SERANGGA

Scirpophaga incertulas (Walker) (Lepidoptera: Crambidae), also called the Yellow Stem Borer, is a major prominent insect pest in rice production that results in substantial crop losses. Due to climate change, the infestation of S. incertulas has become more serious. This study was carried out between March and April 2022 to investigate the in-vitro culture and developmental changes of S. incertulas under different microclimates on the MR297 rice variety. The experiment was set up in a completely randomized design, and the data on the mean developmental stages of the lengths and widths were measured. A student's t-Test was used to compare the mean differences in lengths and widths of the developmental changes in instar larvae and pupae of S. incertulas in the two microclimate conditions. Multi-linear regression analysis was used to correlate the relationship between the microclimate factors and the developmental changes in S. incertulas on the MR297 rice variety. Data were analyzed using SPSS (version 20) and R studio (version 4.2.1) software. The correlation analysis of the data showed a positive relationship between the developmental changes in lengths and widths of S. incertulas for the laboratory and field microclimatic conditions using the MR297 rice variety. This study successfully examined the in-vitro culture and developmental changes of S. incertulas under different microclimates, from egg hatching to the adult's emergency.

Aketarawong, N., Isasawin, S., Laohakieat, K. & Thanaphum, S. 2020. Genetic stability, genetic variation, and fitness performance of the genetic sexing Salaya1 strain for 21 Bactrocera dorsalis, under long-term mass rearing conditions. BMC Genetics 21(Suppl 2): 131.

Akmal Shukri, A.I., Hasan, N.A., Ahmad, F., Ramachandran, K., Rafii, M.Y., Harun, A.R. & Manaf, M.N.A. 2021. Genetic diversity of selected malaysian mega rice varieties based on agro-morphological traits. Malaysian Journal of Biochemistry and Molecular Biology 2: 1 - 9

Alam, M.Z. 2013. Survey and assessment of insect management technologies and environmental impact on rice ecosystem of Bangladesh. International Journal of Applied Research and Studies2(4): 2278–9480.

Ali, M. P., Bari, M.N., Haque, S.S., Kabir, M.M.M., Nowrin, F., Choudhury, T.R., Mankin, R. W. & Ahmed, N. 2020. Response of a rice insect pest, Scirpophaga incertulas (Lepidoptera: Pyralidae) in warmer world. BMC Zoology 5(1): 1–8.

Amzah, B., Jajuli, R., Jaafar, N.A.I., Jamil, S.Z., Hamid, S.N.A.A., Zulkfili, N.I., Ismail, N.A., Kadir, A.A., Ariff, E.E.E. & Baki, R. 2018. Application of ecological engineering to increase arthropod’s diversity in rice field ecosystem. Malaysian Applied Biology 47(5): 1–7.

Bandong, J.P. & Litsinger, J.A. 2005. Rice crop stage susceptibility to the rice yellow stemborer Scirpophaga incertulas (Walker) (Lepidoptera: Pyralidae). International Journal of Pest Management 51(1): 37–43.

Bertola, M. & Mutinelli, F. 2021. A systematic review on viruses in mass‐reared edible insect species. Viruses 13(11): 1–32.

Bisen, D., Bisen, U. & Bisen, S. 2019. Studies on major insect pests of rice crop (Oryza sativa) at Balaghat district of Madhya Pradesh. Journal of Entomology and Zoology Studies 7(2): 625–629.

Chiueh, Y., Tan, C. & Hsu, H. 2021. The value of a decrease in temperature by one degree celsius of the regional microclimate — The cooling effect of the paddy field. Atmosphere 12(3): 353.

Cho, J.H. & Lee, J.H. 2018. Multiple linear regression models for predicting nonpoint-source pollutant discharge from a highland agricultural region. Water 10: 1156.

Dilipkumar, M., Ahmad-Hamdani, M.S., Rahim, H., Chuah, T.S. & Burgos, N.R. 2021. Survey on weedy rice (Oryza spp.) management practice and adoption of Clearfield® rice technology in Peninsular Malaysia. Weed Science 69(5): 558–564.

Dyar, H.G. 1980. The number of molts of Lepidopterous larvae. Psyche: A Journal of Entomology 5: 420–422.

Escamilla-García, A., Soto-Zarazúa, G.M., Toledano-Ayala, M., Rivas-Araiza, E. & Gastélum-Barrios, A. 2020. Applications of Artificial neural networks in greenhouse technology and overview for smart agriculture development. Applied Sciences 10(11): 3835.

Gao, B., Hedlund, J., Reynolds, D.R., Zhai, B., Hu, G. & Chapman, J.W. 2020. The ‘migratory connectivity’ concept, and its applicability to insect migrants. Movement Ecology 8(1): 1–13.

Gautam, C.P.N., Chandra, U., Veer, R. & Kumar, A. 2020. Study on biology of rice yellow stem borer. Journal of Entomology and Zoology Studies 8(5): 1786–1789.

Grisafi, F., Papa, G., Barbato, M., Tombesi, S. & Negri, I. 2021. Influence of microclimate factors on Halyomorpha halys dehydration. Insects 12(10): 897.

Guotao, Y., Xuechun, W., Youlin, P, Fahd, R., Ting, Z. & Yungao, H. 2018. Different micro-climate response of indica rice population to nitrogen fertilizer. Plant Soil Environment 64(9): 407–412.

Haider, I., Akhtar, M., Noman, A. & Qasim, M. 2021. Population trends of some insect pests of rice crop on light trap and its relation to abiotic factors in Punjab, Pakistan. Pakistan Journal of Zoology 53(3): 1015–1023.

Hashim, M.F.C., Nurulhuda, K., Haidar, A.N., Muharam, F.M., Nurulhuda, K., Berahim, Z., Ismail, M.R., Zad, S.N.M. & Zulkafli, Z. 2022. Physiological and yield responses of five rice varieties to nitrogen fertilizer under farmer’s field in IADA Ketara, Terengganu, Malaysia. Sains Malaysiana 51(2): 359–368.

Hashim, N.A., Aziz, M.A., Basari, N., Saad, K., Jasmi, A.H. & Hamid, S.A. 2017. Diversity and guild structure of insects during rice flowering stage at a selected rice field in Penang, Malaysia. Malaysian Applied Biology 46(3): 161–169.

Hei, Z., Xiang, H., Zhang, J., Liang, K., Zhong, J. & Li, M. 2022. Intercropping of rce and water Mimosa (Neptunia oleracea Lour .): A novel model to control pests and diseases and improve yield and grain quality while reducing N fertilizer application. Agriculture 12(1):13.

Holstein, J. 2014. Preserving and specimen handling: Insects and other invertebrates. https://www.researchgate.net/publication/250612125 [10 April 2023]

Huang, X.L., Xiao, L., He, H.M. & Xue, F. Sen. 2018. Effect of rearing conditions on the correlation between larval development time and pupal weight of the rice stem borer, Chilo suppressalis. Ecology and Evolution 8(24): 12694–12701.

Hugar, S.V., Hosamani, V., Hanumanthaswamy, B.C. & Pradeep, S. 2010. Comparative biology of yellow stem borer, Scirpophaga incertulas Walker (Lepidoptera: Pyraustidae) in aerobic and transplanted Rice. International Journal of Agricultural Sciences 6(1): 160–163.

Huynh, M.P., Shelby, K.S. & Coudron, T.A. 2021. Recent advances in insect reasring methodology to promote scientific research and mass production. Insects 12(11): 961.

Ilias, N.N., Mohd Rozalli, N.H., Thuy Vy, N.H. & Eng, H.Y. 2020. Proximate compos rice bran of different rice varieties in Malaysia: Analysis of proximate compositions, antioxidative properties and fatty acid profile for data compilationitions, antioxidative propetise and fatty acid profice of rice bran from different rice varieties in Malaysia. Advances in Agricultural and Food Research Journal 1(2): 1–17.

Kattupalli, D., Barbadikar, K.M., Balija, V., Ballichatla, S., Athulya, R., Padmakumari, A.P., Saxena, S., Gaikwad, K., Yerram, S., Kokku, P. & Madhav, M. S. 2021. The draft genome of yellow stem borer, an agriculturally important pest, provides molecular insights into its biology, development and specificity towards rice for infestation. Insects 12(6): 563.

Liao, Q.J., Yang, Y.J., Wang, J., Pang, X., Xu, C.M., Peng, C.L., Lu, Z.X. & Liu, Y.H. 2017. Temperature-dependent development and reproduction of rice leaffolder, Marasmia exigua (Lepidoptera: Pyralidae). PLoS ONE 12(11): 1–12.

Manjula, K.N. & Kotikal, Y.K. 2018. Biology of turnip moth , Agrotis segetum (Denis and Schiffermuller ) on palak , Beta vulgaris var . Journal of Entomology and Zoology Studies 6(6): 1183–1186.

Manikandan, N., Kennedy, J.S. & Geethalakshmi, V. 2013. Effect of elevated temperature on development time of rice yellow stem borer. Indian Journal of Science and Technology 6(12): 5563–5566.

Mukhopadhyay, A., Soma, D. & Kumar, B. 2018. Pests of Indian Tea Plantations- Pests and Theirs Management. Singapore: Springer.

Murali-Baskaran, R.K., Sridhar, J., Sharma, K.C., & Jain, L. 2021. Kairomone gel formulations enhance biocontrol efficacy of Trichogramma japonicum Ashmead on rice yellow stem borer, Scirpophaga incertulas Walker. Crop Protection 146: 105655.

Nuzulullia, U., Martono, E. & Trisyono, Y.A. 2019. The effect of planting distance and depth of water puddle to damage intensity by rice yellow stem borer (Scirpophaga incertulas Walker) (Lepidoptera : Crambidae) in relation to microclimate change. Jurnal Perlindungan Tanaman Indonesi 23(2): 270–277

Norela, S., Anizan, I., Ismail, B.S. & Maimon, A. 2013. Diversity of pest and non-pest insects in an organic paddy field cultivated under the System of Rice Intensification (SRI): A case study in Lubok China, Melaka, Malaysia. Journal of Food, Agriculture and Environment 11(3–4): 2861–2865.

Padmakumari, A.P., Katti, G., Sailaja, V., Padmavathi, C., Lakshmi, V.J., Prabhakar, M. & Prasad, Y.G. 2013. Delineation of larval instars in field populations of rice yellow stem borer, Scirpophaga incertulas (Walk.). Oryza 50(3): 259–267.

Parra, J.R.P. & Coelho, A. 2022. Insect rearing techniques for biological control programs, a component of sustainable agriculture in Brazil. Insects 13(1): 105.

Patel, S. & Singh, C.P. 2017. Seasonal incidence of rice stem borer, Scirpophaga incertulas (Walker) on different varieties of rice in relation to weather parameters. Journal of Entomology and Zoology Studies 5(3): 80–83.

Rebaudo, F., Emile, F. & Olivier, D. 2016. Microclimate data improve predictions of insect abundance models based on calibrated spatiotemporal temperatures. Frontiers in Physiology 7: 139.

Renuka, P., Madhav, M.S., Padmakumari, A.P., Barbadikar, K.M., Mangrauthia, S.K., Sudhakara Rao, K.V., Marla, S.S. & Babu, V.R. 2017. RNA-seq of rice yellow stem borer Scirpophaga incertulas reveals molecular insights during four larval developmental stages. G3: Genes, Genomes, Genetics 7(9): 3031–3045.

Satpathi, C.R., Chakraborty, K., Shikari, D. & Acharjee, P. 2012. Consequences of feeding by yellow stem borer (Scirpophaga incertulas Walk .) on rice cultivar Swarna mashuri (MTU 7029 ). World Applied Sciences Journal 17 (4): 32-539.

Sheeja, C., Arun, D. & Divya, L. 2021. Insect in vitro system for toxicology studies — current and future perspectives. Frontiers in Toxicology 3: 1–4.

Singh, D., Kumar Singh, A., Kumar, A. & Vigyan Kendra, K. 2008. On-farm evaluation of integrated management of rice yellow stem borer (Scirpophaga incertulas Walk.) in rice-wheat cropping system under low land condition. Journal of AgriSearch 1(1): 40–44.

Soundararajan, R.P. 2020. Mass culturing of rice yellow stem borer , Scirpophaga incertulas W. (Crambidae ; Lepidoptera). Journal of Entomology and Zoology Studies 8(3): 891–895.

Sun, Y., Wu, Y., Sun, Y., Luo, Y., Guo, C., Li, B., Li, F., Xing, M., Yang, Z. & Ma, J. 2022. Effects of water and nitrogen on grain filling characteristics, canopy microclimate with chalkiness of directly seeded rice. Agriculture 12(1):122.

Taylor, B. 1996. Scirpophaga incertulas (Walker) (Lepidoptera: Pyralidae) and deepwater rice - An integrated view. Crop Protection 15(7): 649–655.

Van Nguyen, N. & Ferrero, A. 2006. Meeting the challenges of global rice production. Paddy and Water Environment 4(1) 1–9.

Viajante, V. & Heinrichs, E.A. 1987. Plant age effect of rice cultivar IR46 on susceptibility to the yellow stem borer Scirpophaga incertulas (Walker) (Lepidoptera: Pyralidae). Crop Protection 6(1): 33–37.

Yaakop, S., David-Dass, A., Shaharuddin, U.S., Sabri, S., Badrulisham, A.S. & Che-Radziah, C.M.Z. 2020. Species richness of leaf roller and stem borers (Lepidoptera) associated with different paddy growth and first documentation of its DNA barcode. Pertanika Journal of Tropical Agricultural Science 43(4): 523–535.