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K. Anith, M. Momol, J. Kloepper, J. Marois, S. Olson, Jeffrey Jones (2004)
Efficacy of Plant Growth-Promoting Rhizobacteria, Acibenzolar-S-Methyl, and Soil Amendment for Integrated Management of Bacterial Wilt on Tomato.Plant disease, 88 6
(1996)
Quantitative determination of withaferin a in different plant parts of Withania somnifera by TLC densitometry
C. Campbell, L. Madden (1990)
Introduction to Plant Disease Epidemiology
K. Abo-Elyousr, M. Asran (2009)
Antibacterial activity of certain plant extracts against bacterial wilt of tomatoArchives of Phytopathology and Plant Protection, 42
P. Cantore, N. Iacobellis, A. Marco, F. Capasso, F. Senatore (2004)
Antibacterial activity of Coriandrum sativum L. and Foeniculum vulgare Miller Var. vulgare (Miller) essential oils.Journal of agricultural and food chemistry, 52 26
M. Nur‐e‐Alam, M. Yousaf, S. Qureshi, I. Baig, Shama Nasim, Atta-ur-rahman, M. Choudhary (2003)
A novel dimeric podophyllotoxin-type lignan and a new withanolide from Withania coagulansHelvetica Chimica Acta, 86
D. Lyra, Luana Sampaio, Douglas Pereira, A. Silva, Cláudio Amaral (2011)
Nutritional evaluation of cookies produced from pigeon pea, cocoyam and sorghum flour blendsAfrican Journal of Biotechnology, 10
H. Flores-Moctezuma, R. Montes-Belmont, A. Jiménez-Pérez, R. Nava-Juárez (2006)
Pathogenic diversity of Sclerotium rolfsii isolates from Mexico, and potential control of southern blight through solarization and organic amendmentsCrop Protection, 25
D. Walters, A. Newton, G. Lyon (2005)
Induced resistance: helping plants to help themselvesThe biologist, 52
O. Gottlieb, M. Borin, N. Brito (2002)
Integration of ethnobotany and phytochemistry. dream or reality?Phytochemistry, 60 2
Dominique Grüter, B. Schmid, H. Brandl (2006)
Influence of plant diversity and elevated atmospheric carbon dioxide levels on belowground bacterial diversityBMC Microbiology, 6
(2016)
Around the world: Tomatoes (WWW.Eurofreshdistribution.com/news/around-world-tomatoes)
Ya-Ming Xu, Song Gao, D. Bunting, A. Gunatilaka (2011)
Unusual withanolides from aeroponically grown Withania somnifera.Phytochemistry, 72 6
(1999)
The nature and properties of soils, 12th edn
(2007)
New pest response guidelines: Ralstonia solanacearum race 3 biovar 2. USDAAPHIS-PPQ, emergency domestic programs
(2007)
Development of an integrated approach for managing bacterial wilt and root-knot nematodes on tomato under field conditions
(2005)
Antibacterial activity of extracts from Withania somnifera and Aloe vera aginst Ralstonia solanacearum in potato
(2007)
Biological pesticides for control of seed- and soil-borne plant pathogens
L. Madden, G. Hughes, F. Bosch (2007)
The study of plant disease epidemics
Naseerud Din, Musharaf Ahmad, M. Siddique, Asad Ali, I. Naz, N. Ullah, F. Ahmad (2016)
Phytobiocidal management of bacterial wilt of tomato caused by Ralstonia solanacearum (Smith) YabuuchiSpanish Journal of Agricultural Research, 14
F. Frey, R. Meyers (2010)
Antibacterial activity of traditional medicinal plants used by Haudenosaunee peoples of New York StateBMC Complementary and Alternative Medicine, 10
J. Arthy, E. Akiew, J. Kirkegaard, P. Trevorrow, C. Allen, P. Prior, A. Hayward (2005)
Using Brassica spp. as biofumigants to reduce the population of Ralstonia solanacearum.
S Aliyu, M Bala (2011)
Brewer’s spent grain: a review of its potentials and applicationsAfr J Biotec, 10
F. Shidfar, Neda Froghifar, M. Vafa, A. Rajab, S. Hosseini, S. Shidfar, M. Gohari (2011)
The effects of tomato consumption on serum glucose, apolipoprotein B, apolipoprotein A-I, homocysteine and blood pressure in type 2 diabetic patientsInternational Journal of Food Sciences and Nutrition, 62
L. Pietrarelli, G. Balestra, L. Varvaro (2006)
EFFECTS OF SIMULATED RAIN ON PSEUDOMONAS SYRINGAE pv. TOMATO POPULATIONS ON TOMATO PLANTSJournal of Plant Pathology, 88
(1991)
OldWorldWithania ( Solanaceae ) : a taxonomic review and key to the species
S. Johri, U. Jamwal, S. Rasool, Anil Kumar, V. Verma, G. Qazi (2005)
Purification and characterization of peroxidases from Withania somnifera (AGB 002) and their ability to oxidize IAAPlant Science, 169
M. Fegan, P. Prior, C. Allen, A. Hayward (2005)
How complex is the Ralstonia solanacearum species complex
G. Gupta, A. Rana (2007)
Withania somnifera (Ashwagandha): A ReviewPharmacognosy Reviews, 1
(1967)
Antibacterial and anthelmintic activity ofWithania coagulans Dunal
FN Hepper (1991)
Solanaceae III: taxonomy, chemistry, Evolution
M. Mirjalili, E. Moyano, M. Bonfill, R. Cusido, J. Palazón (2009)
Steroidal Lactones from Withania somnifera, an Ancient Plant for Novel MedicineMolecules, 14
D. Cox, K. Gomez, A. Gómez (1984)
Statistical Procedures for Agricultural Research.Journal of the American Statistical Association, 80
(2005)
Integrated management of tomato bacterial wilt. AVRDC-The world vegetable center
I. Naz, Saifullah, J. Palomares-Rius, S. Khan, S. Ali, M. Ahmad, Asad Ali, A. Khan (2015)
Control of Southern root knot nematode Meloidogyne incognita (Kofoid and White) Chitwood on tomato using green manure of Fumaria parviflora Lam (Fumariaceae)Crop Protection, 67
(2007)
Saprophytic and pathogenic behavior of R. solani AG2-1 (ZG-5) in a soil water content
(2005)
Evolution of thymol as biofunmigant for control of bacterial wilt of tomato under field conditions
JR Arthy, EB Akiew, JA Kirkegaard, PR Trevorrow (2005)
Bacterial wilt disease and Ralstonia solanacearum species complex
S Kagale, T Marimuthu, B Thayumanavan, R Nandakumar, R Samiyappan (2004)
Antimicrobial activity and induction of systemic resistance in rice by leaf extract of Datura metel against Rhizoctonia solani and Xanthomonas oryzae pv. oryzaPhysiol Mol Plant Pathol, 65
Networks of invasion : empirical evidence and case studies
G. Balestra, A. Heydari, D. Ceccarelli, E. Ovidi, A. Quattrucci (2009)
Antibacterial effect of Allium sativum and Ficus carica extracts on tomato bacterial pathogensCrop Protection, 28
(1993)
New withanolides from Withania spp
AC Hayward, HME L-Nashaar, U Nydegger, L Lindo (1990)
Variation in nitrate metabolism in biovars of Pseudomonas solanacearumJ Appl Bacteriol, 69
G. Subbaraju, M. Vanisree, C. Rao, C. Sivaramakrishna, Pratha Sridhar, B. Jayaprakasam, M. Nair (2006)
Ashwagandhanolide, a bioactive dimeric thiowithanolide isolated from the roots of Withania somnifera.Journal of natural products, 69 12
(2000)
Media and diagnostic tests, Introduction to Practical Phytobacteriology, Bacterial Diseases Unit
R. Barad, P. Soni, Miss Upadhyay, U. Upadhyay (2013)
WITHANIA COAGULANS AND PSIDIUM GUAJAVA- AN OVERVIEW
(2012)
A meliorative effect of Withania coagulans on dyslipidemia and oxidative stress in nicitinamide - streptozotocin induced diaberes mellitus
J. Mitra, P. Paul (2017)
A potent biocide formulation inducing SAR in plantsJournal of Plant Diseases and Protection, 124
A. Hayward, H. El-Nashaar, U. Nydegger, L. Lindo (1990)
Variation in nitrate metabolism in biovars of Pseudomonas solanacearumJournal of Applied Microbiology, 69
I. Naz, Saifullah, J. Palomares-Rius, V. Blok, Sumaira Khan, S. Ali, A. Baig (2015)
Sustainable management of the southern root-knot nematode, Meloidogyne incognita (Kofoid and White) Chitwood, by means of amendments of Fumaria parviflora.International Journal of Agriculture and Biology, 17
K. Wai, Jaemoo Lee, H. Mo, Byung-Soo Kim (2013)
Sources of resistance to bacterial wilt and restorer-of-fertility genotype for cytoplasmic male sterility in Capsicum pepperHorticulture, Environment, and Biotechnology, 54
M. Zanón, M. Font, C. Jordá (2011)
Use of tomato crop residues into soil for control of bacterial wilt caused by Ralstonia solanacearumCrop Protection, 30
S. Hemalatha, R. Kumar, Manish Kumar (2008)
Withania coagulans Dunal: A reviewPharmacognosy Reviews, 2
J. Elsas, P. Kastelein, Petra Bekkum, Jean Wolf, Philippine Vries, Leo Overbeek (2000)
Survival of Ralstonia solanacearum Biovar 2, the Causative Agent of Potato Brown Rot, in Field and Microcosm Soils in Temperate Climates.Phytopathology, 90 12
NC Brady, RR Weil (1999)
The nature and properties of soils
M. Nguyen, S. Ranamukhaarachchi (2010)
Soil-borne antagonists for biological control of bacterial wilt disease caused by Ralstonia solanacearum in tomato and pepper.Journal of Plant Pathology, 92
F. Oguwike, D. Onubueze (2013)
Evaluation of Activities of Marigold Extract on Wound Healing Of Albino Wister RatIOSR Journal of Dental and Medical Sciences, 8
(2003)
Effects of compost addition ad stimulated solarization on the fate pf Ralstonia solanacearum biovar indigenous bacteria in soils
M. Aslam, T. Mukhtar, M. Hussain, M. Raheel (2017)
Assessment of resistance to bacterial wilt incited by Ralstonia solanacearum in tomato germplasmJournal of Plant Diseases and Protection, 124
K. Abo-Elyousr, Mohamed Seleim, Keinawi Abd-El-Moneem, F. Saead (2014)
Integrated effect of Glomus mosseae and selected plant oils on the control of bacterial wilt disease of tomatoCrop Protection, 66
(2005)
Dental Med Sci 8:67–70
JM Whipps, B Gerhardson (2007)
Modern soil microbiology edition
M. Owais, K. Sharad, A. Shehbaz, M. Saleemuddin (2005)
Antibacterial efficacy of Withania somnifera (ashwagandha) an indigenous medicinal plant against experimental murine salmonellosis.Phytomedicine : international journal of phytotherapy and phytopharmacology, 12 3
(2014)
Sterilization of granulomas is common in active and latent tuberculosis despite withinhost variability in bacterial killing
KAM Abo-Elyousr, MAA Seleim, KMH Abd-El-Moneem, FA Saead (2014)
Integrated effect of Glomus mosseae and selected plant oils on control of tomato bacterial wiltCrop Prot, 66
J. Sharma, G. Cheema, S. Saini, B. Gill (2010)
Soft rot disease of Aloe barbadensis and its management.Journal of research : Punjab Agricultural University, 47
M. Abdel-Monaim, K. Abo-Elyousr, K. Morsy (2011)
Effectiveness of plant extracts on suppression of damping-off and wilt diseases of lupine (Lupinus termis Forsik)Crop Protection, 30
P. Tiwari, M. Kaur, H. Kaur (2011)
Phytochemical screening and Extraction: A Review
S. Mahlo, L. McGaw, J. Eloff (2010)
Antifungal activity of leaf extracts from South African trees against plant pathogensCrop Protection, 29
M. Hassan, Mohamed Bereika, Heidi. Abo-Elnaga, M. Sallam (2009)
Direct Antimicrobial Activity and Induction of Systemic Resistance in Potato Plants Against Bacterial Wilt Disease by Plant ExtractsPlant Pathology Journal, 25
L. Kapoor (2000)
Handbook of Ayurvedic Medicinal Plants: Herbal Reference Library
N. Iacobellis, P. Cantore, F. Capasso, F. Senatore (2005)
Antibacterial activity of Cuminum cyminum L. and Carum carvi L. essential oils.Journal of agricultural and food chemistry, 53 1
JF Wang, CH Lin (2005)
Integrated management of tomato bacterial wilt
The potential of finely ground dried powder of different parts (leaves, succulent shoot and stem) of the desert medicinal plant, Withania coagulans, (L) Dunal to control bacterial wilt (BW) of tomato was explored using four different doses (0 g, 10 g, 20 g, and 30 g Kg−1 soil) and three different (0 days before transplanting DBT, or 10 DBT and 20 DBT) application timings. Both, in-vitro and in-vivo experiments were conducted. In in-vitro studies, each of the three concentrations (5%, 10%, and 20% w/v) of aqueous extracts of leaves, succulent shoot and stems inhibited the growth of the BW pathogen, Ralstonia solanacearum. The aqueous extract (20% w/v) of dried powder of leaves produced the maximum zones of inhibition (ZI) (20.8 mm) followed by that of succulent shoot (19.2 mm) and stem (16 mm) while the minimum ZI (11.2 mm,) was produced by the aqueous extracts of (5% w/v) stem powder. Consistent with the in-vitro results, the effect of the ground powders of the medicinal plant was found to be dose- and plant-part-dependent in in-vivo studies as well. Dried powder of leaves performed better than those of succulent shoot and stems. Leaves powder used at 30 g kg−1 soil under in-vivo conditions, reduced area under disease progress curve (AUDPC) by 37.54%, pathogen population g−1 of the infested soil by 45.04%, enhanced shoot length by 37.45%, root length by 63.36%, and plant fresh biomass by 38.62% as compared to untreated inoculated control plants. Dried powder of succulent shoot (tender shoots plus leaves) used at 30 g/kg soil, ranked second in terms of controlling bacterial wilt. It reduced AUDPC by 32.33%, pathogen population g−1of soil by 32.66%, augmented shoot and root lengths by 35%, and 62.39%, respectively and plant fresh biomass by 38.41% as compared to control plants. Lower doses of dried powders of all parts of the medicinal plant gave inferior results. Similarly, the application time of 20 DBT was found to be better than 10 DBT and 0 DBT. It achieved a reduction of 32.91% in AUDPC, and an augmentation of 41.32%, 54.42%, 54.53% in shoot length, root length and plant fresh biomass, respectively in comparison to untreated inoculated plants. Therefore, it is concluded that dried powder of leaves or succulent shoots of W. coagulans applied at the rate of 30 g kg−1 soil, 20 DBT, can be included as an effective component of integrated disease management (IDM) against BW.
Australasian Plant Pathology – Springer Journals
Published: Jan 31, 2019
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