INOQ en publicaciones científicas

Este resumen muestra la colección ahora muy extensa de contribuciones de nuestros científicos en revistas y libros y publicaciones de otros científicos que han utilizado productos INOQ. En los últimos cinco años ha habido un aumento del 100 por ciento en las publicaciones de otros autores que utilizan uno de nuestros productos INOQ. A continuación, encontrará una lista con los trabajos contados.


Al Methyeb, M., Ruppel, S., Eichler-Löbermann, B., Vassilev, N. (2023): The Combined Applications of Microbial Inoculants and Organic Fertilizer Improve Plant Growth under Unfavorable Soil Conditions. Microorganisms 11(7):1721.
Bogdanova, O., Kothe, E., Krause, K. (2023): Ectomycorrhizal Community Shifts at a Former Uranium Mining Site. Journal of Fungi 9(4):483.
Deja-Sikora, E., Werner, K., Hrynkiewicz, K. (2023): AMF species do matter: Rhizophagus irregularis and Funneliformis mosseae affect healthy and PVY-infected Solanum tuberosum L. in a different way. Frontiers in Microbiology 14, DOI=10.3389/fmicb.2023.1127278
Gaši, E., Radić, T., Čarija, M., Gambino, G., Balestrini, R., Hančević, K. (2023): Arbuscular Mycorrhizal Fungi Induce Changes of Photosynthesis-Related Parameters in Virus Infected Grapevine. Plants 12(9):1783.
Geist, L., Wolfer, R., Thiem, R., Thielicke, M., Eichler-Löbermann, B., Eulenstein, F., Müller, MEH. (2023): Alternative Starter Fertilization Strategies in Maize (Zea mays L.) Cultivation: Agronomic Potential of Microgranular Fertilizer and Plant Growth-Promoting Microorganisms and Their Impact on the Soil Native Microbial Community. Agronomy 13(12):2900
Guo, Y., Sommer, N., Martin, K., Rasche, F. (2023): Rhizophagus irregularis improves Hg tolerance of Medicago truncatula by upregulating the Zn transporter genes ZIP2 and ZIP6. Mycorrhiza 33, 23–32.
Nerva, L., Balestrini, R., Chitarra, W. (2023): From Plant Nursery to Field: Persistence of Mycorrhizal Symbiosis Balancing Effects on Growth-Defence Tradeoffs Mediated by Rootstock. Agronomy 13(1):229
Papp, L., Habtemariam, A.A., Brandt, S., Cseh, P., Heller, Á., Péter, B., Szakály, Á.P., Kiszel, P., Codogno, B., Bratek, Z., et al (2023): A Possible Perspective of Recultivation with Arbuscular Mycorrhiza-Inoculated Drought-Tolerant Herbaceous Plants. Plants 12(24):4088
Pauwels, R., Graefe, J. & Bitterlich, M.: An arbuscular mycorrhizal fungus alters soil water retention and hydraulic conductivity in a soil texture specific way. Mycorrhiza 33, 165–179 (2023).
Romero-Estonllo, M., Ramos-Castro, J., San Miguel Del Río, Y., Rodríguez-Garrido, B., Prieto-Fernández, Á., Kidd, P.S., Monterroso, C. (2023): Soil amendment and rhizobacterial inoculation improved Cu phytostabilization, plant growth and microbial activity in a bench-scale experiment. Front Microbiol. 14:1184070. doi: 10.3389/fmicb.2023.1184070.
Samaras, K., Mourtiadou, S., Arampatzis, T., Kakagianni, M., Feka, M., Wäckers, F., Papadopoulou, K.K., Broufas, G.D., Pappas, M.L. (2023): Plant-Mediated Effects of Beneficial Microbes and a Plant Strengthener against Spider Mites in Tomato. Plants 12(4):938.
Wulf, K., Sun, J., Wang, C., Ho-Plagaro, T., Kwon, C-T., Velandia, K., Correa-Lozano, A., Tamayo-Navarrete, M.I., Reid, J.B., García Garrido, J.M., Foo, E. (2023): The Role of CLE Peptides in the Suppression of Mycorrhizal Colonization of Tomato Plant and Cell Physiology, pcad124
Seeliger, M., Hilton, S., Muscatt, G., Walker, C., Bass, D., Albornoz, F., Standish, R., Gray, N., Mercy, L., Rempelos, L., Schneider, C., Ryan, M., Bilsborrow, P., Bending, G., 2023: New fungal primers reveal the diversity of Mucoromycotinian arbuscular mycorrhizal fungi and their response to nitrogen application [Preprint]. Available from:


da Silva, A.V., da Silva, M.K., Tenório Sampaio, E.B., Romanholo Ferreira, L.F., Zambrano Passarini, M.R., de Oliveira, V.M., Rosa, L.H., Wagner Fernandes Duarte, A. (2022): Chapter 4 – Benefits of plant growth-promoting symbiotic microbes in climate change era. Editor(s): Ajay Kumar, Joginder Singh, Luiz Fernando Romanholo Ferreira, Microbiome Under Changing Climate, Woodhead Publishing, Pages 85-113, ISBN 9780323905718,
Eltigani, A., Müller, A., Ngwene, B., George, E. (2022): Physiological and Morphological Responses of Okra (Abelmoschus esculentus L.) to Rhizoglomus irregulare Inoculation under Ample Water and Drought Stress Conditions Are Cultivar Dependent.Plants. 11(1):89.
Moreno-Jiménez, E., Leifheit, E.F., Plaza, C., Feng, L., Bergmann, J., Wulf, A., Lehmann, A., Rillig, M.C. (2022): Effects of microplastics on crop nutrition in fertile soils and interaction with arbuscular mycorrhizal fungi. J Sustain Agric Environ. 2022: 1– 66.
Mohammed, D. J., Mohammad, A. O., Fattah, O. A. (2022): Growth response and water use efficiency in maize (Zea mays L.) inoculated with different mycorrhizal inoculums. Anbar Journal of Agricultural Sciences 20 (1): 22-33.
Nerva, L., Giudice, G., Quiroga, G., Belfiore, N., Lovat, L., Perria, R., Volpe, M-G., Moffa, L., Sandrini, M., Gaiotti, F., Balestrini, R., Chitarra, W. (2021): Mycorrhizal symbiosis balances rootstock-mediated growth-defence tradeoffs. Biol Fertil Soils (2021).
Pons, C., Müller, C. (2022): ). Impacts of Drought Stress and Mycorrhizal Inoculation on the Performance of Two Spring Wheat Cultivars. Plants 11(17): 2187.
Guo, Y., Sommer, N., Martin, K., Rasche, F. (2022): Role of arbuscular mycorrhizal fungi (Rhizophagus irregularis) on mercury tolerance of Medicago truncatula in relation to mercury and zinc concentration. 18 August 2022, PREPRINT (Version 1) available at Research Square
Ondreičková, K., Gubišová, M., Hrčková, K., Hudcovicová, M., Gubiš, J., Horník, M., Dulanská, S. (2022): The influence of inoculation and drought on the diversity of fungal communities in the roots of tomato plants. Nova Biotechnol Chim 21(1): e1387.
Dulanská, S., Gomola, I., Gubišová, M., Ondreičková, K., Pánik, J., Mátel, L., Horník, M. (2022): Uptake and distribution of radiostrontium in tomato treated with arbuscular mycorrhizal fungi. Radiation Protection Dosimetry 198 (9-11): 720–725.
Jongen, M., Albadran, B., Beyschlag, W., Unger, S. (2022): Can arbuscular mycorrhizal fungi mitigate drought stress in annual pasture legumes?Plant Soil 472: 295–310.
Nayak, J. J., Anwar, S., Krishna, P., Chen, Z-H., Plett, J. M., Foo, E., Cazzonelli, C. I. (2022): Tangerine tomato roots show increased accumulation of acyclic carotenoids, less abscisic acid, drought sensitivity, and impaired endomycorrhizal colonization. Plant Science 321, 111308, ISSN 0168-9452.
Ploll, U., Arato, M., Börner, J., Hartmann, M. (2022): Sustainable Innovations: A Qualitative Study on Farmers’ Perceptions Driving the Diffusion of Beneficial Soil Microbes in Germany and the UK. Sustainability 14, 5749.
Salomon,M.J., Watts-Williams, S.J., McLaughlin, M.J., Bücking, H., Singh, B.K., Hutter, I., Schneider, C., F.Martin, M.Vosatka, L.D.Guo, T.Ezawa, M.Saito, S.Declerck, Y.G.Zhu, T.Bowles, L.K.Abbott, F.A.Smith, T.R.Cavagnaro, M.G.A.van der Heijden (2022): Establishing a quality management framework for commercial inoculants containing arbuscular mycorrhizal fungi. ISCIENCE (2022)
Varela Alonso A, Naranjo HD, Rat A, Rodić N, Nannou CI, Lambropoulou DA, Assimopoulou AN, Declerck S, Rödel P, Schneider C and Willems A (2022): Root-associated bacteria modulate the specialised metabolome of Lithospermum officinale L. Front. Plant Sci. 13:908669. doi: 10.3389/fpls.2022.908669


Cavael, U., Lentzsch, P., Schwärzel, H., Eulenstein, F., Tauschke, M., Diehl, K. (2021): Assessment of Agro-Ecological Apple Replant Disease (ARD) Management Strategies: Organic Fertilisation and Inoculation with Mycorrhizal Fungi and Bacteria. Agronomy 11, 272
Foo, E. (2021): Application of Strigolactones to Plant Roots to Influence Formation of Symbioses. In: Prandi C., Cardinale F. (eds) Strigolactones. Methods in Molecular Biology, vol 2309. Humana, New York, NY.
Moreno-Jiménez, E., Leifheit, E.F., Plaza, C., Feng, L., Bergmann, J., Wulf, A., Lehmann, A., Rillig, M.C. (2021): Effects of microplastics on crop nutrition in fertile soils and interaction with arbuscular mycorrhizal fungi. J Sustain Agric Environ. 2021: 1– 7.
Papantoniou, D., Vergara, F., Weinhold, A., Quijano, T., Khakimov, B., Pattison, D.I., Bak, S., van Dam, N.M., Martínez-Medina, A. (2021): Cascading Effects of Root Microbial Symbiosis on the Development and Metabolome of the Insect Herbivore Manduca sexta L. Metabolites 11(11):731.
Schwalb, S.A., Hemkemeyer, M., Watson, C., Wichern, F. (2021): Mycorrhiza Reduces Phosphorus Uptake from Struvite in Rye (Secale cereale L.) plants J Soil Sci Plant Nutr 21, 3451–3460.
Stallmann, J., Schweiger, R. (2021): Effects of Arbuscular Mycorrhiza on Primary Metabolites in Phloem Exudates of Plantago major and Poa annua and on a Generalist Aphid. Int. J. Mol. Sci. 22, 13086.
Wang, C., Velandia, K., Kwon, C-T., Wulf, K.E., Nichols, D.S., Reid, J.B., Foo, E. (2021): The role of CLAVATA signalling in the negative regulation of mycorrhizal colonization and nitrogen response of tomato. Journal of Experimental Botany, 72: 1702–1713.


Bitterlich M., Mercy L., Arato M., Franken P. (2020). Arbuscular mycorrhizal fungi as biostimulants for sustainable crop production. In: Biostimulants for Sustainable Crop Production. Eds: Rouphael Y., du Jardin P., Brown P., De Pascale S. and Colla G. Publisher: Burleigh Dodds Science Publishing Limited, Cambridge, UK. ISBN: 9781786763365
Schubert, R.; Werner, S.; Cirka, H.; Rödel, P.; Tandron Moya, Y.; Mock, H.-P.; Hutter, I.; Kunze, G.; Hause, B. (2020): Effects of Arbuscular Mycorrhization on Fruit Quality in Industrialized Tomato Production.Int. J. Mol. Sci. 2020, 21, 7029.
Schneider C., Heermann H-J., Institut für Planzenkultur e.K., Schnega (2020):
Biostimulanzien für die Landwirtschaft, im LOP Magazin, 05.2020
Deja-Sikora E., Kowalczyk A., Trejgell A., Szmidt-Jaworska A., Baum C., Mercy L., Hrynkiewicz K. (2020): Arbuscular mycorrhiza changes the impact of potato virus Y on growth and stress tolerance of solanum tuberosum L. in vitro.Frontiers in Microbiology 10, 2971, DOI=10.3389/fmicb.2019.02971
Hansch, F., Jaspar, H., von Sivers, L., Bitterlich, M., Franken, P., Kühn, C. (2020): Brassinosteroids and sucrose transport in mycorrhizal tomato plants. Plant Signaling & Behavior, 15:2, DOI: 10.1080/15592324.2020.1714292
Lange, K., Viklander, M., Blecken, G-T. (2020): Effects of plant species and traits on metal treatment and phytoextraction in stormwater bioretention. Journal of Environmental Management 276: 111282
Lehmann, A., Leifheit, E.F., Feng, L., Bergmann, J., Wulf, A., Rillig, M.C. (2020): 
Microplastic fiber and drought effects on plants and soil are only slightly modified by arbuscular mycorrhizal fungi.
Soil Ecol. Lett. DOI: 10.1007/s42832-020-0060-4
Liu, N., Shao, C., Sun, H., Liu, Z., Guan, Y., Wu, L., Zhang, L., Pan, X., Zhang, Z., Zhang, Y., Zhang, B. (2020): 
Arbuscular mycorrhizal fungi biofertilizer improves American ginseng (Panax quinquefolius L.) growth under the continuous cropping regime.
Geoderma 363, 114155,
Moreira, H., Pereira, S.I.A., Vega, A., Castro, P.M.L, Marques, A.P.G.C. (2020): 
Synergistic effects of arbuscular mycorrhizal fungi and plant growth-promoting bacteria benefit maize growth under increasing soil salinity.
Journal of Environmental Management, 257,
Pons, C., Voß, A-C., Schweiger, R., Müller, C. (2020): Effects of drought and mycorrhiza on wheat and aphid infestation.
Ecology and Evolution 10: 10481-10491.

Sharma, S., Compant, S., Ballhausen, M-B., Ruppel, S., Franken, P. (2020): The interaction between Rhizoglomus irregulare and hyphae attached phosphate solubilizing bacteria increases plant biomass of Solanum lycopersicum. Microbiological Research 240: 126556


Hutter I., Schneider C. (2019): Commercial micropropagation in germany
Journal of Applied Botany and Food Quality 92, 226 – 231 (2019), DOI: 10.5073/jabfq.2019.092.031
Deja-Sikora E., Mercy L., Baum C., & Hrynkiewicz K. (2019):
The contribution of endomycorrhiza to the performance of PVY-infected solanaceous plants: disease alleviation or exacerbation?.
Frontiers in Microbiology, 10, 516, DOI: 10.3389/fmicb.2019.00516
Abdelhalim, T., Jannoura, R., Joergensen, R.G. (2019a):
Mycorrhiza response and phosphorus acquisition efficiency of sorghum cultivars differing in strigolactone composition
Plant Soil, DOI: 10.1007/s11104-019-03960-y
Abdelhalim, T., Jannoura, R., Joergensen, R.G. (2019b):
Arbuscular mycorrhizal dependency and phosphorus responsiveness of released, landrace and wild Sudanese sorghum genotypes
Archives of Agronomy and Soil Science, DOI: 10.1080/03650340.2019.1633577
Graf F., Bast A., Gärtner H., Yildiz A. (2019) :
Effects of Mycorrhizal Fungi on Slope Stabilisation Functions of Plants.
In: Wu W. (eds) Recent Advances in Geotechnical Research, pp 57-77. Springer Series in Geomechanics and Geoengineering. Springer, Cham
Liu, H., Song, F., Liu, S., Li, X., Liu, F., Zhu, X. (2019):
Arbuscular mycorrhiza improves nitrogen use efficiency in soybean grown under partial root-zone drying irrigation
Archives of Agronomy and Soil Science, 65(2): 269-279. DOI: 10.1080/03650340.2018.1493724
Plouznikoff, K., Asins, M.J., Dupré de Boulois, H., Carbonell, E.A., Declerck, S. (2019):
Genetic analysis of tomato root colonization by arbuscular mycorrhizal fungi;
Annals of Botany XX: 1–14. DOI: 10.1093/aob/mcy240
Schröder, R., Mohri, M., Kiehl, K., (2019):
AMF inoculation of green roof substrate improves plant performance but reduces drought resistance of native dry grassland species.
Ecological Engineering 139, 105583
Thakur, M. P., Quast, V., M. van Dam, N., Eisenhauer, N., Roscher, C., Biere, A., Martinez-Medina, A. (2019):
Interactions between functionally diverse fungal mutualists inconsistently affect plant performance and competition.
Oikos. Accepted Author Manuscript. DOI: 10.1111/oik.06138
von Sivers, L., Jaspar, H., Johst, B., Roese, M., Bitterlich, M., Franken, P., Kühn, C. (2019):
Brassinosteroids Affect the Symbiosis Between the AM Fungus Rhizoglomus irregularis and Solanaceous Host Plants.
Front. Plant Sci. 10:571. DOI: 10.3389/fpls.2019.00571
Wang, J.Y., Haider, I., Jamil, M., Fiorilli, V., Saito, Y., Mi, J.,  Baz, L., Kountche, B.A., Jia, K-P., Guo, X., Balakrishna, A., Ntui, V.O., Reinke, B., Volpe, V., Gojobori, T., Blilou, I., Lanfranco, L., Bonfante, P., Al-Babili, S. (2019):
The apocarotenoid metabolite zaxinone regulates growth and strigolactone biosynthesis in rice.
Nature Communication 10: 810.
Yakti, W., Andrade-Linares, D.R., Ngwene, B., Bitterlich, M., Kovács, G.M., Franken, P. (2019):
Phosphate nutrition in root-fungus interactions.
In “Endophytes for a growing world” eds. Trevor R. Hodkinson, Fiona M. Doohan, Brian R. Murphy, Matthew J. Saunders; Cambridge University Press: 120-130.
Yildiz, A,. Graf, F., Rickli, C., Springman, S.M. (2019):
Assessment of plant-induced suction and its effects on the shear strength of rooted soils.
Proceedings of the Institution of Civil Engineers – Geotechnical Engineering, DOI: 10.1680/jgeen.18.00209


Bedini A., Mercy L., Schneider C., Franken P., Lucic-Mercy E., 2018:
Unravelling the initial plant hormone signalling, metabolic mechanisms and plant defense triggering the endomycorrhizal symbiosis behavior.
Front. Plant Sci., DOI: 10.3389/fpls.2018.01800
Chen M., Arato M., Borghi L., Nouri E., Reinhardt D., 2018:
Beneficial services of arbuscular mycorrhizal fungi – From ecology to application.
Front. Plant Sci., DOI: 10.3389/fpls.2018.01270
Bitterlich, M., Franken, P., Graefe, J. (2018):
Arbuscular Mycorrhiza Improves Substrate Hydraulic Conductivity in the Plant Available Moisture Range Under Root Growth Exclusion.
Front. Plant Sci. 9: 301. DOI: 10.3389/fpls.2018.00301
Drechsler, N., Courty, PE., Brulé, D., Kunze, R. (2018):
Identification of arbuscular mycorrhiza-inducible Nitrate Transporter 1/Peptide Transporter Family (NPF) genes in rice.
Mycorrhiza, 28 (1) : 93-100. DOI: 10.1007/s00572-017-0802-z
Friede, M., Unger, S., Heuer, L., Stammes, R., Beyschlag, W. (2018):
Nitrogen limitation impairs plant control over the arbuscular mycorrhizal symbiosis in response to phosphorus and shading in two European sand dune species.
Plant Ecol, 219 (1): 17-29. DOI: 10.1007/s11258-017-0774-2
Lehnert, H., Serfling, A., Friedt, W., Ordon, F. (2018):
Genome-Wide Association Studies Reveal Genomic Regions Associated With the Response of Wheat (Triticum aestivum L.) to Mycorrhizae Under Drought Stress Conditions.
Front Plant Sci. 9: 1728. DOI: 10.3389/fpls.2018.01728
Mollavali, M., Perner, H., Rohn, S., Riehle, P., Hanschen, F.S., Schwartz, D. (2018):
Nitrogen form and mycorrhizal inoculation amount and timing affect flavonol biosynthesis in onion (Allium cepa L.).
Mycorrhiza, 28 (1): 59-70. DOI: 10.1007/s00572-017-0799-3
Neu, S., Müller, I, Herzig, R., Dudel, E.G. (2018):
Trace elements bioavailability to winter wheat (Triticum aestivum L.) grown subsequent to high biomass plants in a greenhouse study.
International Journal of Phytoremediation, 20(6): 574-580. DOI: 10.1080/15226514.2017.1405377
Pollastri, S., Savvides, A., Pesando, M., Lumini, E., Volpe, M.G., Ozudogru, E. A., Faccio, A., De Cunzo, F., Michelozzi, M., Lambardi, M., Fotopoulos, V., Loreto, F., Centritto, M., Balestrini, R. (2018):
Impact of two arbuscular mycorrhizal fungi on Arundo donax L. response to salt stress.
Planta 247: 573. DOI: 10.1007/s00425-017-2808-3
Sabra, M., Aboulnasr, A., Franken, P., Perreca, E., Wright, L.P., Camehl, I. (2018):
Beneficial Root Endophytic Fungi Increase Growth and Quality Parameters of Sweet Basil in Heavy Metal Contaminated Soil.
Front Plant Sci., 9: 1726. DOI: 10.3389/fpls.2018.01726
Tomczak, V.V., Müller, C. (2018):
Plant species, mycorrhiza, and aphid age influence the performance and behaviour of a generalist.
Ecol Entomol, 43: 37-46. DOI: 10.1111/een.12461
Wang, M., Schäfer, M., Li, D., Halitschke, R., Dong, C., McGale, E., Paetz, C., Song, Y., Li, S., Dong, J., Heiling, S., Groten, K., Franken, P., Bitterlich, M., Harrison, M.J., Paszkowski, U., Baldwin, I.T. (2018):
Blumenols as shoot markers of root symbiosis with arbuscular mycorrhizal fungi.
eLife 2018;7:e37093. DOI: 10.7554/eLife.37093
Zhu, X., Song, F., Liu, S., Liu, F., Li, X. (2018):
Arbuscular mycorrhiza enhances nutrient accumulation in wheat exposed to elevated CO2 and soil salinity.
J. Plant Nutr. Soil Sci., 181: 836-846. DOI: 10.1002/jpln.201700575
Zhu, Z., Cao, Q., Sun, L., Yang, X., Yang, W., Zhang, H. (2018):
Stomatal Conductance and Morphology of Arbuscular Mycorrhizal Wheat Plants Response to Elevated CO2 and NaCl Stress.
Front Plant Sci. 9: 1363.  DOI: 10.3389/fpls.2018.01363


Schneider C., Heermann H-J., 2017:
Know-how-Transfer: Mykorrhiza als Biostimulantien für die Landwirtschaft.

In: kartoffelTRENDS Ausgabe 2017, S. 37 – 39,
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Businge E, Trifonova A, Schneider C, Rödel P, Egertsdotter U, 2016:
Evaluation of a new temporary immersion bioreactor system for micropropagation of cultivars of Eucalyptus, Birch and Fir.
Forests 2017, 8(6), 196; DOI: 10.3390/f8060196,
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Quambusch M, Gruß S, Pscherer T, Winkelmann T, Bartsch M, 2017:
Improved in vitro rooting of Prunus avium microshoots using a dark treatment and an auxin pulse.

Scientia Horticulturae. Vol 220. 16 June 2017. pp. 52-56. ISSN 0304-4238. DOI: 10.1016/j.scienta.2017.03.020
Mercy L., Lucic-Mercy E., Nogales A., Poghosyan A., Schneider C., Arnholdt-Schmitt B., 2017:
A functional approach towards understanding the role of the mitochondrial respiratory chain in an endomycorrhizal symbiosis.
Front. Plant Sci. DOI: 10.3389/fpls.2017.00417
Boldt-Burisch, K., Naeth, M.A. (2017):
Mycorrhization affects root distribution of Lotus corniculatus and Calamagrostis epigeios in a nutrient poor heterogeneous soil in a rhizotron experiment.

Rhizosphere, 4: 36-47. DOI: 10.1016/j.rhisph.2017.06.003
Imperiali, N., Chiriboga, X., Schlaeppi, K., Fesselet, M., Villacrés, D., Jaffuel, G., … & Maurhofer, M. (2017):
Combined field inoculations of Pseudomonas bacteria, arbuscular mycorrhizal fungi and entomopathogenic nematodes and their effects on wheat performance.
Frontiers in Plant Science, 8, 1809. DOI: 10.3389/fpls.2017.01809
Lehnert, H., Serfling, A., Enders, M., Friedt, W., Ordon, F. (2017):
Genetics of mycorrhizal symbiosis in winter wheat (Triticum aestivum).

New Phytol, 215: 779-791. DOI: 10.1111/nph.14595
Müller, A., Ngwene, B., Peiter, E., George, E. (2017):
Quantity and distribution of arbuscular mycorrhizal fungal storage organs within dead roots.
Mycorrhiza, 27 (3): 201-210. DOI: 10.1007/s00572-016-0741-0
Neu, S., Schaller, J., Dudel, E.G. (2017):
Silicon availability modifies nutrient use efficiency and content, C:N:P stoichiometry, and productivity of winter wheat (Triticum aestivum L.).

Scientific Reports 7, Article number: 40829. DOI: 10.1038/srep40829
Seck-Mbengue, M.F., Müller, A., Ngwene, B., Neumann, E., George, E. (2017):
Transport of nitrogen and zinc to rhodes grass by arbuscular mycorrhiza and roots as affected by different nitrogen sources (NH4 +-N and NO3-N).
Symbiosis, 73 (3): 191-200. DOI: 10.1007/s13199-017-0480-9
Tomczak, V.V., Müller, C. (2017):
Influence of arbuscular mycorrhizal stage and plant age on the performance of a generalist aphid.

Journal of Insect Physiology, 98: 258-266. DOI: 10.1016/j.jinsphys.2017.01.016
Unger, S., Friede, M., Volkmar, K., Hundacker, J., Beyschlag, W. (2017):
Relationship between mycorrhizal responsiveness and root traits in European sand dune species.
Rhizosphere, 3 (1) : 160-169. DOI: 10.1016/j.rhisph.2017.04.008


Ispas A., Popescu C., Roșu G., Rădulescu HC., Fischer H., Roedel P., Dinu M., Radvan R., 2016:
Conservation and Valorization of Heritage Ethnographic Textiles.
In Euro-Mediterranean Conference (pp. 151-159). Springer International Publishing.
Tania Nobre, Maria Doroteia Campos, Eva Lucic-Mercy, Birgit Arnholdt-Schmitt (2016):
Misannotation Awareness: a Tale of Two Gene-Groups.
Frontiers in Plant Science, section Plant Genetics and Genomics, 2016 Jun 16;7:868. doi: 10.3389/fpls.2016.00868. eCollection 2016
Bast, A., W. Wilcke, F. Graf, P. Lüscher, Gärtner, H. (2016):
Does mycorrhizal inoculation improve plant survival, aggregate stability, and fine root development on a coarse‐grained soil in an alpine eco‐engineering field experiment?
J. Geophys. Res. Biogeosci., 121: 2158–2171. DOI: 10.1002/2016JG003422
Calvo-Polanco, M., Sánchez-Romera, B., Aroca, R., Asins, M-J., Declerck, S., Dodd, I.C., Martínez-Andújar, C., Albacete, A., Ruiz-Lozano, J.M. (2016):
Exploring the use of recombinant inbred lines in combination with beneficial microbial inoculants (AM fungus and PGPR) to improve drought stress tolerance in tomato.
Environmental and Experimental Botany, 131: 47-57. DOI: 10.1016/j.envexpbot.2016.06.015
Cosme, M., Ramireddy, E., Franken, P., Schmülling, T., Wurst, S. (2016):
Shoot- and root-borne cytokinin influences arbuscular mycorrhizal symbiosis.
Mycorrhiza, 26 (7): 709-720. DOI: 10.1007/s00572-016-0706-3
Dzomeku, B.M., Darkey, S.K., Bam, R.K., Sarkodie Addo J., Wunsche, J. (2016):
Exploratory assessment of potential mycorrhization of two landraces of plantain.
Journal of Basic and Applied Research International, 18(3): 146-151.
Engel, R., Szabó, K., Abrankó, L., Rendes, K., Füzy, A., Takács, T. (2016):
Effect of Arbuscular Mycorrhizal Fungi on the Growth and Polyphenol Profile of Marjoram, Lemon Balm, and Marigold.
J. Agric. Food Chem., 64 (19): 3733–3742. DOI: 10.1021/acs.jafc.6b00408
Friede, M., Unger, S., Hellmann, C., Beyschlag, W. (2016):
Conditions Promoting Mycorrhizal Parasitism Are of Minor Importance for Competitive Interactions in Two Differentially Mycotrophic Species.
Front. Plant Sci. 7:1465. DOI: 10.3389/fpls.2016.01465
Guo, X., Petermann, J.S., Schittko, C., Wurst, S. (2016):
Root-knot nematodes (Meloidogyne hapla) can modify the positive plant intraspecific diversity-productivity effect on red clover in clover-grass communities.
Applied Soil Ecology, 102: 26-35. DOI: 10.1016/j.apsoil.2016.02.007
Pereira, S.I.A., Moreira, H., Argyras, K., Castro, P.M.L., Marques, A.P.G.C. (2016):
Promotion of sunflower growth under saline water irrigation by the inoculation of beneficial microorganisms.
Applied Soil Ecology, 105 : 36-47. DOI: 10.1016/j.apsoil.2016.03.015
Tomczak, V.V., Schweiger, R., Müller, C. (2016):
Effects of Arbuscular Mycorrhiza on Plant Chemistry and the Development and Behavior of a Generalist Herbivore.
J Chem Ecol, 42 (12): 1247-1258. DOI: 10.1007/s10886-016-0785-9
Zhu, X., Song, F., Liu, S., Liu, F. (2016):
Role of Arbuscular Mycorrhiza in Alleviating Salinity Stress in Wheat (Triticum aestivum L.) Grown Under Ambient and Elevated CO2.
J Agro Crop Sci, 202: 486-496. DOI: 10.1111/jac.12175


Arnholdt-Schmitt B, Valadas V, Döring M, 2015:
Functional marker development is challenged by the ubiquity of endophytes – a practical perspective.
Briefings in Functional Genomics, 2014, 1-6, DOI: 10.1093/bfgp/elu049
Campos C, Cardoso H, Nogales A, Svensson J, Lopez-Ráez JA, Pozo MJ, Nobre T, Schneider C, Arnoldt-Schmitt B, 2015:
Intra and Inter-Spore Variability in Rhizophagus irregularis AOX Gene
PLOS ONE, DOI: 10.1371/journal.pone.0142339
Fischer H, Wiese H, Radulescu C, Rödel P, 2015:
Development of Advanced Compatible Materials for the Restoration of Cultural Heritage Assets (Mythos): Artificial Ageing Of Bast Fibres
Vlákna a Textil 03/2015, 22(1):13-16, Special issue 20th International Conference STRUTEX, 01-02 December 2014, Liberec, Czech Republic
Hardoim PR, van Overbeek LS, Berg G, Pirttilä AM, Compant S, Campisano A, Döring M, Sessitsch A, 2015:
The hidden world within plants: ecological and evolutionary considerations for defining functioning of microbial endophytes.
Microbiology and Molecular Biology Reviews, 79(3), 293-320.
Mercy L, Svensson JT, Lucic E, Cardoso HG, Nogales A, Döring M, Jurgeleit J, Schneider C, Arnholdt-Schmitt B. 2015:
AOX gene diversity in arbuscular mycorrhizal fungi (AMF) products – a special challenge.
Subchapter in Arnholdt-Schmitt B. „From AOX diversity to functional marker development”. Gupta KJ, Mur LAJ, Neelwarne B, eds. Alternative respiratory pathways in higher plants. John Wiley & Sons, Inc. Oxford, 2015 . ISBN: 978-1-118-79046-5.
Nogales A, Nobre T, Valadas V, Ragonezi C, Döring M, Polidoros A, Arnholdt-Schmitt B, 2015:
Can functional hologenomics aid tackling current challenges in plant breeding?
Briefings in functional genomics, doi: 10.1093/bfgp/elv030
Rödel P, Radulescu C, Fischer H, 2015:
Development of Advanced Compatible Materials for the Restoration of Cultural Heritage Assets (MYTHOS): Fibre DNA Analysis.
International Conference Proceedings TexTeh 7th, Bucharest, Romania, 22-23
October, 7 (2015):229-235. Certex Publishing House, Bucharest, RO
Rouphael Y, Franken P, Schneider C, Schwarz D, Giovannetti M, Agnolucci M, De Pascale S, Bonini P, Colla G, 2015:
Arbuscular mycorrhizal fungi act as biostimulants in horticultural crops
Scientia Horticulturae, Vol 196, 91–108,DOI: 10.1016/j.scienta.2015.09.002
Bast, A., Wilcke, W., Graf, F., Lüscher, P., Gärtner, H. (2015):
A simplified and rapid technique to determine an aggregate stability coefficient in coarse grained soils.
CATENA, 127: 170-176. DOI: 10.1016/j.catena.2014.11.017
Degola, F., Fattorini, L.,  Bona, L.,  Triscari Sprimuto, C., Argese, E., Berta, G., Sanità di Toppi, L. (2015):
The symbiosis between Nicotiana tabacum and the endomycorrhizal fungus Funneliformis mosseae increases the plant glutathione level and decreases leaf cadmium and root arsenic contents.
Plant Physiology and Biochemistry, 92: 11-18. DOI: 10.1016/j.plaphy.2015.04.001
Engel, R., Szabó, K., Abrankó, L., Sárosi, S., Füzy, A., Takács, T. (2015):
Effect of fertilization and arbuscular mycorrhizal fungi on active substances of marjoram.
Planta Med 81; 144. DOI: 10.1055/s-0035-1565768
Guo, X., Petermann, J.S., Schittko, C., Wurst, S. (2015):
Independent role of belowground organisms and plant cultivar diversity in legume-grass communities.
Applied Soil Ecology 95: 1-8. DOI: 10.1016/j.apsoil.2015.05.010
Höpfner, I., Friede M., Unger, S., Beyschlag, W. (2015):
Potential advantages of highly mycotrophic foraging for the establishment of early successional pioneer plants on sand.
Functional Plant Biology, 42(1): 95-104. DOI: 10.1071/FP14097
Lingua, G., Copetta, A., Musso, D., Aimo, S., Ranzenigo, A., Buico, A., Gianotti, V., Osella, D., Berta, G. (2015):
Effect of arbuscular mycorrhizal and bacterial inocula on nitrate concentration in mesocosms simulating a wastewater treatment system relying on phytodepuration.
Environ Sci Pollut Res, 22 (23): 18616-18625. DOI: 10.1007/s11356-015-5502-7
Peixe, A., Alpendre, P., Barroso, J., Carlos, R., Soto, M.G. (2015):
New strategies for in vitro rooting and plantlet acclimatization of the “paradox” (Juglans regia x Juglans hindsii) rootstock.
Acta Hortic. 1083, 287-293. DOI: 10.17660/ActaHortic.2015.1083.36
Schelfhout, S., De Schrijver, A., De Bolle, S., De Gelder, L., Demey, A., Du Pré, T., De Neve, S., Haesaert, G., Verheyen, K., Mertens, J. (2015):
Phosphorus mining for ecological restoration on former agricultural land.
Restor Ecol, 23: 842-851. DOI: 10.1111/rec.12264
Yildiz, A., Askarinejad, A., Graf, F., Rickli, C., Springman, S. M. (2015):
Effects of roots and mycorrhizal fungi on the stability of slopes.
In M. G. Winter, D. M. Smith, P. J. L. Eldred, & D. G. Toll (Eds.), Geotechnical engineering for infrastructure and development. (pp. 1693-1698). London: ICE Publishing.


Morgenstern, K., Döring, M., Krabel, D., 2014:
Rhabdocline needle cast – most recent findings of the occurrence of Rhabdocline pseudotsugae in Douglas-fir seeds.
Botany. 92(6): 465-469
Bast A., Wilcke W., Graf F., Lüscher P., Gärtner H. (2014):
The use of mycorrhiza for eco‐engineering measures in steep alpine environments: effects on soil aggregate formation and fine‐root development.

Earth Surf. Process. Landforms, 39: 1753–1763, DOI: 10.1002/esp.3557
Bitterlich, M., Krügel, U., Boldt‐Burisch, K., Franken, P., Kühn, C. (2014):
The sucrose transporter SlSUT2 from tomato interacts with brassinosteroid functioning and affects arbuscular mycorrhiza formation.

Plant J, 78: 877-889. DOI: 10.1111/tpj.12515
Cosme, M., Franken, P., Mewis, I., Baldermann, S., Wurst, S. (2014):
Arbuscular mycorrhizal fungi affect glucosinolate and mineral element composition in leaves of Moringa oleifera.

Mycorrhiza, 24 (7): 565-570. DOI: 10.1007/s00572-014-0574-7
Neagoe, A., Stancu, P., Nicoară, A., Onete, M., Bodescu, F., Gheorghe, R., Iordache, V. (2014):
Effects of arbuscular mycorrhizal fungi on Agrostis capillaris grown on amended mine tailing substrate at pot, lysimeter, and field plot scales.

Environ Sci Pollut Res, 21 (11): 6859-6876. DOI: 10.1007/s11356-013-1908-2
Ngosong, C., Gabriel, E., Ruess, L. (2014):
Collembola grazing on arbuscular mycorrhiza fungi modulates nutrient allocation in plants.

Pedobiologia, 57(3): 171-179. DOI: 10.1016/j.pedobi.2014.03.002
Schweiger, R., Baier, M.C., Persicke, M., Müller, C. (2014):
High specificity in plant leaf metabolic responses to arbuscular mycorrhiza.

Nature Communications 5: 3886.
Schweiger, R., Baier, M.C., Müller, C. (2014):
Arbuscular Mycorrhiza-Induced Shifts in Foliar Metabolism and Photosynthesis Mirror the Developmental Stage of the Symbiosis and Are Only Partly Driven by Improved Phosphate Uptake.

MPMI, 27 (12): 1403–1412. DOI: 10.1094/MPMI-05-14-0126-R
Taffouo, V.D., Ngwene, B., Akoa, A., Franken, P. (2014):
Influence of phosphorus application and arbuscular mycorrhizal inoculation on growth, foliar nitrogen mobilization, and phosphorus partitioning in cowpea plants.

Mycorrhiza, 24 (5): 361-368. DOI: 10.1007/s00572-013-0544-5
Thiem D., Szmidt-Jaworska A., Baum C., Muders K., Niedojadlo K., Hrynkiewicz K. (2014):
Interactive physiological response of potato (Solanum tuberosum L.) plants to fungal colonization and Potato virus Y (PVY) infection.

Acta Mycologica, 49(2): 291-303. 291–303. DOI: 10.5586/am.2014.015


Fischer H, Radulescu C, Wartenberg S, 2013:
Development of Advanced Compatible Materials for the Restoration of Cultural Heritage Assets (MYTHOS): First Results.
International Conference Proceedings TexTeh 6th, Bucharest, Romania, 17-18 October, 2013. Certex Publishing House, Bucharest, RO; 10/2013
Morgenstern, K., Döring, M. & Krabel, D., 2013:
Rhabdocline needle cast−investigations on various Douglas fir tissue types.

Eur. J. Plant Pathol. 137(3):495-505.
Almethyeb, M., Ruppel, S., Paulsen, H.-M., Vassilev, N., Eichler-Löbermann, B. (2013):
Single and combined applications of arbuscular mycorrhizal fungi and Enterobacter radicincitans affect nutrient uptake of faba bean and soil biological characteristics
Landbauforschung = vTI Agriculture and Forestry Research, 3 (63): 229-234.
Müller, A., George, E., Gabriel-Neumann, E. (2013):
The symbiotic recapture of nitrogen from dead mycorrhizal and non-mycorrhizal roots of tomato plants.

Plant Soil, 364 (1-2): 341-355. DOI: 10.1007/s11104-012-1372-7
Tong, Y., Gabriel-Neumann, E., Ngwene, B. Krumbein, A., Baldermann, S., Schreiner, M., George, E. (2013):
Effects of single and mixed inoculation with two arbuscular mycorrhizal fungi in two different levels of phosphorus supply on β-carotene concentrations in sweet potato (Ipomoea batatas L.) tubers.
Plant Soil 372 (1-2): 361-374. DOI: 10.1007/s11104-013-1708-y


Jannoura, R., Kleikamp, B., Dyckmans, J., Joergensen, R.G. (2012):
Impact of pea growth and arbuscular mycorrhizal fungi on the decomposition of 15N-labeled maize residues.
Biol Fertil Soils, 48 (5): 547-560. DOI: 10.1007/s00374-011-0647-0
Mammitzsch, L., Teply, A., Wurst, S. (2012):
Effects of earthworms and arbuscular mycorrhizal fungi depend on the successional stage of a grassland plant community.
Plant Ecology 213 (4): 675–683.
Wolter, A., Wolter, S., Schröder, F.-G. (2012):
Screening test – interaction between diverse microorganisms and Hedera helix “Woerner”.
Acta Hortic. 937, 527-532. DOI: 10.17660/ActaHortic.2012.937.64


Döring, M., Schneider, C., 2011:
Inoculation of arbuscular mycorrhizal fungi with micropropagated plants during acclimatization.
Prospects and Applications for Plant-Associated Microbes. A laboratory manual. Part B: Fungi, Hannover, Germany, S. 118-121
Bona, E., Marsano, F., Massa, N., Cattaneo, C., Cesaro, P., Argese, E., Sanità di Toppi, L., Cavaletto, M., Berta, G. (2011):
Proteomic analysis as a tool for investigating arsenic stress in Pteris vittata roots colonized or not by arbuscular mycorrhizal symbiosis.
Journal of Proteomics, 74: 1338-1350.
Burri, K. , Gromke, C., Graf, F. (2011):
Mycorrhizal fungi protect the soil from wind erosion: a wind tunnel study.
Land Degrad. Develop., 24: 385-392. DOI: 10.1002/ldr.1136
Wurst, S., Gebhardt, K., Rillig, M. C. (2011):
Independent effects of arbuscular mycorrhiza and earthworms on plant diversity and newcomer plant establishment.
Journal of Vegetation Science, 22: 1021-1030. DOI: 10.1111/j.1654-1103.2011.01321.x
Wurst, S., Rillig, M.C. (2011):
Additive effects of functionally dissimilar above- and belowground organisms on a grassland plant community.
Journal of Plant Ecology, 4 (4): 221–227. DOI: 10.1093/jpe/rtr012


Kleinwächter, M., Hutter, I., Schneider, C., Schnug, E., Selmar, D., 2010:
Entwicklung von in vitro-Vermehrungsverfahren zur Produktion glucosinolatreicher Kapuzinerkresse (Tropaeolum majus L.) für die landwirtschaftliche Nutzung.
In: Zeitschrift für Arznei- und Gewürzpflanzen 2/2010, S. 69 – 75.
Camen, D., Pasc, M., Beinsan, C., Sumalan, R. (2010):
Research Regarding the Effect of Arbuscular Mycorrhiza upon Principals Physiological Index in Salad – Lactuca sativa L.
Bulletin UASVM Horticulture, 67(1)
Camen, D., Beinşan, C., Şumălan, R., Mironela, P. (2010):
Research on the effect of arbuscular mycorrhizae on some physiological indices of lettuce – Lactuca sativa L.
Journal of Horticulture, Forestry and Biotechnology, 14(3): 128-130.
Khider, A.K., Othman, M. (2010):
Selection of Effective mycorrhizal Inoculums for soybean (Glycine max L.) plants.
Journal of Kerbala University, Iraq: The 1st Scientific Conference the College of Agriculture. DOI: 10.13140/RG.2.1.3678.7042
Schmidt, B., Domonkos, M., Sumalan, R., Biro, B. (2010):
Suppression of arbuscular mycorrhiza‘s development by high concentrations of phosphorous at Tagetes patula L
Research Journal of Agricultural Science, 42 (4)
Wurst, S., Forstreuter, M. (2010).
Colonization of Tanacetum vulgare by aphids is reduced by earthworms.

Entomologia Experimentalis et Applicata, 137: 86-92. DOI: 10.1111/j.1570-7458.2010.01035.x


Feldmann, F., Gillessen, M., Hutter, I., Schneider, C., 2009:
Should we breed for effective mycorrhiza symbioses?
In: Feldmann, F., Alford, D.V., Furk, C., 2009 (eds.): Crop Plant Resistance to Biotic and Abiotic Factors: Current Potential and Future Demands. DPG-Verlag, Braunschweig, ISBN 978-3-941261-05-1, 507-522.
Feldmann, F., Hutter, I., Schneider, C., 2009:
Best Production Practice of Arbuscular Mycorrhizal Inoculum.
In: Varma, A., Kharkwal, A. C. (eds.): Symbiotic Fungi – Principles and Practice, Springer, Berlin, 319-336.
Ardakani, M. R., Pietsch, G., Moghaddam, A., Raza, A., Friedel, J.K. (2009):
Response of Root Properties to Tripartite Symbiosis between Lucerne (Medicago sativa L.), Rhizobia and Mycorrhiza Under Dry Organic Farming Conditions
American Journal of Agricultural and Biological Sciences, 4 (4): 266-277.
Ardakani, M.R., Pietsch, G., Wanek, W., Schweiger, P., Moghaddam, A., Friedel, J.K. (2009):
Nitrogen fixation and yield of lucerne (Medicago sativa L.), as affected by co-inoculation with Sinorhizobium meliloti and arbuscular mycorrhiza under dry organic farming conditions.
American-Eurasian Journal of Agricultural and Environmental Sciences, 6 (2): 173-183.


Feldmann, F., Hallmann, J., Wagner, S., Long X-Q, Yang, R., Schneider, C., Hutter, I., Ceipek, B., Fan, J., Zheng, X., Wang, C., Feng, G., 2008:
Mycorrhizal fungi as biological components of integrated cucumber production (BIOMYC) promising results for mycorrhizal technology transfer to horticultural practice.
In: Mycorrhiza Works, Proceedings of the International Symposium “Mycorrhiza for the Plant Vitality” and the Joint Meeting of Workings Groups 1-4 of COST Action 870, 03-05 October 2007, Hannover, Germany, S. 25-38
Feldmann, F., Schneider, C., 2008:
How to produce arbuscular mycorrhizal inoculum with desired characteristics.
In: Mycorrhiza Works, Proceedings of the International Symposium “Mycorrhiza for the Plant Vitality” and the Joint Meeting of Workings Groups 1-4 of COST Action 870, 03-05 October 2007, Hannover, Germany, S. 305 – 322.
Kleinwächter, M., Hutter, I., Schneider, C., Schnug, E., Selmar, D., 2008:
Experimental field cultivation of in vitro propagated high-yield varietes of Tropaeolum majus L.
In: Journal of Applied Botany and Food Quality 82, 55-59
Hutter, I., Schneider, C., Gillessen, M., Meier-Dinkel, A., 2008:
Effect of mycorrhiza application on vitality of in vitro propagated Prunus avium clones during acclimatization.
In: Mycorrhiza Works, Proceedings of the International Symposium “Mycorrhiza for the Plant Vitality” and the Joint Meeting of Workings Groups 1-4 of COST Action 870, 03-05 October 2007, Hannover, Germany, S. 145 – 156.
Schneider, C., Hutter, I., Feldmann, F., 2008:
Vitalizing symbionts in acclimatization of the medicinal plant Baptisia tinctoria (L.) Vent. – an established plant production factor for ten years.
In: Mycorrhiza Works, Proceedings of the International Symposium “Mycorrhiza for the Plant Vitality” and the Joint Meeting of Workings Groups 1-4 of COST Action 870, 03-05 October 2007, Hannover, Germany, S. 156 – 165.


Schneider, C., Gillessen, M., 2007:
Mykorrhiza in der GaLaBau-Praxis.
bi-GaLaBau 5+6/07, S. 98-100
Schneider, C., Feldmann, F., 2007:
Qualität von Mykorrhizapilzpräparaten.
bi-GaLaBau 1+2/07, S. 42-45


Naujoks, G.; Schneck, V.; Hutter, I.; Grotkass, C. (2005):
Die Mikrovermehrung ausgelesener Elite-Robinienklone – eine große Chance für erfolgreichen Robinienanbau.
Forst und Holz, 11/2005, S. 458-460


Grotkass, C., Hutter, I., Feldmann, F. (2004):
Europäische Standardisierung und nationale Gesetzgebung – Gütesicherung von Mykorrhizapräparaten.
AFZ-Der Wald 24/2004, S. 1324-1326.


Feldmann, F., Hutter, I., Grotkass, C., 2003:
Mycorrhizal fungi as factors of integrated plant protection in urban horticulture: the state of the art.
Second International Symposium on Plant Health in Urban Horticulture. Mitteilungen aus der Biologischen Bundesanstalt für Land- und Forstwirtschaft, Heft 394, S. 205-210, ISBN 3-930037-6


Feldmann, F., Grotkass, C., 2002:
Directed inoculum production – shall we be able to design populations of arbuscular mycorrhizal fungi to achieve predictable symbiotic effectiveness?
In: Mycorrhizal Technology in Agriculture – From Genes to Bioproducts, Birkhäuser Verlag Basel, ISBN 3-7643-6485-8, S. 261-280
von Alten, H., Blal, B., Dodd, J.C., Feldmann, F., Vosatka, M., 2002:
Quality Control of arbuscular mycorrhizal inoculum in Europe.
In: Mycorrhizal Technology in Agriculture – From Genes to Bioproducts, Birkhäuser Verlag Basel, ISBN 3-7643-6485-8, S. 281 ff.


Hutter, I.; Grotkass, C.; Harnischfeger, G.; Lieberei, R.; Feldmann, F. 2001:
Baptisia tinctoria (L.) R. Br.: Von der Wildsammlung zur in vitro vermehrten Kulturpflanze.
Z. Arzn.Gew.Pfl., 6. Jg. , S. 35-41


Backhaus, G.F., Feldmann, F., 2000:
Wirkung von Pflanzenschutzmitteln auf die Arbuskuläre Mykorrhiza II.
Jahresbericht der Biologischen Bundesanstalt 2000, S. 126-127.
Feldmann, F., da Silva Junior, J. P., Lieberei, R. 2000:
AMF spore community composition at natural and agricultural sites in Central Amazonia – a long term study.
Grotkass, C.; Hutter, I. und Feldmann, F. 2000:
Use of arbuscular mycorrhizal fungi to reduce weaning stress of micropropagated Baptisia tinctoria (L.) R. Br.
Acta Horticulturae 530, 305-311.


Backhaus, G.F., Feldmann, F., 1999:
Wirkung von Pflanzenschutzmitteln auf die Arbuskuläre Mykorrhiza I.
Jahresbericht der Biologischen Bundesanstalt, S.123.
Backhaus, G.F., Feldmann, F. (Hrsg.), 1999:
Arbuskuläre Mykorrhiza in der Jungpflanzenproduktion: Praxisbeispiele und Perspektiven.
Mitteilungen der Biologischen Bundesanstalt, 363, 106 S. ISBN 3-8263-3247-4.
Feldmann, F., 1999:
Mykorrhizaeinsatz im Pflanzenbau.
Deutscher Gartenbau, 17, 24-26.
Feldmann, F. , Boyle, C., 1999:
Weed mediated stability of arbuscular mycorrhizal effectiveness in maize monocultures.
Angewandte Botanik, 73 (1/2), 1-5.
Feldmann, F., Hutter, I., Niemann, P., Weritz, J. , Grotkass, C. und Boyle, C., 1999:
Einbindung der Mykorrhizatechnologie in die Heil- und Zierpflanzenproduktion sowie den Endverkauf.
Mitteilungen der Biologischen Bundesanstalt, 363, 6-38.
Feldmann, F., Silva Jr., J.P. und A.V.R. Jayaratne, 1999:
Nutzung der arbuskulären Mykorrhiza in Baumschulen der Tropen am Beispiel des Kautschukbaumes Hevea spp.
Mitteilungen der Biologischen Bundesanstalt, 363, 83-92.
Weissenhorn, I. und Feldmann, F., 1999:
Perspektiven der Nutzung der arbuskulären Mykorrhiza im niederländischen Gartenbau unter Glas.
Mitteilungen der Biologischen Bundesanstalt, 363, 65-73.


Feldmann, F., 1998:
Qualität von Inokulum arbuskulärer Mykorrhizapilze
Deutscher Gartenbau 24, 34-36.
Feldmann, F., 1998:
Symbiontentechnologie in der Praxis: Arbuskuläre Mykorrhiza im Gartenbau.
Thalacker-Medien, Braunschweig, ISBN 3-87815-109-8.