Acuña, JJ, Marileo, LG, Araya, MA, Rilling, JI, Larama, GA, Mora, ML, Epstein, S & Jorquera, MA 2020, In situ cultivation approach to increase the culturable bacterial diversity in the rhizobiome of plants, Journal of Soil Science and Plant Nutrition.
Agerer, R 2001, Exploration types of ectomycorrhizae. A proposal to classify ectomycorrhizal mycelial systems according to their patterns of differentiation and putative ecological importance, Mycorrhiza, 11: 107-114.
Aghababaei, F, Reiesy, F & Nadian, H 2011, The effect of mycorrhizal symbiosis on nutrient uptake by some Almond genotypes in a sandy loam soil, Soil Research, 25: 137-147 (In Persian).
Ahangar, MA, Dar, GH & Bhat, ZA 2012, Growth response and nutrient uptake of blue pine (Pinus wallichiana) seedlings inoculated with rhizosphere microorganisms under temperate nursery conditions, Annals of Forest Research, 55: 217-227.
Ahmed, A & Hasnain, S 2010, Auxin-producing Bacillus sp.: auxin quantification and effect on the growth of Solanum tuberosum, Pure and Applied Chemistry, 82: 313-319.
Akhzaria, D, Kalantaria, N & Mahdavib, Sh 2018, Studying the effects of mycorrhiza and vermicompost fertilizers on the growth and physiological traits of Vetiver Grass (Chrysopogon zizanioides L.), Desert, 23: 57-62.
Al- Abbasi, SHA, Al-Majmaei, AAM, Al-Naqib, ATH, Hameed, AM, AL-Samarraie, MQ, Altaef, AH 2021, Isolation and identification of some fungi from rhizospheric soils of some wild plants at Samarra University, Iraq. Caspian Journal of Environmental Sciences, 19: 829-839
Alvarez, M, Huygens, D, Diaz, LM, Villanueva, CA, Heyser, W & Boeckx, P 2011, The spatial distribution of acid phosphatase activity in ectomycorrhizal tissues depends on soil fertility and morphotype, and relates to host plant phosphorus uptake, Plant Cell Environment, 35: 126-35.
Arnon, D1956, Photosynthesis by isolated chloroplast, Biochemistry and Biophysics, 20: 440-461.
Berg, B & Mc Laugherty, C 2008, Plant Litter: decomposition, humus formation, carbon sequestration, Springer, Berlin.
Bertrand, H, Plassard, C, Pinochet, X, Touraine, B, Normand, P & Cleyet-Marel, JC 2000, Stimulation of the conic transport system in Brassica napus by a plant growth promoting rhizobacterium (Achromobacter sp.), Canadian Journal of Microbiology, 46: 229-236.
Bonfante, P & Anca, IA 2009, Plants, mycorrhizal fungi, and bacteria: a network of interactions, Annual Review of Microbiology, 63:363-383.
Bücking, H, Liepold, E & Ambilwade, P 2012, The role of the mycorrhizal symbiosis in nutrient uptake of plants and the regulatory mechanisms underlying these transport processes, Plant Science, J 107-138.
Chu, H, Wang, Ch, Li, Zh, Wang, H, Xiao, Y, Chen, J & Tang, M 2019, The dark septate endophytes and ectomycorrhizal fungi effect on Pinus tabulaeformis carr. Seedling growth and their potential effects to Pine wilt disease resistance, Forests, 10: 140.
Cui, YY, Feng, B, Wu, G, Xu, J & Yang, ZL 2016, Porcini mushrooms (Boletus sect. Boletus) from China, Fungal Diversity, 81: 189-212.
Dentinger, BT & Suz, LM 2014, What’s for dinner? Undescribed species of porcini in a commercial packet, Peer Reviewed.
Deveau, A & Labbé, J 2016, 'Mycorrhiza helper bacteria'. In F, Martin (Ed.), Molecular mycorrhizal, John Wiley and Sons Inc., Hoboken, NJ, USA, pp. 437-450.
Domínguez-Núñez, JA, Berrocal-Lobo, M & Albanesi, AS 2019, 'Ectomycorrhizal fungi: role as biofertilizers in forestry'. In B, Giri, R, Prasad, QSWu & A, Varma (Eds.), Biofertilizers for sustainable agriculture and environment, Soil Biology, Springer, Cham, pp. 55: 67-82.
Duca, D, Lorv J, Patten, L, Rose, D & Glick, BR 2014, Indole-3-acetic acid in plant–microbe interactions, Antonie Van Leeuwenhoek, 106: 85-125.
Duponnois, R & Plenchette, C 2003, A mycorrhiza helper bacterium enhances ectomycorrhizal and endomycorrhizal symbiosis of Australian acacia species, Mycorrhiza, 13: 85-91.
El-Sayed, SA, El-Shennawy, RZ, Ahmed Mohammed, T, Attia, AMF 2022, Induction of systemic resistance against damping-off and root-rot of white lupine (Lupinus albus L.) using some bioagents, chemical inducers and a mycorrhizal fungus. Caspian Journal of Environmental Sciences, 20: 571-583.
Ezawa, T, Hayatsu, M & Saito, M 2005, A new hypothesis on the strategy for acquisition of phosphorus in arbuscular mycorrhiza: up-regulation of secreted acid phosphatase gene in the host plant, Molecular Plant-Microbe Interactions, 18: 1046-1053.
Farahmand, H 2015, Trees and ornamental shrubs (Gymnosperms). Mashhad University Press, Mashhad, Iran, 459 p. (In Persian).
Frey-Klett, P, Garbaye, J & Tarkka, M 2007, The mycorrhiza helper bacteria revisited, New Phytologist, 176: 22-36
Frey-Klett, P, Pierrat, JC & Garbaye 1997, Location and survival of mycorrhiza helper Pseudomonas fluorescens during establishment of ectomycorrhizal symbiosis between Laccaria bicolor and Douglas fir. Applied and Environmental Microbiology, 63: 139-144.
Garbay, J & Duponnois, R 1992, Specifi city and function of mycorrhization helper bacteria (MHB) associated with the Pseudotsuga menziesii-Lacacria laccata symbiosis, Symbiosis, 14: 335-344.
Garcia, K, Delaux, P, Cope, KR & Ane, ́ JM 2015, Molecular signals required for the establishment and maintenance of ectomycorrhizal symbioses, New Phytologist, 208: 79-87
Geric, B, Rupnik, M & Kraigher, H 2000, Isolation and identification of mycorrhization helper bacteria in Norway spruce, Picea abies (L.) Karst, Phyton, 40: 45-70.
Hawkins, HJ, Johansen, A & George, E 2000, Uptake and transport of organic and inorganic nitrogen by arbuscular mycorrhizal Fungi, Plant and Soil, 226: 275-285.
Jackson, ML 1973, Soil chemical analysis. Prentice-Hall of India Private Limited, New Delhi, India.
Jin, H, Pfeffer, PE, Douds, DD, Piotrowski, E, Lammers, PJ & Shachar-Hill, Y 2005, The uptake, metabolism, transport and transfer of nitrogen in an arbuscular mycorrhizal symbiosis, New Phytologist, 168: 687-696.
Kaakinen, S, Jolkkonen, A, Iivonen, S & Vapaavuori 2004, Growth, allocation and tissue chemistry of Picea abies seedlings affected by nutrient supply during the second growing season, Tree Physiology, 24: 707-719.
Kafi, M, Daneshvar Hakimi Meybodi, N, Nikbakht, A, Rejali, F & Daneshkhah, M 2013, The effect of humic acid and mycorrhizal fungi on some characteristics of grass lolium spidery green compound. Greenhouse Cultivation, Science and Technology, 4(13): 49-58 (In Persian).
Katanić, M, Orlović, S, Grebenc, T, Bajc, M, Pekeč, S, Drekić, M & Kraigher, H 2019, Ectomycorrhizae of Norway spruce from its southernmost natural distribution range in Serbia, iForest,12:43-50.
Kayama, M & Yamanaka, T 2016, Growth characteristics of ectomycorrhizal seedlings of Quercus glauca, Quercus salicina, Quercus myrsinaefolia, and Castanopsis cuspidata planted in calcareous soil, Forests, 7:(266): 2-19
Khan, MA, Asaf, S, Khan, AL, Jan, R, Kan, SM, Kim, KM & Lee, IJ 2020, Thermotolerance effect of plant growth-promoting Bacillus cereus SA1 on soybean during heat stress, BMC Microbiology, 20: 175.
Knudsen, D, Peterson, GA & Pratt, PF 1982, 'Lithium, sodium and potassium', in AL Page, RH Miller & DR Keeney (Eds.), Methods of soil analysis, Chemical and microbiological properties Part 2, 2rd Ed., Agronomy no. 9. American Society of Agronomy/ Soil Science Society of America, Inc., Madison, Wisconsin USA, pp. 225-246.
Kottke, I, Guttenberger, M, Hampp, R & Oberwinkler, F 1987, An in vitro method for establishing mycorrhizae on coniferous tree seedlings, Trees, 1:191-194.
Lazarevic, J & Menkis, A 2018, Fungi inhabiting fine roots of Pinus heldreichii in the Montenegrin montane forests, Symbiosis, 74: 189-197
Li, Y, He, N, Hou, J, Xu, L, Liu, C, Zhang, J, Wang, Q, Zhang, X & Wu, X 2018, Factors influencing leaf chlorophyll content in natural forests at the biome Scale, Frontiers in Ecology and Evolution, 6: 64.
Liu, ZD, Li, L, Zhuo, G & Xue, B 2019, Characterizing structure and potential function of bacterial and fungal root microbiota in hulless barley cultivars, Journal of Soil Science and Plant Nutrition, 19: 420-429.
Lü, LH & Wu, QS 2017, Mycorrhizas promote plant growth, root morphology and chlorophyll production in white clover, Biotechnology, 16: 34-39.
Lu, N, Yu, M, Cui, M, Luo, Z, Feng, Y, Cao, S, Sun, Y & Li, Y 2016, Effects of different ectomycorrhizal fungal inoculates on the growth of Pinus tabulaeformis seedlings under greenhouse conditions, Forests, 7(12):316.
Martínez, OA, Encina, C, Tomckowiack, C, Droppelmann, F, Jara, R, Maldonado, C, Muñoz, O, García-Fraile, P & Rivas, R 2018, Serratia strains isolated from the rhizosphere of raulí (Nothofagus alpina) in volcanic soils harbour PGPR mechanisms and promote raulí plantlet growth, Journal of Soil Science and Plant Nutrition, 18: 804-819.
Mediavilla, O, Olaizola, J, Santos-del-Blanco, L, Oria-de-Rueda, JA & Martín-Pinto, P 2016, Mycorrhization between Cistus ladanifer L. and Boletus edulis Bull is enhanced by the mycorrhiza helper bacteria Pseudomonas fluorescens Migula. Mycorrhiza. 26: 161-168.
Menkis, A, Bakys, R, Lygis, V & Vasaitis, R 2011, Mycorrhization, establishment and growth of out planted Picea abies seedlings produced under different cultivation systems. Silva Fennica, 45: 283-289.
Morel, M, Jacob, C, Fitz, M, Wipf, D, Chalot, M & Brun, A 2008, Characterization and regulation of PiDur3, a permease involved in the acquisition of urea by the ectomycorrhizal fungus Paxillus involutus, Fungal Genetics and Biology, 45: 912-921.
Nehls, U, Mikolajewski, S, Magel, E & Hampp, R 2001, Carbohydrate metabolism in ectomycorrhizas: Gene expression, monosaccharide transport and metabolic control, New Phytologist, 150: 533-541.
Nilsson, O, Hjelm, K & Nilsson, U 2019, Early growth of planted Norway spruce and scots Pine after site preparation Sweden, Scandinavian Journal of Forest Research, 34: 678-688.
Olfati, J, Peyvast, Gh & Mami, Y 2009, Identification and chemical properties of popular wild edible mushrooms from northern Iran, Journal of Horticulture and Forestry, 1(3): 48-51.
Olsen, SR & Sommers, LE 1982, 'Phosphorus'. In AL, Page, RH, Miller & DR, Keeney (Eds.), Methods of soil analysis, Chemical and microbiological properties, Part 2, 2rd ed, Agronomy, No. 9, American Society of Agronomy/ Soil Science Society of America, Inc., Madison, Wisconsin USA, pp. 403-430.
Pachlewski, R, Strzelczyk, E & Kermen, J 1996, Studies of Cantharellus cibarius—a mycorrhizal fungus of pine and spruce, Acta Mycologica, 31: 143-150.
Pande, V, Palni, UT & Singh, SP 2004, Species diversity of ectomycorrhizal fungi associated with temperate forest of Western Himalaya: A preliminary Assessment, Current Science, 86:(12): 1619-1623.
Parrent, JL, James, TY, Vasaitis, R & Taylor, AFS 2009, Friend or foe? Evolutionary history of glycoside hydrolase family 32 genes encoding for sucrolytic activity in fungi and its implications for plant-fungal symbioses, BMC Evolutionary Biology, 9: 148.
Pilz, D, Norvell, L, Danell, E & Molina, R 2003, Ecology and management of commercially harvested chanterelle mushrooms. Gen. Tech. Rep PNW-GTR-576 Portland, OR: US Department of Agriculture, Forest Service, Pacific Northwest Research Station.
Rincón, A, de Felipe, MR & Fernández-Pascual, M 2007, Inoculation of Pinus halepensis Mill. with selected ectomycorrhizal fungi improves seedling establishment 2 years after planting in a degraded gypsum soil, Mycorrhiza, 18: 23-32.
Rojas-Solis, D, Vences-Guzmán, MÁ, Sohlenkamp, C & Santoyo, G 2020, Antifungal and plant growth–promoting Bacillus under saline stress modify their membrane composition, Journal of Soil Science and Plant Nutrition.
Saxena, AK, Kumar, M, Chakdar, H, Anuroopa, N & Bagyaraj, DJ 2019, Bacillus species in soil as a natural resource for plant health and nutrition, Journal of Applied Microbiology, 128: 1583-1594.
Schrey, SD, Schellhammer, M, Ecke, M, Hamp, R & Tarkka, MT 2005, Mycorrhiza helper bacterium Streptomyces AcH 505 induces differential gene expression in the ectomycorrhizal fungus Amanita muscaria, New Phytologist, 168: 205-216.
Sheng, JM, Wu, XQ, Hou, LL & Ying, CX 2010, Isolation and identification of a MHB strain from the rhizosphere soil of Pinus thunbergi inoculated with Boletus edulis, Journal of Applied and Environmental Biology, 16: 701-704.
Sitta, N & Davo, P 2012, Edible ectomycorrhizal mushrooms: international markets and regulations. Edible ectomycorrhizal mushrooms, Springer. Berlin. Soil Biology, 34: 355-380.
Smith, SE & Read, DJ 2008, Mycorrhizal symbiosis, 3rd Edition, Academic Press, London
Solaiman, ZM, Abbott, LK & Varma, A 2014, Mycorrhizal fungi: Use in sustainable agriculture and land restoration. Soil Biology Series, Springer, Berlin, Heidelberg, 334 p.
Tedersoo, L & Brundrett, MC 2017, Evolution of ectomycorrhizal symbiosis in plants, Ecological Studies, 230: 407-467.
Tjoelker, MG, Boratynski, A & Bugala, W 2007, Biology and ecology of Norway spruce. Forestry Sciences Series, Springer, Dordrecht, The Netherlands, pp. 170-171.
Turgeman, T, Asher, JB, Roth-Bejerano, N, KaganZur, V, Kapulnik, Y & Sitrit, Y 2011, Mycorrhizal association between the desert truffle Terfezia boudieri and Helianthemum sessiliflorum alters plant physiology and fitness to arid conditions, Mycorrhiza, 21: 623-630.
Turk, MA, Assa, TA, Hameed, KM & Al-Tawaha, AM 2006, Significance of mycorrhizae, World Journal of Agricultural Sciences, 2: 16-20.
Walter, HR & Lanyon, LE 1982, 'Magnesium, calcium, strontium and barium', in AL Page, RH Mille & DR Keeney (Eds.), Methods of soil analysis, Chemical and microbiological properties, Part 2, 2rd ed., Agronomy, No. 9. American Society of Agronomy, Soil Science Society of America, Inc., Madison, Wisconsin, pp. 247-262.
Wagner, K, Krause, K, Gallegos-Monterrosa, R, Sammer, DT, Kovács, A & Kothe, E 2019, The ectomycorrhizospheric habitat of Norway spruce and Tricholoma Vaccinum: promotion of plant growth and fitness by a Rich Microorganismic Community, Frontiers in Microbiology, 10:100-113.
Wu, XQ, Hou, LL, Sheng, JM, Ren, JH, Zheng, L, Chen, D & Ye, JR 2012, Effects of ectomycorrhizal fungus Boletus edulis and mycorrhiza helper Bacillus cereus on the growth and nutrient uptake by Pinus thunbergii, Biology and Fertility of Soils, 48: 385-391.
Yang, ZL, WeiB, M, Kottke, I, Oberwinkler, F, Nehls, U, Guttenberger, M & Hampp, R 1999, 'Amanita'. In JWG Cairney & SM, Chambers (Eds.) ectomycorrhizal fungi: Key Genera in Profile, Springer-Verlag, Berlin Heidelberg, pp. 201-230.
Zamani, SM, Mohamadi Goltapeh, E, Safaey, N & Emam, M 2015, Effect of ectomycorrhizal symbiosis on the growth and physiology of Quercus castaneifolia C. A. Mey. Plantlets, Iranian Journal of Forest and Range Protection Research, 13: 160-170 (In Persian).
Zeng, Q, Xie, J, Li, Y, Gao, T, Xu, C & Wang, Q 2018, Comparative genomic and functional analyses of four sequenced Bacillus cereus genomes reveal conservation of genes relevant to plant-growth-promoting traits Scientific Reports, 8: 1-10.