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   Context-dependency of arbuscular mycorrhizal fungi on plant-insect interactions in an agroecosystem...
Frontiers in Plant Science 4(SEP): Article number 338, 2013
Barber N.A., Kiers E.T., Hazzard R.V., Adler L.S.
 
   Continuous and long-term monoxenic culture of the arbuscular mycorrhizal fungus Gigaspora decipiens in root organ culture...
Fungal Biology, 116 (6): 729-735p. , 2012
Bidondo, L.F., Pergola, M., Silvani, V., Colombo, R., Bompadre, J., Godeas, A.
 
   Contrasting arbuscular mycorrhizal communities colonizing different host plants show a similar response to a soil phosphorus ...
New Phytologist 198 (2):546-556p., 2013
Gosling P, Mead A, Proctor M, Hammond JP, Bending GD.
 
   Contrasting arbuscular mycorrhizal responses of vascular and non-vascular plants to a simulated Palaeozoic CO2 decline...
Nature Communications, 3:835., 2012
Field, K.J., Cameron, D.D., Leake, J.R., Tille, S., Bidartondo, M.I., Beerling, D.J.
 
   Contrasting effects of biochar versus manure on soil microbial communities and enzyme activities in an Aridisol...
Chemosphere. 142: 145-152, 2016
Elzobair K. A., Stromberger M. E., Ippolito J. A., Lentz R. D.
 
   Contrasting effects of low and high nitrogen additions on soil CO2 flux components and ectomycorrhizal fungal sporocarp produ...
Global Change Biology, 2012
Niles J. Hasselquist*, Daniel B. Metcalfe, Peter Högberg
 
   Contrasting impacts of defoliation on root colonization by arbuscular mycorrhizal and dark septate endophytic fungi of Medica...
Mycorrhiza 24(4): 239-245p., 2014
K. Saravesi, A. L. Ruotsalainen, J. F. Cahill
 
   Contrasting Nitrogen Fertilisation Rates Alter Mycorrhizal Contribution to Barley Nutrition in a Field Trial. ...
Frontiers in Plant Science. 10: 1312., 2019
Thirkell T*, Cameron D and Hodge A.
 
   Contrasting preferences of arbuscular mycorrhizal and dark septate fungi colonizing boreal and subarctic Avenella flexuosa...
Mycorrhiza 24(3): 171-177p., 2014
Kauppinen M., Raveala K., Wäli P.R., Ruotsalainen A.L.
 
   Contrasting reponses of the bacterial communities in ectomycorrhizal roots and rhizosphere soils to defoliation or winter har...
Rhizosphere. 8: 8-11., 2018
Izumi H.
 
   Contrasting response of seedlings of two tropical species Clusia minor and Clusia multiflora to mycorrhizal inoculation in tw...
Trees-structure and function. 20(5): 593-600., 2006
Caceres A., Cuenca G.
 
   Contrasting responses of the bacterial communities in ectomycorrhizal roots and rhizosphere soils to defoliation or winter ha...
Rhizosphere. 8: 8-11.2018, 2018
Izumi H.
 
   Contrasting responses to ectomycorrhizal inoculation in seedlings of six tropical African tree species...
Mycorrhiza. 16(1): 11-17p., 2005
Diedhiou,A. G., Gueye,O., Diabate,M., Prin,Y., Duponnois,R., Dreyfus,B., Ba,A.M
 
   Contrasting root associated fungi of three common oak-woodland plant species based on molecular identification: host specific...
Mycorrhiza. 15(5): 365-372p., 2005
Douhan,G.W., Petersen,C., Bledsoe,C.S., Rizzo,D.M
 
   Contrasting soil fungal communities in Mediterranean pine forests subjected to different wildfire frequencies...
Fungal Diversity, 2014
Erika Buscardo, Susana RodrĂ­guez-EcheverrĂ­a, Helena Freitas, Paolo De Angelis, JoĂŁo Santos Pereira, *Ludo A. H. Muller
 
   Contrasting Soil pH Effects on Fungal and Bacterial Growth Suggest Functional Redundancy in Carbon Mineralization...
Applied and Environmental Microbiology. 75(6): 1589-1596p., 2009
Rousk J., Brookes P. C., Baath E.
 
   Contrasting the community structure of arbuscular mycorrhizal fungi from hydrocarbon-contaminated and uncontaminated soils fo...
PLoS ONE 9(7): Article number e102838, 2014
Hassan S E-D, Bell T H, Stefani F O P, Denis D, Hijri M, *St-Arnaud M.
 
   Contrasts among mycorrhizal plant guilds in foliar nitrogen concentration and delta 15N along productivity gradients of a bor...
Ecosystems. 13(1):108-117p., 2010
Kranabetter J M., MacKenzie W H.
 
   Contribution of arbuscular mycorrhiza inoculation on the growth and phosphorus nutrition of jatropha (Jatropha curcas) in deg...
Proceedings of the 19th World Congress of Soil Science. 67-70p., 2010
Venecio U., Ultra Jr.
 
   Contribution of arbuscular mycorrhiza to soil quality and terrestrial ecotoxicology...
Microbiological-methods-for-assessing-soil-quality. 248-256p., 2005
Gianinazzi,S., Plumey Jacquot,-E., Gianinazzi-Pearson,V., Leyval,C
 
   Contribution of arbuscular mycorrhiza to soil quality in contrasting cropping systems...
Agriculture, Ecosystems & Environment 134 (1–2): 36–45, 2009
Kahiluoto H, Ketoja E, Vestberg M
 
   Contribution of arbuscular mycorrhizal and saprobe fungi to the tolerance of Eucalyptus globulus to Pb...
Water air and soil pollution. 166(1-4): 31-47p., 2005
Arriagada, C.A., Herrera, M.A., Ocampo, J.A.
 
   Contribution of arbuscular mycorrhizal fungi and/or bacteria to enhancing plant drought tolerance under natural soil conditio...
Journal of Plant Physiology 174(February): 87–96p., 2015
N. Ortiz, E. Armada, E. Duque, A. Roldán, *R. Azcón
 
   Contribution of arbuscular mycorrhizal fungi in attenuation of heavy metal impact on Calendula officinalis development...
Applied Soil Ecology 101: 57-63, 2016
Hristozkova, M*; Geneva, M; Stancheva, I; Boychinova, M; Djonova, E
 
   Contribution of arbuscular mycorrhizal fungi in attenuation of heavy metal impact on Calendula officinalis development...
Applied Soil Ecology, Volume 101, May 2016, Pages 57-63,, 2016
Hristozkova M., Geneva M., Stancheva I., Boychinova M., Djonova E.
 
   Contribution of arbuscular mycorrhizal fungi to the development of maize (Zea mays L.) grown in three types of coal mine spoi...
Environmental Science and Pollution Research 21(5): 3592-3603p., 2014
Wei Guo, Renxin Zhao, Ruiying Fu, Na Bi, Lixin Wang, Wenjing Zhao, Jiangyuan Guo, Jun Zhang
 
   Contribution of arbuscular mycorrhizal fungus to red kidney and wheat plants tolerance grown in heavy metal-polluted soil...
African journal of biotechnology. 4(4):332-345p., 2005
Rabie, G.H.
 
   Contribution of arbuscular mycorrhizal symbiosis to plant growth under different types of soil stress...
Plant Biology.12(4):563-569p., 2010
Miransari M.
 
   Contribution of arbuscular mycorrhizal symbiosis to the survival of psammophilic plants after sea water flooding...
Plant and Soil, 351 (1-2): 97-105p. , 2012
Camprubi, A., Abril, M., Estaun, V., Calvet, C.
 
   Contribution of Arbuscular Mycorrhizas to Glomalin-Related Soil Protein, Soil Organic Carbon and Aggregate Stability in Citr...
International Journal of Agriculture and Biology, 16: 207‒212p. , 2014
Qiang-Sheng Wu * , Yong-Ming Huang, Yan Li, Nasrullah and Xin-Hua He
 
   Contribution of exudates, arbuscular mycorrhizal fungi and litter depositions to the rhizosphere priming effect induced by gr...
Soil Biology and Biochemistry 80(January): 146–155p., 2015
Tanvir Shahzad, Claire Chenu, Patricia Genet, SĂ©bastien Barot, Nazia Perveen, Christian Mougin, SĂ©bastien Fontaine
 
   Contribution of glomalin to dissolve organic carbon under different land uses and seasonality in dry tropics....
Journal of Environmental Management. 192: 142-149., 2017
Singh A. K.*, Rai A., Pandey V. and Singh N.
 
   Contribution of glomalin to Pb sequestration by arbuscular mycorrhizal fungus in a sand culture system with clover plant...
European Journal of Soil Biology. 74:45-51p. , 2016
Malekzadeh E., Aliasgharzad N., Majidi J., Abdolalizadeh J.,Aghebati-Maleki L.
 
   Contribution of Glomus intraradices inoculation to nutrient acquisition and mitigation of ionic imbalance in NaCl-stressed Tr...
Mycorrhiza, 22 (3):203-217p. , 2012
Evelin, H., Giri, B., Kapoor, R.
 
   Contribution of newly grown extramatrical ectomycorrhizal mycelium and fine roots to soil respiration in a young Norway spruc...
Plant and Soil 378(1-2): 73-82p., 2014
Jonny Neumann, *Egbert Matzner
 
   Contribution of roots and hyphae to phosphorus uptake of mycorrhizal onion (Allium cepa L.)-A mechanistic modeling approach...
Journal of Plant Nutrition and Soil Science - Zeitschrift Fur Pflanzenernahrung und Bodenkunde, 171(5): 810-820, 2008
Deressa, TG; Schenk, MK*.
 
   Contribution of the arbuscular mycorrhizal symbiosis to heavy metal phytoremediation...
Planta. 223(6): 1115-1122p., 2006
Gohre V., Paszkowski U.
 
   Contribution of the arbuscular mycorrhizal symbiosis to the regulation of radial root water transport in maize plants under w...
Environmental and Experimental Botany. 167: 103821., 2019
Quiroga G.*, Erice G., Aroca R., Cahumont F. and Ruiz-Lozano J. M.
 
   Contribution of the Rhizobium inoculation on plant growth and productivity of two cultivars of berseem (Trifolium alexandrinu...
Asian Journal of Plant Sciences. 9(6) 344-350p. , 2010.
Agarwal S., Ahmad Z.
 
   Contributions of arbuscular mycorrhizal fungi to growth, photosynthesis, root morphology and ionic balance of citrus seedling...
Acta Physiologiae Plantarum 32(2): 297-304p., 2010
Wu QiangSheng, Zou YingNing, He XinHua.
 
   Contributions of soil biota to C sequestration varied with aggregate fractions under different tillage systems ...
Soil Biology and Biochemistry, 62: 147-156p., 2013
Shixiu Zhang, Qi Li, Ying LĂĽ, Xiaoping Zhang, Wenju Liang
 
   Control - the Striga conundrum...
Pest Management Science. 65(5): 603-614p., 2009
Hearne S J.
 
   Control of fusarium wilt of cucumber seedlings by inoculation with an arbuscular mycorrhical fungus...
Journal of plant nutrition. 28(11):1961-1974p., 2005
Hao Z.P., Christie P., Qin L., Wang C.X., Li X.L.
 
   Controlled mycorrhiza: a question of positioning...
Arboriculture fruitičre, (676): 34-36 , 2013
Kaluzny-Pinon, L.
 
   Controlling onion white rot by using Egyptian formulated endo-mycorrhiza (Multi-VAM)...
Annals of Agricultural Science Cairo. 49(2): 733-745p., 2004
El Haddad S. A., El Megid M. S. A., Shalaby O.Y.
 
   Controls over mycorrhizal uptake of organic nitrogen ...
Pedobiologia. 53(3): 169-179p. , 2010.
Talbot J M., Treseder K K.
 
   Convergence in mycorrhizal fungal communities due to drought, plant competition, parasitism, and susceptibility to herbivory:...
Frontiers in Microbiology 5(JUN): Article number Article 306, 2014
Gehring C A., Mueller R C., Haskins K E., Rubow T K., Whitham T G.
 
   Conversion of forest into irrigated pasture I. Changes in the chemical and biological properties of the soil...
CATENA. 137: 508-516, 2016
Oliveira S. P., Cândido M. J. D., Weber O. B., Xavier F. A. S., Escobar M. E. O., Oliveira T. S.
 
   Conversion of forest into irrigated pasture I. Changes in the chemical and biological properties of the soil...
CATENA. 137: 508-516, 2016
Oliveira S. P., Cândido M. J. D., Weber O. B., Xavier F. A. S., Escobar M. E. O., Oliveira T. S.
 
   Conversion of grassland to arable decreases microbial diversity and alters community composition...
Applied Soil Ecology 110: 43–52, 2017
French, Katherine E*; Tkacz, Andrzej; Turnbull, Lindsay A
 
 
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