Solar radiation is an essential factor in the process of plant metabolism. Indonesia has a rainy season and the dry season, which causes differences in solar radiation intensity. The purpose of this study was to obtain information on suitable planting times and optimal cropping patterns for rice in the dry season in an effort to increase plant productivity. The study was conducted using a nested design, with two factors. The first factor is planting time. The second factor is cropping pattern, a nested factor in planting time that consists of 3 levels of cropping pattern (CP). These experiments have six combinations, and these experiments were repeated three times. Cropping pattern of jajar legowo 40 cm x 20 cm x 12.5 cm can give the best results on the parameters of leaf area index, plant growth rate, percentage of productive tillers, weight per square meter and rice productivity. Rice productivity is greatly influenced by planting time and cropping patterns. The planting time in September produced the highest productivity, reaching 6.99 t ha^-1. While rice planted with jajar legowo cropping patterns (40 cm x 20 cm x 12.5 cm) had productivity up to 7.66 t ha^-1.

Adinurani, P.G. (2019). Production potensial of sweet corn (Zea mays Linn. var. Saccharata Sturt) ‘Bonanza’ to different cropping pattern and phosphorus sources. IOP Conf. Series: Earth and Environmental Science 293 (2019) 012032.

Anggraini, F., A. Suryanto, and N. Aini. (2013). Sistem tanam dan umur bibit pada tanaman padi sawah (Oryza sativa L.) varietas inpari 13. J. Produksi Tanaman 1(2) : 52 – 60.

BMKG (Badan Meteorologi Klimatologi dan Geofisika). 2020. Data curah hujan dan intensitas radiasi matahari bulan september 2019 sampai januari 2020. BMKG Karangploso, Malang, Jawa Timur. Di akses tanggal 02 Agustus 2020

Dass, A. and S. Chandra. (2013). Irrigation, spacing and cultivar effects on net photosynthetic rate, dry matter partitioning and productivity of rice under system of rice intensification in mollisols of northern india. Expl Agric.: page 1 of 20. Cambridge University Press

Detikfinance. (2019). RI impor beras 2,25 juta ton sepanjang 2018, ini rinciannya. https://finance.detik.com/berita-ekonomi-bisnis/d-4386820/ri-impor-beras- 225 juta-ton-sepanjang-2018-ini-rinciannya.

Fageria, N. K. (2007). Yield physiology of rice. J. Plant. Nutr. 30: 843-879

Hatta, M. (2012). Uji jarak tanam sistem legowo terhadap pertumbuhan dan hasil beberapa varietas padi pada metode SRI. Jurnal Agrista, 16(2), 87-93.

Hermawati, T. (2012). Pertumbuhan dan hasil enam varietas padi sawah dataran rendah pada perbedaan jarak tanam. Bioplantae, 1(2), 108-116.

Husana, Y. (2010). Pengaruh penggunaan jarak tanam terhadap pertumbuhan dan produksi padi sawah (Oryza sativa L.) varietas IR 42 dengan metode SRI (System of Rice Intensification). J. Jur. Agroteknologi. Agricultural Faculty, Riau University. 9: 2-7

Ikhwani., G. R. Pratiwi, E. Paturrohman, and A.K. Makarim. (2013). Peningkatan produktivitas padi melalui penerapan jarak tanam jajar legowo. Iptek Tanaman Pangan. 8 (2) : 72 – 79.

Kumalasari, S. N., S. Sudiarso. And A. Suryanto. (2018). Pengaruh jarak tanam dan jumlah bibit pada tanaman padi (Oryza sativa L.) hibrida varietas PP3. Jurnal Produksi Tanaman, 5(7).

Long, S.P., X. G. Zhu, S. L. Naidu, and D.H. Ort. (2006). Can improvement in photosynthesis increase crop yields? Plant, Cell and Environment. 29 : 315–330.

Makarim, A. K., and E. Suhartatik. (2009). Morfologi dan fisiologi tanaman padi. Jurnal Balai Besar Penelitian Tanaman Padi. Hal. 295-330.

Mungara, E., D. Indradewa and R. Rogomulyo. (2013). Analysis of growth and rice yields (Oryza sativa L.) conventional, organic transitional, and organic farming system. Vegetalika, 2(3), 1-12.

Peng, S. (2000). Single-leaf and canopy photosynthesis of rice. Studies in Plant Science, 7, Pages 213-228.

Peng, S., J. Huang, J.E. Sheehy, R.C. Laza, R.M. Visperas, X. Zhong, and K.G. Cassman. (2004). Rice yields decline with higher night temperature from global warming. Proceedings of the National Academy of Sciences, 101(27), 9971-9975.

Rianto, D. F., E. Santosa, and D. Guntoro. (2019). Weed growth and lowland rice production as affected by planting patterns and rice varieties. Journal of Tropical Crop Science, Vol. 6 No. 1, February 2019.

San-Oh, Y., Y. Mano, T. Ookawa, and T. Hirasawa. (2004). Comparison of dry matter production and associated characteristics between direct-sown and transplanted rice plants in a submerged paddy field and relationships to cropping patterns. Field Crops Research, 87(1), 43-58.

Shahidullah, S.M., M.M. Hanafi, M. Ashrafuzzaman, M.R. Ismail, M.A. Salam, and A. Khair. (2010). Biomass accumulation and energy conversion efficiency in aromatic rice genotypes. Crop Res. Biol. 333, 61-67.

Sopandie, D. (2014). Fisiologi adaptasi tanaman terhadap cekaman abiotik pada agroekosistem tropika. Bogor (ID): IPB Pres.pp.228

Suryanto, A. (2018). Upaya peningkatan efisiensi konversi energy matahari pada tanaman padi (Oryza sativa L.), jagung (Zea mays L.) dan kentang (Solanum tuberosum L.). Monograf. UM Press. 143 h.

Tabbal, D.F., B.A.M. Bouman, S.I. Bhuiyan, E.B. Sibayan, and M.A. Sattar. (2002). On-farm stategies for reducing water input in irrigated rice ; case studies in the philippines. Agric. Water Man. 56:93-112

Wassmann, R., S.V.K. Jagadish, S. Heuer, A. Ismail, E. Redona, R. Serraj, R.K. Singh, G. Howell, H. Pathak, and K. Sumfleth. (2009). Climate change affecting rice production: the physiological and agronomic basis for possible adaptation strategies. Advances in Agronomy 101:59-122.

Yang, W., S. Peng, R.C. Laza, R.M. Visperas, and M.L.D. Sese. (2008). Yield gap analysis between dry and wet season rice crop grown under high yielding management condition. Agronomy Journal 100(5):1390-1396

Yin, X., P.C. Struik, P. Romero, J. Harbinson, J.B. Evers, P.E.V.D. Putten, and J. A. N. Vos. (2009). Using combined measurements of gas exchange and chlorophyll fluorescence to estimate parameters of a biochemical C3 photosynthesis model: a critical appraisal and a new integrated approach applied to leaves in a wheat (Triticum aestivum) canopy. Plant, cell & environment, 32(5), 448-464.

Yoshida, S. (1981). Fundamentals of rice crop science. IRRI. Loas Banos. Laguna Philippines. pp.269