Results 11 to 20 of about 15,624 (247)

ARBUSCULAR MYCORRHIZAE: A DIVERSE PERSONALITY [PDF]

Journal of Central European Agriculture, 2006
Arbuscular mycorrhizae (AM) are benefi cial symbionts for plant growth. They are associated with higher plants by a symbiotic association, and benefi t plants in uptake of phosphorus nutrients, production of growth hormones, increase of proteins, lipids ...
THANGASWAMY SELVARAJ, PADMANABHAN CHELLAPPAN   +1 more
doaj   +3 more sources

Epiparasitic plants specialized on arbuscular mycorrhizal fungi [PDF]

, 2002
Over 400 non-photosynthetic species from 10 families of vascular plants obtain their carbon from fungi and are thus defined as myco-heterotrophs. Many of these plants are epiparasitic on green plants from which they obtain carbon by 'cheating' shared ...
AH Fitter, Alicia Sérsic, Andres Wiemken, D Redecker, D Redecker, D Robinson, D Schwarzott, David J. Read, Dirk Redecker, DL Swofford, DL Taylor, E Björkman, FA Smith, Isabelle Hijri, JD Bever, Jonathan R. Leake, JR Leake, KW Cullings, L Lanfranco, Laura Domínguez, M Gardes, M Yamato, Martin I. Bidartondo, MGA van Der Heijden, MI Bidartondo, MI Bidartondo, NC Johnson, NC Johnson, PW Price, R Molina, S Imhof, SE Smith, SL McKendrick, SW Simard, T Helgason, T Helgason, Thomas D. Bruns, TJ White, TP McGonigle   +38 more
core   +2 more sources

Tamarind (Tamarindus indica L.) parkland mycorrhizal potential within three agro-ecological zones of Senegal [PDF]

, 2010
Introduction. Tamarind (Tamarindus indica L.) belongs to the Fabaceae family; it is a multipurpose tree with slow growth. In order to help improve its growth and development, we assessed mycorrhizal diversity of tamarind parklands in Senegal.
Bourou, Sali, Diop, Tahir, Diouf, Macoumba, Ndiaye, Fatimata, Van Damme, Patrick   +4 more
core   +2 more sources

Agronomic Management of Indigenous Mycorrhizas [PDF]

, 2008
Many of the advantages conferred to plants by arbuscular mycorrhiza (AM) are associated to the ability of AM plants to explore a greater volume of soil through the extraradical mycelium.
A Gollotte, A Heggo, A Hodge, A Liu, A Manjunath, A Mollier, A Mozafar, AD Rovira, AE Richardson, AI Sannazzaro, AS El-Hassanin, B Frey, BAD Hetrick, BL Allen, C Azcón-Aguilar, C Cordier, C Grant, C Kessel van, C Plenchette, C Plenchette, C Val Del, CL Boddington, CL Boddington, CM Hepper, CM Hepper, CP Chandrashekara, D Redecker, D Tuinen van, DD Douds Jr, DD Douds Jr, DD Douds Jr, DG Evans, DG Evans, DJ Read, DP Stribley, E George, E Sieverding, EA Drew, EJ Joner, EJ Joner, EJ Joner, F Borie, F Feldmann, F Oehl, F Oehl, F Rivera-Becerril, FE Sanders, FRS Ahmed, G Becard, GJ Bethlenfalvay, GL Fairchild, GL Fairchild, GN Al-Karaki, H Hauggaard-Nielsen, H Kahiluoto, H Kahiluoto, H Kahiluoto, HA Alten von, HD Addy, I Brito, I Brito, I Jakobsen, I Ortas, ICR Holford, J Arihara, J Arines, J B Morton, J Jansa, J Jansa, J Jansa, J Scullion, JA Menge, JA Menge, JB Morton, JC Dodd, JC Dodd, JCC Miranda, JD Driver, JH Graham, JH Graham, JM Tisdall, JM Tisdall, JN Klironomos, K Cho, K Jayachandran, K Tawaraya, K Turnau, K Yano, KA Moyer-Henry, KM Harinikumar, L Corkidi, L Galvez, L Munkvold, L Simon, LK Abbott, LK Abbott, LK Abbott, M Bucher, M Franke-Snyder, M Gollner, M Gryndler, M Habte, M Niemi, M Saito, M Vestberg, M Vivekanandan, M Yamato, MA Martins, MA Nogueira, MA Nogueira, MC Rillig, MC Rillig, ME Gavito, ME Gavito, MH Miller, MH Miller, MH Ryan, MJ Goss, MJ Goss, MM Hart, MW Schwartz, N Mathimaran, NC Johnson, NC Johnson, NC Johnson, NP Wellings, NR Jordan, NS Bolan, P Audet, P Gosling, P Vandenkoornhuyse, PD Steinberg, PM Antunes, PM Antunes, PM Antunes, PM Chalk, R Azcón, R Duponnois, R Kjøller, R Lal, R Pandey, R Toth, RB Clark, RB Clark, RJ Cook, RLB Black, RM Augé, RM Miller, RP Schreiner, RP Schreiner, RPS Kesava, RS Oliveira, RS Thomas, RT Koide, RT Koide, S Dickson, S Gianinazzi, S Lu, S Mohandas, S Subhan, SC Vyas, SE Smith, SF Salem, SF Wright, SF Wright, SH Burleigh, SK Kothari, T Karasawa, T Karasawa, T Karasawa, TP McGonigle, TP McGonigle, TP McGonigle, TP McGonigle, TP McGonigle, TP McGonigle, TR Cavagnaro, V Gupta, V Göhre, W Hendrix, X He, XL Li, YG Zhu, Z Kabir, Z Kabir, Z Kabir, Z Kabir, Z Kabir, Z Kabir, Z Kabir, ZI Troeh   +190 more
core   +1 more source

Transcriptional Regulation of Arbuscular Mycorrhiza Development [PDF]

Plant and Cell Physiology, 2018
Arbuscular mycorrhiza (AM) is an ancient symbiosis between land plants and fungi of the glomeromycotina that is widespread in the plant kingdom. AM improves plant nutrition, stress resistance and general plant performance, and thus represents a promising addition to sustainable agricultural practices.
Priya Pimprikar, Caroline Gutjahr
openaire   +3 more sources

Phosphorus nutrition of ectomycorrhizal and arbuscular mycorrhizal tree seedlings from a lowland tropical rain forest in Korup National Park, Cameroon [PDF]

, 1998
The relationship between mycorrhizal colonisation and phosphorus acquired by seedlings of the arbuscular mycorrhizal tree Oubanguia alata Bak f. (Scytopetalaceae) and the ectomycorrhizal tree Tetraberlinia moreliana Aubr.
Alexander, I.J., Fitter, A.H., Moyersoen, B.   +2 more
core   +1 more source

Increasing the Growth and Yield of Soybean Genotype in Dryland by Applying Vesicular Arbuscular Mycorrhiza (VAM) and Tricho-compost

Journal of Tropical Soils, 2023
This research aimed to examine the increase in growth and yield of soybean (Glycine max (L.) Merr) genotypes in the application of Vesicular Arbuscular Mycorrhizae (VAM) and tricho-compost in dryland.
Bibiana Rini Widiati, Muh Izzdin Idrus, Andi Nur Imran   +2 more
doaj   +1 more source

Influence of mycorrhizal fungi on phytoremediating potential and yield of sunflower in Cd and Pb polluted soils [PDF]

Journal of Agricultural Sciences (Belgrade), 2010
The influence of mycorrhizal fungi in uptake of heavy metals, pollution response index and yield of sunflower in degraded soils were investigated. It was a greenhouse experiment with 2 arbuscular mycorrhizae (Glomus mosseae, Glomus intraradices) and a
Adewole M.B., Awotoye O.O., Ohiembor M.O., Salami A.O.   +3 more
doaj   +1 more source

The Genes Associated with Jasmonic Acid and Salicylic Acid Are Induced in Tropical Chili Pepper against Ralstonia solanacearum by Applying Arbuscular Mycorrhizal Fungi

Horticulturae, 2022
Controlling soil-borne pathogens is a significant problem in agriculture. Arbuscular mycorrhizae have a potential role in controlling soil-borne pathogens by increasing plant phytohormone contents.
Erlina Ambarwati, Triwidodo Arwiyanto, Jaka Widada, Taufan Alam, Ignatius Putra Andika, Taryono   +5 more
doaj   +1 more source

Sulfur Transfer through an Arbuscular Mycorrhiza [PDF]

Plant Physiology, 2008
Despite the importance of sulfur (S) for plant nutrition, the role of the arbuscular mycorrhizal (AM) symbiosis in S uptake has received little attention. To address this issue, 35S-labeling experiments were performed on mycorrhizas of transformed carrot (Daucus carota) roots and Glomus intraradices grown monoxenically on bicompartmental petri dishes ...
James W, Allen, Yair, Shachar-Hill
openaire   +2 more sources