White N.H., 1954, The use of decoy crops in the eradication of certain soilborne plant diseases. Austr. J. Sci., 17, 18-19.

Tomlinson J.A., 1958, Crook root of water cress 2. The control of the disease with zink-frit glass and the mechanism of its action. Ann. appl. Biol., 46, 608-621.

Dierks R., 1960, Ueber Versuche zur chemischen Bekaempfung des Pulverschorfes (Spongospora subterranea(Wallr.)Johnson) der Kartoffel. Pflanzenschutz, 12, 91-97.

Wuerzer B., 1965, Ergaenzende Untersuchungen ueber den Pulverschorf der Kartoffel und dessen Erreger Spongospora subterranea (Wallr.) Lagerh. Verlag E.Ulmer, Stuttgart, 104 S.

McCreary C.W.R., 1967, The effect of sulphur application to the soil in the control of some tuber diseases. Rev. appl. Mycol., 47, 1376d.

Dutt B.L. and D.S.Shrivastava, 1971, Chemical control of scab diseases of potato (Spongospora subterranea). Proc.Indian Nath.Sci.Acad., 37, 341-344.

Forsund, E., 1971, Streptomyces scabies and Spongospora subterranea observed on potatoes grown in different types of soil irrigated at different levels and times. Potato Res., 14, 334-335.

Lapwood D.H., L.W. Welling and J.H. Hawkins, 1973, Irrigation as a practical means to control potato common scab (Streptomyces scabies): Final experiment and conclusions. Plant Pathol., 22, 35-41.

Muenster J. et P. Cornu, 1974, Possibilite de detection de la gale poudreuse dans une culture de plants de pomme de terre avant la destruction des fanes. Revue suisse agric., 6, 77-79.

Wenzl H., 1975, Bekaempfung des Kartoffelschorfes durch Kulturmassnahmen. Z. f. Pfl.kr. und Pfl.sch.82, 410-440.

Cooper J.I., R.A.C.Jones and B.D.Harrison 1976, Field and glasshouse experiments on the control ofpotato mop-top-virus. Ann.appl.Biol., 83, 215-230.

Reichard Th. und H.Wenzl, 1976, Beitraege zu Duengung und Kartoffelschorf. Pflanzensch. Berichte, 45 Heft 4/6, 57-69.

Harrison B.D. 1977, Ecology and control of viruses with soil inhabiting vectors. Ann. Rev. Phytopathol.15, 331-360.

Hughes I.K. 1980, Powdery scab (Spong.subt.) of potatoes in Queensland: occurence,cultivar susceptilitytime of infection,effect of soil pH,chemical control.. Austr.J.Exp.Agric.Anim.Husb., 20, 625-632.

Bhattacharyya S.K. and S. Raj, 1982, Studies on the powdery scab of potatoes III. Chemical and cultural control. J. Ind. Pot. Ass., 9, 111-115.

Mackay J.M. and P.J. Shipton, 1983, Heat treatment of seed tubers for control of potato blackleg (Erwinia carotovora sub.sp. atroseptica) and other diseases. Plant Pathol. 32, 385-393.

Winter W. und F.A.Winiger, 1983, Einfluss verschiedener Fangpflanzen sowie von Kalk und Kalkstickstoff auf die Bodenverseuchung mit S.subterranea,dem Erreger des Pulverschorfes. Mitt. Schw. Landw.(MSL), 31190-206.

Parker A., 1984, Evaluation of chemical dip treatments for the control of powdery scab of potatoes. Ann. Appl. Biol. (Suppl.), 104, 62-63.

de Boer R.F., P.A. Taylor, S.P. Flett and P.R. Merriman, 1985, Effects of soil temperature, moisture and timing of irrigation on powdery scab of potatoes. In: Parker C.A., A.D. Rovira, K.J. Moore and P.T.W.

Wong (ed.),Ecology and management of soilborne plant pathogens: Proceedings of Section 5 of the Fourth International Congress of Plant Pathology, Melbourne, Australia, 17-24 August 1983, p. 197-198.

Bhattacharyya S.K. and S. Raj, 1986, Field screening of different chemicals against powdery scab of potatoes. Pesticides, 20, 23-26.

Taylor P., S.P. Flett, R.F. de Boer and D. Marshall, 1986, Effects of irrigation regimes on powdery scab disease and yield of potatoes. Aust. J. Exp. Agric., 26, 745-750.

Adams M.J., P.J. Read, D.H. Lapwood, G.R. Cayley and G.A. Hide, 1987, The effect of irrigation on powdery scab and other dieases of potatoes. Ann. appl. Biol., 110, 287-294.

Amador R., 1988. Evaluation of fungicides applied to the soil to control Rhizoctoniasolani and Spongospora subterranea in potatoes. Phytopathology 78, 856.

Clifford B.C. and E. Lester (ed.), 1988, Control of plant diseases: Costs and benefits. Blackwell Scientific Publ., 111/135.

Nachmias A. and J.Krikun, 1988, Etiology and control of powdery scab of potato in a semi-arid region of Israel. Phytoparasitica 16 33-38.

Burgess P.J., F.J.Burnett, P.S.Brereton, S.J.Wale and A.H. Sinclair, 1992, An overview of the influence of zinc on the severity of powdery scab in potatoes. Aspects of applied Biology 33, 143-150.

Burnett, F.J., S.J. Wale and G.H. Williams, 1993. The effect of environmental conditions on the efficacy of zinc treatments to control powdery scab. Crop protection in Northern Britain 1993. Proceedings of a conference held at Dundee University, 23-25 March 1993, 353-358.

Harrison J.G., E.A. Rees, H. Barker and R. Lowe, 1993, Detection of spore balls of Spongospora subterranea on potato tubers by enzyme-linked immunosorbent assay. Plant Pathology 42, 181-186.

Harrison J.G., R. Lowe, A. Wallace and N.A.Williams, 1993, Detection of Spongospora subterranea by ELISA using monoclonal antibodies Modern assays for plant pathogenic fungi: identification, detection and quantification. (A. Schots, F.M. Dewey and R. Oliver: Eds.), 23-27.

Wale S.J., P.J. Burgess and F. Burnett, 1993, Bioassay for Spongospora subterranea detection in soil and its potential use in predicting powdery scab in the field. Abstracts of the 6th International Congress of Plant Pathology, Montreal, 1993, p. 281.

Burgess P.J. and S.J. Wale, 1994, Development of an integrated control strategy for powdery scab of potatoes. Brighton Crop Protection Conference - Pests and Diseases - 3D.

Braithwaite M., R.E. Falloon, R.A. Genet, A.R. Wallace, J.D. Fletcher and W.F. Braam 1994, Control of powdery scab of potatoes with chemical seed tuber treatments. New Zealand Journal of Crop and Horticulture Science 22, 121-128.

Dixon G.R., M.A. Craig, P.J. Burgess and J. Thomas, 1994, A new soil-applied fungicide for the control of plasmodial fungi. Brighton Crop Protection ConferencePests and Diseases - 1994. Volume 2, 541-548.

Falloon R.E., A.R.Wallace, M.Braithwaite, R.A.Genet, H.M. Nott, J.D.Fletcher and W.F.Braam, 1994, Controlof powdery scab of potatoes with chemical seed tuber and in-furrow treatments. Crop and Food Research ConfidentialReport No. 44, New Zealand Institute for Crop and Food Research, Christchurch, New Zealand.

Maekaeraeinen E., H.Rita, E.Teperi and J.P.T.Valkonen, 1994, Resistance toSpongospora subterranea in tuber-bearing and non tuber-bearing Solanum spp. Potato Research 37123-127.

Falloon R.E., Viljanen-Rollinson S.L.H., Coles G.D., Poff J.D., 1995. Diseases everity keys for powdery and downy mildews of pea, and powdery scab of potato.

New Zealand Journal of Crop and Horticultural Science 23(1), 31-37.

Wallace A., N.A. Williams, R. Lowe and J.G. Harrison, 1995, Detection of Spongospora subterranea using monoclonal antibodies in ELISA. Plant Pathology 44 (2), 355-365.

Falloon R.E., Wallace A.R., Braithwaite M., Genet R.A., Nott H.M., Fletcher J.D. andBraam W.F. (1996) Assessment of seed tuber, in-furrow, and foliar chemical treatmentsfor control of powdery scab (Spongospora subterranea f sp subterranea) of potato.NEW ZEALAND JOURNAL OF CROP AND HORTICULTURAL SCIENCE 24 (4): 341-353

Merz U., J.A. Walsh and J.G. Harrison, 1996, The potential of serology for the detection of Spongospora subterranea in soil. Proceedings of the 1996 BCPC Symposium, Diagnostics in Crop Production, University of Warwick, 1-3 April 1996, 269-274.

Walsh J.A., U. Merz and J.G. Harrison, 1996. Serological detection of spore balls of Spongospora subterranea and quantification in soil. Plant Pathology 45 (5), 884-895.

Jeger M.J., G.A. Hide, P.H.J.F. Van den Boogert, A.J. Termorshuizen and P. Van Baarlen, 1996. Pathology and control of soil borne fungal pathogens of potato. Potato Research 39, 437-469.

Bulman S.R. and J.W. Marshall, 1998. Detection of Spongospora subterranea in potato tuber lesions using the polymerase chain reaction (PCR). Plant Pathology 47 (6), 759-766.

Bell K, 1998. Detection and quantification of Spongospora subterranea f.sp. subterranea by specific DNA amplification. www.bspp.org.uk/icpp98/abstracts/6/57.html.

Qu X.S., J.A. Kavanagh and D. Egan, 1998. Development of specific and sensitiveprimers for the identification of Spongospora subterranea f.sp. subterranea.Faculty of Agriculture, University College, Dublin, National University of Ireland.Research Report 1996-1997: 206

Bell K.S., J. Roberts, S. Verrall, D.W. Cullen, N.A. Williams, J.G. Harrison, I.K. TothD.E.L. Cooke, J.M. Duncan and J.R. Claxton, 1999. Detection and quantification of Spongospora subterranea f.sp. subterranea in soils and on tubers using specifique PCR primers. European Journal of Plant Pathology 105, 905-915.

Rolot I.L. and H. Seutin, 1999. Soilless production of potato minitubers  using  a  hydroponictechnique. Potato Research 42, 457-469.

Qu X.S., J.A. Kavanagh and D. Egan, 2000. Quantification of the fungal cause ofpotato powdery scab in soil using a competitive polymerase chain reaction assay.Faculty of Agriculture, University College, Dublin, National University of Ireland.Research Report 1998-1999: 74-76

Shimada S. and N.T.I. Mizuno, 2000. Suppression on powdery scab disease of potato by a specialfertilization method. Japanese Journal of Soil Science and Plant Nutrition 71:2, 225-230.

Falloon R.E., R. Harding, T. Wicks, R. Genet, R. Butler and S. Gowers (2001). Biofumigation control for soilborne diseases? Grower 56 (5), 26-27

Falloon R.E., U. Merz, D. Curtin and R.C. Butler, 2001, Boron affects Spongosporasubterranea infection of host roots; laboratory and glasshouse results. I.J. Porteret al. (eds.); Proceedings of the 2nd Australasian Soilborne Diseases Symposium, Lorne,Victoria, Australia, 5-8 March, 101-102.

Down G.J. and J.M. Clarkson, 2002, Development of a PCR-based diagnostic test forSpongospora subterranea f.sp. nasturtii, the causal agent of crook root of watercress(Rorippa nasturtium-aquaticum). Plant Pathology 51, 275-280.

Afek U. and J. Orenstein, 2002. Disinfecting potato tubers using steam tretments.Can J. Plant. Pathol. 24, 36-39.

Schwaerzel R., 2002. Sensibilite des racines et tubercules des varietes depommes de terre a la gale poudreuse et quelques resultats de lutte chimique. Revue Suisse d'Agriculture 34, 261-266.

Tuncer G., 2002, The effect of irrigation and nitrogen on powdery scab and yield of potatoes. Potato Research 45, 153-161.

van de Graaf P., A.K. Lees, D.W. Cullen and J.M. Duncan, 2003. Detection and quantificationof Spongospora subterranea in soil, water and plant tissue samples using real-time PCR.European Journal of Plant Pathology 109, 589-597.

Anderson J.A.D., S.L. Lewthwaite, R.A. Genet and W.F. Braam, 2004, 'Moonlight': a newdual-purpose main crop potato (Solanum tuberosum) cultivar. New Zealand J. of Crop andHorticultural Science 32, 153-156.

Nielsen S.L. and J. Larsen, 2004. Two Trichoderma harzinum-based bio-control agents reducetomato root infection with Spongospora subterranea (Wallr.) Lagerh., f.sp. subterranea, thevector of Potato mop-top virus. Zeitschrift f?Pflanzenkrankheiten und Pflanzenschutz 111, 145-150.

Ward L.I., P.A. Beales, A.V. Barnes and C.R. Lane, 2004, A real-time PCR assay based methodfor routine diagnosis of Spongospora subterranea on potato tubers. Journal of Phytopathology 152,633-638.

Zink R.T., Davidson R.D. and Houser A., 2004. Control strategies for powderyscab of potato. AmericanJournal of Potato Research 81, 95-96.

Merz U., J.A. Walsh, K. Bouchek-Mechiche, Th. Oberhaensli and W. Bitterlin, 2005. Improved immunologicaldetection of Spongospora subterranea. European Journal of Plant Pathology 111, 371-379.

de Haan E.G. and G.W. van den Bovenkamp, 2005. Improved diagnosis of powderyscab (Spongospora subterranea f.sp. subterranea) symptoms on potato tubers(Solanum tuberosum L.). Potato Research 48 (1/2), 1-14.

Thomson J.R., R.J. Howard and D.R. Waterer, 2006. Evaluation of chemicaltreatments for the control of common scab and powdery scab of potato. In:Abstracts of the Annual Meeting of theCanadian Phytopathological Society,Quebec, July 29-August 2, Canadian Journalof Pathology 28, 365.

Larkin R.P. and T.S. Griffin, 2007, Control of soilborne potato diseases using Brassica green manures. Crop Protection 26, 1067-1077.

Nakayama T., M. Horita and T. Shimanuki, 2007, Spongospora subterranea soil contamination andits relationship to serverity of powdery scab on potatoes. J. Gen. Plant Pathol. 73, 229-234.

Lees A.K., P. van de Graaf and S. Wale, 2008. The identification and detection of Spongospora subterranea and factors affecting infection and disease. American Journal of Potato Research 85 (4),247-252.

Falloon R.E., 2008. Control of powdery scab of potato: Towards integrated disease management. American Journal of Potato Research 85 (4), 253- 260.

Oberhaensli T., D. Altenbach, P. Munch, K. Maier and W. Bitterlin, 2008. Rapid assay for theon-site detection of potato pathogens. Phytopathology 98, 115.

Ophel-Keller K., A. McKay, D. Hartley, Herdina and J. Curran, 2008. Development of a routineDNA-based testing service for soilborne diseases in Australia. Australasian Plant Pathology 37 (3), 243-253

Merz U. and R.E. Falloon, 2009. Review: Powdery scab of potato - Increased knowledge of pathogen biology anddisease epidemiology for effective disease management. Potato Research 52 (1), 17-37.

Brierley J.L., J.A. Stewart and A.K. Lees, 2009. Quantifying potato pathogen DNA in soil. Applied Soil Ecology 41 (2), 234-238.

Davidson R.D and A.Houser, 2009. Evaluation of fluazinam applikation methodsin-furrow for control of powdery scab on potato. Abstracts of the 92nd AnnualMeeting of PAA, Buffalo NY, American Journal of Potato Research 86, 140.

Nitzan N, R. Boyston, D. Batchelor, J. Crosslin, L. Hamlin and C. Brown, 2009. Hairy nightshade is an alternative host of Spongospora subterranea, the potato powdery scab pathogen. American Journal of Potato Research, 86 (4),297-303.

Bittara F., D. Rodriguez, M. Sanabria, J. Monroy and J.L. Rodriguez, 2009. Fungicides and plantproducts evaluation for control of powdery scabh of potato. Interciencia 34 (4), 265-269.

Bouchek-Mechiche K., F. Montfort and U. Merz (2011). Evaluation of the Sss AgriStrip rapid diagnostic test for the detection of Spongospora subterranea on potato tubers. European Journal of Plant Pathology 131 (2), 277-287. DOI: 10.1007/s10658-011-9807-1.

Qu X.S., L.A. Wanner and B.J. Christ, 2011. Multiplex real-time PCR (TaqMan) assay for the simultaneousdetection and discrimination of potato powdery and common scab diseases and pathogens. Journal of Applied Microbiology 110 (3), 769-777

Shimizu M. 2012. Thermal death time of potato powdery scab pathogen, Spongospora subterranea . Ann. Rept. Plant Prot. North Japan 63, 42-45

Wright J., AK. Lees, JE. van der Waals, 2012. Detection and erradication of Spongosporasubterranea in mini-tuber production tunnels. South African Journal of Science 108 (5-6), 85-88

Tegg R.S., T. Thangavel, H. Aminian and C.R. Wilson, 2013. Somaclonal selection in potato for resistance to common scab provides concurrent resistance to powdery scab. Plant Pathology 62, 922-931

Arcila I.M., C.M. Zuluaga, M.A. Marin et al., 2013. Comparación de dos métodos de detección de Spongospora subterranea f. sp. subterranea en raíces de plantas hospederas. Faculdad de Sciencias Basicas 9 (2), 214 - 227 https://www.researchgate.net/publication/303965660

Tegg, R.S.;Corkrey, R.; Wilson, C.R., 2014. A comparison of potato seed-tubersampling strategies using visual and DNA analyses to estimate incidence of major seed tuber-bornepathogens. European Journal of Plant Pathology 139 (2), 353-361.

Shah, F.A., Falloon, R.E., Butler, R.C., et al., 2014. Agronomic factors affect powdery scab of potato andamounts of Spongospora subterranea DNA in soil. AustralasianPlant Pathology 43 ( 6), 679-689.

Sparrow, L.A., Rettke, M. and Corkrey, S.R.,2015. Eight years of annual monitoring of DNA of soil-borne potatopathogens in farm soils in south eastern Australia. Australasian Plant Pathology 44 ( 2), 191-203.

Thangavel, T, Tegg, R.S. and Wilson, C.R., 2015. Monitoring Spongospora subterranea Development in PotatoRoots Reveals Distinct Infection Patterns and Enables Efficient Assessment of Disease Control Methods. PLOS ONE  10 ( 9),Article Number: e0137647

Tegg R.S., ThangavelT., Balendres M.A. et al., 2016. Grading Seed Potato Lots to Remove Tubers withPowdery Scab Damage may not Eliminate the Pathogen Threat. American Journal of Potato Research 93 (3)231-238.

Wright P.J., R.E. Falloon and D. Hedderley, 2017. A long-term vegetable crop rotation study to determineeffects on soil microbial communities and soilborne diseases of potato and onion. New Zealand Journal of Cropand Horticultural Science 45 (1), 29-54.

Bittara F.G., G.A. Secor and M.C. Gudmestad, 2017. Chloropicrin Soil Fumigation Reduces Spongospora subterraneaSoil Inoculum Levels but Does Not Control Powdery Scab Disease on Roots and Tubers of Potato. American Journal of Potato Research 94 (2), 129-147.

O'Brien P.A. and Milroy S.P., 2017. Towards biological control of Spongospora subterranea f. sp subterranea, the causal agentof powdery scab in potato. Australasian Plant Pathology 46 (1), 1-10.

Simango K. and van der Waals J.E., 2017. Effects of different soil treatments on the development of Spongospora subterranea f. sp. subterranea in potato roots and tubers in the greenhouse. Potato rEASEARCH 60 (1)47-60.

Nakayama T., 2017. Biocontrol of powdery scab of potato by seed tuber application of an antagonistic fungus,Aspergillus versicolor, isolated from potato roots. Journal of General Plant Pathology 83, 253-263.

Mesa P., C. Garcia and A.M. Cotes, 2017. En búsqueda de una alternativa de manejo del camanduleo de la papa ocasionada por Spongospora subterranea. Revista Colombiana de Ciencias Horticolas, 11 (2), 378-386, DOI: 10.17584/rcch.2017v11i2.6150

Balendres, M.A., Clark T.J., Tegg R.S. and Wilson C.R., 2018. Germinate  to  Exterminate:  Chemical  stimulation  ofSpongospora  subterranea  resting  spore  germination  and its potential to diminish soil inoculum. Plant Pathology 67 (4),902-908.

DeShields J.B., R.A. Bomberger, J. W. Woodhall, D.L. Wheeler, N. Moroz, D.A. Johnson and K. Tanaka, 2018.On-Site Molecular Detection of Soil-Borne Phytopathogens Using a Portable Real-Time PCR System. JOVE- Journal of Visualized Experiments 132, Art. e56891.

Clark T.J., L.A. Rockliff, R.S. Tegg, M.A. Balendres et al., 2018. Susceptibility of opium poppy andpyrethrum to root infection by Spongospora subterranea. J. of Phytopathology, DOI: 10.1111/jph.12746

Nikitin M. et al, 2018. Preserved Microarrays for Simultaneous Detection and Identification of Six Fungal Potato Pathogens with the Use of Real-Time PCR in Matrix Format . Biosensor,DOI: 10.3390/bios8040129.

Falloon R., R. Frampton and P. Wright, 2018. The microbiome of soils suppressive to Spongospora diseases of potato. Phytopathology 108 (10), 78-79 (Supplement)

Tsror (Lahkim) L., O. Erlich, M. Hazanovsky et al., 2019. Control of potato powdery scab (Spongospora subterranea) in Israel with chloropicrin, metam sodium or fluazinam. Crop Protection 124, DOI: 10.1016/j.cropro.2019.05.030

DeShields, J.B., Moroz N., Braley L.E. et al., 2019. Recombinase polymerase amplification (RPA) for the rapid isothermal detection of Spongospora subterranea f. sp. subterranea and Potato Mop-Top Virus. American J. of Potato Research 96 (6), ‏ 617-624.

Mallik I., A.C. Fulladolsa, S.K.R. Yellareddygari et al., 2019. Detection and quantification of Spongospora subterranea sporosori in soil by Quantitative Real-Time PCR. Plant Disease 103 (12), 3189-3198

Pandey B., Mallik I. and Gudmestad N.C., 2020. Development and application of a Real-Time Reverse-Transcription PCR and Droplet Digital PCR assays for the direct detection of Potato mop top virus in soil. Phytopathology 110 (1), 58-67.

Sinton S.M., Dellow S.J., Jamieson P.D. et al., 2020. Cropping history affects potato yields in Canterbury, New Zealand. American J. of Potato Research, 97 (2), 202-213.

Tsror (Lahkim) L., R. Shapira, O. Erlich et al., 2020. Characterization of weeds and rotational crops as alternative hosts of Spongospora subterranea, the causal agent of Powdery Scab in Israel. Plant Pathology 69 (2), 294-301, DOI: 10.1111/ppa.13117

Tsror (Lahkim) L., Lebiush S., Hazanovsky M. et al., 2020. Control of potato powdery scab caused by Spongospora subterranea by foliage cover and soil application of chemicals under field conditions with naturally infested soil. Plant Pathology (Early access)

Simango K., Slabbert C.P. and van der Waals  J.E., 2020. Alternative hosts of Spongospora subterranea f. sp. subterranea in southern Africa. European J. of Plant Pathology 157 (2), 421-424.

Espitia E., W.A.W. Ortiz, N. Barreto and N.L. Cely (eds.), 2020. Papa de año (Solanum  tuberosum  Grupo Andigenum): Manual de recomendaciones técnicas para su cultivo en el departamento de Cundinamarca. Publisher: Universidad Nacional de Colombia - UNAL, ISBN: 978-958-794-368-9

Tsror (Lahkim) L., S. Lebiush, O. Erlich et al., 2020. Aerial dispersal of Spongospora subterranea sp. f.subterranea, the causal agent of potato powdery scab. Europ. J. of Plant Pathology, 69 (6), DOI: 10.1111/ppa.13193

Clarke, C.R.,  R.S. Tegg, H.K. Thompson et al., 2020. Low-dose foliar treatments of the auxin analog 2,4-D reduce potato common scab and powdery scab for multiple potato cultivars and enhance root development. Crop Protection 136,https://doi.org/10.1016/j.cropro.2020.105208

Zeng Y, A.C. Fulladolsa, A.M. Cordova et al., 2020. Evaluation of effects of chemical soll treatments and potato cultivars on Spongospora subterranea soil inoculum and incidence of powdery scab and Potato Mop-Top Virus in potato.Plant Disease104 (11), 2807-2816, https://doi.org/10.1094/PDIS-10-19-2202-RE

Tsror (Lahkim) L., S. Lebiush, M. Hazanovsky et al., 2021. Effect of planting date and potato cultivar on powdery scab caused by Spongospora subterranea. Phytoparasitica 49 (5), 1007-1012; https://doi.org/10.1007/s12600-021-00907-x

Dhakal U., G. Adhikari, A.R. Devkota, K.R. Joshi and M. Bhatta, 2021. Efficacy of different biological and chemical treatments on control of powdery scab of potato. Azarian J. Agric. VOL (8) 1, 12-22 (see www.researchgate.net)

Wright P.J., R.E. Falloon, C. Anderson et al., 2021. Factors influencing suppressiveness of soils to powdery scab of potato. Australian Plant Pathology, 50, 715-728.

Alaryan M., Y. Zeng, A.C. Fulladolsa and A.O. Charkowski, 2021. Evaluation of cover crops in reducing Spongospora subterranea inoculum. Phytopathology 111 (10S), 153-154. https://doi.org/10.1094/PHYTO-111-10-S2.1

Ozturk I.K, J. Knoke and R. Rioux, 2021. Characterization of cystosorus-associated microbes as antagonists of the soilborne protist Spongospora subterranea f. sp. subterranea. Phytopathology 111 (10S), 88-89; https://doi.org/10.1094/PHYTO-111-10-S2.1

Amponsah J.,R.S. Tegg, T. Thangavel, C.R. Wilson, 2022. Subversion of Phytomyxae cell communication with surrounding environment to control soilborne diseases; a case study of cytosolic Ca2+ signal disruption in zoospores
of Spongospora subterranea. Frontiers in Microbiology,
DOI: 10.3389/fmicb.2022.754225

Tegg R.S. and C.R. Wilson, 2022. Management of major fungal and fungal-like soilborne diseases of potato. Book chapter 'Sustainable Management of Potato Pests and Diseases', DOI: 10.1007/978-981-16-7695-6_21

Li Y., R. Yang, L. Guo et al., 2022. The composition, biotic network, and assembly of plastisphere protistan taxonomic and functional communities in plastic-mulching croplands. Journal of Hazardous Materials, 430, 128390, https://doi.org/10.1016/j.jhazmat.2022.128390

Tanaka K., J. DeShields, N. Moroz and J. Woodhall, 2022. Isothermal amplification for potato disease diagnosis: what have we learned from detection of the powdery scab pathogen? Potato Progress 22 (4)

Pandey R, R.K. Yadav, D. Giri, B. Budhathoki, R.C. Neupane, S. Gautam , 2022. Management of Powdery Scab (Spongospora subterranea) of Potato in Dailekh, Nepal. J Plant Pathol Microbiol. 13:626

Swisher Grimm K.D., R.A. Quick, L. Cimrhakl et al., 2022. Detection of Potato Mop-Top Virus in potato seed lots entering Washington state. Am. Journal of Potato Research. https://doi.org/10.1007/s12230-022-09889-w

Ozturk K., E. Buchholz et al., 2022. Spongospora subterranea f. sp. subterranea (Sss) is detectable in asymptomatic tubers and affects plant susceptibility to subsequent pathogen. Phytopathology 112 (11) S, 54.

Jiang J., W. Feindl, M. Harding et al., 2023. Development and evaluation of a loop-mediated isothermal amplification (LAMP) method for detection of the potato powdery scab pathogen Spongospora subterranea. Plant Disease 107 (1), 136-141

Naghman R., Tanveer B.M. et al., 2023. Organic amendments: a natural way to suppress phytopathogens: a sustainable approach to go green. Turkish Journal of Agriculture and Forestry, 47 (5), 602-622.

Alaryan M., Y. Zeng, A.C. Fulladolsa and A.O. Charkoswski, 2023. Brassica cover crops and natural Spongospora subterranea infestation of peat-based potting mix may increase powdery scab risk on potato. Plant Disease, 107, 2769-2777, https://doi.org/10.1094/PDIS-04-22-0863-RE

Strydom R.F., C.R. Wilson, R.S. Tegg et al., 2024. Advancements in Spongospora subterranea: Current knowledge, management strategies and research Gaps. Potato Research. https://doi.org/10.1007/s11540-024-09701-8

Mao L., Shi H., Sial M. et al., 2024. Control of potato powdery scab with fluazinam, cyazofamid or bupirimate under field conditions in China. Crop Protection, 184, DOI: 10.1016/j.cropro.2024.106877

Ozturk K., Buchholz E. et al., 2024. Spongospora subterranea f. sp. subterranea (Sss) affects plant susceptibility to subsequent pathogen infections under controlled environment conditions. Plant Disease, 108 (7), DOI: 10.1094/PDIS-02-24-0276-RE

Balendres M.A., Woodhall J., Whitworth J.L. and Camagun C.J., 2024. Powdery scab of Potato: A diagnostic guide. Plant Health Progress 25 (3), DOI: 10.1094/PHP-11-23-0097-DG

Kamal H., B. Charlton, V. Sathuvalli and K. Tanaka, 2024. Root infection and minituber yield response to powdery scab in plant growth chamber conditions. PhytoFrontiers, DOI: 10.1094/PHYTOFR-06-24-0067-R

Kaganovic M., M. Taha et al., 2024. Self-Assembly of a Dipeptide with a Reduced Amount of Copper into Antifungal and Antibacterial Particles. Biomacromolecules 25, 1018-1026. https://pubs.acs.org/doi/10.1021/acs.biomac.3c01092?ref=PDF

Moroz N., B. Colvin, S. Jayasinghe et al., 2024. Phytocytokine STPep1-Secreting Bacteria suppress potato powdery scab disease. Phytopathology, DOI: 10.1094/PHTO-01-24-0019-R

Matando J., E. Ngadze, S. Muhera and S. Kodani, 2024. Effects of silicon on development and controlling of powdery scab in Irish potato (Solanum tuberosum). Middle East Research Journal of Agriculture and Food Science, 4 (05), 193-201

Zhang X., H. Chen, J. Wu et al., 2024. A field survey of eight common potato pathogens in China based on integrated-loop-mediated isothermal amplification assays. Phytopathology Reserach, 14 p. https://doi.org/10.1186/s42483-024-00284-3