40 research outputs found
Pupae transplantation to boost early colony growth in the weaver ant Oecophylla longinoda Latreille (Hymenoptera: Formicidae)
Oecophylla ants are currently used for biological control in fruit plantations in Australia, Asia and Africa and for protein production in Asia. To further improve the technology and implement it on a large scale, effective and fast production of live colonies is de¬sirable. Early colony development may be artificially boosted via the use of multiple queens (pleometrosis) and/or by adoption of foreign pupae in developing colonies. In the present experiments, we tested if multiple queens and transplantation of pupae could boost growth in young Oecophylla longinoda colonies. We found out that colonies with two queens artificially placed in the same nest, all perished due to queen fighting, suggesting that pleometrosis is not used by O. longinoda in Benin. In contrast, pupae transplantation resulted in highly increased growth rates, as pupae were readily adopted by the queens and showed high survival rates (mean = 92%). Within the 50-day experi¬ment the total number of individuals in colonies with 50 and 100 pupae transplanted, increased with 169 and 387%, respectively, compared to colonies receiving no pupae. This increase was both due to the individuals added in the form of pupae but also due to an increased per capita brood production by the resident queen, triggered by the adopted pupae. Thus pupae transplantation may be used to shorten the time it takes to produce weaver ant colonies in ant nurseries, and may in this way facilitate the imple-mentation of weaver ant biocontrol in West Africa
Occurrence and distribution of damping-off in Vigna subterranea in Benin and identification of associated causal agents
Bambara groundnut (Vigna subterranea (L.) Verdc.), also called ground peas or Bambara groundnut, is a West African seed legume of the Fabaceae family, playing an important social and economic role. The objective of the current study was to determine the occurrence, distribution and incidence of this disease on Bambara groundnut in agroecological production zones in Benin and to identify the causal agents responsible for the damages caused to the crop. A survey was conducted from 2019 to 2020 in five agroecological zones (AEZs) of Benin (AEZ2, AEZ3, AEZ4, AEZ5 and AEZ6). A total of 30 fields of Bambara groundnut were surveyed from 10 municipalities located in the agroeclogical zones of production at the early vegetative stage of the crop. Fields’ size of 0.5 ha were selected and scouted alongside both diagonals to evaluate the damping-off disease incidence. The results showed that damping-off occurred in four out of the five AEZs surveyed. The incidence rates varied from 0.00 to 23.33% in the AEZs 5 and 6 in 2019, and from 0.00 to 18.33% in the AEZ 6 in 2020. The highest incidence rates were obtained in the West Zone of Atacora (AEZ 4) and in the Food crop region of South (AEZ 3). Results of the correlation test showed a relationship between incidence, distribution of damping-off and climatic factors. However, most of regression equations showed a strong relationship between chemical properties of soils and incidence of damping-off. Sclerotium rolfssi was identified in the laboratory as the causal agent of the damping-off disease and isolated from diseased plants in the fields and during greenhouse pathogenicity tests. To the best of our knowledge, this is the first report of identification of pathogenic fungus as the causal agent of damping-off on Bambara groundnut seedlings in Benin.
 
Comparative Effects of Some Botanical Extracts and Chemicals in Controlling the Red Spider Mite Tetranychus evansi Baker & Pritchard on Solanaceous Crops
The tomato red spider mite, Tetranychus evansi, is an invasive pest reported on solanaceous crops in Benin around 2008, causing heavy economic damage. The control of this mite by farmers is mainly done through intensive applications of chemical pesticides that are not always effective. In the present study, we evaluated in a laboratory, at IITA-Benin, the effects of two botanical insecticides: the Cashew Nut Shell Liquid (CNSL) and Neem oil. This is together with Acarius 18 EC, a chemical acaricide generally used by growers on eggs and adult females T. evansi. The half recommended dose (0.5 l/ha), the recommended dose (1 l/ha), and the double recommended dose (2 l/ha) of Acarius and Neem oil as well as solutions at 1%, 2 %, 3%, 4% and 5% of CNSL were tested. Mean egg hatching rates varied significantly among treatments, ranging from 0.00 ± 0.00% (Neem oil and CNSL) (respectively at half recommended dose and 4%) to 100% (Control). Mortality of adult female T. evansi also differed significantly among treatments (P < 0.0001), ranging from 22.00 ± 4.20% to 100%. The highest mortality rates were recorded with Neem oil at any doses and with CNSL at 4%, whereas the lowest rate was recorded with the control treatment. Fecundity of pesticide-treated females T. evansi and proportion of eggs that hatched revealed significant differences among all doses of products (P < 0.0001). It appears from this study that even the half recommended dose of Neem oil and the CNSL at 4% were very effective on suppressing T. evansi populations and should, therefore, be subject to further studies to test their compatibility with natural enemies, and to determine strategies for their efficient applications in greenhouse and under field conditions.
 
Founding weaver ant queens (Oecophylla longinoda) increase production and nanitic worker size when adopting nonnestmate pupae
Weaver ants (Oecophylla longinoda Latreille) are used commercially to control pest insects
and for protein production. In this respect fast colony growth is desirable for managed
colonies. Transplantation of non-nestmate pupae to incipient colonies has been shown to
boost colony growth. Our objectives were to find the maximum number of pupae a founding
queen can handle, and to measure the associated colony growth. Secondly, we tested if
transplantation of pupae led to production of larger nanitic workers (defined as unusually
small worker ants produced by founding queens in their first batch of offspring). Forty-five
fertilized queens were divided into three treatments: 0 (control), 100 or 300 non-nestmate
pupae transplanted to each colony. Pupae transplantation resulted in highly increased growth
rates, as pupae were readily adopted by the queens and showed high proportions of surviving
(mean = 76%). However, survival was significantly higher when 100 pupae were transplanted
compared to transplantation of 300 pupae, indicating that queens were unable to handle 300
pupae adequately and that pupae require some amount of nursing. Nevertheless, within the
60-day experiment the transplantation of 300 pupae increased total colony size more than 10-
fold whereas 100 pupae increased the size 5.6 fold, compared to control. This increase was
due not only to the individuals added in the form of pupae but also to an increased per capita
brood production by the resident queen, triggered by the adopted pupae. The size of hatching
pupae produced by the resident queen also increased with the number of pupae transplanted,
leading to larger nanitic workers in colonies adopting pupae. In conclusion, pupae
transplantation may be used to produce larger colonies with larger worker ants and may thus
reduce the time to produce weaver ant colonies for commercial purposes. This in turn may
facilitate the implementation of the use of weaver ants.Weaver ants (Oecophylla longinoda Latreille) are used commercially to control pest insects
and for protein production. In this respect fast colony growth is desirable for managed
colonies. Transplantation of non-nestmate pupae to incipient colonies has been shown to
boost colony growth. Our objectives were to find the maximum number of pupae a founding
queen can handle, and to measure the associated colony growth. Secondly, we tested if
transplantation of pupae led to production of larger nanitic workers (defined as unusually
small worker ants produced by founding queens in their first batch of offspring). Forty-five
fertilized queens were divided into three treatments: 0 (control), 100 or 300 non-nestmate
pupae transplanted to each colony. Pupae transplantation resulted in highly increased growth
rates, as pupae were readily adopted by the queens and showed high proportions of surviving
(mean = 76%). However, survival was significantly higher when 100 pupae were transplanted
compared to transplantation of 300 pupae, indicating that queens were unable to handle 300
pupae adequately and that pupae require some amount of nursing. Nevertheless, within the
60-day experiment the transplantation of 300 pupae increased total colony size more than 10-
fold whereas 100 pupae increased the size 5.6 fold, compared to control. This increase was
due not only to the individuals added in the form of pupae but also to an increased per capita
brood production by the resident queen, triggered by the adopted pupae. The size of hatching
pupae produced by the resident queen also increased with the number of pupae transplanted,
leading to larger nanitic workers in colonies adopting pupae. In conclusion, pupae
transplantation may be used to produce larger colonies with larger worker ants and may thus
reduce the time to produce weaver ant colonies for commercial purposes. This in turn may
facilitate the implementation of the use of weaver ants.Weaver ants (Oecophylla longinoda Latreille) are used commercially to control pest insects
and for protein production. In this respect fast colony growth is desirable for managed
colonies. Transplantation of non-nestmate pupae to incipient colonies has been shown to
boost colony growth. Our objectives were to find the maximum number of pupae a founding
queen can handle, and to measure the associated colony growth. Secondly, we tested if
transplantation of pupae led to production of larger nanitic workers (defined as unusually
small worker ants produced by founding queens in their first batch of offspring). Forty-five
fertilized queens were divided into three treatments: 0 (control), 100 or 300 non-nestmate
pupae transplanted to each colony. Pupae transplantation resulted in highly increased growth
rates, as pupae were readily adopted by the queens and showed high proportions of surviving
(mean = 76%). However, survival was significantly higher when 100 pupae were transplanted
compared to transplantation of 300 pupae, indicating that queens were unable to handle 300
pupae adequately and that pupae require some amount of nursing. Nevertheless, within the
60-day experiment the transplantation of 300 pupae increased total colony size more than 10-
fold whereas 100 pupae increased the size 5.6 fold, compared to control. This increase was
due not only to the individuals added in the form of pupae but also to an increased per capita
brood production by the resident queen, triggered by the adopted pupae. The size of hatching
pupae produced by the resident queen also increased with the number of pupae transplanted,
leading to larger nanitic workers in colonies adopting pupae. In conclusion, pupae
transplantation may be used to produce larger colonies with larger worker ants and may thus
reduce the time to produce weaver ant colonies for commercial purposes. This in turn may
facilitate the implementation of the use of weaver ants.Weaver ants (Oecophylla longinoda Latreille) are used commercially to control pest insects
and for protein production. In this respect fast colony growth is desirable for managed
colonies. Transplantation of non-nestmate pupae to incipient colonies has been shown to
boost colony growth. Our objectives were to find the maximum number of pupae a founding
queen can handle, and to measure the associated colony growth. Secondly, we tested if
transplantation of pupae led to production of larger nanitic workers (defined as unusually
small worker ants produced by founding queens in their first batch of offspring). Forty-five
fertilized queens were divided into three treatments: 0 (control), 100 or 300 non-nestmate
pupae transplanted to each colony. Pupae transplantation resulted in highly increased growth
rates, as pupae were readily adopted by the queens and showed high proportions of surviving
(mean = 76%). However, survival was significantly higher when 100 pupae were transplanted
compared to transplantation of 300 pupae, indicating that queens were unable to handle 300
pupae adequately and that pupae require some amount of nursing. Nevertheless, within the
60-day experiment the transplantation of 300 pupae increased total colony size more than 10-
fold whereas 100 pupae increased the size 5.6 fold, compared to control. This increase was
due not only to the individuals added in the form of pupae but also to an increased per capita
brood production by the resident queen, triggered by the adopted pupae. The size of hatching
pupae produced by the resident queen also increased with the number of pupae transplanted,
leading to larger nanitic workers in colonies adopting pupae. In conclusion, pupae
transplantation may be used to produce larger colonies with larger worker ants and may thus
reduce the time to produce weaver ant colonies for commercial purposes. This in turn may
facilitate the implementation of the use of weaver ants
Impact of African weaver ant nests [Oecophylla longinoda Latreille (Hymenoptera: Formicidae)] on mango [Mangifera indica L. (Sapindales: Anacardiaceae)] leaves
Oecophylla
ants are appreciated for their control of pests in plantation crops. However,
the ants ? nest building may have negative impacts on trees. In this study we tested
the effect of ant densities and nest building on the leaf performance of mango trees.
Trees were divided into three groups: trees without ants, trees with low and trees with
high ant densities. Subsequently, the total number of leaves, the proportion of leaves
used for nest construction, and tree growth was compared between these groups. The
percentage of leaves used for nests was between 0.42-1.2 % (mean = 0.7%±0.02) and
the total number of leaves and tree growth was not significantly different between
trees with and without ants. Further, leaf performance was compared between shoots
with and without ant nests and between leaves in or outside ant nests. The number
of leaves and lost leaves per shoot, leaf size
, leaf
condition (withered), leaf longevity
and hemipteran infection was compared between groups. In the dry season nest-shoots
held more leaves than shoots without nests despite nest-shoots showed more lost
leaves. Leaves in nests were smaller than other leaves, more likely to wither and more
often infested with scales. However, smaller nest-leaf size was probably due to the ants ?
preference for young leaves and the higher incidence of withering resulting as leaves in
nests cannot fall to the ground. In conclusion, the costs associated to ant nests were low
and did not affect the overall number of leaves per tree nor tree growth.Oecophylla
ants are appreciated for their control of pests in plantation crops. However,
the ants ? nest building may have negative impacts on trees. In this study we tested
the effect of ant densities and nest building on the leaf performance of mango trees.
Trees were divided into three groups: trees without ants, trees with low and trees with
high ant densities. Subsequently, the total number of leaves, the proportion of leaves
used for nest construction, and tree growth was compared between these groups. The
percentage of leaves used for nests was between 0.42-1.2 % (mean = 0.7%±0.02) and
the total number of leaves and tree growth was not significantly different between
trees with and without ants. Further, leaf performance was compared between shoots
with and without ant nests and between leaves in or outside ant nests. The number
of leaves and lost leaves per shoot, leaf size
, leaf
condition (withered), leaf longevity
and hemipteran infection was compared between groups. In the dry season nest-shoots
held more leaves than shoots without nests despite nest-shoots showed more lost
leaves. Leaves in nests were smaller than other leaves, more likely to wither and more
often infested with scales. However, smaller nest-leaf size was probably due to the ants ?
preference for young leaves and the higher incidence of withering resulting as leaves in
nests cannot fall to the ground. In conclusion, the costs associated to ant nests were low
and did not affect the overall number of leaves per tree nor tree growth
Cowpea production practices, constraints, and end-users preferred varieties and traits in Southern Benin
Cowpea (Vigna unguiculata L. Walp.) is an important food and nutrition security crop in Benin, though its production is constrained by absence of information necessary for strategic planning. The objective of this study was to evaluate the diversity of preferred traits and production constraints of cowpea in southern Benin. A survey was conducted in three main cowpea-growing districts in southern Benin, namely Ketou, Zakpota and Klouekanmey. Data were collected from 175 respondents through structured survey, as well as using field observations and via focus group discussions. It was clear that the majority of farmers (82%) grew cowpea in association with other crops, though mostly with maize (Zea mays L.). A total of 75.9% of farmers purchased seeds from agro-dealers in local markets. The perception of cowpea production constraints varied among districts, with weeds infestation, unavailability of certified seeds, drought, low yield, and insect pest attacks as the major production constraints across the districts. Factorial analysis showed that for the sociocultural group Adja, selection of cowpea varieties is based on pod hardness and tolerance to Striga gesnerioides; while for the sociocultural group Fon, cooking time, grain colour and seed price were the main selection criteria. On the other hand, for sociocultural groups Nagot and Holli, selection of the cowpea varieties was based on the ease to separate the coat from the cotyledons and seed size (medium to large). These findings could guide cowpea breeders and extension officers in further research and dissemination programmes in Benin
Do Herbivores Eavesdrop on Ant Chemical Communication to Avoid Predation?
Strong effects of predator chemical cues on prey are common in aquatic and marine ecosystems, but are thought to be rare in terrestrial systems and specifically for arthropods. For ants, herbivores are hypothesized to eavesdrop on ant chemical communication and thereby avoid predation or confrontation. Here I tested the effect of ant chemical cues on herbivore choice and herbivory. Using Margaridisa sp. flea beetles and leaves from the host tree (Conostegia xalapensis), I performed paired-leaf choice feeding experiments. Coating leaves with crushed ant liquids (Azteca instabilis), exposing leaves to ant patrolling prior to choice tests (A. instabilis and Camponotus textor) and comparing leaves from trees with and without A. instabilis nests resulted in more herbivores and herbivory on control (no ant-treatment) relative to ant-treatment leaves. In contrast to A. instabilis and C. textor, leaves previously patrolled by Solenopsis geminata had no difference in beetle number and damage compared to control leaves. Altering the time A. instabilis patrolled treatment leaves prior to choice tests (0-, 5-, 30-, 90-, 180-min.) revealed treatment effects were only statistically significant after 90- and 180-min. of prior leaf exposure. This study suggests, for two ecologically important and taxonomically diverse genera (Azteca and Camponotus), ant chemical cues have important effects on herbivores and that these effects may be widespread across the ant family. It suggests that the effect of chemical cues on herbivores may only appear after substantial previous ant activity has occurred on plant tissues. Furthermore, it supports the hypothesis that herbivores use ant chemical communication to avoid predation or confrontation with ants
Manejo da podridão-de-Sclerotium em pimentão em um argisolo no Amazonas
A podridão-de-Sclerotium é uma doença comum em plantas da famÃlia Solanaceae na Amazônia. Visando avaliar estratégias de manejo para esta doença em pimentão (Capsicum annuum, L. Solanaceae), foi conduzido experimento em campo em blocos casualizados com parcelas subdivididas e seis repetições, em Argissolo Vermelho-Amarelo artificialmente infestado com Sclerotium rolfsii. O tratamento principal foi a cobertura do solo (cobertura do solo com serragem ou solo nu). Os tratamentos secundários consistiram na adição ao solo de: 1) composto vegetal (3 L por cova), 2) arroz colonizado com Trichoderma harzianum (90 g por cova contendo ≈ 1,4 x 10(9) conÃdios g-1), 3) composto vegetal e T. harzianum nas mesmas proporções descritas anteriormente e 4) testemunha. Todas as plantas receberam apenas adubação orgânica com composto vegetal na proporção de 1,5 L por cova, exceto as dos tratamentos com 3 L de composto por cova. A parcela principal foi constituÃda de três fileiras com dez plantas de pimentão (0,50 x 1,0 m) e cada subparcela continha três fileiras com cinco plantas. A incidência da podridão-de-Sclerotium foi avaliada duas vezes por semana. A cobertura morta favoreceu significativamente a ocorrência da doença. Nas parcelas com esse tratamento o aumento da intensidade da doença, expressa em área abaixo da curva de progresso da doença (AACPD), foi 35,5% maior, em comparação com as parcelas sem cobertura morta. A aplicação de T. harzianum ou o incremento na quantidade de composto (de 1,5 para 3 L por cova) reduziu a AACPD em 38,1% e 37,5%, respectivamente. A aplicação de T. harzianum ou o incremento na quantidade de composto, mesmo nos tratamentos com cobertura morta, reduziu significativamente a AACPD em 52,8% e em 55,1%, respectivamente, em comparação com o tratamento apenas com cobertura morta. Esses resultados sugerem que a utilização de T. harzianum e o aumento na quantidade de composto por cova são estratégias eficientes de manejo da podridão-de-Sclerotium em pimentão. A cobertura morta com serragem não deve ser utilizada em áreas infestadas com S. rolfsii
Occurrence and distribution of cowpea damping-off and stem rot and associated fungi in Benin
Published online: 24 March 2005Damping-off and stem rot of cowpea is an important soil-borne disease worldwide. Cowpea fields were randomly chosen in each agro-ecological zone in Benin and surveyed in 2001 and 2002 to determine the occurrence of the diseases throughout the country. Diseased plants, prevailing environmental conditions and cowpea grower cultural practices were recorded and causal agents associated with the disease identified. Results indicated that damping-off and stem rot were distributed throughout Benin. The disease incidence was higher in the South (0·074) and Centre zones (0·063) than in the other zones (<0·02) in the country. Among factors influencing the disease incidence, cultural practices such as sole crop and no-till systems appeared to be most important. Isolated fungi included Sclerotium rolfsii, Fusarium spp., Pythium ultimum, Rhizoctonia solani, Phoma sp., Rhizopus sp. and Trichoderma harzianum. None of the Fusarium, T. harzianum or Rhizopus sp. isolates were pathogenic in the greenhouse. Pythium ultimum, R. solani and Phoma sp. were infrequently isolated and few isolates caused the disease symptoms in the greenhouse. However, this is the first report of Phoma sp. causing damping-off and stem rot of cowpea in Benin. Sclerotium rolfsii was by far the most common species isolated from all the agro-ecological zones and all isolates were pathogenic on cowpea in the greenhouse. Sclerotium rolfsii was considered to be the main causal agent of cowpea damping-off and stem rot in the Republic of Benin due to its wide distribution, high incidence and predominance on plants with damping-off and stem rot symptoms