References
- Ban Y, Tang M, Chen H, Xu Z, Zhang H, Yang Y. 2012. The response of dark septate endophytes (DSE) to heavy metals in pure culture. PLoS ONE 7:e47968.
- Barrow JR, Osuna P. 2002. Phosphorus solubilization and uptake by dark septate fungi in fourwing saltbush, Atriplex canescens (Pursh). Nutt J Arid Environ 51:449–459.
- Beauchamp VB, Stromberg JC, Stutz JC. 2005. Interactions between Tamarix ramosissima, Populus fremontii, and mycorrhizal fungi: Effects on seedling growth and plant species coexistence. Plant Soil 275:221–231.
- Berthelot C, Leyval C, Foulon J, Chalot M, Blaudez D. 2016. Plant growth promotion, metabolite production and metal tolerance of dark septate endophytes isolated from metal-polluted poplar phytomanagement sites. FEMS Microbiol Ecol 92:fiw144.
- Bojarczuk K, Karliński L, Hazubska-Przybył T, Kieliszewska-Rokicka B. 2014. Influence of mycorrhizal inoculation on growth of micropropagated Populus × canescens lines in metal-contaminated soils. New For 46:195–215.
- Bonito G, Hameed K, Ventura R, Krishnan J, Schadt CW, Vilgalys R. 2016. Isolating a functionally relevant guild of fungi from the root microbiome of Populus. Fungal Ecol 22:35–42.
- Caldwell BA, Jumpponen A, Trappe JM. 2000. Utilization of major detrital substrates by dark-septate, root endophytes. Mycologia 92:230–232.
- Della Monica IF, Saparrat MCN, Godeas AM, Scervino JM. 2015. The co-existence between DSE and AMF symbionts affects plant P pools through P mineralization and solubilization processes. Fungal Ecol 17:10–17.
- De Maria S, Rivelli AR, Kuffner M, Sessitsch A, Wenzel WW, Gorfer M, Strauss J, Puschenreiter M. 2011. Interactions between accumulation of trace elements and macronutrients in Salix caprea after inoculation with rhizosphere microorganisms. Chemosphere 84:1256–1261.
- Deram A, Languereau F, Haluwyn C Van. 2011. Mycorrhizal and endophytic fungal colonization in Arrhenatherum elatius L. roots according to the soil contamination in heavy metals. Soil Sediment Contam 20:114–127.
- Endlweber K, Scheu S. 2006. Establishing arbuscular mycorrhiza-free soil: A comparison of six methods and their effects on nutrient mobilization. Appl Soil Ecol 34:276–279.
- Evangelou MWH, Deram A. 2014. Phytomanagement: A realistic approach to soil remediating phytotechnologies with new challenges for plant science. Int J Plant Biol Res 1023:2–4.
- Gehring CA, Ji B, Fong S, Whitham T, G H. 2014. Hybridization in Populus alters the species composition and interactions of root-colonizing fungi: consequences for host plant performance. Botany 92:287–293.
- Hashimoto Y, Hyakumachi M. 2001. Effects of isolates of ectomycorrhizal fungi and endophytic mycelium radicis atrovirens that were dominant in soil from disturbed sites on growth of Betula platyphylla var. japonica seedlings. Ecol Res 16:117–125.
- Hung R, Lee S, Bennett JW. 2013. Arabidopsis thaliana as a model system for testing the effect of Trichoderma volatile organic compounds. Fungal Ecol 6:19–26.
- Jumpponen A, Trappe JM. 1998. Dark-septate root endophytes: A review with special reference to facultative biotrophic symbiosis. New Phytol 140:295–310.
- Krpata D, Peintner U, Langer I, Fitz WJ, Schweiger P. 2008. Ectomycorrhizal communities associated with Populus tremula growing on a heavy metal contaminated site. Mycol Res 112:1069–1079.
- Likar M, Regvar M. 2009. Application of temporal temperature gradient gel electrophoresis for characterisation of fungal endophyte communities of Salix caprea L. in a heavy metal polluted soil. Sci Total Environ 407:6179–6187.
- Likar M, Regvar M. 2013. Isolates of dark septate endophytes reduce metal uptake and improve physiology of Salix caprea L. Plant Soil 370:593–604.
- Mandyam K, Jumpponen A. 2005. Seeking the elusive function of the root-colonising dark septate endophytic fungi. Stud Mycol 53:173–189.
- Mayerhofer MS, Kernaghan G, Harper KA. 2013. The effects of fungal root endophytes on plant growth: A meta-analysis. Mycorrhiza 23:119–128.
- Mench M, Lepp N, Bert V, Schwitzguébel JP, Gawronski SW, Schroder P, Vangronsveld J. 2010. Successes and limitations of phytotechnologies at field scale: Outcomes, assessment and outlook from COST Action 859. J Soils Sediments 10:1039–1070.
- Migeon A, Richaud P, Guinet F, Chalot M, Blaudez D. 2009. Metal accumulation by woody species on contaminated sites in the north of france. Water Air Soil Pollut 204:89–101.
- Murashige T, Skoog F. 1962. A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiol Plant 15:473–497.
- Newsham KK. 2011. A meta-analysis of plant responses to dark septate root endophytes. New Phytol 190:783–793.
- Ni Z, Eun-Deok K, Chen ZJ. 2009. Chlorophyll and starch assays. Nat Protoc Exch 200910.
- Phillips JM, Hayman DS. 1970. Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Trans Br Mycol Soc 55:158–161.
- Postma JWM, Olsson PA, Falkengren-Grerup U. 2007. Root colonisation by arbuscular mycorrhizal, fine endophytic and dark septate fungi across a pH gradient in acid beech forests. Soil Biol Biochem 39:400–408.
- Rajkumar M, Sandhya S, Prasad MN V, Freitas H. 2012. Perspectives of plant-associated microbes in heavy metal phytoremediation. Biotechnol Adv 30:1562–1574.
- Regvar M, Likar M, Piltaver A, Kugonič N, Smith JE. 2010. Fungal community structure under goat willows (Salix caprea L.) growing at metal polluted site: the potential of screening in a model phytostabilisation study. Plant Soil 330:345–356.
- Reininger V, Grunig C, Sieber T. 2012. Host species and strain combination determine growth reduction of spruce and birch seedlings colonized by root-associated dark septate endophytes. Environ Microbiol 14:1064–1076.
- Ruotsalainen AL, Markkola A, Kozlov M V. 2007. Root fungal colonisation in Deschampsia flexuosa: Effects of pollution and neighbouring trees. Environ Pollut 147:723–728.
- Sonjak S, Udovič M, Wraber T, Likar M, Regvar M. 2009. Diversity of halophytes and identification of arbuscular mycorrhizal fungi colonising their roots in an abandoned and sustained part of Sečovlje salterns. Soil Biol Biochem 41:1847–1856.
- Trouvelot A, Kough JL, Gianinazzi-Pearson V. 1986. Mesure du taux de mycorhization VA d'un système radiculaire. Recherches et méthodes d'estimation ayant une signification fonctionnelle. In: Gianinazzi S, Gianinazzi-Pearson V, editors. Mycorhizes: physiologie et génétique. Dijon: INRA. p. 217–220.
- Utmazian MNDS, Schweiger P, Sommer P, Gorfer M, Strauss J. 2007. Influence of Cadophora finlandica and other microbial treatments on cadmium and zinc uptake in willows grown on polluted soil. Plant Soil Environ 53:158–166.
- Wang J, Li T, Liu G, Smith JM, Zhao Z. 2016. Unraveling the role of dark septate endophyte (DSE) colonizing maize (Zea mays) under cadmium stress: physiological, cytological and genic aspects. Nat Sci Rep 6:1–12.
- Waqas M, Khan AL, Kamran M, Hamayun M, Kang S-M, Kim Y-H, Lee I-J. 2012. Endophytic fungi produce gibberellins and indoleacetic acid and promotes host-plant growth during stress. Molecules 17:10754–10773.
- Zhan F, He Y, Yang Y, Li Y, Li T. 2016. Effects of tricyclazole on cadmium tolerance and accumulation characteristics of a dark septate endophyte (DSE), Exophiala pisciphila. Bull Environ Contam Toxicol 96:235–241.
- Zhang Y, Zhang Y, Liu M, Shi X, Zhao Z. 2008. Dark septate endophyte (DSE) fungi isolated from metal polluted soils: their taxonomic position, tolerance, and accumulation of heavy metals in vitro. J Microbiol 46:624–32.