Diversity of Insect Pest and Predator Species in Monsoon and Summer Rice Fields of Taungoo Environs, Myanmar

Paddy fields are natural and artificial wetland ecosystems that supply rice for the people and provide the wildlife especially insect diversity of different functional aspects. A total of 71 insect species belonging to 40 families under eight orders were observed during the study period. Among the 71 insect species, 18 species of beetles, nine species of bugs, eight species of dragonfly, five species of butterflies, four species of leafhoppers, plant hoppers and moths, three borer and spiders, two crickets, one species of skippers, grass hopper, hispa, ant, weevil, hairy caterpillar, leaf roller, katydid, thrips, maggot and water boatmen were recorded in the study sites. Total of 41 species of pests, 18 species of predators and 12 species of beneficial species (they func-tion as pollinating the flowering plants in the paddy field wetland ecosystem) were recorded in the study sites. In the monsoon season, the 41 species of pest species, 18 species of predator species and 12 species of beneficial species were recorded from monsoon rice field. According to Shannon Evenness value (H'/S = −0.012564), the data showed that the insect species recorded from the one habitat was not the similar to another. In summer paddy fields, 36 species of pest species, 16 species of predator species and 9 species of beneficial Total arthropod insect species from the dry According to Shannon Evenness the that the insect species recorded from the the to another. Population growth and duration of life of insects is by the temperature, the duration of life is in the temperature in the temperature.


Introduction
The insects play an important role in the paddy field ecosystem functioning as pests and their counter action of predator insects. The insects are the highest diversity among about 90% or more of global living species exist on earth planet.
Most insects are destructive, vectors and predators. Among them, the pest species destroyed the plant species especially agricultural crops.
Insects are responsible for two major forms of damage to crops. These include aphids, whiteflies and scaled insects. Rice (Oryza sativa) is the staple food of over half of the world's population. Annual world rice production is approximately 460 million tons grown on more than 145 million hectare (ha). Over 90% of the world's rice is grown in Asia. The government has accorded the highest priority on the rice sector because of its crucial role in food security, economic and political importance to the country [1].
Myanmar is an agricultural country, having over 8 million hectares of paddy land, all are growing monsoon rice and in some of these fields where there is irrigating by the dams, the summer rice are growing. Monsoon rice occupies the largest portion of the rice area 80% and summer rice is 20%. There are about 70 rice varieties have been collected in Myanmar (IRRI), all have particular characters possessing good and bad. Twenty-eight varieties of these are widely grown by farmers. Rice varieties vary in characteristics such as grain length, thickness, color and aroma. The incidents of the pests are dependent on the varieties of rice species [2].
Insects are major constraint to rice production. Most of the rice plant parts are vulnerable by the insects feeding throughout the growing season from the time of sowing to the harvesting. Both the mature and immature stages of insects injure rice plants by chewing leaf and root tissues, boring and tunneling into stems, or sucking fluid sap from stems and grains. The injury from feeding of insects leads to damage showing symptoms of skeletonized and defoliated leaves, dead hearts, whiteheads, stunted and wilted plants and unfilled or picky grains.
Ultimately insect damage affects the plant physiology leading to reduction in measurable yield, utility or economic return [3]. As the insect pests cause damage to rice plants and are one of the reasons of total annual yield loss of rice, it is important to study the rice insect pests, especially their seasonal abundance and incidence, to evaluate the control measures. Notable works on the rice field insect pests are those of Alam [4] [5]. The entomologists of BRRI initiated systematic surveys of rice field insect pests throughout Bangladesh dividing Bangladesh into several agro-ecological zones and collected rice insect pests from dif-ferent crops, seasons and growth stages of the rice plants [6]- [11].
The arthropod community in rice fields includes rice pests, their natural enemies (predators and parasitoids) and other non-rice pest insects that inhabit or visit the vegetation. Over 800 species of arthropod community in rice ecosystem have been reported worldwide. The composition of the arthropod communities in the rice ecosystem is mainly influenced by the rice plants [10].
Irrigated rice fields are agronomically managed wetland ecosystems with a high degree of environmental heterogeneity operating on a short temporal scale, harbour a rich and varied fauna [11]. The fauna is dominated by micro (bacteria), meso (insects) and macro invertebrates (especially arthropods) inhabiting the soil, water and vegetation sub-habitats of the rice fields. The terrestrial arthropod community in rice fields consists mainly of insects and spiders (terrestrial invertebrates). The different communities of terrestrial arthropods in the rice field include rice pests, their natural enemies (predators and parasitoids) and other non-rice pest insects that inhabit or visit the vegetation which are collectedly known as beneficial insects although spiders are under the class Insecta [6].  to May, 2018 ( Figure 1).

Sample Collection
Five transect lines were designated evenly apart each other. Five sampling plots were located on each transect line. The insect specimens from all survey sites from both seasons of monsoon and summer were weekly collected during the time from 7:00 am to 5:00 pm. During the day time, insect net were also used by sweeping the net. The nocturnal insects were also collected using light traps, light traps were set out each corners of the paddy field and one was at the centre of the field. The collected specimens were socked out into different insect groups as butterflies, beetles, etc. and they were identified down into species levels depending into taxonomic and morphological characters. Those species were categorized as pests, predators and beneficial groups depending on the infestation and predation during the observation time and the confirmed with the references.

Data Analysis
Two parameters to access the insect diversity and Relative abundance of the recorded species were calculated. The Shannon index and Evenness formula were used for the assessment of insect species diversity as follows (Stiling, 1999) [12].  Relative abundance of monthly occurrence was also calculated based on each species. The calculation was followed after Kumar and Sivaperuman (2005) [13].

Results and Discussion
The paddy field ecosystem was composted of a total of 71 insect species belonging to 40 families under nine orders with the three spider species. Among the 71 insect species, 18 species of beetles, nine species of bugs, eight species of dragonfly, five species of butterflies, four species of leafhoppers, plant hoppers and moths, three borer and spiders, two crickets, one species of skippers, grass hopper, hispa, ant, weevil, hairy caterpillar, leaf roller, katydid, thrips, maggot and water boatmen were recorded in the study sites (Table 1). Hence, those paddy fields were functioning ecosystem and healthy community and participate in every tropic level of these ecosystems. The insects are small animal functioning in various tropic levels. As a biodiversity conservation point of view, these paddy fields were sustainable ecosystem (Table 1 and Table 2).
The paddy field ecosystem was highly diverse insect species and spiders inhibiting 71 species representing 40 families in the monsoon rice plantation and 32 families in summer rice growing season (Table 2 and Figure 2). The species numbers under nine orders, Order Coleoptera, Diptera, Hemiptera, Orthroptera, Hymenoptera, Lepidoptera, Odonata, Thysamoptera and Aracnidae decreased in summer while it was more or less similar in both paddy growing seasons. The insect species numbers and its relative abundance was higher because they didn't applied the pesticides for this research and the surrounding paddy fields usually control the pest insects as chemical control. This area is also not far to the deciduous forest of Middle Yoma mountain range.   In the study area of paddy field ecosystem, as relative abundance categories, most species are rare species in both monsoon (55 species) and summer (51 species) the uncommon species category was 12 species in Monsoon rice and 16 species in summer rice fields. No common species was assessed in both seasons.
Actually, the spiders are not included in the insect group, here we assessed the abundance categories included with the spider species. However, this paddy field was well and sustainable ecosystem (Table 3 and Figure 3).
As a agricultural aspect, In the study area of paddy field ecosystem, three growing seasons of the species number and individual numbers of insects and spiders were observed to varied in monsoon and summer rice growing seasons. During the monsoon season, the same numbers of species (69 species) was observed in   three growing stages although particular species was found to vary with growing stages (Table 4). Total number and individual numbers of each and all observed species were logically difference in the growing stages. The different types of pest insects, such as stem borers, leaf folders, grain eaters were found with respective growing stages. Consequently, insect predator relationships between pests and carnivorous species were found to commonly specific. According to the assessment on the Shannan species diversity index, the value was distinctly higher in monsoon season (H' = 4.52E−02, with E = 6.46E−04) than in summer season (H' = 2.5482, with E = 0.0364) respectively ( Table 5).
The typical values are generally between 1.5 and 3.5 in most ecological studies, the index is rarely greater than 4 according to the internet assessed. Hence, the paddy fields in the Taungoo environs were highly diverse and still healthy ecosystem.

Conclusion
Paddy field ecosystem located in Taungoo    maggot and water boatmen. 41 species of pest species, 18 species of predator species and 12 species of beneficial species were recorded from monsoon rice field. According to abundance category, rare species was highest (55 species) which follows uncommon species (12 species), frequent (2 species) and abundance (one species). It could be assumed as balance ecosystem. Among three growing stages, insect was collected the most in flowering stage and the lowest was in the plantation stage. In the comparison of monsoon and summer season, the most species and individual numbers were recorded in monsoon season.