Perennial crops influence ecosystems and insect dynamics. This study was carried out to evaluate the influence of rubber orchards age on insect’s biodiversity in Tonkpi region of Côte d’Ivoire. Insects were collected in 4 classes of rubber orchards (class 1:] 0, 5] years), class 2:] 5, 10] years and class 3:] 10, 15] years) in comparison to forest. Four plots (10 m x 100 m) per rubber orchards class and in forests were sampled. A total of 10 families belonging to 4 orders (Hymenoptera, Coleoptera, Lepidoptera and Orthoptera) were collected. The results showed that the forest has the highest number of families and insects harvested compared to rubber orchards. The number of families recorded were low in old orchards of class 3. This increased progressively with age to its maximum in young orchards of class 1. The Shannon Index was higher in the forest (H ’= 2.015) and was less than 2 in the different rubber orchards. However, equitability (E) were higher in the rubber orchards classes 2 and 3 than the rubber orchards class 1 and those of the forest. The negative effects of rubber orchards on insect’s diversity increased progressively with their age. Thus, rubber tree fields are less effective in maintaining insect biodiversity. We recommended that the combination of other plants to rubber crops for the insect diversity conservation.

In order to update knowledge on the spatio-temporal evolution of Helicoverpa armigera, the geographical areas and the seasons of predilection of adult and larval populations have been studied in the last six years from 2012 to 2017. Monitoring of natural adult populations in different locations has established that populations are more abundant in South cotton production areas compared to the north. The most important outbreaks occurred in two phases (August and Mid-October to Mid-November. The monitoring of larval populations carried out on farm scale showed that infestations started on cotton early August and increased in September and October, reflecting a strong relationship between the evolutions of adult populations, larval infestations and cotton phenology. Late sowings D5 and D6 exhibited higher levels of infestation (0.213 to 0.762 larvae/30 plants) as compared to early sowing (0.21-0.31 larvae/30 plants). Annual variations of pest infestation levels increased from years to years, fluctuating from 0.008 to 0.024 larvae/30 plants over the study period. Mapping of the geographic distribution of infestation showed more severe pest pressure in the North East and South East cotton areas particulary in mostly in surrounding areas of Niakara, Ouangolo, Niellé and Bouaké (1.02 ; 0.86 ; 0.83 and 0.74 larvae/30 plants). With regard to the emerging status of H. armigera over recent years, the current pyrethroid resistance management strategy deserves to be improved on the basis of the pest geographic and seasonal profiles.