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Year 2021, Volume: 2 Issue: 1, 175 - 182, 30.06.2021

Abstract

References

  • Abd-Elgawad MMM and Askary TH (2015). Impact of Phytonematodes on Agriculture Economy. Biocontrol Agents of Phytonematodes. Publisher: CABI, Wallingford, 3-49.
  • Ahmad F, Rather MA and Siddiqui MA (2010). Nematicidal activity of leaf extracts from Lantana camara L. against Meloidogyne incognita (kofoid and white) chitwood and its use to manage roots infection of Solanum melongena L. Brazilian Archives of Biology and Technology, 53(3): 543-548.
  • Al-Yahya FA (2018). Plant parasitic nematodes: A Serious threat to agricultural crops in the Kingdom of Saudi Arabia. Journal of Experimental Biology and Agricultural Sciences, 6(3): 628-632.
  • Anwar SA and Mckenry MV (2012). Incidence and Population Density of Plant-Parastic Nematodes Infecting Vegetable Crops and Associated Yield losses in Punjab, Pakistan. Pakistan Journal of Zoology 44(2): 327-333.
  • Bardgett RD and Van Der Putten WH (2014). Belowground biodiversity and ecosystem functioning. Nature, 515: 505-511.
  • Chattopadhyay I, Biswas K, Bandyopadhyay, U and Banerjee RK (2004). Turmeric and curcumin: biological actions and medicinal applications. Current Science, 87 (1): 44-53.
  • Damalas CA (2011). Potential uses of turmeric (Curcuma longa) products as alternative means of pest management in crop production. Plant Omics, 4(3): 136.
  • Desaeger J, Dickson DW and Locascio SJ (2017). Methyl bromide alternatives for control of root-knot nematode (Meloidogyne spp.) in tomato production in Florida. Journal of Nematology, 49: 140-149.
  • Echeverrigaray S, Zacaria J and Beltrão R (2010). Nematicidal activity of monoterpenoids against the rootknot nematode Meloidogyne incognita. Phytopathology, 100(2): 199-203.
  • Faheem A, Rather MA, Siddiqui MA (2010). Nematicidal activity of leaf extracts from Lantana camara L. against Meloidogyne incognita (kofoid and white) chitwood and its use to manage roots infection of Solanum melongena L. Brazilian Archives of Biology and Technology, 53(3): 543-548.
  • Forghani F and Hajihassani A (2020). Recent advances in the development of environmentally benign treatments to control root-knot nematodes. Frontiers Plant Science, 11:1125.
  • Hajihassani A, Davis RF and Timper P (2019). Evaluation of selected non fumigant nematicides on increasing inoculation densities of Meloidogyne incognita on cucumber. Plant Disease, 103: 3161-3165.
  • Hoeksema JD, Lussenhop J and Teeri JA (2000). Soil nematodes indicate food web responses to elevated atmospheric CO2. Pedobiologia, 44(6): 725-735.
  • Hussey R and Barker K (1973). Comparison of methods of collecting inocula of Meloidogyne spp., including a new technique. Plant disease reporter.
  • Kaşkavalcı G (2007). Effects of soil solarization and organic amendment treatments for controlling Meloidogyne incognita in tomato cultivars in western Anatolia. Turkish Journal of Agriculture and Forestry, 31: 159-167.
  • Kim TY, Jang JY, Yu NH, Chi WJ, Bae CH and Yeo JH (2018). Nematicidal activity of grammicin produced by Xylaria grammica KCTC 13121BPagainst Meloidogyne incognita. Pest Management Science, 74: 384-391.
  • Lambert K and Bekal S (2002). Introduction to plant-parasitic nematodes. The Plant Health Instructor. Mcsorley R, Arenett JD, Bost SS, Carte WW, Hafez SA, Johnson AW, Kirkpatrick T, Nyczepir AP,
  • Radewald JD, Robinson AF and Schemitt DP (1987). Bibliography of estimated crop losses in the United States due to plant parastic nematodes. Annls app. Nematology, 1: 6-12.
  • Medina-Canales MG, Terroba-Escalante P, Manzanilla-López RH and Tovar-Soto A (2019). Assessment of three strategies for the management of Meloidogyne arenaria on carrot in Mexico using Pochonia chlamydosporia var. mexicana under greenhouse conditions. Biocontrol Science and Technology, 29: 671-685.
  • Neher DA and Campbell CL (1994). Nematode communities and microbial biomass in soils with annual and perennial crops. Applied Soil Ecology 1(1): 17-28.
  • Nico AI, Jiménez-Dı́az RM, Castillo P (2004). Control of root-knot nematodes by composted agro-industrial wastes in potting mixtures. Crop Protection, 23(7): 581-587.
  • Palaniswamy UR (2001). Human dietetics and Asian food crops. Horticulture Technology, 11 (4): 504-509.
  • Palomares-Rius JE, Castillo P, Montes-Borrego M, Müller H, Landa BB (2012). Nematode community populations in the rhizosphere of cultivated olive differs according to the plant genotype. Soil Biology and Biochemistry, 45: 168-171.
  • Ravindran PN, Nirmal Babu K and Sivaraman K (2007). Turmeric: the genus Curcuma, CRC Press.
  • Roth GN, Chandra A and Nair MG (1998). Novel bioactivities of Curcuma longa constituents. Journal of Natural Products, 61(4): 542-545.
  • Stephen AA, Aruna OA, Charity A, Sunday I, Nkechi BI, Patricial FA, Avwerosuo E and Samuel O (2020). Control of root-knot nematode (Meloidogyne incognita) in tomato (Solanum lycopersicum) crop using siam weed (Chromolaena odorata) compost manure. Journal of Horticultural Research, 28(1): 87-92.
  • Van den Hoogen J, Geisen S, Routh D, Ferris H, Traunspurger W and Wardle DA (2019). Soil nematode abundance and functional group composition at a global scale. Nature, 572: 194-198.
  • Van Gundy SD (1985). Ecology of Meloidogyne spp. - emphasis on environmental factors affecting survival and pathogenicity. In: An advanced treatise on Meloidogyne. Vol. I. Biology and control, eds. by J. N.
  • Sasser and C. C. Carter,pp. 177-182. North Carolina State University, Raleigh, NC, USA. Wesemael WM, Viaene N, Moens M (2011). Root-knot nematodes (Meloidogyne spp.) in Europe. Nematology, 13(1): 3-16.
  • Xiang N, Lawrence KS and Donald PA (2018). Biological control potential of plant growth-promoting rhizobacteria suppression of Meloidogyne incognitaon cotton and Heterodera glycines on soybean: A review. Journal of Phytopathology, 166: 449-458.
  • Xiao L, Wan JW, Yao JH, Feng H and Wei LH (2018). Effects of Bacillus cereus strain Jdm1 on Meloidogyne incognita and the bacterial community in tomato rhizosphere soil. Biotechnology, 8: 1-8

Nematicidal Effects of Various Fractions of Curcuma longa against Meloidogyne incognita (root knot nematodes)

Year 2021, Volume: 2 Issue: 1, 175 - 182, 30.06.2021

Abstract

Parasitism is an important limiting factor responsible to cause damage to agricultural production. Plant parasitic root knot nematodes attack several economic crops in Pakistan. Plant parasitic nematodes considerably add huge losses to economies in the top tomatoes crop producing countries throughout the world, instead of controlling the main pathogenic nematode species as usual; one of the innovative strategies to control plant-parasitic nematodes would be to manage diversity in communities in order to lead them to be less pathogenic. The plants and their materials are one of the potential remedies for nematodes management. Turmeric (Curcuma longa) along with its several biological applications may serve as a biopesticide against Meloidogyne incognita, a nematode species. A bioassay guided isolation of various fractions of turmeric was subjected to nematicidal activity in comparison with Azadirachta indica against Meloidogyne incognita larvae at the concentration of 0.25, 0.5, and 1% for 48 hours. Alongside, Larvae and eggs of nematodes were inoculated around the tomato seedlings in experiments with turmeric in a growth chamber. The control contains water instead of turmeric. Root gall severity and final nematode population were suppressed significantly. It was observed that the use of turmeric is very important for selected plant parasitic nematodes management.

References

  • Abd-Elgawad MMM and Askary TH (2015). Impact of Phytonematodes on Agriculture Economy. Biocontrol Agents of Phytonematodes. Publisher: CABI, Wallingford, 3-49.
  • Ahmad F, Rather MA and Siddiqui MA (2010). Nematicidal activity of leaf extracts from Lantana camara L. against Meloidogyne incognita (kofoid and white) chitwood and its use to manage roots infection of Solanum melongena L. Brazilian Archives of Biology and Technology, 53(3): 543-548.
  • Al-Yahya FA (2018). Plant parasitic nematodes: A Serious threat to agricultural crops in the Kingdom of Saudi Arabia. Journal of Experimental Biology and Agricultural Sciences, 6(3): 628-632.
  • Anwar SA and Mckenry MV (2012). Incidence and Population Density of Plant-Parastic Nematodes Infecting Vegetable Crops and Associated Yield losses in Punjab, Pakistan. Pakistan Journal of Zoology 44(2): 327-333.
  • Bardgett RD and Van Der Putten WH (2014). Belowground biodiversity and ecosystem functioning. Nature, 515: 505-511.
  • Chattopadhyay I, Biswas K, Bandyopadhyay, U and Banerjee RK (2004). Turmeric and curcumin: biological actions and medicinal applications. Current Science, 87 (1): 44-53.
  • Damalas CA (2011). Potential uses of turmeric (Curcuma longa) products as alternative means of pest management in crop production. Plant Omics, 4(3): 136.
  • Desaeger J, Dickson DW and Locascio SJ (2017). Methyl bromide alternatives for control of root-knot nematode (Meloidogyne spp.) in tomato production in Florida. Journal of Nematology, 49: 140-149.
  • Echeverrigaray S, Zacaria J and Beltrão R (2010). Nematicidal activity of monoterpenoids against the rootknot nematode Meloidogyne incognita. Phytopathology, 100(2): 199-203.
  • Faheem A, Rather MA, Siddiqui MA (2010). Nematicidal activity of leaf extracts from Lantana camara L. against Meloidogyne incognita (kofoid and white) chitwood and its use to manage roots infection of Solanum melongena L. Brazilian Archives of Biology and Technology, 53(3): 543-548.
  • Forghani F and Hajihassani A (2020). Recent advances in the development of environmentally benign treatments to control root-knot nematodes. Frontiers Plant Science, 11:1125.
  • Hajihassani A, Davis RF and Timper P (2019). Evaluation of selected non fumigant nematicides on increasing inoculation densities of Meloidogyne incognita on cucumber. Plant Disease, 103: 3161-3165.
  • Hoeksema JD, Lussenhop J and Teeri JA (2000). Soil nematodes indicate food web responses to elevated atmospheric CO2. Pedobiologia, 44(6): 725-735.
  • Hussey R and Barker K (1973). Comparison of methods of collecting inocula of Meloidogyne spp., including a new technique. Plant disease reporter.
  • Kaşkavalcı G (2007). Effects of soil solarization and organic amendment treatments for controlling Meloidogyne incognita in tomato cultivars in western Anatolia. Turkish Journal of Agriculture and Forestry, 31: 159-167.
  • Kim TY, Jang JY, Yu NH, Chi WJ, Bae CH and Yeo JH (2018). Nematicidal activity of grammicin produced by Xylaria grammica KCTC 13121BPagainst Meloidogyne incognita. Pest Management Science, 74: 384-391.
  • Lambert K and Bekal S (2002). Introduction to plant-parasitic nematodes. The Plant Health Instructor. Mcsorley R, Arenett JD, Bost SS, Carte WW, Hafez SA, Johnson AW, Kirkpatrick T, Nyczepir AP,
  • Radewald JD, Robinson AF and Schemitt DP (1987). Bibliography of estimated crop losses in the United States due to plant parastic nematodes. Annls app. Nematology, 1: 6-12.
  • Medina-Canales MG, Terroba-Escalante P, Manzanilla-López RH and Tovar-Soto A (2019). Assessment of three strategies for the management of Meloidogyne arenaria on carrot in Mexico using Pochonia chlamydosporia var. mexicana under greenhouse conditions. Biocontrol Science and Technology, 29: 671-685.
  • Neher DA and Campbell CL (1994). Nematode communities and microbial biomass in soils with annual and perennial crops. Applied Soil Ecology 1(1): 17-28.
  • Nico AI, Jiménez-Dı́az RM, Castillo P (2004). Control of root-knot nematodes by composted agro-industrial wastes in potting mixtures. Crop Protection, 23(7): 581-587.
  • Palaniswamy UR (2001). Human dietetics and Asian food crops. Horticulture Technology, 11 (4): 504-509.
  • Palomares-Rius JE, Castillo P, Montes-Borrego M, Müller H, Landa BB (2012). Nematode community populations in the rhizosphere of cultivated olive differs according to the plant genotype. Soil Biology and Biochemistry, 45: 168-171.
  • Ravindran PN, Nirmal Babu K and Sivaraman K (2007). Turmeric: the genus Curcuma, CRC Press.
  • Roth GN, Chandra A and Nair MG (1998). Novel bioactivities of Curcuma longa constituents. Journal of Natural Products, 61(4): 542-545.
  • Stephen AA, Aruna OA, Charity A, Sunday I, Nkechi BI, Patricial FA, Avwerosuo E and Samuel O (2020). Control of root-knot nematode (Meloidogyne incognita) in tomato (Solanum lycopersicum) crop using siam weed (Chromolaena odorata) compost manure. Journal of Horticultural Research, 28(1): 87-92.
  • Van den Hoogen J, Geisen S, Routh D, Ferris H, Traunspurger W and Wardle DA (2019). Soil nematode abundance and functional group composition at a global scale. Nature, 572: 194-198.
  • Van Gundy SD (1985). Ecology of Meloidogyne spp. - emphasis on environmental factors affecting survival and pathogenicity. In: An advanced treatise on Meloidogyne. Vol. I. Biology and control, eds. by J. N.
  • Sasser and C. C. Carter,pp. 177-182. North Carolina State University, Raleigh, NC, USA. Wesemael WM, Viaene N, Moens M (2011). Root-knot nematodes (Meloidogyne spp.) in Europe. Nematology, 13(1): 3-16.
  • Xiang N, Lawrence KS and Donald PA (2018). Biological control potential of plant growth-promoting rhizobacteria suppression of Meloidogyne incognitaon cotton and Heterodera glycines on soybean: A review. Journal of Phytopathology, 166: 449-458.
  • Xiao L, Wan JW, Yao JH, Feng H and Wei LH (2018). Effects of Bacillus cereus strain Jdm1 on Meloidogyne incognita and the bacterial community in tomato rhizosphere soil. Biotechnology, 8: 1-8
There are 31 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Research Articles
Authors

Uzma Rashıd This is me 0000-0002-5118-4706

Aijaz Ali Panhwar 0000-0003-0630-1835

Aisha Farhan This is me 0000-0003-2204-3434

Musarrat Akhter 0000-0003-2006-2180

Nusrat Jalbani This is me 0000-0002-8168-0823

Durdana Rais Hashmi 0000-0003-0045-9068

Publication Date June 30, 2021
Submission Date December 2, 2020
Acceptance Date April 14, 2021
Published in Issue Year 2021 Volume: 2 Issue: 1

Cite

APA Rashıd, U., Panhwar, A. A., Farhan, A., Akhter, M., et al. (2021). Nematicidal Effects of Various Fractions of Curcuma longa against Meloidogyne incognita (root knot nematodes). Turkish Journal of Agricultural Engineering Research, 2(1), 175-182.

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