coskan Ali
Acta Agriculturae Scandinavica, Section B — Soil & Plant Science. 2016 66(4). p.369
VA-mycorrhiza mediated P effect on growth and yield of sunflower (Helianthus annuus L.) at different P levels
Chandrashekara C. P.,
Patil V. C., Sreenivasa M. N.
Plant and Soil. 1995 176(2). p.325
Root-lesion nematode (Pratylenchus thornei) reduces nutrient response, biomass and yield of wheat in sorghum–fallow–wheat cropping systems in a subtropical environment
Thompson J.P.,
Mackenzie J., Sheedy G.H.
Field Crops Research. 2012 137 p.126
The Significance and Regulation of Soil Biodiversity (1995)
Effect of previous crops on arbuscular mycorrhizal formation and growth of succeeding maize
Arihara Joji, Karasawa Toshihiko
Soil Science and Plant Nutrition. 2000 46(1). p.43
Evaluation of inoculation with nitrogen and phosphorus biofertilizers on yield and radiation use efficiency of black cumin (Nigella sativaL.) under Mashhad climatic conditions
Khorramdel Surur,
Koocheki Alireza,
Nassiri Mahallati Mahdi, Ghorbani Reza
Journal of Plant Nutrition. 2016 39(14). p.2015
The effect of high temperature and fallow period on infection of mung bean and cashew roots by the vesicular-arbuscular mycorrhizal fungus Glomus intraradices
Haugen L. M., Smith S. E.
Plant and Soil. 1992 145(1). p.71
The effect of dandelion or a cover crop on mycorrhiza inoculum potential, soil aggregation and yield of maize
Kabir Z., Koide R.T.
Agriculture, Ecosystems & Environment. 2000 78(2). p.167
Agronomic Crops (2019)
The management of populations of vesicular-arbuscular mycorrhizal fungi in acid-infertile soils of a savanna ecosystem
Dodd J. C.,
Arias I.,
Koomen I., Hayman D. S.
Plant and Soil. 1990 122(2). p.241
Soil phosphorus availability modifies the relationship between AM fungal diversity and mycorrhizal benefits to maize in an agricultural soil
Qin Zefeng,
Zhang Hongyan,
Feng Gu,
Christie Peter,
Zhang Junling,
Li Xiaolin, Gai Jingping
Soil Biology and Biochemistry. 2020 144 p.107790
Bacterial and Fungal Contributions to Carbon Sequestration in Agroecosystems
Six J.,
Frey S. D.,
Thiet R. K., Batten K. M.
Soil Science Society of America Journal. 2006 70(2). p.555
Soil Management: Building a Stable Base for Agriculture (2015)
Optimising initial population density, growth time and nitrogen nutrition for assessing resistance of wheat cultivars to root-lesion nematode (Pratylenchus thornei)
Thompson J. P.,
Clewett T. G., O’Reilly M. M.
Australasian Plant Pathology. 2015 44(2). p.133
Rhizosphere biology and crop productivity—a review
Watt M.,
Kirkegaard J. A., Passioura J. B.
Soil Research. 2006 44(4). p.299
Garlic Mustard (Alliaria petiolata) Removal Method Affects Native Establishment
Barto E. Kathryn, Cipollini Don
Invasive Plant Science and Management. 2009 2(3). p.230
An overwintering cover crop increases inoculum of VAM fungi in agricultural soil
Galvez L.,
Douds D.D.,
Wagoner P.,
Longnecker L.R.,
Drinkwater L.E., Janke R.R.
American Journal of Alternative Agriculture. 1995 10(4). p.152
Integration of crop rotation and arbuscular mycorrhiza (AM) inoculum application for enhancing AM activity to improve phosphorus nutrition and yield of upland rice (Oryza sativa L.)
Maiti Dipankar,
Toppo Neha Nancy, Variar Mukund
Mycorrhiza. 2011 21(8). p.659
FALLOW VERSUS WHEAT CROPPING OF UNAMENDEDAND MANURE-AMENDED SOILS RELATED TO MYCORRHIZAL COLONIZATION, YIELD, AND PLANT NUTRITION OF DRY BEAN AND SWEET CORN
Allen Brett L.,
Jolley Von D.,
Robbins Charles W., Freeborn Larry L.
Journal of Plant Nutrition. 2001 24(6). p.921
On-farm production of AM fungus inoculum in mixtures of compost and vermiculite
Douds D.D.,
Nagahashi G.,
Pfeffer P.E.,
Reider C., Kayser W.M.
Bioresource Technology. 2006 97(6). p.809
Impacts of management on soil biota in Vertosols supporting the broadacre grains industry in northern Australia
Bell M.,
Seymour N.,
Stirling G. R.,
Stirling A. M.,
Van Zwieten L.,
Vancov T.,
Sutton G., Moody P.
Soil Research. 2006 44(4). p.433
Mycorrhiza - Nutrient Uptake, Biocontrol, Ecorestoration (2017)
Expanding the Production and Use of Cool Season Food Legumes (1994)
High crop productivity with high water use in winter and summer on the Liverpool Plains, eastern Australia
Young R. R.,
Derham P.-J.,
Dunin F. X.,
Bernardi A. L., Harden S.
Australian Journal of Agricultural Research. 2008 59(4). p.303
A history of research on arbuscular mycorrhiza
Koide Roger T., Mosse Barbara
Mycorrhiza. 2004 14(3). p.145
Divergence of mycorrhizal fungal communities in crop production systems
Hendrix James W.,
Guo B. Z., An Z.-Q.
Plant and Soil. 1995 170(1). p.131
Invertebrate Biodiversity as Bioindicators of Sustainable Landscapes (1999)
Accumulation of soil carbon under zero tillage cropping and perennial vegetation on the Liverpool Plains, eastern Australia
Young R. R.,
Wilson B.,
Harden S., Bernardi A.
Soil Research. 2009 47(3). p.273
Phosphorus Fertilizer Requirements and Nutrient Uptake of Irrigated Dry‐Season Cotton Grown on Virgin Soil in Tropical Australia
Duggan B. L.,
Yeates S. J.,
Gaff N., Constable G. A.
Communications in Soil Science and Plant Analysis. 2007 39(1-2). p.282
Effect of Mycorrhizal Infection on Phosphorus Efficiency of Maize (Zea mays L.) Cultivars
Gill A. A. S.,
Bhadoria P. B. S., Sadana U. S.
Proceedings of the National Academy of Sciences, India Section B: Biological Sciences. 2013 83(2). p.147
Mycorrhizal colonisation of three hybrid papayas (Carica papaya) under mulched and bare ground conditions
Walsh K. B., Ragupathy S.
Australian Journal of Experimental Agriculture. 2007 47(1). p.81
The agronomic relevance of arbuscular mycorrhizas in the fertility of Australian extensive cropping systems
Ryan Megan H., Kirkegaard John A.
Agriculture, Ecosystems & Environment. 2012 163 p.37
A dual rescaled Mitscherlich model of the simultaneous savings in phosphorus and zinc fertiliser from arbuscular mycorrhizal fungal colonisation of linseed (Linum usitatissimum L.)
Seymour Nicole P.,
Edwards David G., Thompson John P.
Plant and Soil. 2019 440(1-2). p.97
Prospects for summer cover crops in southern Australian semi-arid cropping systems
Rose Terry J.,
Parvin Shahnaj,
Han Eusun,
Condon Jason,
Flohr Bonnie M.,
Schefe Cassandra,
Rose Michael T., Kirkegaard John A.
Agricultural Systems. 2022 200 p.103415
Microbes for Legume Improvement (2010)
Fungal Facilitation in Rangelands: Do Arbuscular Mycorrhizal Fungi Mediate Resilience and Resistance in Sagebrush Steppe?
Hovland Matthew,
Mata-González Ricardo,
Schreiner R. Paul, Rodhouse Thomas J.
Rangeland Ecology & Management. 2019 72(4). p.678
High densities of arbuscular mycorrhizal fungi maintained during long fallows in soils used to grow cotton except when soil is wetted periodically
PATTINSON G. S., McGEE P. A.
New Phytologist. 1997 136(4). p.571
Detection of Polymyxa graminis in a barley crop in Australia
Thompson J. P.,
Clewett T. G.,
Jennings R. E.,
Sheedy J. G.,
Owen K. J., Persley D. M.
Australasian Plant Pathology. 2011 40(1). p.66
Precision Placement of Separated Dairy Sludge Improves Early Phosphorus Nutrition and Growth in Corn (Zea mays
L.)
Bittman S.,
Liu A.,
Hunt D.E.,
Forge T.A.,
Kowalenko C.G.,
Chantigny M.H., Buckley K.
Journal of Environmental Quality. 2012 41(2). p.582
Subsoil constraints to grain production in the cropping soils of the north-eastern region of Australia: an overview
Dang Y. P.,
Dalal R. C.,
Routley R.,
Schwenke G. D., Daniells I.
Australian Journal of Experimental Agriculture. 2006 46(1). p.19
Techniques in Mycorrhizal Studies (2002)
Increased Sporulation of Vesicular-Arbuscular Mycorrhizal Fungi by Manipulation of Nutrient Regimens
Douds David D., Schenck N. C.
Applied and Environmental Microbiology. 1990 56(2). p.413
Response of strawberry to inoculation with arbuscular mycorrhizal fungi under very high soil phosphorus conditions
Stewart L. I.,
Hamel C.,
Hogue R., Moutoglis P.
Mycorrhiza. 2005 15(8). p.612
Short-term response of physical and chemical aspects of soil quality of a kaolinitic Kandiudalfs to agricultural practices and its association with microbiological variables
Fernandes Marcelo F.,
Barreto Antonio Carlos,
Mendes Iêda C., Dick Richard P.
Agriculture, Ecosystems & Environment. 2011 142(3-4). p.419
Amplicon sequencing analysis of arbuscular mycorrhizal fungal communities colonizing maize roots in different cover cropping and tillage systems
Higo Masao,
Tatewaki Yuya,
Iida Karen,
Yokota Kana, Isobe Katsunori
Scientific Reports. 2020 10(1).
(2013)
Mycorrhizal Symbiosis (2002)
The effects of agricultural practices on arbuscular mycorrhizal fungi
Jansa Jan,
Wiemken Andres, Frossard Emmanuel
Geological Society, London, Special Publications. 2006 266(1). p.89
Correction of dual phosphorus and zinc deficiencies of linseed (Linum usitatissimum L.) with cultures of vesicular-arbuscular mycorrhizal fungi
Thompson J.P.
Soil Biology and Biochemistry. 1996 28(7). p.941
Optimizing tillage schedule for maintaining activity of the arbuscular mycorrhizal fungal population in a rainfed upland rice (Oryza sativa L.) agro-ecosystem
Maiti D.,
Variar M., Singh R. K.
Mycorrhiza. 2011 21(3). p.167
Impact of Arbuscular Mycorrhizas on Sustainable Agriculture and Natural Ecosystems (1994)
Mycorrhizal Fungi: Use in Sustainable Agriculture and Land Restoration (2014)
Earthworms as vectors of viable propagules of mycorrhizal fungi
Reddell Paul, Spain Alister V.
Soil Biology and Biochemistry. 1991 23(8). p.767
Pre-cropping with canola decreased Pratylenchus thornei populations, arbuscular mycorrhizal fungi, and yield of wheat
Owen K. J.,
Clewett T. G., Thompson J. P.
Crop and Pasture Science. 2010 61(5). p.399
Does shade tree diversity increase soil fertility in cocoa plantations?
Wartenberg Ariani C.,
Blaser Wilma J.,
Gattinger Andreas,
Roshetko James M.,
Van Noordwijk Meine, Six Johan
Agriculture, Ecosystems & Environment. 2017 248 p.190
Differences in Mycorrhizal Colonization of Rye (Secale cereale L.) Grown in Conventional or Organic (Biological‐dynamic) Farming Systems
Sattelmacher B.,
Reinhard S., Pomikalko A.
Journal of Agronomy and Crop Science. 1991 167(5). p.350
Post Flood Syndrome and Vesicular-Arbuscular Mycorrhizal Fungi
Ellis J. R.
Journal of Production Agriculture. 1998 11(2). p.200
Effect of biosolids-derived triclosan and triclocarban on the colonization of plant roots by arbuscular mycorrhizal fungi
Prosser R.S.,
Lissemore L.,
Shahmohamadloo R.S., Sibley P.K.
Science of The Total Environment. 2015 508 p.427
Research must use a systems agronomy approach if management of the arbuscular mycorrhizal symbiosis is to contribute to sustainable intensification
Ryan Megan H.,
Graham James H.,
Morton Joseph B., Kirkegaard John A.
New Phytologist. 2019 222(3). p.1176
The screening and selection of inoculant arbuscular-mycorrhizal and ectomycorrhizal fungi
Dodd J. C., Thomson B. D.
Plant and Soil. 1994 159(1). p.149
Effect of fertiliser type and mycorrhizal inoculation on growth and development of sunflower ( Helianthus annuus L.)
Abobaker A.M.,
Bound S.A.,
Swarts N.D., Barry K.M.
Rhizosphere. 2018 6 p.11
Effect of management practices on mycorrhizal infection, growth and dry matter partitioning in field-grown bean
Oliveira Antonio Alberto Rocha, Sanders Francis Edward
Pesquisa Agropecuária Brasileira. 1999 34(7). p.1247
Structure and Function in Agroecosystem Design and Management (2001)
Agro-Ecological Class Stability Decreases in Response to Climate Change Projections for the Pacific Northwest, USA
Kaur Harsimran,
Huggins David R.,
Rupp Richard A.,
Abatzoglou John T.,
Stöckle Claudio O., Reganold John P.
Frontiers in Ecology and Evolution. 2017 5
Prospects and problems pertaining to the management of arbuscular mycorrhizae in agriculture
Hamel Chantal
Agriculture, Ecosystems & Environment. 1996 60(2-3). p.197
Germination and hyphal growth of vam fungi during and after storage in soil at five matric potentials
Douds David D., Schenck N.C.
Soil Biology and Biochemistry. 1991 23(2). p.177
Relationship of colonization and sporulation by VA mycorrhizal fungi to plant nutrient and carbohydrate contents*
DOUDS DAVID D., SCHENCK N. C.
New Phytologist. 1990 116(4). p.621
Soil Quality for Crop Production and Ecosystem Health (1997)
Phosphorus Fertilizer Requirements and Nutrient Uptake of Irrigated Dry‐Season Cotton Grown on Virgin Soil in Tropical Australia
Duggan B. L.,
Yeates S. J.,
Gaff N., Constable G. A.
Communications in Soil Science and Plant Analysis. 2009 40(15-16). p.2616
The Rhizosphere and Plant Growth (1991)
Annual Plant Reviews online (2018)
The diversity of arbuscular mycorrhizas of selected AustralianFabaceae
Tibbett Mark,
Ryan Megan H.,
Barker Susan J.,
Chen Yinglong,
Denton Matthew D.,
Edmonds-Tibbett Tamara, Walker Christopher
Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2008 142(2). p.420
Global mycorrhizal plant distribution linked to terrestrial carbon stocks
Soudzilovskaia Nadejda A.,
van Bodegom Peter M.,
Terrer César,
Zelfde Maarten van’t,
McCallum Ian,
Luke McCormack M.,
Fisher Joshua B.,
Brundrett Mark C.,
de Sá Nuno César, Tedersoo Leho
Nature Communications. 2019 10(1).
Mycorrhiza (1995)
Microbes and Microbial Biotechnology for Green Remediation (2022)
The role of nutrients underlying interactions among root-nodule bacteria (Bradyrhizobium sp.), arbuscular mycorrhizal fungi (Funneliformis mosseae) and root-lesion nematodes (Pratylenchus thornei) in nitrogen fixation and growth of mung bean (Vigna radiata)
Gough E. C.,
Owen K. J.,
Zwart R. S., Thompson J. P.
Plant and Soil. 2022 472(1-2). p.421
Rainfed Farming Systems (2011)
Annual Plant Reviews Volume 48 (2015)
VAM fungus spore populations and colonization of roots of maize and soybean under conventional and low-input sustainable agriculture
Douds D.D.,
Janke R.R., Peters S.E.
Agriculture, Ecosystems & Environment. 1993 43(3-4). p.325
Factors influencing the occurrence of vesicular-arbuscular mycorrhizas
Abbott L.K., Robson A.D.
Agriculture, Ecosystems & Environment. 1991 35(2-3). p.121
Maintenance of soybean yield with reduced phosphorus application by previous cropping with mycorrhizal plants
OKA Norikuni,
KARASAWA Toshihiko,
OKAZAKI Keiki, TAKEBE Masako
Soil Science and Plant Nutrition. 2010 56(6). p.824
Reintroduction of a native Glomus to a tropical Ultisol promoted grain yield in maize after fallow and restored the density of arbuscular mycorrhizal fungal spores
Poomipan Phakpen,
Suwanarit Amnat,
Suwanarit Poonpilai,
Nopamornbodi Omsub, Dell Bernard
Journal of Plant Nutrition and Soil Science. 2011 174(2). p.257
Effect of indigenous mycorrhizal colonization on phosphorus‐acquisition efficiency in soybean and sunflower
Cecilia Fernández Mariana,
Hernán Gutiérrez Boem Flavio, Rubio Gerardo
Journal of Plant Nutrition and Soil Science. 2011 174(4). p.673
Phosphorus: Agriculture and the Environment (2015)
Mycorrhizae in Sustainable Agriculture (2015)
Pratylenchus thornei populations reduce water uptake in intolerant wheat cultivars
Whish J.P.M.,
Thompson J.P.,
Clewett T.G.,
Lawrence J.L., Wood J.
Field Crops Research. 2014 161 p.1
(2005)
Fungos micorrízicos arbusculares em um latossolo vermelho sob manejos e usos no cerrado
Ferreira Dorotéia Alves,
Carneiro Marco Aurélio Carbone, Saggin Junior Orivaldo José
Revista Brasileira de Ciência do Solo. 2012 36(1). p.51
