Iris Publishers
Authored by Beck Arebamen Akhiwu
Callosobruchus
maculatus, commonly known as Bean weevil, is an agricultural insect pest of
both field and storage crop in Africa, Asia and most parts of the world. They
cause serious economic damage to cowpea seed and other leguminous crops throughout
the tropical and subtropical world. Understanding the biology of C. maculatus
is very important in the control of this insect pest. The aim of the study was
to investigate the effects of feeding, mating, and aging on the fecundity and
lifespan of the insect. C. maculatus was subjected to different feeding modes
and mating. Daily weight was taken and recorded. The ability of ageing males to
fertilize virgin females was investigated. This research is the first to
investigate the effects of nutrients and ageing on the longevity and fecundity
of C. maculatus. Data was collected and analyzed with tukey test at 5%
significant difference. The results show that nutrient plays a vital role in
longevity and fecundity of C. maculatus, and male C. maculatus would live
longer in the absence of female. Furthermore, this study shows that weight loss
and decline in reproductive ability (ageing males’ ability to fertilize virgin
females declines as they grow older) are some of the attributes of ageing in C.
maculatus.
Bruchids (Coleoptera; Bruchidae),
especially those that belong to the genus Callosobruchus are pestiferous to
stored seeds of many different legumes [1]. Bamaiyi et al., [2] reported that
C. maculatus infest soya, bambara groundnuts Cicer arietinum, Lablab purpureus,
Vigna acontifolia and Vigna radiate. Infestation may start on pods before
harvest [3]. These infested pods may be carried over into the storage where
they cause serious damage and loses. C. maculatus was reported to have caused
3% annual cowpea damage in Nigeria in 1961 [4]. It is considered the most
important field to storage insect pest of the cowpea plant [5].
Cowpea (Vigna unguiculata) is a widely adapted, stress tolerant grain legume from the genus Vigna. It is an important crop grown on about 7 million ha in warm to hot regions of Africa, Asia, and the Americas [6]. Developing countries depend on cowpea as a major source of protein for both human and livestock. Dry beans are a good source of plant-based protein and have been identified as a replacement for meat [7]. Beans contain about 21 to 25% protein by weight, which is much higher than other sources of vegetable protein [7]. Cowpea provides a good source of protein at a cheap cost compared to animal protein. Cowpea crops also provide other sources of nutrient such as calories, fat, carbohydrates, dietary fiber, minerals and vitamins in relatively large amounts. Therefore, it is very important to understand the biology, chemical ecology and behavior of this insect pest, C. maculatus, which causes a significant decrease in yield of cowpea [3]. Male and female C. maculatus are easily distinguished from one another by their general appearance. The most differentiating feature is the coloration of the plate covering the end of the abdomen. In the female, the plate is broad and darkly colored on both sides. In the male, the plate is smaller and lacks stripes. In some strains, females are larger in size than males. Also, females, are black in coloration and males are brown [8,9]. Adult C. maculatus do not require food or water for reproduction [9,10]. The eggs are strongly attached to the surface of the cowpea [4]. The larvae and pupae bore within the seed where they are only found [4,11]. Ageing is a universal characteristic of living things [12] and manifest as decreased reproductive ability, and increased probability of death due to physiological deteriorations [13]. The ability of organisms to survive declines as they age [14]. Studies have shown that male insects may sacrifice longevity for mating opportunities [8,10]. The antagonistic behavior among male insects has been suggested as a major reason for sex differences in mortality rate [15]. Though studies have investigated the cost of reproduction in C. maculatus [16] and multiple mating, lifetime fecundity and mortality of C. maculatus [17], specific factors that drive C. maculatus’ longevity and population are not yet well explored. This study investigated the effect of feeding and mating on C. maculatus’ reproduction and lifespan. The objectives of this study were to evaluate the effect of food and mating on C. maculatus fecundity and lifespan.
Materials and Methods
This study was conducted in the research
laboratory of crop, soil and pest management department, Federal University of
Technology Akure, under laboratory condition of 25 °C – 28 °C and 65- 75%
relative humidity.
Insect
culture
C. maculatuiwas cultured in kilner jars
with mashed lid cover. Laboratory procedure for culturing cowpea seed beetle
described by Kaita et al., [18], was adopted in this study. Ife Brown bean, a
well-known susceptible variety was used for culturing C. maculatus. Prior to
the use of the cowpea seeds, the seeds were disinfested by deep-freezing for
two weeks. We removed the seed from the freezer and allowed it to thaw at room
temperature for 12-24 hours before using them for C. maculatus culturing.
Experimental
procedures
Effects of food on C. maculatus longevity:
Newly emerged male and female of age 1 day old were used in this study. A male
and a female were placed separately inside a sampling bottle containing cotton
wool with honey, and this honey served as source of food (nectar) for the
insects. There were five replicates per treatments. A control treatment was
also set-up in which case the insects were not fed with honey. Daily weight of
the female and male C. maculatus were taken separately and recorded. Daily
weight was recorded for a period of 5 days.
Effect of mating and food on longevity of
C. maculatus: Newly emerged male and female of age 1 day old were used in this
study. A male and a female were placed together in a sampling bottle containing
cotton wool with honey, and this honey served as source of food (nectar) for
the insects. There were five replicates per treatments. A control treatment was
also set-up in which case the insects were not fed with honey. Daily weight of
the female and male were C. maculatus were taken separately and recorded. Daily
weights were taken for a period of 5 days.
Ability of ageing male to fertilize virgin
male: Newly emerged female of age 1 day old were supplied with ageing virgin
male of age day 3. A male and a female were placed together in a sampling
bottle containing cotton wool with honey, and this honey served as source of
food (nectar) for the insects. Controls were also set-up (a virgin female of
age day 1 and a virgin male of age day 1). Numbers of eggs laid by the female
were observed and counted daily for 5 days.
Analyses: Data were analyzed using SPSS.
Counted data were transformed using square root transformation. The transformed
data were subjected to tukey test at 5% significant different.
Results
This study shows that there was a
significant difference between the adult weight of female C. maculatus
subjected to different feeding and mating mode and control (Table 1). Table 2
shows mean weight of adult C. maculatus subjected to different mating and feeding
mode. There was a significant difference between the weight of adult C.
maculatus subjected to different feeding and mating mode from day 1-5. Mating
without food was higher in day 1-3 (3.12, 2.62 and 1.56), while the body
weights dropped from day 4 -5 (0.48 and 0.009). Feeding without mating show a
consistent body weight from day 1-5 (2.80, 1.58, 1.50, 1.24 and 0.98). Table 3
show that there was a significant difference in number of eggs laid by the
virgin female mated with ageing male (day 4= 1.70 and day 5= 1.23), there were
no significant differences between 1-3 eggs laid (6.99, 5.66 and 4.02) by
female. Table 4 show C. maculatus fecundity of young female and young male.
Discussion
This
study quantified C. maculatus physiology (ageing) by measuring the daily body
weight, numbers of eggs laid and ability of the male to fertilize the female.
This study provides empirical evidence female C. maculatus, when fed with honey
and supplied with a male, gained weight, but there was no effect on its longevity.
This finding is somehow in agreement with similar studies by Paukku &
Kotiaho [16], who reported that male sperm may have a nutritional value for
females. Since C. maculatus do not require food or water for reproduction or
survival, Paukku and Kotiaho, suggested that female C. maculatus derive
nutrient from male sperm during mating. This study shows that mating without
feeding have no significant impact on female ageing and longevity. This finding
(Table 2) show that male physiological processes can be influenced by food.
Furthermore, the results of this study indicate that male C. maculatus maintain
their weight when they feed on honey (nectar) and mate. However, longevity may
be affected when they mate without food source. Adult male on diet without mating
live (6 days) longer than adult male that is mating. This finding is in
agreement with the study by Maklakov et al., [8], which indicated that male
insects might sacrifice longevity for mating opportunities. Table 3 show that
the ability of the male to fertilize female decreases as the male grows older.
The numbers of eggs laid on age 1 day old were higher than the subsequent days
as the male C. maculatus ages. Table 4 proved that male ageing can reduce their
fertility. In conclusion, this study demonstrated that the ability of males to
fertilize females is strongly impacted as they grow older. This suggests that a
population of ageing male would most likely have a few offspring. This study
also finds that some of the attributes of ageing in C. maculatus are weight
loss and decrease in reproductive ability. Male may live longer in the absence
of females and good nectar. Nutrients play a vital role in maintaining male’s
physiological processes.
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