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Mujeebur Rahman Khan
Mujeebur Rahman Khan
Professor, Department of Plant Protection, Aligarh Muslim University, Aligarh, UP, India
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Title
Cited by
Cited by
Year
Nanotechnology: Scope and Application in Plant Disease Management
MRKTF Rizvi
Plant Pathology Journal 13 (3), 214-231, 2014
2502014
The effect of fly ash on plant growth and yield of tomato
MR Khan, M Wajid
Environmental Pollution 92 (2), 105-111, 1996
2391996
Why Trichoderma is considered super hero (super fungus) against the evil parasites?
FA Mohiddin, MR Khan, SM Khan, BH Bhat
1712010
Nanoparticle–plant interactions: two‐way traffic
MR Khan, V Adam, TF Rizvi, B Zhang, F Ahamad, I Jośko, Y Zhu, M Yang, ...
Small 15 (37), 1901794, 2019
1522019
Effect of varying concentration of nickel and cobalt on the plant growth and yield of chickpea
MR Khan, MM Khan
Australian Journal of Basic and Applied Sciences 4 (6), 1036-1046, 2010
1442010
Tolerance of fungal and bacterial biocontrol agents to six pesticides commonly used in the control of soil borne plant pathogens
FA Mohiddin, MR Khan
Afr J Agri Res 8, 5272, 2013
1352013
Biological control of Fusarium wilt of chickpea through seed treatment with the commercial formulation of Trichoderma harzianum and/or Pseudomonas fluorescens
MR Khan, SM Khan, FA Mohiddin
Phytopathologia Mediterranea 43 (1), 20-25, 2004
1132004
Effects of root-dip treatment with certain phosphate solubilizing microorganisms on the fusarial wilt of tomato
MR Khan, SM Khan
Bioresource technology 85 (2), 213-215, 2002
1042002
Plant nematodes: methodology, morphology, systematics, biology and ecology
MR Khan
CRC Press, 2008
992008
Application of nanofertilizer and nanopesticides for improvements in crop production and protection
MR Khan, TF Rizvi
Nanoscience and Plant–Soil Systems, 405-427, 2017
942017
Effects of certain antagonistic fungi and rhizobacteria on wilt disease complex of tomato caused by Meloidogyne incognita and Fusarium oxysporum f. sp. lycopersici
MR Khan, M Akram
Nematologia Mediterranea 28 (2), 139-144, 2000
752000
Native Pseudomonas spp. suppressed the root-knot nematode in in vitro and in vivo, and promoted the nodulation and grain yield in the field grown mungbean
MR Khan, FA Mohidin, U Khan, F Ahamad
Biological Control 101, 159-168, 2016
722016
A new bioprocess to produce low cost powder formulations of biocontrol bacteria and fungi to control fusarial wilt and root-knot nematode of pulses
MR Khan, S Majid, FA Mohidin, N Khan
Biological Control 59 (2), 130-140, 2011
672011
Management of root‐knot disease of tomato by the application of fly ash in soil
MR Khan, MW Khan, K Singh
Plant Pathology 46 (1), 33-43, 1997
621997
Biological control of plant nematodes with phosphate solubilizing microorganisms
MR Khan, S Altaf, FA Mohiddin, U Khan, A Anwer
Phosphate Solubilizing Microbes for Crop Improvement”(MS Khan, A. Zaidi, eds …, 2009
612009
Management of root-knot disease in eggplant through the application of biocontrol fungi and dry neem leaves
MR Khan, FA Mohiddin, MN Ejaz, MM Khan
Turkish Journal of Biology 36 (2), 161-169, 2012
602012
Soil application of Pseudomonas fluorescens and Trichoderma harzianum reduces root-knot nematode, Meloidogyne incognita, on tobacco
MR Khan, Z Haque
Phytopathologia Mediterranea 50 (2), 257, 2011
592011
Field performance of Trichoderma species against wilt disease complex of chickpea caused by Fusarium oxysporum f. sp. ciceri and Rhizoctonia solani
MR Khan, S Ashraf, F Rasool, KM Salati, FA Mohiddin, Z Haque
Turkish Journal of Agriculture and Forestry 38 (4), 447-454, 2014
552014
Fungal bioinoculants for plant disease management
MR Khan, MA Anwer
Microbes and Microbial Technology, 447-488, 2011
552011
Metal nanoparticle–microbe interactions: synthesis and antimicrobial effects
MR Khan, KM Fromm, TF Rizvi, B Giese, F Ahamad, RJ Turner, M Füeg, ...
Particle & Particle Systems Characterization 37 (5), 1900419, 2020
522020
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