EFFICACY OF CERTAIN CHEMICAL AND SAFE ALTERNATIVE COMPOUNDS ON THE CABBAGE APHID BREVICORYNE BRASSICAE (LINNAEUS) AND ITS ASSOCIATED PARASITOID DIAERETIELLA RAPAE (MCLNTOCH) INHABITING CABBAGE PLANTATIONS فعالية بعض المرکبات الکيميائية و البدائل الأمنة للمبيدات علي من الکرنب والطفيل المصاحب له التي تقطن زراعات الکرنب

Document Type : Original Article

Abstract

ABSTRACT:
The study was conducted to evaluate the efficacy of two newly introduced European safe alternative compounds (Evure® and Karate® Zeon) versus two biocide compounds (Biosad 22% SC and Abamectin 1.8%EC), and the chemical compound (Melody 24%SC) against the cabbage aphid Brevicoryne brassicae (Linnaeus) inhabiting cabbage plantations during 2017/18 and 2018/19 cabbage growing seasons in Assiut, northern upper Egypt. Impact of the tested compounds on the infestation levels and the yield income was evaluated. Also, their side effect against the emergence of the aphid parasitoid Diaeretiella rapae (Mclntoch) was taken in consideration. Data revealed that the newly introduced compound (Karate® Zeon) was the most effective compound on the population density of B. brassicae during the entire period of study with 98.98% reduction in the pest numbers. The other newly introduced compound (Evure®) reduced the pest numbers by less reduction percentage (94.20%), and ranked the second. The chemical compound (Melody 24%SC) reduced the pest populations by 93.40% (less than both of the two newly introduced safe alternative compounds). The biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) presented 78.99 and 59.08% reduction in the pest populations and appeared as the least effective compounds. Efficacy on the infestation levels and damaged (unmarketable) plants showed slight variation between the tested compounds (ranged between 47.46 -55.34 and 46.78-49.10%, respectively). So, use of these compounds led to an increase in the marketable cabbage plants (yield income) by more than 50%. Unfortunately the highest effective compound (Karate® Zeon) against cabbage aphid reduced the emerged parasitoid D. rapae by 91.64%, and consequently could be has cautions as aphids control agent. According to their acceptable effectiveness against B. brassicae populations, infestation levels , unmarketable plants and low effectiveness against D. rapae,  it can be recommended to use the biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) to manage the population density of cabbage aphids in the field by more than one application throughout one season.
الملخص العربي :
أجريت الدراسة لتقييم فعالية مرکبين حديثي الأستيراد من الأتحاد الأوربي (Evure® and Karate® Zeon) مقارنة بمرکبين طبيعيين (Biosad 22% SC and Abamectin 1.8 % EC) بالأضافة للمرکب الکيميائي (( Melody 24%SC  ضد حشرة من الکرنب Brevicoryne brassicae (Linnaeus)  الذي يقطن زراعات الکرنب خلال موسمي نمو الکرنب 2017/18 و 2018/19 بأسيوط شمالي صعيد مصر. تم أيضا تقييم فعالية هذه المرکبات علي معدل الأصابة وکمية المحصول. کما أخذ في الأعتبار تأثير هذه المرکبات علي نسبة أعداد الطفيل Diaeretiella rapae (Mclntoch)  المنبثقة من مومياوات المن المتطفل عليه. أظهرت النتائج أن المرکب (Karate® Zeon) کان أکثر المرکبات فعالية علي کثافة مجاميع  حشرة من الکرنب بمتوسط خفض عام 98,98%. تلاه في ذلک مرکب (Evure®) بمتوسط خفض عام 20,94%. المرکب الکيميائي (Melody 24%SC  ( تمکن من خفض أعداد الأفة بمقدار 40,93% ( أقل من المرکبين السابقين). المرکبات الطبيعية (Abamectin 1.8% EC and Biosad 22% SC) أظهرت أقل نسبة خفض في تعداد الأفة بمقدار99,78 و 08,59%  علي التوالي. فعالية المرکبات المختبرة علي خفض نسبة النباتات المصابة و النباتات غير الصالحة للبيع تراوحت بين  46,47 –  64, 55 و  38,46-  10,49% علي التوالي. و بهذا فقد ظهر أن أستخدام هذه المرکبات أدي ألي زيادة في المحصول بنسبة تجاوزت ال 50%. لسوء الحظ فأن أکثر المرکبات فعالية علي الأفة کان أکثرها فعالية علي الطفيل المصاحب حيث أدي أستخدامه ألي نسبة خفض في أعداد الطفيل المنبثق من المومياوات مقدارها 64, 91%. و بالتالي فانه يجب أن يکون هناک محاذير عند أستخدام هذا المرکب کعنصر لمکافحة المن. نسبة الخفض المقبولة في أعداد الأفة و التي تبعها نسبة خفض قليلة في أعداد الطفيل المنبثقة عند أستخدام مرکبي (Abamectin 1.8% EC and Biosad 22% SC) توجب التوصية بأستخدام هذين المرکبين الطبيعيين لمکافحة من الکرنب الذي يصيب الکرنب حتي لو أستدعي ذلک تطبيقها أکثر من مرة في الموسم الواحد.

Keywords


Efficacy of Certain Chemical and Safe Alternative Compounds on the Cabbage Aphid Brevicoryne brassicae (Linnaeus) and its Associated Parasitoid Diaeretiella rapae (Mclntoch) Inhabiting Cabbage Plantations

Farouk A. Abdel-Galil *, Safaa, M.A. Amro**, Abd El-Raheem A. Abd El -Raheem** and Dalya Y.A. Darwish*

*Plant Protection Department, Faculty of Agriculture, Assiut University, Assiut, Egypt.

** Plant Protection Research Institute, Agricultural Research Center, Dokki, Giza, Egypt.

Corresponding Author, Email address: faagalil@hotmail.com

ABSTRACT:

The study was conducted to evaluate the efficacy of two newly introduced European safe alternative compounds (Evure® and Karate® Zeon) versus two biocide compounds (Biosad 22% SC and Abamectin 1.8%EC), and the chemical compound (Melody 24%SC) against the cabbage aphid Brevicoryne brassicae (Linnaeus) inhabiting cabbage plantations during 2017/18 and 2018/19 cabbage growing seasons in Assiut, northern upper Egypt. Impact of the tested compounds on the infestation levels and the yield income was evaluated. Also, their side effect against the emergence of the aphid parasitoid Diaeretiella rapae (Mclntoch) was taken in consideration. Data revealed that the newly introduced compound (Karate® Zeon) was the most effective compound on the population density of B. brassicae during the entire period of study with 98.98% reduction in the pest numbers. The other newly introduced compound (Evure®) reduced the pest numbers by less reduction percentage (94.20%), and ranked the second. The chemical compound (Melody 24%SC) reduced the pest populations by 93.40% (less than both of the two newly introduced safe alternative compounds). The biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) presented 78.99 and 59.08% reduction in the pest populations and appeared as the least effective compounds. Efficacy on the infestation levels and damaged (unmarketable) plants showed slight variation between the tested compounds (ranged between 47.46 -55.34 and 46.78-49.10%, respectively). So, use of these compounds led to an increase in the marketable cabbage plants (yield income) by more than 50%. Unfortunately the highest effective compound (Karate® Zeon) against cabbage aphid reduced the emerged parasitoid D. rapae by 91.64%, and consequently could be has cautions as aphids control agent. According to their acceptable effectiveness against B. brassicae populations, infestation levels , unmarketable plants and low effectiveness against D. rapae,  it can be recommended to use the biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) to manage the population density of cabbage aphids in the field by more than one application throughout one season.

Key words:Cabbage aphid, parasitoids, chemical control, safe alternative compounds.


 

 

 

 

INTRODUCTION

The cabbage aphid Brevicoryne brassicae (Linnaeus) causes serious losses of yield in Brassica crops and reduces its marketable value (Liu et al., 1994; Costello and Altieri, 1995). This insect pest is one of the most common pests of cabbage crop in Egypt (El-Fakharany and Hendawy, 2010). Aphid's associated parasitoids are very important control agents in a variety of agricultural and horticultural crops. The hymenopterous parasitoid Diaeretiella rapae (McIntosh) is a highly polyphagous parasitic wasp parasitizing exclusively aphids throughout the world infesting hundreds of plant species, both cultivated and wild (Singh and Singh, 2015). Several decades ago , D. rapae was reported as the most effective natural enemy against the cabbage aphid, B. brassicae (George,1957) and it has been observed to cause as high as 72% parasitism in the Netherlands (Hafez, 1961) and 76% parasitism in Kenya (Bahana and Karuhize,1986). Continuous usage of broad-spectrum insecticides for aphid control was an occasion to its resurgence, secondary pest outbreaks, and increasing levels of resistance to insecticides. So, predominant pest control strategy has led to intensification of research on alternative control techniques and to the use of selective insecticides. Among the products that are recommended for aphid control, Pymetrozine has reported highest selectivity, systematic insecticide that harmless to natural enemies and can be used in integrated pest management (IPM) programs (Rimaz and Valizadegan, 2013). Spinosyns compounds being of biological origin, and are considered to have a low environmental impact and they are not much aggressive against non-target species. Also, these compounds had broad range of action against many insect pests belonging to different orders, noxious to a wide variety of agricultural crops. For all these reasons, these compounds are considered one of the most interesting products to be used in fighting against agricultural pests (Bacci et al., 2016). Bio-pesticides such as abamectin has been reported as broad-spectrum pesticides with high biological activity with dosage as low as 1-3 g active ingredient per hectare. With such a low rate, such pesticides not only provide protection to the environment but also are safe to human beings (UNIDO, 2008). Therefore, this work has been conducted to evaluate the efficacy of certain chemical and safe alternative compounds such as Bio-pesticides in reducing the cabbage aphid, B. brassicae populations in the field. Also, their potency to reduce the infestation levels and yield loss (unmarketable plants) has been evaluated. The side effect of these compounds on the aphid parasitoid D. rapae was also taken in consideration.

MATERIALS AND METHODS

The present investigations were conducted at the Experimental Farm of Assiut University during 2017-2018 and  2018-2019 cabbage growing seasons by using  Ganzory cabbage cultivar at (Ca.1/4 fed.) and divided into plots (1/400 fed. / plot). Plants were transplanted in 50 cm intervals at 3rd October during both seasons. Insecticides application was initiated as aphid populations reached to moderate density (two months post transplantation). To evaluate the reduction percentage of B. brassicae (all forms), 4 cabbage leaves were randomly picked up from 4 cabbage plants (1 leaf / plant) / each replicate (4 replicates) in addition to the control replicates and transferred to the laboratory to later examination. Mean numbers of B. brassicae (all forms) were counted / 5 inches / leaf, before spray by the selected compounds (Table 1) and consequently after 3, 7 and 14 days post application. Reduction percentage of the targeted insect pest numbers, were calculated according to Henderson and Tilton (1955) equation. Reduction percentage of the infested and unmarketable plants (Figure 1), were also calculated in the field. One hundred mummified aphids were isolated in test tubes (4 replicates / each compound and the control replicate) before spray and after 3, 7 and 14 days post application. Reduction percentage of the emerged parasitoid (D. rapae), were calculated according to the same equation. Data were statistically analyzed by using F-test and means were compared according to Duncan's multiple range tests as described by Steel and Torrie (1982).


Table1. Trade name, common name and application rate of the tested compounds against B. brassicae and its parasitoid D. rapae.

Trade name

Common name

Application rate

Evure®

Tau-fluvalinate 21,4% (240 g/l)

10 ml/100 Litter water

Karate® Zeon

Lambda cyhalothrin Sc 9.4%

31.2 ml/100 Litter water

Biosad 22% SC

Spinosad

10 ml /100 Litter water

Abamectin 1.8%EC

Bermectin

40 ml /100 Litter water

Melody 24%SC

Metoxyfenozide

25 ml/100 Litter water

 

     

A

B

C

Figure1. Cabbage aphid Brevicoryne brassicae damage symptoms on cabbage plants (A: Healthy plant, B: Infested plant, C: Unmarketable plant)

 


RESULTS AND DISCUSSION

Effectiveness of two newly introduced European safe alternative compounds (Evure® and Karate® Zeon) versus two biocide compounds (Biosad 22% SC and Abamectin 1.8%EC), and the chemical compound (Melody 24%SC) were evaluated in the field against the cabbage aphid B. brassicae inhabiting cabbage plantations during 2017-2018 and 2018-2019 growing seasons in Assiut governorate, northern Upper Egypt. Impact of the tested compounds on the infestation levels and the yield income was evaluated. Also, their side effect against the emergence of the aphid parasitoid D. rapae was taken in consideration. The obtained results in Table (2) revealed that the newly introduced compound (Karate® Zeon) was the most effective compound on the population density of B. brassicae during the first season of study with 99.53% reduction in the pest numbers throughout 14 days post application. The other newly introduced compound (Evure®) reduced the pest numbers by less reduction percentage (93.47%), and ranked the second. The chemical compound (Melody 24%SC) ranked the third and reduced the pest numbers by 92.80% (Less than both of the two newly introduced safe alternative compounds). The least effective compounds against this insect pest were the biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) which reduced the pest numbers by 78.20 and 55.35%, respectively. Highly significant variations (f = 41.068**) were recorded between the tested compounds. Data presented in Table (3) showed the effectiveness of the tested compounds to reduce the pest infestation levels. Variation between the most effective compound (Karate® Zeon) and the least effective one (Biosad 22% SC) was not high (ranged between 50.33 and 43.08%).Consequently non-significant variations (f = 1.495) were recorded between the tested compounds. Effectiveness of the tested compounds on the damaged (unmarketable) plants (Table 4) showed similar trend with non-significant variations (f= 0.092).

Side effect of the tested compounds on the emergence percentage of the aphid parasitoid D. rapae was presented in Table (5). Karate® Zeon was the most effective compound against the parasitoid and ranked the first with (91.47%) reduction. The remaining compounds efficacy can be arranged as descending as follows: Melody 24%SC by 50.35 > Evure® by 42.89 > Abamectin 1.8% EC by 19.63> Biosad 22% SC by 10.22%. Highly significant variations (f = 173.703**) were recorded between the tested compounds. With few exceptions, similar results (Tables 6-9) were obtained during the second season of study.

Data presented in Table (10) and illustrated in Figure (2) expressed about the mean reduction percentages on all of the tested measurements during both experimental seasons. Data revealed that, the newly introduced compound (Karate® Zeon) was the most effective compound on the population density of B. brassicae during the entire period of study with 98.98% reduction in the pest numbers. It followed by the other newly introduced safe alternative compound (Evure®) with average reduction 94.20%.The chemical compound (Melody 24%SC) reduced the pest populations by 93.40%. However, the biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) reduced the pest populations by 78.99 and 59.08% and appeared as the least effective compounds. Effectiveness on the infestation levels and damaged (unmarketable) plants showed slight variation between the tested compounds (ranged between 47.46 -55.34 and 46.78-49.10 %, for the above-mentioned measurements, respectively). In general, potency of the tested compounds to reduce the pest populations was highly synchronized with their potency to reduce the pest infestation levels. Also, use of these compounds increased the marketable cabbage plants (yield income) by more than 50%. Unfortunately, the side effect of the most effective compounds (Karate® Zeon) against B. brassicae was so high against its parasitoid D. rapae. It reduced its emergence by 91.64 %. On the other hand, moderately reduction percentages on the emerged parasitoid numbers were obtained by using both of (Melody 24%SC and Evure®) by 53.40 and 46.27%, respectively. The least effective compounds against D. rapae emergence (Abamectin 1.8% EC and Biosad 22% SC) showed 23.76 and 12.01 % reduction, respectively.

In general it can be note that, the highest effective compound (Karate® Zeon) against B. brassicae populations can reduce the effectiveness of the aphid parasitoid D. rapae by 91.64%. So, its application could have cautions as aphids control agent. The remaining compounds showed moderately effect on the emerged parasitoid numbers. According to their acceptable effectiveness against B. brassicae populations, infestation levels , unmarketable plants and low effectiveness against D. rapae,  it can be recommended to use the biocide compounds (Abamectin 1.8% EC and Biosad 22% SC) to manage the population density of cabbage aphids in the field by more than one application during the cabbage growing season.

Successful use of Abamectin (Bermectine) 1.8% EC at 40 ml/100L water against the cabbage aphid B. brassicae in the field was applied in Northern Egypt by El-Fakharany and Hendawy (2010). They reported that, this compound reduced B. brassicae populations by 91.54 and 92.08% during 2008/09 and 2009/10 cabbage growing seasons, respectively. Also, they reported that, this compound had slight effects on the aphid's associated natural enemies (Predators, true spiders and parasitoids). Efficacy of Abamectin against various stages of the red palm weevil Rhynchophorus ferrugineus (Olivier) (Coleoptera: Curculionidae) under laboratory conditions was evaluated in Saudi Arabia by (Albutairi et al., 2016). Their bioassay test showed that, Abamectin at 600 ppm (μg/ml) caused 60% mortality against females and males after 24 h. By increasing the concentration to 1000 ppm, the mortality reached 100% for adults. In other applications by some derivatives of the tested products, (Amro and Abdel-Galil, 2012) used Radiant 12% SC (Spinotoram) in the same area of study and reduced onion thrips, Thrips tabaci Lindeman infesting onion heads by 89.75%. On the other hand, El-Wakeil and Volkmar (2013) proved that Karate caused the highest percent mortality to wheat insect pests and reduced natural enemy diversities. However, Salem et al. (2018) reported that, Karate and Tracer 24% SC (Spinosad) reduced cereal aphid complex infesting wheat by 99.31 and 97.05%, respectively.

ACKNOWLEDGEMENT

The authors were grateful to Prof. Dr. Abdellah Said Hussein Abdel-Moniem, Head of Plant Protection Department, Faculty of Agricultural, Beni-Suef University, for supplying with the newly used safe alternative compounds. Especial thank to the staff members of Plant Protection Department, Faculty of Agriculture, Assiut University and staff members of Insect Research Laboratory in Assiut, Plant Protection Research Institute for supporting and encouragement during the study.

 

 

 

REFERENCES

Albutairi, A.; Laden, N. G. and Al Saud, Y.H. 2016. Efficacy of Abamectin (ABM)    against various stages of R. ferrugineus under laboratory conditions. Advances in Agric. and Agric. Sci., 2 (6): 108-116.

Amro, M. A. and Abdel-Galil, F. A. 2012. Can safe alternative compounds used as a promising tool for suppressing Thrips tabaci (Lind.) inhabiting onion seed plantations? The 6rd. Int. Conf. for Develop. and the Env. in the Arab world, March, 24-26:167-175.

Bacci, L.; Lupi, D.; Savoldelli, S. and  Rossaro, B. 2016. A review of Spinosyns, a derivative of biological acting substances as a class of insecticides with a broad range of action against many insect pests. J. Entomol. and Acarol. Res., 48: 40-52.

Bahana, J. and Karuhize, G. 1986. The role of Diaeretiella rapae (McIntosh) (Hym: Braconidae) in the population control of the cabbage aphid, Brevicoryne brassicae L. (Hem.: Aphididae) in Kenya. Ins. Sci. Appl., 7: 605-609.

Costello, M. J. and Altieri, M. A. 1995. Abundance, growth rate and parasitism of Brevicoryne brassicae and Myzus persicae (Homoptera: Aphididae) on broccoli grown in living mulches. Agric., Ecosystems and Environment, 52: 187–196.

El-Wakeil, N. and Volkmar, C. 2013. Monitoring of wheat insects and their natural enemies using sticky traps in wheat. Arch. Phytopathol. and Plant. Protect. 46(13-16): 1523-1532.

George, K.S.1957. Preliminary investigations on the biology and ecology of

 

 

the parasites and predators of Brevicoryne brassicae (L.), Bull. Entomol. Res., 48: 619-629.

El-Fakharany, S.M. and Hendawy, A. S. 2010. Effects of climatic factors and toxic compounds on aphids and their natural enemies in cabbage fields. Bull. ent. Soc. Egypt, Econ. Ser., 36:249-269.

Hafez, M. 1961.  Seasonal fluctuations in population density of the cabbage aphid Brevicoryne brassicae (L.) in the Netherlands, and the role of its parasite Aphidius (Diaeretiella) rapae (Curtis). Tijdsch. Pl.-ziekten, Nederlands, 67:445-448.

Henderson, C.F. and Tilton, E.W. 1955.  Tests with acaricides against the brown wheat mite.  J. Econ. Entomol., 48: 157-161.

Liu, S. S.; Hommes, M. and Hildenhagen, R. 1994. Damage to white cabbage by the aphid Brevicoryne brassicae (L.): influence of aphid density and stage of plant growth. IOBC / WPRS Bull., 17: 75–89.

Rimaz, V. and Valizadegan, O. 2013. Toxicity of agricultural adjuvant cytogate oil and the insecticide pymetrozine to the cabbage aphid, Brevicoryne brassicae L. (Hemiptera: Aphididae) and its parasitoid, Diaeretiella rapae M. (Hymenoptera: Aphidiidae). Egypt. J. Biol. Pest Cont., 23(2):221-225.

Salem, A. A.; Amro, M. A.; Abdel-Moniem, A. S. H. and Abdel-Galil, Y. M. A. 2018. Determination the population trends of cereal aphids and associated parasitoids by yellow sticky traps with reference to aphid management on wheat. Arch. Phytopathol. and Plant. Protect. 50(19-20):1034-1042.

Singh, R. and Singh, G. 2015. Systematics, distribution and host range of Diaeretiella Rapae (McIntosh) (Hymenoptera: Braconidae, Aphidiinae) . Int. J. of Res. Studies in Biosciences (IJRSB).,   3 (1): 1-36

Steel, R.G.D. and Torrie, J.H. 1982.  Principals and procedures of statistics. A biometrical approach, McGraw-Hill Book Co.

UNIDO, 2008.Workshop on production and application of bio-pesticides (abamectin, emmamectin and natural pyrethrum), Nantong, People’s Republic of China, October 14-16, p. 70. http://internationalscholarsjournals.org/download.php.


 


Table2. Potency of the tested compounds in reducing numbers of cabbage aphids Brevicoryne brassicae infesting cabbage plants during 2017-2018 cabbage growing season in Assiut region

 

Compound

Mean numbers of B. brssicae / 4 leaves (5 inches2 / leaf) / plot

and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MN

R%

MN

R%

MN

R%

Evure ®

865.0

148.8

87.76

50.00

96.34

31.0

96.32

93.47B

2

Karate® Zeon

882.5

3.50

99.71

5.00

99.63

7.50

99.26

99.53A

1

Biosad 22% SC

873.8

440.0

64.00

457.0

68.28

625.0

33.76

55.35D

5

Abamectin 1.8%EC

882.5

370.0

69.76

286.3

80.48

150.0

84.36

78.20C

4

Melody 24%SC

886.3

91.25

92.80

62.50

95.76

96.25

89.88

92.80B

3

Control

872.5

1220

-----

1437.5

-----

943.8

------

------

 

 

  MN = Mean numbers, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

  F value between treatments= 41.068**

 

Table3. Potency of the tested compounds in reducing percentages of the infested cabbage plants by cabbage aphids Brevicoryne brassicae during 2017-2018 cabbage growing season in Assiut region

 

Compound

Mean percentage of the infested cabbage plants / plot

 and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MP

R%

MP

R%

MP

R%

Evure ®

6.00

6.00

38.00

6.00

53.00

6.25

58.40

49.80A

2

Karate® Zeon

5.00

5.00

38.00

5.00

53.00

5.00

60.00

50.33A

1

Biosad 22% SC

4.00

4.00

38.00

5.00

41.25

5.00

50.00

43.08C

5

Abamectin 1.8%EC

5.00

5.00

38.00

5.75

45.95

6.25

50.00

44.65C

4

Melody 24%SC

7.00

7.00

38.00

8.00

46.42

8.00

54.40

46.27B

3

Control

8.00

13.00

-----

17.00

-----

20.00

-----

-----

 

 

MP = Mean percentage, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

F value between treatments= 1.495

 

Table4. Potency of the tested compounds in reducing percentages of the unmarketable cabbage plants infested by cabbage aphid Brevicoryne brassicae during 2017 -2018 cabbage growing season in Assiut region.

 

Compound

Mean percentage of the unmarketable cabbage plants /  plot

and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MP

R%

MP

R%

MP

R%

Evure ®

5.00

5.00

29.00

5.50

58.20

8.00

55.20

47.47A

2

Karate® Zeon

5.00

5.00

29.00

7.00

46.80

7.50

58.00

44.60C

5

Biosad 22% SC

5.00

5.50

21.90

6.25

52.50

6.25

65.00

46.47B

3

Abamectin 1.8%EC

4.00

4.00

29.00

5.00

52.50

6.50

54.36

45.29B

4

Melody 24%SC

6.00

6.00

29.00

7.00

55.92

9.00

58.00

47.64A

1

Control

5.00

7.00

-----

13.00

-----

18.00

-----

-----

 

 

  MP = Mean percentage, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

F value between treatments= 0.092

 

 

 

 

Table5. Potency of the tested compounds in reducing percentages of the aphid emerged parasitoid (Diaeretiella rapae) inhabiting cabbage    during 2017 -2018 cabbage growing season in Assiut region

 

Compound

Mean percentage of  emerged parasitoids / 100 mummified aphid and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MP

R%

MP

R%

MP

R%

Evure ®

88.75

38.25

57.43

54.75

34.28

55.50

36.37

42.69C

3

Karate® Zeon

86.25

5.25

94.06

7.50

90.46

8.50

89.90

91.47A

1

Biosad 22% SC

88.75

75.50

15.85

77.75

6.72

80.75

8.09

10.22E

5

Abamectin 1.8%EC

83.75

57.00

32.68

69.05

13.08

71.75

13.14

19.63D

4

Melody 24%SC

90.50

43.50

52.48

43.75

49.12

45.50

49.50

50.36B

2

Control

90.75

92.00

-----

85.50

-----

89.50

-----

------

 

  MP = Mean percentage, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

F value between treatments= 173.703**

 

Table6. Potency of the tested compounds in reducing numbers of cabbage aphids Brevicoryne brassicae infesting cabbage plants during 2018-2019 cabbage growing season in Assiut region

 

Compound

Mean numbers of B. brssicae / 4 leaves (5 inches2 / leaf) / plot

and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MN

R%

MN

R%

MN

R%

Evure ®

795.5

80.00

93.30

63.50

95.12

42.25

96.35

94.92B

2

Karate® Zeon

805.5

15.50

98.66

18.55

98.78

20.50

97.81

98.42A

1

Biosad 22% SC

855.0

480.5

62.48

395.5

71.94

535.25

54.01

62.81D

5

Abamectin 1.8%EC

799.5

320.0

73.20

270.5

79.26

145.5

86.86

79.77C

4

Melody 24%SC

840.5

85.50

93.30

73.50

94.51

70.00

94.16

93.99B

3

Control

835.0

1250

-----

1360

-----

1150

------

------

 

 

  MN = Mean numbers, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

  F value between treatments= 73.206**

 

Table7. Potency of the tested compounds in reducing percentages of the infested cabbage plants by cabbage aphids Brevicoryne brassicae during 2018-2019 cabbage growing season in Assiut region

 

Compound

Mean percentage of the infested cabbage plants / plot

 and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MP

R%

MP

R%

MP

R%

Evure ®

5.50

5.50

50.00

5.50

61.00

6.25

68.08

59.69A

2

Karate® Zeon

6.50

6.50

50.00

6.50

61.00

7.00

70.04

60.35A

1

Biosad 22% SC

6.00

7.00

41.50

7.50

51.25

8.00

62.76

51.84C

5

Abamectin 1.8%EC

5.50

6.00

45.50

6.25

55.54

6.50

66.96

56.00B

4

Melody 24%SC

6.00

6.00

50.00

6.00

61.00

7.00

67.24

59.41A

3

Control

6.00

12.0

-----

15.50

-----

21.50

-----

-----

 

 

 MP = Mean percentage, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

F value between treatments= 1.587

 


Table8. Potency of the tested compounds in reducing percentages of the unmarketable cabbage plants infested by cabbage aphid  Brevicoryne brassicae  during 2018 -2019 cabbage growing season in Assiut region.

 

Compound

Mean percentage of the unmarketable cabbage plants /  plot

and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MP

R%

MP

R%

MP

R%

Evure ®

6.50

6.50

25.00

6.75

55.28

6.75

71.92

50.73A

2

Karate® Zeon

6.25

6.25

25.00

6.25

57.00

6.50

71.92

51.31A

1

Biosad 22% SC

5.75

6.00

22.00

6.00

55.28

6.25

70.57

49.21B

4

Abamectin 1.8%EC

4.75

5.00

21.25

5.00

54.85

5.50

68.68

48.26B

5

Melody 24%SC

5.00

5.00

25.00

5.25

54.85

5.50

70.30

50.05A

3

Control

6.00

8.00

-----

14.00

-----

22.50

-----

-----

 

 

  MP = Mean percentage, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

F value between treatments= 0.039

 

Table9. Potency of the tested compounds in reducing percentages of the aphid emerged parasitoid (Diaeretiella rapae) inhabiting cabbage during 2018 -2019 cabbage growing season in Assiut region

 

Compound

Mean percentage of  emerged parasitoids /100 mummified aphid and reduction %

GR%

RO

Before

spraying

After 3 days

After 7 days

After 14 days

MP

R%

MP

R%

MP

R%

Evure ®

87.50

37.50

57.86

52.50

41.20

43.50

50.50

49.85C

3

Karate® Zeon

86.50

6.50

92.16

7.00

92.16

7.50

91.09

91.80A

1

Biosad 22% SC

88.25

80.00

10.52

76.50

14.74

75.25

15.85

13.80E

5

Abamectin 1.8%EC

82.50

62.50

25.52

60.25

28.46

58.50

29.71

27.89D

4

Melody 24%SC

88.50

42.50

52.96

40.25

55.90

39.50

55.45

56.44B

2

Control

89.50

91.50

-----

91.00

-----

90.25

-----

------

 

 

  MP = Mean percentage, R% = Reduction %, GR% = General Reduction %, RO = Ranking order

F value between treatments= 370.711**

 

Table10. Potency of the tested compounds in reducing Brevicoryne brassicae populations, percent infestation, unmarketable cabbage plants and  merged parasitoids % during 2017-2018 and 2018-2019 cabbage growing seasons in Assiut region.

 

Compound

General reduction percentage  during 2017-2018 and 2018 2019

 cabbage growing seasons

B. brassicae

Populations

Infested plants %

Unmarketable

plants %

Emerged

parasitoids %

R%

RO

R%

RO

R%

RO

R%

RO

Evure ®

94.20

2

54.75

2

49.10

1

46.27

3

Karate® Zeon

98.98

1

55.34

1

47.96

3

91.64

1

Biosad 22% SC

59.08

5

47.46

5

47.88

4

12.01

5

Abamectin 1.8%EC

78.99

4

50.33

4

46.78

5

23.76

4

Melody 24%SC

93.40

3

52.84

3

48.85

2

53.40

2

R% = Reduction %, RO = Ranking Order

 

 

 

Thetested compounds

Figure 2. Potency of the tested compounds in reducing Brevicoryne brassicae populations, percent infestation, unmarketable cabbage plants and  merged parasitoids % during 2017-2018 and 2018-2019 cabbage growing seasons in Assiut region.


 

فعالیة بعض المرکبات الکیمیائیة و البدائل الأمنة للمبیدات علی من الکرنب

 والطفیل المصاحب له  التی تقطن زراعات الکرنب

فاروق عبد القوى عبد الجلیل*,  صفاء محمد عبدالرحمن عمرو, **عبد الرحیم أحمد عبد الرحیم, ** ودالیا یوسف عوض درویش*

* قسم وقایة النبات – کلیة الزراعة – جامعة أسیوط.

** معهد بحوث وقایة النباتات – مرکز البحوث الزراعیة – الدقى – الجیزة – مصر.

الملخص العربی :

أجریت الدراسة لتقییم فعالیة مرکبین حدیثی الأستیراد من الأتحاد الأوربی (Evure® and Karate® Zeon) مقارنة بمرکبین طبیعیین (Biosad 22% SC and Abamectin 1.8 % EC) بالأضافة للمرکب الکیمیائی (( Melody 24%SC  ضد حشرة من الکرنب Brevicoryne brassicae (Linnaeus)  الذی یقطن زراعات الکرنب خلال موسمی نمو الکرنب 2017/18 و 2018/19 بأسیوط شمالی صعید مصر. تم أیضا تقییم فعالیة هذه المرکبات علی معدل الأصابة وکمیة المحصول. کما أخذ فی الأعتبار تأثیر هذه المرکبات علی نسبة أعداد الطفیل Diaeretiella rapae (Mclntoch)  المنبثقة من مومیاوات المن المتطفل علیه. أظهرت النتائج أن المرکب (Karate® Zeon) کان أکثر المرکبات فعالیة علی کثافة مجامیع  حشرة من الکرنب بمتوسط خفض عام 98,98%. تلاه فی ذلک مرکب (Evure®) بمتوسط خفض عام 20,94%. المرکب الکیمیائی (Melody 24%SC  ( تمکن من خفض أعداد الأفة بمقدار 40,93% ( أقل من المرکبین السابقین). المرکبات الطبیعیة (Abamectin 1.8% EC and Biosad 22% SC) أظهرت أقل نسبة خفض فی تعداد الأفة بمقدار99,78 و 08,59%  علی التوالی. فعالیة المرکبات المختبرة علی خفض نسبة النباتات المصابة و النباتات غیر الصالحة للبیع تراوحت بین  46,47 –  64, 55 و  38,46-  10,49% علی التوالی. و بهذا فقد ظهر أن أستخدام هذه المرکبات أدی ألی زیادة فی المحصول بنسبة تجاوزت ال 50%. لسوء الحظ فأن أکثر المرکبات فعالیة علی الأفة کان أکثرها فعالیة علی الطفیل المصاحب حیث أدی أستخدامه ألی نسبة خفض فی أعداد الطفیل المنبثق من المومیاوات مقدارها 64, 91%. و بالتالی فانه یجب أن یکون هناک محاذیر عند أستخدام هذا المرکب کعنصر لمکافحة المن. نسبة الخفض المقبولة فی أعداد الأفة و التی تبعها نسبة خفض قلیلة فی أعداد الطفیل المنبثقة عند أستخدام مرکبی (Abamectin 1.8% EC and Biosad 22% SC) توجب التوصیة بأستخدام هذین المرکبین الطبیعیین لمکافحة من الکرنب الذی یصیب الکرنب حتی لو أستدعی ذلک تطبیقها أکثر من مرة فی الموسم الواحد.

الکلمات الدالة : الکرنب ومن الصلیبیات والطفیلات والمکافحة الکیمیائیة والبدائل الأمنة للمبیدات.

REFERENCES
Albutairi, A.; Laden, N. G. and Al Saud, Y.H. 2016. Efficacy of Abamectin (ABM)    against various stages of R. ferrugineus under laboratory conditions. Advances in Agric. and Agric. Sci., 2 (6): 108-116.
Amro, M. A. and Abdel-Galil, F. A. 2012. Can safe alternative compounds used as a promising tool for suppressing Thrips tabaci (Lind.) inhabiting onion seed plantations? The 6rd. Int. Conf. for Develop. and the Env. in the Arab world, March, 24-26:167-175.
Bacci, L.; Lupi, D.; Savoldelli, S. and  Rossaro, B. 2016. A review of Spinosyns, a derivative of biological acting substances as a class of insecticides with a broad range of action against many insect pests. J. Entomol. and Acarol. Res., 48: 40-52.
Bahana, J. and Karuhize, G. 1986. The role of Diaeretiella rapae (McIntosh) (Hym: Braconidae) in the population control of the cabbage aphid, Brevicoryne brassicae L. (Hem.: Aphididae) in Kenya. Ins. Sci. Appl., 7: 605-609.
Costello, M. J. and Altieri, M. A. 1995. Abundance, growth rate and parasitism of Brevicoryne brassicae and Myzus persicae (Homoptera: Aphididae) on broccoli grown in living mulches. Agric., Ecosystems and Environment, 52: 187–196.
El-Wakeil, N. and Volkmar, C. 2013. Monitoring of wheat insects and their natural enemies using sticky traps in wheat. Arch. Phytopathol. and Plant. Protect. 46(13-16): 1523-1532.
George, K.S.1957. Preliminary investigations on the biology and ecology of
 
 
the parasites and predators of Brevicoryne brassicae (L.), Bull. Entomol. Res., 48: 619-629.
El-Fakharany, S.M. and Hendawy, A. S. 2010. Effects of climatic factors and toxic compounds on aphids and their natural enemies in cabbage fields. Bull. ent. Soc. Egypt, Econ. Ser., 36:249-269.
Hafez, M. 1961.  Seasonal fluctuations in population density of the cabbage aphid Brevicoryne brassicae (L.) in the Netherlands, and the role of its parasite Aphidius (Diaeretiella) rapae (Curtis). Tijdsch. Pl.-ziekten, Nederlands, 67:445-448.
Henderson, C.F. and Tilton, E.W. 1955.  Tests with acaricides against the brown wheat mite.  J. Econ. Entomol., 48: 157-161.
Liu, S. S.; Hommes, M. and Hildenhagen, R. 1994. Damage to white cabbage by the aphid Brevicoryne brassicae (L.): influence of aphid density and stage of plant growth. IOBC / WPRS Bull., 17: 75–89.
Rimaz, V. and Valizadegan, O. 2013. Toxicity of agricultural adjuvant cytogate oil and the insecticide pymetrozine to the cabbage aphid, Brevicoryne brassicae L. (Hemiptera: Aphididae) and its parasitoid, Diaeretiella rapae M. (Hymenoptera: Aphidiidae). Egypt. J. Biol. Pest Cont., 23(2):221-225.
Salem, A. A.; Amro, M. A.; Abdel-Moniem, A. S. H. and Abdel-Galil, Y. M. A. 2018. Determination the population trends of cereal aphids and associated parasitoids by yellow sticky traps with reference to aphid management on wheat. Arch. Phytopathol. and Plant. Protect. 50(19-20):1034-1042.
Singh, R. and Singh, G. 2015. Systematics, distribution and host range of Diaeretiella Rapae (McIntosh) (Hymenoptera: Braconidae, Aphidiinae) . Int. J. of Res. Studies in Biosciences (IJRSB).,   3 (1): 1-36
Steel, R.G.D. and Torrie, J.H. 1982.  Principals and procedures of statistics. A biometrical approach, McGraw-Hill Book Co.
UNIDO, 2008.Workshop on production and application of bio-pesticides (abamectin, emmamectin and natural pyrethrum), Nantong, People’s Republic of China, October 14-16, p. 70. http://internationalscholarsjournals.org/download.php.