Bio-Efficacy of Bacillus Species in the Management of Root-Knot Nematode Pest of Pepper

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INTRODUCTION
Pepper, a good source of vitamins and antioxidants, is cultivated for vegetable, spice and value-added processed products 1 .Fresh fruits of pepper can be processed into paste and bottled for sale.The crop is used as a catch/trap crop to reduce field infestation of the parasite 2 .Bird, cayenne and skin hot peppers are the commonly cultivated in Nigeria.Their fruits which can be used fresh or dried vary in size, color, shape and pungency.
One of the economic important pests of pepper is the plant-parasitic nematodes.Nematodes cause yield loss and quality reduction of pepper which indirectly reduces its economic value 3 .For instance, root-knot nematode, Meloidogyne incognita, has been reported as the most widely and commonly encountered species of nematode on pepper 4 .They are responsible for about 70-90% yield losses in pepper.In economic terms, losses of about $157 billion annually have been estimated.Plant parasitic nematodes reduce the functional metabolism and growth of pepper; damage and weakened pepper root and accelerate root decay; cause galls (warty appearances) on the root of pepper.To overcome this effect, management of plant parasitic nematodes becomes imperative so that higher yield and quality of pepper is achieved 5 .
Nematode management is more difficult than other agricultural pests because they inhabit the soil and usually attack the underground part of the plant.Chemical methods have been customarily used to control nematodes.Chemical agents are easy to apply, have rapid effects, but are not eco-friendly and pose serious risk to the environment 6 .Biological control is one of the effective management strategies with little or no hazard.This biological approach predominantly utilizes the microorganism groups, like the fungi and bacteria that are present in the soil biota 7 .There are many nematophagus bacteria that prey on nematode and also produce certain toxins, antibiotics and enzymes.These nematophagus bacteria interfere with nematode-plant-host relationship and induce systemic resistance on plants and promote plant health 8,9 .These bacteria can form a complex interaction among bacteria, nematodes, plants and the environment to control populations of plant-parasitic nematodes in natural conditions 10 .Scientific interest has been stimulated in recent years, in the development of safer and more potent non-chemical pesticides for the management of plant-parasitic nematodes.This research falls within the economic pillars under the good health and well-being of the vision 2030 Sustainable Development Goals.The research provides foundational background information on the production of safe to eat foods for wellness and healthy life.Therefore, the field experiment was conducted to assess the performances of Bacillus cereus, Bacillus subtilis and Bacillus thuringiensis, singly and in combinationon the management of root knot nematode disease of pepper.Nursery preparations: A well-drained and hot steam (80-100EC) soil mixture consisting of compost and topsoil in equal proportions (50:50) was used in making seed beds of 1 m long and 0.3 m breadth with a spacing of 1 m in between the beds.Pepper seeds were broadcasted on the beds.Shade was provided with palm fronds while watering was done in morning and evening for 4 weeks before transplanting to the experimental site.

Experimental site and field layout:
The experiment was conducted at the Ladoke Akintola University of Technology (LAUTECH), Teaching and Research Farm, Ogbomoso, Nigeria.The selected area was cleared and divided into 4 blocks with 4 replicates for each of the varieties of pepper (Capscium annuum cv.OY/GBN/VI and Capsicum frutescens cv.NHVIA).Each block was composed of 7 treatments which were replicated four times giving a total of 56 plots for each variety of pepper and was laid out in 2×7 factorial, fitted into Randomized Complete Block Design (RCBD).Each plot is composed of 2 ridges, each ridge measuring 4 m long and 0.5 m wide.
Routine soil analysis: Soil sample (5 kg) collected with spade at a depth of 0-30 cm from the experimental site was air-dried, sieved through a 5 mm sieve and sub-samples were further sieved through 2.0 and 0.5 mm sieves and then taken to the laboratory for chemical and particle size distribution analyses.Soil pH was determined with the glass-electrode pH meter (Apera type, made in Columbus, Ohio, USA) on 1:1 soil-solution mixture.The organic carbon was determined by Walkey-Black method 11 and the total N was by regular macro-Kjeldahl (Manufactured by Velp Scientifica, Usmate, Italy) method.Available P was extracted by the Mehlich 12 method, while the exchangeable cations were extracted with 1N NH 4 OAc solution.Calcium, Na and K were measured with the flame photometer and Mg was found using the atomic absorption spectro-photometer (Manufactured by Infitek Co. Ltd, China) 13 .Exchangeable acidity (H + ) of the soil was determined using titration method.Effective Cation Exchange Capacity (ECEC) was established as the sum of the exchangeable cations, K, Na, Ca and Mg and H + expressed in c mol/kg of soil.

Planting operation:
The pepper seedlings were transplanted to the experimental field at 4 weeks after sowing.The seedlings were planted at one seedling per stand and weeding was done at when due.

Extraction and inoculation of nematode:
A standard method of Whitehead and Hemming 14 was used to extract the root-knot nematode, Meloidogyne incognita, from rootstock of infected Celosia argentea.
Pepper seedlings were inoculated with M. incognita, at two weeks after transplanting, with each plant being inoculated with 5000 juveniles as soil drench within the plant rhizosphere.Determination of nematode population in soil at transplanting and harvest periods: Soil samples were randomly collected from the plots during the period of transplanting of the pepper seedlings and after harvest for nematode extraction.A total of 28 soil samples were taken to the laboratory for nematode extraction using the modified Baermann's technique 15 .Nematodes were extracted from 250 cm 3 soil, identified and counted using stereomicroscope (manufactured by Infitek, China).
Statistical analysis: Data collected on plant height, number of leaves per plant, number of branches per plant, number of fruits per plant, fruit weight, initial and final nematode population were subjected to Analysis of Variance (ANOVA) and means were separated using the Fisher's Least Significant Difference (LSD) at 5% probability level.

Effects of Bacillus species on the number of flowers:
The effect of Bacillus spp.and pepper variety on the number of flowers produced by pepper was presented in Table 5. Application of Bacillus spp.had significant effects (p<0.05) on the number of flowers produced between 4 and 8 WAT.But there was no significant difference between the number of flowers produced at 10 and 12 WAT (p>0.05).Pepper variety had no significant effect on the number of flowers.Untreated pepper (control) had the lowest number of flowers.
Capsicum frutescens significantly produced the highest number of flowers except at 8 and 12 WAT.The interaction between the Bacillus spp.and pepper variety significantly (p<0.05)influenced the number of flowers at 8 WAT.

Effects of Bacillus species on the yield:
The effects of Bacillus spp.and pepper variety on the yield parameters of pepper was presented in Table 6.Both the number and weight of fruits were significantly influenced (p<0.05) by the Bacillus spp.With regards to the pepper variety, the number of fruits was significantly affected (p<0.05) by the variety while the weight of fruits was not significantly affected (p>0.05).Pepper that was treated with B. thuringiensis consistently produced the highest number of fruits for C. annuum and C. frutescens (9.0 and 6.0, respectively) as well as increased weight of fruits for

DISCUSSION
There are various reports on root-knot nematodes, as the most economic important plant parasitic nematodes,because they infest most of the economically important crop species.Reports of successful control of plant-parasitic nematodes with medicinal plant have been given by some researchers 15 .One valuable substitute that is gaining popularity in nematode management is biological control, predominantly involving microorganisms like fungi and bacteria 7 .
The Bacillus species can effectively control nematode infestation on the pepper plants as observed on the growth parameters compared to plants that received no Bacillus treatment (control).This agreed with the findings of some researchers who worked medicinal plants and bio-control agents and reported that bio-control agents improve the growth of crops that are infected with plant-parasitic nematodes.The findings of this report, however, indicates that the different Bacillus spp. that were evaluated have different efficiency against the root-knot nematodes.In addition, the non-significant variation observed for most of the growth parameters at 4 WAT may be due to the fact that the inoculated Bacillus spp.are yet to be fully activated.
Although chemical agents like carbofuran are efficient in controlling nematodes 16 , their persistence may pose ecological problems 17 .Therefore, bio-control is suggested as a safer solution.Various fungal antagonists of nematodes have shown promising results.In this study, the Bacillus species are promising in the control of the root-knot nematode infestation by significant improved growth and yield of pepper.
Incorporation of Bacillus spp.into nematode infested soil sown to pepper reduced the population density of root-knot nematode and increased the fruit yield.Higher fruit yield recorded in plots amended with the Bacillus spp., might be due to a reduction in nematode population in the soil, thus resulting in an overall reduction in injuries to the root system and hence a more efficient use of soil nutrients 18,19 .The Bacillus spp., may have killed the juveniles of the root-knot nematodes in the soil through different mechanisms including parasitism of juveniles, adults and eggs as well as through nematode trapping.This can also be due to improved activities of other microorganisms activated by the bio-control bacteria amendments; many of which are reported to be antagonistic to phyto-nematodes.

CONCLUSION
In the present study, application of Bacillus species effectively controlled the population of root-knot nematode in pepper fields.However, application of B. subtilis, B. cereus, B. thuringiensis and their combinations were effective bio-control treatment in managing parasitic nematodes.

SIGNIFICANCE STATEMENT
Due to public concern about the risks associated with synthetic pesticides, researchers have geared their efforts to find permanent solution to the problems through the use of bio-control agents.source of carcinogenic diseases and food poisons, has been banned because of their high toxicity andhazardous effect on the crops, environment, soil and consumers.One of the outstanding ways outof these problems is the application of bio-control agents, e.g.Bacillus, Pseudomonas and Trichoderma species.The current research therefore addresses the application of Bacillus species in the management of root-knot on pepper.
Study area: The research was conducted at the Teaching and Research Farm, Ladoke Akintola University of Technology, Ogbomoso, Nigeria on Latitude and Longitude coordinates of 8.142165EN and 4.245186EE during 2023 cropping season.Source of pepper seeds: The two varieties of pepper seeds, Capsicum annuum cv.Y/GBN/VI and long cayenne Capsicum frutescens cv.NHVIA, root knot-nematode susceptible pepper varieties, were obtained from National Institute of Horticultural Research (NIHORT), Ibadan, Oyo State, Nigeria.Source of Bacillus species: The three Bacillus species (B.cereus, B. subtilis and B. thuringiensis) pure inoculum were obtained from the International Institute of Tropical Agriculture (IITA), Ibadan, Oyo State, Nigeria and culture at the Department of Crop and Environmental Protection, Faculty of Agricultural Sciences, Ladoke Akintola University of Technology, Ogbomoso, Oyo State, Nigeria, on 1.8 g of yeast agar and 10 g of sugar into 1000 mL of distilled water inside a 2000 mL capacity flask, under sterile condition for 3 weeks.

Treatment application :
The seven treatments used were individual and combination of each of the Bacillus species (B.cereus, B. subtilis, Bacillus thuringiensis, B. cereus+B.subtilis, B. cereus+B.thuringiensis, B. subtilis+B.thuringiensis and control).Application rates of 1.0 L of different Bacillus species at 1×10 7 spore per 10 mL into 10 L of water was applied as a soil drench in the 4th week after transplanting.
after transplanting, *,**Data significant at p<0.05 and Ns: Data not significant at p>0.05 Table5: Effects of Bacillus species on the number of flowers of pepper inoculated with plant parasitic nematodes in after transplanting, *Data significant at p<0.05 and Ns: Data not significant at p>0.05

Table 1 :
Physical and chemical properties of the soil of the experimental site 1. https://doi.org/10.3923/ajpp.2024.29.38 | Page 31 Effects of Bacillus spp., on the plant height: The effect of Bacillus spp.and pepper variety on plant height of pepper as presented in Table 2 was significantly influenced (p<0.05) by the Bacillus species between 4 and 8 weeks after transplanting (WAT).Throughout the study, plants treated with Bacillus spp.and their combinations resulted in significantly taller plants than control.At 4 and 6 WAT, B. subtilis produced the tallest C. annuum plants (40.00 and 42.33 cm) respectively, while the combination of B. cereus and B. thuringiensis resulted in the tallest C. annuum plants (45.67 and 47.00 cm), respectively.The tallest C. annuum plants at 8 WAT (44.67 cm) was recorded on plots treated with B. subtilis while the tallest C. frutescens plants (49.00 cm) was recorded on plots treated with the combination of B. cereus and B. thuringiensis.

Effects of Bacillus species on the number of leaves:
Control plants had the lowest number of leaves.At 8 WAT, the combination of B. cereus and B. thuringiensis produced the highest number of leaves (297.6) for C. annuum while the combination of B. subtilis and B. thuringiensis produced the highest number of leaves for C. frutescens (255).The control plot had the lowest number of leaf per plant.
The effects of Bacillus spp.and pepper variety on the number of leaves of pepper were presented in Table3.The Bacillus treatments significantly (p<0.05)influenced the number of leaves at 6 and 8 WAT.The pepper varieties significantly (p<0.05)determined the number of leaves at 4, 6 and 10 WAT.The C. frutescens, plants treated with the combination of B. cereus and B. subtilis had the highest number of leaves (228) while at 6 WAT, B. subtilis produced the highest number of leaves (267.67) for C. annuum as well as for C. frutescens (266.67).

of Bacillus species on the number of branches:
The number of branches of pepper as influenced by Bacillus spp.and pepper varieties was presented in Table4.The Bacillus treatments significantly (p<0.05)influenced the number of branches throughout data collection except at 4 WAT (p$0.05) while the pepper variety had no significant effect on the number of branches.At 4 WAT, the highest number of C. annuum branches (5.33) was recorded on plants treated with B. subtilis though this was not significantly different from the number of branches recorded from other Bacillus spp.The highest number of C. frutescens branches (4.33) was recorded on plants that were treated with a combination of B. cereus and B. thuringiensis; for the rest of the observation period, plants treated with B. thuringiensis https://doi.org/10.3923/ajpp.2024.29.38 | Page 32 https://doi.org/10.3923/ajpp.2024.29.38 | Page 33

Table 2 :
Effects of Bacillus species on the plant height (cm) of pepper inoculated with plant parasitic nematode in Ogbomoso

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Treatment Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper

Table 3 :
Effects of Bacillus species on the number of leaves of pepper inoculated with plant parasitic nematodes in Ogbomoso

Table 4 :
pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Effects of Bacillus species on the number of branches of pepper inoculated with plant parasitic nematodes in Ogbomoso https://doi.org/10.3923/ajpp.2024.29.38 | Page 34

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Treatment Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper

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Treatment Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper Bell pepper Cayenne pepper

Table 6 :
Effects of Bacillus species on yield of pepper inoculated with parasitic nematode in Ogbomoso

Table 7 :
Effects of Bacillus species on nematode infestation of pepper in Ogbomoso highest number of branches for the two pepper varieties and this was not significantly different from the number of branches recorded from plants treated with B. subtilis and B. subtilis plus B. thuringiensiss combination.Untreated plants (control) steadily produced the lowest number of branches while C. frutescens also constantly produced the highest number of branches throughout the experiment.

of Bacillus species on the nematode population:
. annuum and C. frutescens (49.0 and 71.33 g, respectively) while the values for both parameters did not significantly differ among the other Bacillus spp.The controls had lowest number of fruit and fruit weight.Interaction between the Bacillus spp.and the pepper variety had a significant (p<0.05)effect on the number of fruits.The effects of Bacillus spp.and pepper variety on the nematode infestation of pepper was presented in Table7.Bacillus spp.significantly (p<0.05)affected the final nematode population in the soil.Plots treated with a combination of B. cereus and B. subtilis had the lowest nematode population on plots that contained C. annuum (140.67) and C. frutescens (151.67).