Access the full text.
Sign up today, get DeepDyve free for 14 days.
R. Ghosh, A. Tarafdar, Mamta Sharma (2017)
Rapid and sensitive diagnoses of dry root rot pathogen of chickpea (Rhizoctonia bataticola (Taub.) Butler) using loop-mediated isothermal amplification assayScientific Reports, 7
(Marquez, N., M. L.Giachero, S.Declerck, and D. A.Ducasse. 2021. Macrophomina phaseolina: General characteristics of pathogenicity and methods of control. Frontiers in Plant Science12: 634397.33968098)
Marquez, N., M. L.Giachero, S.Declerck, and D. A.Ducasse. 2021. Macrophomina phaseolina: General characteristics of pathogenicity and methods of control. Frontiers in Plant Science12: 634397.33968098Marquez, N., M. L.Giachero, S.Declerck, and D. A.Ducasse. 2021. Macrophomina phaseolina: General characteristics of pathogenicity and methods of control. Frontiers in Plant Science12: 634397.33968098, Marquez, N., M. L.Giachero, S.Declerck, and D. A.Ducasse. 2021. Macrophomina phaseolina: General characteristics of pathogenicity and methods of control. Frontiers in Plant Science12: 634397.33968098
(Coley‐Smith, J. R., and R. C.Cooke. 1971. Survival and germination of fungal sclerotia. Annual Review of Phytopathology9: 65–92.)
Coley‐Smith, J. R., and R. C.Cooke. 1971. Survival and germination of fungal sclerotia. Annual Review of Phytopathology9: 65–92.Coley‐Smith, J. R., and R. C.Cooke. 1971. Survival and germination of fungal sclerotia. Annual Review of Phytopathology9: 65–92., Coley‐Smith, J. R., and R. C.Cooke. 1971. Survival and germination of fungal sclerotia. Annual Review of Phytopathology9: 65–92.
(Gupta, O. M., and M.Sharma. 2015. Dry root rot of chickpea: An overview. Journal of Food Legumes28(4): 267–276.)
Gupta, O. M., and M.Sharma. 2015. Dry root rot of chickpea: An overview. Journal of Food Legumes28(4): 267–276.Gupta, O. M., and M.Sharma. 2015. Dry root rot of chickpea: An overview. Journal of Food Legumes28(4): 267–276., Gupta, O. M., and M.Sharma. 2015. Dry root rot of chickpea: An overview. Journal of Food Legumes28(4): 267–276.
(Khaliq, A., S.Alam, I. U.Khan, D.Khan, S.Naz, Y.Zhang, and A. A.Shah. 2020. Integrated control of dry root rot of chickpea caused by Rhizoctonia bataticola under the natural field condition. Biotechnology Reports25: e00423.31993345)
Khaliq, A., S.Alam, I. U.Khan, D.Khan, S.Naz, Y.Zhang, and A. A.Shah. 2020. Integrated control of dry root rot of chickpea caused by Rhizoctonia bataticola under the natural field condition. Biotechnology Reports25: e00423.31993345Khaliq, A., S.Alam, I. U.Khan, D.Khan, S.Naz, Y.Zhang, and A. A.Shah. 2020. Integrated control of dry root rot of chickpea caused by Rhizoctonia bataticola under the natural field condition. Biotechnology Reports25: e00423.31993345, Khaliq, A., S.Alam, I. U.Khan, D.Khan, S.Naz, Y.Zhang, and A. A.Shah. 2020. Integrated control of dry root rot of chickpea caused by Rhizoctonia bataticola under the natural field condition. Biotechnology Reports25: e00423.31993345
(Mihail, J. D., and S. M.Alcorn. 1982. Quantitative recovery of Macrophomina phaseolina sclerotia from soil.Plant Disease66: 662–663.)
Mihail, J. D., and S. M.Alcorn. 1982. Quantitative recovery of Macrophomina phaseolina sclerotia from soil.Plant Disease66: 662–663.Mihail, J. D., and S. M.Alcorn. 1982. Quantitative recovery of Macrophomina phaseolina sclerotia from soil.Plant Disease66: 662–663., Mihail, J. D., and S. M.Alcorn. 1982. Quantitative recovery of Macrophomina phaseolina sclerotia from soil.Plant Disease66: 662–663.
Mamta Sharma, S. Pande (2013)
Unravelling Effects of Temperature and Soil Moisture Stress Response on Development of Dry Root Rot [Rhizoctonia bataticola (Taub.)] Butler in ChickpeaAmerican Journal of Plant Sciences, 2013
(Chauhan, Y. S., Y. L.Nene, C.Johansen, M. P.Haware, N. P.Saxena, S.Singh, and J. V. D. K.Kumar Rao. 1988. Effects of soil solarization on pigeonpea and chickpea. Information Bulletin No. 11. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.)
Chauhan, Y. S., Y. L.Nene, C.Johansen, M. P.Haware, N. P.Saxena, S.Singh, and J. V. D. K.Kumar Rao. 1988. Effects of soil solarization on pigeonpea and chickpea. Information Bulletin No. 11. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.Chauhan, Y. S., Y. L.Nene, C.Johansen, M. P.Haware, N. P.Saxena, S.Singh, and J. V. D. K.Kumar Rao. 1988. Effects of soil solarization on pigeonpea and chickpea. Information Bulletin No. 11. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India., Chauhan, Y. S., Y. L.Nene, C.Johansen, M. P.Haware, N. P.Saxena, S.Singh, and J. V. D. K.Kumar Rao. 1988. Effects of soil solarization on pigeonpea and chickpea. Information Bulletin No. 11. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.
(Clarke, J. D.2009. Cetyl trimethyl ammonium bromide (CTAB) DNA miniprep for plant DNA isolation. Cold Spring Harbor Protocols2009(3): pdb‐prot5177.)
Clarke, J. D.2009. Cetyl trimethyl ammonium bromide (CTAB) DNA miniprep for plant DNA isolation. Cold Spring Harbor Protocols2009(3): pdb‐prot5177.Clarke, J. D.2009. Cetyl trimethyl ammonium bromide (CTAB) DNA miniprep for plant DNA isolation. Cold Spring Harbor Protocols2009(3): pdb‐prot5177., Clarke, J. D.2009. Cetyl trimethyl ammonium bromide (CTAB) DNA miniprep for plant DNA isolation. Cold Spring Harbor Protocols2009(3): pdb‐prot5177.
V. Irulappan, M. Senthil-Kumar (2021)
Dry Root Rot Disease Assays in Chickpea: a Detailed Methodology.Journal of visualized experiments : JoVE, 167
(1983)
Suppressive Soils
(Manjunatha, H., and M.Saifulla. 2018. Variation in virulence of Macrophomina phaseolina isolates causing dry root rot of chickpea and performance of chickpea genotypes against this disease. Legume Research41(3): 468–473.)
Manjunatha, H., and M.Saifulla. 2018. Variation in virulence of Macrophomina phaseolina isolates causing dry root rot of chickpea and performance of chickpea genotypes against this disease. Legume Research41(3): 468–473.Manjunatha, H., and M.Saifulla. 2018. Variation in virulence of Macrophomina phaseolina isolates causing dry root rot of chickpea and performance of chickpea genotypes against this disease. Legume Research41(3): 468–473., Manjunatha, H., and M.Saifulla. 2018. Variation in virulence of Macrophomina phaseolina isolates causing dry root rot of chickpea and performance of chickpea genotypes against this disease. Legume Research41(3): 468–473.
O. Gupta, M. Rathi, M. Mishra (2012)
Screening for resistance against Rhizoctonia bataticola causing dry root-rot in chickpeaJournal of Food Legumes, 25
M. Halila, R. Strange (1997)
Screening of Kabuli chickpea germplasm for resistance to Fusarium wiltEuphytica, 96
P. Rao, M. Haware (1987)
Inheritance of Dry Root Rot (Rhizoctonia bataticola) Resistance in Chickpea (Cicer arietinum)Plant Breeding, 98
A. Infantino, M. Kharrat, L. Riccioni, C. Coyne, K. Mcphee, N. Grünwald (2006)
Screening techniques and sources of resistance to root diseases in cool season food legumesEuphytica, 147
(Sinha, R., V.Irulappan, B. S.Patil, P. C. O.Reddy, V.Ramegowda, B.Mohan‐Raju, K.Rangappa, et al. 2021. Low soil moisture predisposes field‐grown chickpea plants to dry root rot disease: Evidence from simulation modeling and correlation analysis. Scientific Reports11: 6568. 10.1038/s41598-021-85928-633753791)
Sinha, R., V.Irulappan, B. S.Patil, P. C. O.Reddy, V.Ramegowda, B.Mohan‐Raju, K.Rangappa, et al. 2021. Low soil moisture predisposes field‐grown chickpea plants to dry root rot disease: Evidence from simulation modeling and correlation analysis. Scientific Reports11: 6568. 10.1038/s41598-021-85928-633753791Sinha, R., V.Irulappan, B. S.Patil, P. C. O.Reddy, V.Ramegowda, B.Mohan‐Raju, K.Rangappa, et al. 2021. Low soil moisture predisposes field‐grown chickpea plants to dry root rot disease: Evidence from simulation modeling and correlation analysis. Scientific Reports11: 6568. 10.1038/s41598-021-85928-633753791, Sinha, R., V.Irulappan, B. S.Patil, P. C. O.Reddy, V.Ramegowda, B.Mohan‐Raju, K.Rangappa, et al. 2021. Low soil moisture predisposes field‐grown chickpea plants to dry root rot disease: Evidence from simulation modeling and correlation analysis. Scientific Reports11: 6568. 10.1038/s41598-021-85928-633753791
(Kirk, P. M., P. F.Cannon, D. W.Minter, and J. A.Stalpers. 2008. Dictionary of the Fungi, 10th ed. CAB International, Wallingford, United Kingdom.)
Kirk, P. M., P. F.Cannon, D. W.Minter, and J. A.Stalpers. 2008. Dictionary of the Fungi, 10th ed. CAB International, Wallingford, United Kingdom.Kirk, P. M., P. F.Cannon, D. W.Minter, and J. A.Stalpers. 2008. Dictionary of the Fungi, 10th ed. CAB International, Wallingford, United Kingdom., Kirk, P. M., P. F.Cannon, D. W.Minter, and J. A.Stalpers. 2008. Dictionary of the Fungi, 10th ed. CAB International, Wallingford, United Kingdom.
N. Marquez, M. Giachero, S. Declerck, D. Ducasse (2021)
Macrophomina phaseolina: General Characteristics of Pathogenicity and Methods of ControlFrontiers in Plant Science, 12
(Gaur, P. M., S.Tripathi, C. L.Gowda, G. V.Ranga Rao, H. C.Sharma, S.Pande, and M.Sharma. 2010. Chickpea seed production manual. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.)
Gaur, P. M., S.Tripathi, C. L.Gowda, G. V.Ranga Rao, H. C.Sharma, S.Pande, and M.Sharma. 2010. Chickpea seed production manual. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.Gaur, P. M., S.Tripathi, C. L.Gowda, G. V.Ranga Rao, H. C.Sharma, S.Pande, and M.Sharma. 2010. Chickpea seed production manual. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India., Gaur, P. M., S.Tripathi, C. L.Gowda, G. V.Ranga Rao, H. C.Sharma, S.Pande, and M.Sharma. 2010. Chickpea seed production manual. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.
(Gupta, O., M.Rathi, and M.Mishra. 2012b. Screening for resistance against Rhizoctonia bataticola causing dry root‐rot in chickpea. Journal of Food Legumes25(2): 139–141.)
Gupta, O., M.Rathi, and M.Mishra. 2012b. Screening for resistance against Rhizoctonia bataticola causing dry root‐rot in chickpea. Journal of Food Legumes25(2): 139–141.Gupta, O., M.Rathi, and M.Mishra. 2012b. Screening for resistance against Rhizoctonia bataticola causing dry root‐rot in chickpea. Journal of Food Legumes25(2): 139–141., Gupta, O., M.Rathi, and M.Mishra. 2012b. Screening for resistance against Rhizoctonia bataticola causing dry root‐rot in chickpea. Journal of Food Legumes25(2): 139–141.
(Höppener‐Ogawa, S., J. H.Leveau, W.Smant, J. A.van Veen, and W.de Boer. 2007. Specific detection and real‐time PCR quantification of potentially mycophagous bacteria belonging to the genus Collimonas in different soil ecosystems. Applied and Environmental Microbiology73(13): 4191–4197.17483278)
Höppener‐Ogawa, S., J. H.Leveau, W.Smant, J. A.van Veen, and W.de Boer. 2007. Specific detection and real‐time PCR quantification of potentially mycophagous bacteria belonging to the genus Collimonas in different soil ecosystems. Applied and Environmental Microbiology73(13): 4191–4197.17483278Höppener‐Ogawa, S., J. H.Leveau, W.Smant, J. A.van Veen, and W.de Boer. 2007. Specific detection and real‐time PCR quantification of potentially mycophagous bacteria belonging to the genus Collimonas in different soil ecosystems. Applied and Environmental Microbiology73(13): 4191–4197.17483278, Höppener‐Ogawa, S., J. H.Leveau, W.Smant, J. A.van Veen, and W.de Boer. 2007. Specific detection and real‐time PCR quantification of potentially mycophagous bacteria belonging to the genus Collimonas in different soil ecosystems. Applied and Environmental Microbiology73(13): 4191–4197.17483278
(Gardes, M., and T. D.Bruns. 1993. ITS primers with enhanced specificity for basidiomycetes‐application to the identification of mycorrhizae and rusts. Molecular Ecology2: 113–118.8180733)
Gardes, M., and T. D.Bruns. 1993. ITS primers with enhanced specificity for basidiomycetes‐application to the identification of mycorrhizae and rusts. Molecular Ecology2: 113–118.8180733Gardes, M., and T. D.Bruns. 1993. ITS primers with enhanced specificity for basidiomycetes‐application to the identification of mycorrhizae and rusts. Molecular Ecology2: 113–118.8180733, Gardes, M., and T. D.Bruns. 1993. ITS primers with enhanced specificity for basidiomycetes‐application to the identification of mycorrhizae and rusts. Molecular Ecology2: 113–118.8180733
(Erskine, W., and B.Bayaa. 1996. Yield loss, incidence and inoculum density associated with vascular wilt of lentil. Phytopathologia Mediterranea35: 24–32.)
Erskine, W., and B.Bayaa. 1996. Yield loss, incidence and inoculum density associated with vascular wilt of lentil. Phytopathologia Mediterranea35: 24–32.Erskine, W., and B.Bayaa. 1996. Yield loss, incidence and inoculum density associated with vascular wilt of lentil. Phytopathologia Mediterranea35: 24–32., Erskine, W., and B.Bayaa. 1996. Yield loss, incidence and inoculum density associated with vascular wilt of lentil. Phytopathologia Mediterranea35: 24–32.
H. Manjunatha, M. Saifulla (2017)
Variation in virulence of Macrophomina phaseolina isolates causing dry root rot of chickpea and performance of chickpea genotypes against this diseaseLegume Research, 41
O. Gupta, Mamta Sharma (2015)
Dry root rot of chickpea: An overviewJournal of Food Legumes, 28
G. Gupta, S. Sharma, R. Ramteke (2012)
Biology, Epidemiology and Management of the Pathogenic Fungus Macrophomina phaseolina (Tassi) Goid with Special Reference to Charcoal Rot of Soybean (Glycine max (L.) Merrill)Journal of Phytopathology, 160
(Hornby, D.1983. Suppressive soils. Annual Review of Phytopathology21: 65–85.)
Hornby, D.1983. Suppressive soils. Annual Review of Phytopathology21: 65–85.Hornby, D.1983. Suppressive soils. Annual Review of Phytopathology21: 65–85., Hornby, D.1983. Suppressive soils. Annual Review of Phytopathology21: 65–85.
(Casler, M. D.2015. Fundamentals of experimental design: Guidelines for designing successful experiments. Agronomy Journal107: 692–705.)
Casler, M. D.2015. Fundamentals of experimental design: Guidelines for designing successful experiments. Agronomy Journal107: 692–705.Casler, M. D.2015. Fundamentals of experimental design: Guidelines for designing successful experiments. Agronomy Journal107: 692–705., Casler, M. D.2015. Fundamentals of experimental design: Guidelines for designing successful experiments. Agronomy Journal107: 692–705.
(Gupta, G. K., S. K.Sharma, and R.Ramteke. 2012a. Biology, epidemiology and management of the pathogenic fungus Macrophomina phaseolina (Tassi) Goid with special reference to charcoal rot of soybean (Glycine max (L.) Merrill). Journal of Phytopathology160: 167–180.)
Gupta, G. K., S. K.Sharma, and R.Ramteke. 2012a. Biology, epidemiology and management of the pathogenic fungus Macrophomina phaseolina (Tassi) Goid with special reference to charcoal rot of soybean (Glycine max (L.) Merrill). Journal of Phytopathology160: 167–180.Gupta, G. K., S. K.Sharma, and R.Ramteke. 2012a. Biology, epidemiology and management of the pathogenic fungus Macrophomina phaseolina (Tassi) Goid with special reference to charcoal rot of soybean (Glycine max (L.) Merrill). Journal of Phytopathology160: 167–180., Gupta, G. K., S. K.Sharma, and R.Ramteke. 2012a. Biology, epidemiology and management of the pathogenic fungus Macrophomina phaseolina (Tassi) Goid with special reference to charcoal rot of soybean (Glycine max (L.) Merrill). Journal of Phytopathology160: 167–180.
(Turland, N. J., J. H.Wiersema, F. R.Barrie, W.Greuter, D. L.Hawksworth, P. S.Herendeen, S.Knapp, et al. [eds.]. 2018. International Code of Nomenclature for algae, fungi, and plants (Shenzhen Code). Regnum Vegetabile 159. Koeltz Botanical Books, Glashütten, Germany.)
Turland, N. J., J. H.Wiersema, F. R.Barrie, W.Greuter, D. L.Hawksworth, P. S.Herendeen, S.Knapp, et al. [eds.]. 2018. International Code of Nomenclature for algae, fungi, and plants (Shenzhen Code). Regnum Vegetabile 159. Koeltz Botanical Books, Glashütten, Germany.Turland, N. J., J. H.Wiersema, F. R.Barrie, W.Greuter, D. L.Hawksworth, P. S.Herendeen, S.Knapp, et al. [eds.]. 2018. International Code of Nomenclature for algae, fungi, and plants (Shenzhen Code). Regnum Vegetabile 159. Koeltz Botanical Books, Glashütten, Germany., Turland, N. J., J. H.Wiersema, F. R.Barrie, W.Greuter, D. L.Hawksworth, P. S.Herendeen, S.Knapp, et al. [eds.]. 2018. International Code of Nomenclature for algae, fungi, and plants (Shenzhen Code). Regnum Vegetabile 159. Koeltz Botanical Books, Glashütten, Germany.
(Beniwal, S. P. S., S.Ahmed, and D.Gorfu. 1992. Wilt/root rot diseases of chickpea in Ethiopia. International Journal of Pest Management38: 48–51.)
Beniwal, S. P. S., S.Ahmed, and D.Gorfu. 1992. Wilt/root rot diseases of chickpea in Ethiopia. International Journal of Pest Management38: 48–51.Beniwal, S. P. S., S.Ahmed, and D.Gorfu. 1992. Wilt/root rot diseases of chickpea in Ethiopia. International Journal of Pest Management38: 48–51., Beniwal, S. P. S., S.Ahmed, and D.Gorfu. 1992. Wilt/root rot diseases of chickpea in Ethiopia. International Journal of Pest Management38: 48–51.
(Lodha, S., B. K.Mathur, and K. R.Solanki. 1990. Factors influencing population dynamics of Macrophomina phaseolina in arid soils. Plant and Soil125(1): 75–80.)
Lodha, S., B. K.Mathur, and K. R.Solanki. 1990. Factors influencing population dynamics of Macrophomina phaseolina in arid soils. Plant and Soil125(1): 75–80.Lodha, S., B. K.Mathur, and K. R.Solanki. 1990. Factors influencing population dynamics of Macrophomina phaseolina in arid soils. Plant and Soil125(1): 75–80., Lodha, S., B. K.Mathur, and K. R.Solanki. 1990. Factors influencing population dynamics of Macrophomina phaseolina in arid soils. Plant and Soil125(1): 75–80.
(Sharma, M., R.Ghosh, and S.Pande. 2015. Dry root rot (Rhizoctonia bataticola (Taub.) Butler): An emerging disease of chickpea – where do we stand?Archives of Phytopathology and Plant Protection48(13–16): 797–812.)
Sharma, M., R.Ghosh, and S.Pande. 2015. Dry root rot (Rhizoctonia bataticola (Taub.) Butler): An emerging disease of chickpea – where do we stand?Archives of Phytopathology and Plant Protection48(13–16): 797–812.Sharma, M., R.Ghosh, and S.Pande. 2015. Dry root rot (Rhizoctonia bataticola (Taub.) Butler): An emerging disease of chickpea – where do we stand?Archives of Phytopathology and Plant Protection48(13–16): 797–812., Sharma, M., R.Ghosh, and S.Pande. 2015. Dry root rot (Rhizoctonia bataticola (Taub.) Butler): An emerging disease of chickpea – where do we stand?Archives of Phytopathology and Plant Protection48(13–16): 797–812.
(Gupta, A., S. K.Dixit, and M.Senthil‐Kumar. 2016. Drought stress predominantly endures Arabidopsis thaliana to Pseudomonas syringae infection. Frontiers in Plant Science7: e808.)
Gupta, A., S. K.Dixit, and M.Senthil‐Kumar. 2016. Drought stress predominantly endures Arabidopsis thaliana to Pseudomonas syringae infection. Frontiers in Plant Science7: e808.Gupta, A., S. K.Dixit, and M.Senthil‐Kumar. 2016. Drought stress predominantly endures Arabidopsis thaliana to Pseudomonas syringae infection. Frontiers in Plant Science7: e808., Gupta, A., S. K.Dixit, and M.Senthil‐Kumar. 2016. Drought stress predominantly endures Arabidopsis thaliana to Pseudomonas syringae infection. Frontiers in Plant Science7: e808.
(Sinha, R., V.Irulappan, B.Mohan‐Raju, A.Suganthi, and M.Senthil‐Kumar. 2019. Impact of drought stress on simultaneously occurring pathogen infection in field‐grown chickpea. Scientific Reports9(1): 5577.30944350)
Sinha, R., V.Irulappan, B.Mohan‐Raju, A.Suganthi, and M.Senthil‐Kumar. 2019. Impact of drought stress on simultaneously occurring pathogen infection in field‐grown chickpea. Scientific Reports9(1): 5577.30944350Sinha, R., V.Irulappan, B.Mohan‐Raju, A.Suganthi, and M.Senthil‐Kumar. 2019. Impact of drought stress on simultaneously occurring pathogen infection in field‐grown chickpea. Scientific Reports9(1): 5577.30944350, Sinha, R., V.Irulappan, B.Mohan‐Raju, A.Suganthi, and M.Senthil‐Kumar. 2019. Impact of drought stress on simultaneously occurring pathogen infection in field‐grown chickpea. Scientific Reports9(1): 5577.30944350
(Clewer, A. G., and D. H.Scarisbrick. 2013. Practical statistics and experimental design for plant and crop science. John Wiley & Sons, New York, New York, USA.)
Clewer, A. G., and D. H.Scarisbrick. 2013. Practical statistics and experimental design for plant and crop science. John Wiley & Sons, New York, New York, USA.Clewer, A. G., and D. H.Scarisbrick. 2013. Practical statistics and experimental design for plant and crop science. John Wiley & Sons, New York, New York, USA., Clewer, A. G., and D. H.Scarisbrick. 2013. Practical statistics and experimental design for plant and crop science. John Wiley & Sons, New York, New York, USA.
A. Khaliq, S. Alam, I. Khan, D. Khan, Shakela Naz, Yaxin Zhang, A. Shah (2020)
Integrated control of dry root rot of chickpea caused by Rhizoctoniabataticola under the natural field conditionBiotechnology Reports, 25
(Farr, D. F., and A. Y.Rossman. Fungal Databases, U.S. National Fungus Collections, ARS, USDA. Website: https://nt.ars-grin.gov/fungaldatabases/new_allViewGenBank.cfm?thisNam=Macrophomina%20phaseolina%26organismtype=Fungus [accessed 21 June, 2021].)
Farr, D. F., and A. Y.Rossman. Fungal Databases, U.S. National Fungus Collections, ARS, USDA. Website: https://nt.ars-grin.gov/fungaldatabases/new_allViewGenBank.cfm?thisNam=Macrophomina%20phaseolina%26organismtype=Fungus [accessed 21 June, 2021].Farr, D. F., and A. Y.Rossman. Fungal Databases, U.S. National Fungus Collections, ARS, USDA. Website: https://nt.ars-grin.gov/fungaldatabases/new_allViewGenBank.cfm?thisNam=Macrophomina%20phaseolina%26organismtype=Fungus [accessed 21 June, 2021]., Farr, D. F., and A. Y.Rossman. Fungal Databases, U.S. National Fungus Collections, ARS, USDA. Website: https://nt.ars-grin.gov/fungaldatabases/new_allViewGenBank.cfm?thisNam=Macrophomina%20phaseolina%26organismtype=Fungus [accessed 21 June, 2021].
S. F. Altschul, W. Gish, W. Miller, E. W. Myers, D. J. Lipman (1990)
Basic local alignment search tool, 215
(Singh, P. J., and R. S.Mehrotra. 1982. Penetration and invasion of gram roots by Rhizoctonia bataticola . Indian Phytopathology35: 336–338.)
Singh, P. J., and R. S.Mehrotra. 1982. Penetration and invasion of gram roots by Rhizoctonia bataticola . Indian Phytopathology35: 336–338.Singh, P. J., and R. S.Mehrotra. 1982. Penetration and invasion of gram roots by Rhizoctonia bataticola . Indian Phytopathology35: 336–338., Singh, P. J., and R. S.Mehrotra. 1982. Penetration and invasion of gram roots by Rhizoctonia bataticola . Indian Phytopathology35: 336–338.
(Rao, P. A., and M. P.Haware. 1987. Inheritance of dry root rot (Rhizoctonia bataticola) resistance in chickpea (Cicer arietinum). Plant Breeding98(4): 349–352.)
Rao, P. A., and M. P.Haware. 1987. Inheritance of dry root rot (Rhizoctonia bataticola) resistance in chickpea (Cicer arietinum). Plant Breeding98(4): 349–352.Rao, P. A., and M. P.Haware. 1987. Inheritance of dry root rot (Rhizoctonia bataticola) resistance in chickpea (Cicer arietinum). Plant Breeding98(4): 349–352., Rao, P. A., and M. P.Haware. 1987. Inheritance of dry root rot (Rhizoctonia bataticola) resistance in chickpea (Cicer arietinum). Plant Breeding98(4): 349–352.
(Nene, Y. L., M. P.Haware, and M. V.Reddy. 1981. Chickpea disease resistance screening techniques. Information Bulletin No. 10. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.)
Nene, Y. L., M. P.Haware, and M. V.Reddy. 1981. Chickpea disease resistance screening techniques. Information Bulletin No. 10. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.Nene, Y. L., M. P.Haware, and M. V.Reddy. 1981. Chickpea disease resistance screening techniques. Information Bulletin No. 10. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India., Nene, Y. L., M. P.Haware, and M. V.Reddy. 1981. Chickpea disease resistance screening techniques. Information Bulletin No. 10. International Crops Research Institute for the Semi‐Arid Tropics, Patancheru, Telangana, India.
(Pandey, A. K., R. R.Burlakoti, A.Rathore, and R. M.Nair. 2020. Morphological and molecular characterization of Macrophomina phaseolina isolated from three legume crops and evaluation of mungbean genotypes for resistance to dry root rot. Crop Protection127: 104962.)
Pandey, A. K., R. R.Burlakoti, A.Rathore, and R. M.Nair. 2020. Morphological and molecular characterization of Macrophomina phaseolina isolated from three legume crops and evaluation of mungbean genotypes for resistance to dry root rot. Crop Protection127: 104962.Pandey, A. K., R. R.Burlakoti, A.Rathore, and R. M.Nair. 2020. Morphological and molecular characterization of Macrophomina phaseolina isolated from three legume crops and evaluation of mungbean genotypes for resistance to dry root rot. Crop Protection127: 104962., Pandey, A. K., R. R.Burlakoti, A.Rathore, and R. M.Nair. 2020. Morphological and molecular characterization of Macrophomina phaseolina isolated from three legume crops and evaluation of mungbean genotypes for resistance to dry root rot. Crop Protection127: 104962.
J. Clarke (2009)
Cetyltrimethyl ammonium bromide (CTAB) DNA miniprep for plant DNA isolation.Cold Spring Harbor protocols, 2009 3
J. Coley-smith, R. Cooke (1971)
Survival and Germination of Fungal SclerotiaAnnual Review of Phytopathology, 9
(Shaw, R. K., M.Shaik, Z. A.Mir, M. S. L.Prasad, R. D.Prasad, and S.Senthilvel. 2016. Establishing a high throughput screening method for large scale phenotyping of castor genotypes for resistance to Fusarium wilt disease. Phytoparasitica44: 539–548.)
Shaw, R. K., M.Shaik, Z. A.Mir, M. S. L.Prasad, R. D.Prasad, and S.Senthilvel. 2016. Establishing a high throughput screening method for large scale phenotyping of castor genotypes for resistance to Fusarium wilt disease. Phytoparasitica44: 539–548.Shaw, R. K., M.Shaik, Z. A.Mir, M. S. L.Prasad, R. D.Prasad, and S.Senthilvel. 2016. Establishing a high throughput screening method for large scale phenotyping of castor genotypes for resistance to Fusarium wilt disease. Phytoparasitica44: 539–548., Shaw, R. K., M.Shaik, Z. A.Mir, M. S. L.Prasad, R. D.Prasad, and S.Senthilvel. 2016. Establishing a high throughput screening method for large scale phenotyping of castor genotypes for resistance to Fusarium wilt disease. Phytoparasitica44: 539–548.
R. Gangwar, R. Prajapati, S. Srivastava, Kumud Kumar (2002)
Resistance in chickpea germplasms against the dry root rotAnnals of Plant Protection Sciences, 10
(2016)
Resistance source identification for dry root rot disease in chickpea
M. Casler (2015)
Fundamentals of Experimental Design: Guidelines for Designing Successful ExperimentsAgronomy Journal, 107
S. Beniwal, S. Ahmed, D. Gorfu (1992)
Wilt/root rot diseases of chickpea in EthiopiaInternational Journal of Pest Management, 38
W. Erskine, B. Bayaa (1996)
Yield loss, incidence and inoculum density associated with vascular wilt of lentil.Phytopathologia Mediterranea, 35
(Jordan, W. R., R. B.Clark, and N.Seetharama. 1984. The role of edaphic factors in disease development, 81–97. In Proceedings of the Consultative Group Discussion on Research Needs and Strategies for Control of Sorghum Root and Stalk Rot Diseases, 27 November to 2 December 1983, Bellagio, Italy.)
Jordan, W. R., R. B.Clark, and N.Seetharama. 1984. The role of edaphic factors in disease development, 81–97. In Proceedings of the Consultative Group Discussion on Research Needs and Strategies for Control of Sorghum Root and Stalk Rot Diseases, 27 November to 2 December 1983, Bellagio, Italy.Jordan, W. R., R. B.Clark, and N.Seetharama. 1984. The role of edaphic factors in disease development, 81–97. In Proceedings of the Consultative Group Discussion on Research Needs and Strategies for Control of Sorghum Root and Stalk Rot Diseases, 27 November to 2 December 1983, Bellagio, Italy., Jordan, W. R., R. B.Clark, and N.Seetharama. 1984. The role of edaphic factors in disease development, 81–97. In Proceedings of the Consultative Group Discussion on Research Needs and Strategies for Control of Sorghum Root and Stalk Rot Diseases, 27 November to 2 December 1983, Bellagio, Italy.
(Pande, S., M.Sharma, N.Avuthu, and R.Telangre. 2012. High throughput phenotyping of chickpea diseases: Stepwise identification of host plant resistance. Information Bulletin No. 92. International Crops Research Institute for Semi‐Arid Tropics, Patancheru, Telangana, India.)
Pande, S., M.Sharma, N.Avuthu, and R.Telangre. 2012. High throughput phenotyping of chickpea diseases: Stepwise identification of host plant resistance. Information Bulletin No. 92. International Crops Research Institute for Semi‐Arid Tropics, Patancheru, Telangana, India.Pande, S., M.Sharma, N.Avuthu, and R.Telangre. 2012. High throughput phenotyping of chickpea diseases: Stepwise identification of host plant resistance. Information Bulletin No. 92. International Crops Research Institute for Semi‐Arid Tropics, Patancheru, Telangana, India., Pande, S., M.Sharma, N.Avuthu, and R.Telangre. 2012. High throughput phenotyping of chickpea diseases: Stepwise identification of host plant resistance. Information Bulletin No. 92. International Crops Research Institute for Semi‐Arid Tropics, Patancheru, Telangana, India.
(Infantino, A., M.Kharrat, L.Riccioni, C. J.Coyne, K. E.McPhee, and N. J.Grünwald. 2006. Screening techniques and sources of resistance to root diseases in cool season food legumes. Euphytica147(1–2): 201–221.)
Infantino, A., M.Kharrat, L.Riccioni, C. J.Coyne, K. E.McPhee, and N. J.Grünwald. 2006. Screening techniques and sources of resistance to root diseases in cool season food legumes. Euphytica147(1–2): 201–221.Infantino, A., M.Kharrat, L.Riccioni, C. J.Coyne, K. E.McPhee, and N. J.Grünwald. 2006. Screening techniques and sources of resistance to root diseases in cool season food legumes. Euphytica147(1–2): 201–221., Infantino, A., M.Kharrat, L.Riccioni, C. J.Coyne, K. E.McPhee, and N. J.Grünwald. 2006. Screening techniques and sources of resistance to root diseases in cool season food legumes. Euphytica147(1–2): 201–221.
Ranjita Sinha, V. Irulappan, Basavaiah Mohan-Raju, A. Suganthi, M. Senthil-Kumar (2019)
Impact of drought stress on simultaneously occurring pathogen infection in field-grown chickpeaScientific Reports, 9
(Reddy, A. T., J.Gowda, R.Ravikumar, A. M.Rao, S.Ramesh, and M.Saifulla. 2016. Resistance source identification for dry root rot disease in chickpea. Advances in Life Sciences5(21): 9767–9770.)
Reddy, A. T., J.Gowda, R.Ravikumar, A. M.Rao, S.Ramesh, and M.Saifulla. 2016. Resistance source identification for dry root rot disease in chickpea. Advances in Life Sciences5(21): 9767–9770.Reddy, A. T., J.Gowda, R.Ravikumar, A. M.Rao, S.Ramesh, and M.Saifulla. 2016. Resistance source identification for dry root rot disease in chickpea. Advances in Life Sciences5(21): 9767–9770., Reddy, A. T., J.Gowda, R.Ravikumar, A. M.Rao, S.Ramesh, and M.Saifulla. 2016. Resistance source identification for dry root rot disease in chickpea. Advances in Life Sciences5(21): 9767–9770.
A. Pandey, R. Burlakoti, A. Rathore, R. Nair (2020)
Morphological and molecular characterization of Macrophomina phaseolina isolated from three legume crops and evaluation of mungbean genotypes for resistance to dry root rotCrop Protection, 127
(Halila, M. H., and R. N.Strange. 1997. Screening of Kabuli chickpea germplasm for resistance to Fusarium wilt. Euphytica96(2): 273–279.)
Halila, M. H., and R. N.Strange. 1997. Screening of Kabuli chickpea germplasm for resistance to Fusarium wilt. Euphytica96(2): 273–279.Halila, M. H., and R. N.Strange. 1997. Screening of Kabuli chickpea germplasm for resistance to Fusarium wilt. Euphytica96(2): 273–279., Halila, M. H., and R. N.Strange. 1997. Screening of Kabuli chickpea germplasm for resistance to Fusarium wilt. Euphytica96(2): 273–279.
(1982)
Penetration and invasion of gram roots by Rhizoctonia bataticola
(Sharma, M., and S.Pande. 2013. Unraveling effects of temperature and soil moisture stress response on development of dry root rot [Rhizoctonia bataticola (Taub.)] Butler in chickpea. American Journal of Plant Sciences4: 584–589.)
Sharma, M., and S.Pande. 2013. Unraveling effects of temperature and soil moisture stress response on development of dry root rot [Rhizoctonia bataticola (Taub.)] Butler in chickpea. American Journal of Plant Sciences4: 584–589.Sharma, M., and S.Pande. 2013. Unraveling effects of temperature and soil moisture stress response on development of dry root rot [Rhizoctonia bataticola (Taub.)] Butler in chickpea. American Journal of Plant Sciences4: 584–589., Sharma, M., and S.Pande. 2013. Unraveling effects of temperature and soil moisture stress response on development of dry root rot [Rhizoctonia bataticola (Taub.)] Butler in chickpea. American Journal of Plant Sciences4: 584–589.
(Altschul, S. F., W.Gish, W.Miller, E. W.Myers, and D. J.Lipman. 1990. Basic local alignment search tool. Journal of Molecular Biology215: 403–410.2231712)
Altschul, S. F., W.Gish, W.Miller, E. W.Myers, and D. J.Lipman. 1990. Basic local alignment search tool. Journal of Molecular Biology215: 403–410.2231712Altschul, S. F., W.Gish, W.Miller, E. W.Myers, and D. J.Lipman. 1990. Basic local alignment search tool. Journal of Molecular Biology215: 403–410.2231712, Altschul, S. F., W.Gish, W.Miller, E. W.Myers, and D. J.Lipman. 1990. Basic local alignment search tool. Journal of Molecular Biology215: 403–410.2231712
(White, T. J., T.Bruns, S.Lee, and J.Taylor. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. InM. A.Innis, D. H.Gelfand, J. J.Sninsky, and T. J.White [eds.], PCR protocols: A guide to methods and applications, 315–322. Academic Press, San Diego, California, USA.)
White, T. J., T.Bruns, S.Lee, and J.Taylor. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. InM. A.Innis, D. H.Gelfand, J. J.Sninsky, and T. J.White [eds.], PCR protocols: A guide to methods and applications, 315–322. Academic Press, San Diego, California, USA.White, T. J., T.Bruns, S.Lee, and J.Taylor. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. InM. A.Innis, D. H.Gelfand, J. J.Sninsky, and T. J.White [eds.], PCR protocols: A guide to methods and applications, 315–322. Academic Press, San Diego, California, USA., White, T. J., T.Bruns, S.Lee, and J.Taylor. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. InM. A.Innis, D. H.Gelfand, J. J.Sninsky, and T. J.White [eds.], PCR protocols: A guide to methods and applications, 315–322. Academic Press, San Diego, California, USA.
(Ghosh, R., A.Tarafdar, and M.Sharma. 2017. Rapid and sensitive diagnoses of dry root rot pathogen of chickpea (Rhizoctonia bataticola (Taub.) Butler) using loop‐mediated isothermal amplification assay. Scientific Reports7: 42737.28218268)
Ghosh, R., A.Tarafdar, and M.Sharma. 2017. Rapid and sensitive diagnoses of dry root rot pathogen of chickpea (Rhizoctonia bataticola (Taub.) Butler) using loop‐mediated isothermal amplification assay. Scientific Reports7: 42737.28218268Ghosh, R., A.Tarafdar, and M.Sharma. 2017. Rapid and sensitive diagnoses of dry root rot pathogen of chickpea (Rhizoctonia bataticola (Taub.) Butler) using loop‐mediated isothermal amplification assay. Scientific Reports7: 42737.28218268, Ghosh, R., A.Tarafdar, and M.Sharma. 2017. Rapid and sensitive diagnoses of dry root rot pathogen of chickpea (Rhizoctonia bataticola (Taub.) Butler) using loop‐mediated isothermal amplification assay. Scientific Reports7: 42737.28218268
(Pande, S., G. K.Kishore, H. D.Upadhyaya, and J. N.Rao. 2006. Identification of sources of multiple disease resistance in mini‐core collection of chickpea. Plant Disease90(9): 1214–1218.30781104)
Pande, S., G. K.Kishore, H. D.Upadhyaya, and J. N.Rao. 2006. Identification of sources of multiple disease resistance in mini‐core collection of chickpea. Plant Disease90(9): 1214–1218.30781104Pande, S., G. K.Kishore, H. D.Upadhyaya, and J. N.Rao. 2006. Identification of sources of multiple disease resistance in mini‐core collection of chickpea. Plant Disease90(9): 1214–1218.30781104, Pande, S., G. K.Kishore, H. D.Upadhyaya, and J. N.Rao. 2006. Identification of sources of multiple disease resistance in mini‐core collection of chickpea. Plant Disease90(9): 1214–1218.30781104
(Irulappan, V., and M.Senthil‐Kumar. 2021. Dry root rot disease assays in chickpea: A detailed methodology. Journal of Visualized Experiments167: e61702.)
Irulappan, V., and M.Senthil‐Kumar. 2021. Dry root rot disease assays in chickpea: A detailed methodology. Journal of Visualized Experiments167: e61702.Irulappan, V., and M.Senthil‐Kumar. 2021. Dry root rot disease assays in chickpea: A detailed methodology. Journal of Visualized Experiments167: e61702., Irulappan, V., and M.Senthil‐Kumar. 2021. Dry root rot disease assays in chickpea: A detailed methodology. Journal of Visualized Experiments167: e61702.
Ranjita Sinha, V. Irulappan, B. Patil, P. Reddy, V. Ramegowda, Basavaiah Mohan-Raju, Krishnappa Rangappa, H. Singh, S. Bhartiya, M. Senthil-Kumar (2021)
Low soil moisture predisposes field-grown chickpea plants to dry root rot disease: evidence from simulation modeling and correlation analysisScientific Reports, 11
Mamta Sharma, R. Ghosh, S. Pande (2015)
Dry root rot (Rhizoctonia bataticola (Taub.) Butler): an emerging disease of chickpea – where do we stand?Archives of Phytopathology and Plant Protection, 48
(Fierer, N., J. A.Jackson, R.Vilgalys, and R. B.Jackson. 2005. Assessment of soil microbial community structure by use of taxon‐specific quantitative PCR assays. Applied and Environmental Microbiology71: 4117–4120.16000830)
Fierer, N., J. A.Jackson, R.Vilgalys, and R. B.Jackson. 2005. Assessment of soil microbial community structure by use of taxon‐specific quantitative PCR assays. Applied and Environmental Microbiology71: 4117–4120.16000830Fierer, N., J. A.Jackson, R.Vilgalys, and R. B.Jackson. 2005. Assessment of soil microbial community structure by use of taxon‐specific quantitative PCR assays. Applied and Environmental Microbiology71: 4117–4120.16000830, Fierer, N., J. A.Jackson, R.Vilgalys, and R. B.Jackson. 2005. Assessment of soil microbial community structure by use of taxon‐specific quantitative PCR assays. Applied and Environmental Microbiology71: 4117–4120.16000830
(Gangwar, R. K., R. K.Prajapati, S. S. L.Srivastava, and K.Kumar. 2002. Resistance in chickpea germplasms against the dry root rot. Annals of Plant Protection Sciences10: 393–394.)
Gangwar, R. K., R. K.Prajapati, S. S. L.Srivastava, and K.Kumar. 2002. Resistance in chickpea germplasms against the dry root rot. Annals of Plant Protection Sciences10: 393–394.Gangwar, R. K., R. K.Prajapati, S. S. L.Srivastava, and K.Kumar. 2002. Resistance in chickpea germplasms against the dry root rot. Annals of Plant Protection Sciences10: 393–394., Gangwar, R. K., R. K.Prajapati, S. S. L.Srivastava, and K.Kumar. 2002. Resistance in chickpea germplasms against the dry root rot. Annals of Plant Protection Sciences10: 393–394.
R. Shaw, Mobeen Shaik, Zubair Mir, M. Prasad, R. Prasad, S. Senthilvel (2016)
Establishing a high throughput screening method for large scale phenotyping of castor genotypes for resistance to Fusarium wilt diseasePhytoparasitica, 44
Aarti Gupta, S. Dixit, M. Senthil-Kumar (2016)
Drought Stress Predominantly Endures Arabidopsis thaliana to Pseudomonas syringae InfectionFrontiers in Plant Science, 7
Applications in Plant Sciences – Wiley
Published: Aug 1, 2021
Keywords: Cicer arietinum
You can share this free article with as many people as you like with the url below! We hope you enjoy this feature!
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.