Drought is one of the major limitations in dry land cultivation. Drought affects plant physiology processes such as photosynthesis, respiration, mineral and water transportation, and transpiraton, briefly called drought stress. Drought stress can be avoided by managing environment. Furrow containing organic matter for rain fed rice has been the subject of many studies, with special emphasis on soil moisture. This research is aimed to know the effects of the furrow containing organic matter on physiological responses of several upland rice varieties on agroforestry system based on kayu putih (cajuput). The experimental design applied the strip plot design. The vertical factor is the furrow system of treatment consisting of 2 levels i.e. without furrow + without organic matter and furrow + organic matters. The horizontal factors are the upland rice varieties consisting of 3 varieties i.e. Situ Patenggang, Situ Bagendit and Ciherang. The collected data were analyzed by Analysis of Variance (ANOVA) applying a level of significance α = 5%. Whenever significant differences among treatments were found, further analysis was carried out by applying the Tukey's HSD (Honestly Significant Difference) test α = 5% levels. The result shows that drought affects plant physiology and can be avoided by using furrow containing organic matters. Situ Patenggang with furrow containing organic matters has the higher physiology capability, it had photosynthesis 387.18 µmol CO₂ per clump s^-1, transpiration 3038.50 mg per clump per secondand CO₂ 721.11 mol CO₂ clump per mol. There different plant requirements for Cu between varieties.

Agus, F., Irawan, I., Suganda, H., Wahyunto, W., Setiyanto, A., & Kundarto, M. (2006). Environmental Multifunctionality of Indonesian Agriculture. Paddy and Water Environ, 4(4), 181–188. Crossref

Anshar, M., Tohari, Sunaminto, B H., & Sulistyaningsih, E. (2011). Pengaruh Lengas Tanah Terhadap Pertumbuhan dan Hasil Tiga Varietas Lokal Bawang Merah pada Ketinggian Tempat Berbeda. Agroland Jurnal Ilmu-ilmu Pertanian, 18(1): 8–14. Retrieved from http://jurnal.untad.ac.id/jurnal/index.php/AGROLAND/article/view/310

Asfafuddin & Muatsih, S. (2015). Pengaruh Dosis Pupuk Nitrogen dan Jarak Tanam terhadap Pertumbuhan Kara Benguk (Mucuna pruriens L.) untuk Menekan Gulma pada Kebun Sawit Belum Menghasilkan. Retrieved from Link

Astuti, R. E. F. (2018). Anatomi Paradermal Daun Enam Jenis Tumbuhan Paku Marga Pteris. Bogor Agricultural University (IPB). Retrieved from Link

Azadi, H., Ho, P., Hafni, E., Zarafshani, K., & Witlox, F. (2011). Multi-Stakeholder Involvement and Urban Green Space Performance. Journal of Environtmental Planning and Management, 54(6): 785–811. Crossref

Balai Besar Penelitian Tanaman Padi (BB Padi). (2007). Deskripsi Varietas Padi. Sukamandi: Balai Besar Penelitian Tanaman Padi. Retrieved from Link

Balai Penelitian Tanah. (2009). Petunjuk Teknis: Analisis Kimia Tanah, Tanaman, Air, dan Pupuk. (2nd ed.). Retrieved from Link

Cetinkaya, H., Seckin Dinler, B., & Tasci, E. (2014). Investigation of Comparative Regulation on Antioxidant Enzyme System under Copper Treatment and Drought Stress in Maize (Zea mays; L.). Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 42(2), 363–371. Crossref

Cornic, G. (2000). Drought Stress Inhibits Photosynthesis by Decreasing Stomatal Aperture-not by Effecting ATP Synthesis. Plant Science, 5(5), 758–762. Crossref

Das, S. K. (2014). Role of Micronutrient in Rice cultivation and management strategy in organic Agriculture – A Reappraisal. Agricultural Sciences, 5(9), 765 – 769. Retrieved from Link

Donggulo, C. V., Lapanjang, I. M., & Made, U. (2017). Pertumbuhan dan Hasil Tanaman Padi (Oryza sativa L) pada Berbagai Pola Jajar Legowo dan Jarak Tanam. Agroland Jurnal Ilmu-ilmu Pertanian, 24(1), 27–35. Retrieved from Link

Dwidjoseputro, D. (1985). Pengantar Fisiologi Tumbuhan. Jakarta: Gramedia Pustaka Utama.

Efendi, R. (2009). Metode dan karakter seleksi toleransi genotipe jagung terhadap cekaman kekeringan. Bogor Agricultural University (IPB). Retrieved from Link

Endres, L., Silva, J. V., Ferreira, V. M., & Barbosa, G. V. D. (2010). Photosynthesis and Water Relations in Brazilian Sugarcane. The Open Agriculture. 4(1), 31–37. Crossref

FAO. (1989). Forestry and Food Security. Rome: Food and Agriculture Organization. Retrieved from Link

Farooq, M., Wahid, A., Kobayashi, N., Fujita, D., Basra, S. M. A. (2009). Plant drought stress: effect, mechanism and management. Agronomy for Sustainable Development, 29(1), 185–212. Crossref

Felania, C. (2017). Pengaruh Ketersediaan Air terhadap Pertumbuhan Kacang Hijau (Phaseolus radiatus). Seminar Nasional Pendidikan Biologi, 131–138. Yogyakarta: Jurusan Pendidikan Biologi, Fakultas MIPA, Universitas Negeri Yogyakarta. Retrieved from Link

Fischer, K. S., & Fukai, S. (2003). How Rice Responds To Drought. In: K. S. Fischer,R. Lafitte, S. Fukai, G. Atlin and B. Hardy. Breeding Rice for Drought Prone Environments. (pp. 32–36). Los Banos: International Rice Research Institute.

Gardner. (1991). Fisiologi Tanaman Budidaya. Jakarta: UI Press.

Gunawan, A. R. &S. Purwaningsih. (2015). Komposisi Vegetasi pada Agroforestri Kencur di Wilayah Priangan Timur, Jawa Barat. Prosiding Seminar Nasional Agroforestry 2015 Inovasi Agroforestry Mendukung Kemandirian Bangsa, 317–322. Ciamis: Balai Penelitian dan Pengembangan Teknologi Agroforestry bekerjasama dengan Fakultas Pertanian Universitas Padjadjaran, World Agroforestry Centre (ICRAF), Fakultas Kehutanan Universitas Winaya Mukti, Masyarakat Agroforestri Indonesia, dan Perum Perhutani.

Guo, L., Ghassemian, M., Komives, E. A., & Russell, P. (2012). Cadmium-Induced Proteome Remodeling Regulated by Spc1/Sty1 and Zip1 in Fission Yeast. Toxicological Sciences, 129(1), 200–212. Crossref

Hafif, B. (2016). Optimasi potensi lahan kering untuk pencapaian target peningkatan produksi padi satu juta ton di provinsi lampung. Litbang Pertanian. 35(2), 81–88. Crossref

Hairiah, K., Sardjono, M. A., & Sabarnudin, S. (2003). Pengantar Agroforestri. Bogor: World Agroforestry Centre (ICRAF) Southeast Asia. Retrieved from Link

Halder, K. P., & Burrage, S.W. (2004). Effect of Drought Stress of Photosynthesis and Leaf Gas Exchange of Rice Grown in Nutrient Film Technique (NFT). Pakistan Journal of Biological Science, 7(4), 563–565. Crossref

Horváth, G., Droppa, M., Wolak, A., Horváth, L. I., & Farkas, T. (1987). The Role of Cu in the Regulation of the Photosynthetic Electron Flow. In Progress in Photosynthesis Research (pp. 569–572). Dordrecht: Springer Netherlands. Crossref

Idjudin, A. A., & Marwanto, S. (2008). Reformasi pengelolaan lahan kering untuk mendukung swasembada pangan. Jurnal Sumberdaya Lahan, 2(2), 115–125. Retrieved from Link

Idwar, Saputra, S. I., Hamzah, A, Dahono, Eliartati, & Zulkifli. (2004). Keragaan dan pertumbuhan padi sawah (Oryza Sativa, L) varietas IR-64 di tanah gambut yang diberi dolomit dan tembaga (Cu) melalui daun. Jurnal Sagoe. 3(1), 45–50. Retrieved from Link

Kavita, A., Somashekar, R., & Nagaraja, B. (2015). Urban expansion and loss of Agriculture land - A case of Bengaluru city. International Journal of Geomatics And Geosciences, 5(3), 492–498. Retrieved from Link

Kementrian Pertanian. (2016). Data Lima Tahun Terakhir. Retrieved from Link

Lopez, E., Bocco, G., Mendoza, M., & Duhau, E. (2001). Predicting Land-cover and land-use Change in The Urban Fringe A Case in Morelia City, Mexico. Landscape and Urban Planning, 55(4), 271–285. Crossref

Loveless, A. R. (1987). Prinsip-prinsip Biologi Tumbuhan untuk daerah Tropik. Jakarta: Gramedia Pustaka Utama.

Ludlow, M. M., & Muchow, R. C. (1990). A Critical Evaluation of The Traits for Improving Crop Yields in Water Limited Environments. Advance Agronomi, 43, 107–153. Crossref

Maisura, Chozin, M. A. , Lubis, I., Junaedi, A., & Ehara, H. (2015). Laju Asimilasi Bersih dan Laju Tumbuh Relatif Varietas Padi Toleran Kekeringan Pada Sistem Sawah. Jurnal Agrium. 12(1), 10–15. Crossref

Mapegau. (2006). Pengaruh Cekaman Air Terhadap Pertumbuhan dan Hasil Tanaman Kedelai (Glycine max L. Merr). Jurnal Ilmiah Kultura, 41(1), 43 – 49. Retrieved from Link

Maryani, A. T. (2012). Pengaruh Volume Pemberian Air terhadap Pertumbuhan Bibit Kelapa Sawit di Pembibitan Utama. Bioplantae, 1(2), 64–74. Retrieved from Link

Mayrowani, H. & Ashari. (2011). Pengembangan Agroforestry Untuk Mendukung Ketahan Pangan dan Pemberdayaan Petani Sekitar Hutan. Forum penelitian Agro Ekonomi, 29(2), 83–98. Crossref

Mitra, J. (2001). Genetics and genetic improvement of drought resistance in crop. Plants Current Science, 80(6), 758–763. Retrieved from Link

Nayyar, H., & Gupta, D. (2006). Differential Sensitivity of C3 and C4 Plants to Water Deficit Stress: Association With Oxidative Stress and Antioxidants. Journal. Environment Experimental. Botany, 58(1-3), 106–113. Crossref

Perum Perhutani. (2002). Petunjuk Pelaksanaan Pengelolaan Sumberdaya Hutan Bersama Masyarakat di Unit I Jawa Tengah. Semarang: Perum Perhutani.

Putra, S. (2012). Pengaruh Pupuk NPK Tunggal, Majemuk dan Pupuk Daun terhadap Peningkatan Produksi Padi Gogo Varietas Situ Patenggang. Agrotrop : Journal on Agriculture Science,2(1), 55–61. Retrieved from Link

Quilambo, O. A., & Scott, P. (2004). Proline content, water retention capability and cell membrane integrity as parameters for drought tolerance in two peanut cultivars. South African Journal of Botany, 70(2), 227–234. Crossref

Roesmarkam, A., & Yuwono, N. W. (2002). Ilmu Kesuburan Tanah. Yogyakarta: Kanisius.

Rondhi, M., Pratiwi, P. A., Handini, V. T., Sunartomo, A. F., & Budiman, S. A. (2018). Agricultural Land Conversion, Land Economic Value, and Sustainable Agriculture: A Case Study in East Java, Indonesia. Land, 7(148), 1–19. Crossref

Rosadi, F. N. (2013). Studi Morfologi dan Fisiologi Galur Padi (Oryza sativa L.) Toleran Kekeringan. IPB (Bogor Agricultural University). Retrieved from Link

Rosenberg, N. J., Blad, B. L., & Verma, S. B. (1983). Microclimate : the biological environment. Wiley. Retrieved from Link

Salisbury, F. B., & Ross, C. W. (1997). Fisiologi Tumbuhan (Jilid 3). Bandung: Institut Teknologi Bandung.

Sarawa, M. Arma, J., & Mattola, M. (2014). Pertumbuhan Tanaman Kedelai (Glycine max L. Merr) Pada Berbagai Interval Penyiraman Dan Takaran Pupuk Kandang. Jurnal Agroteknos, 4(2), 786. Retrieved from Link

Sinaga, R. (2007). Analisis Model Ketahanan Rumput Gajah Dan Rumput Raja Akibat Cekaman Kekeringan Berdasarkan Respons Anatomi Akar Dan Daun. Jurnal Biologi Sumatera, 2(1), 17-20. Retrieved from Link

Sitorus, S. R. P. (2008). Pengelolaan Sumberdaya Lahan. Institut Pertanian Bogor.

Smith, J. (2010). Agroforestry: Reconciling Production with Protection of the Environment, A Synopsis of Research Literature. Newbury: Organic Research Centre, Elm Farm, Hamstead Marshall. Retrieved from Link

Soleh, M. A. (2017). Overestimasi penggukuran gas exchange tanaman dengan menggunakan Photosynthesis Analyzer Li-6400. Jurnal Kultivasi, 16(1), 255–259. Retrieved from Link

Stace, C. A. (1965). Cuticular Studies as an Aid to Plant Taxonomy. Bulletin of the British Museum (Natural History), 4, 3–78. Retrieved from Link

Sugiarto, A., Marisa, H., & Sarno. (2018). No Title. In Pemanasan Globaldi Sumatera Selatan dan Peningkatan Suhu Udara yang Terjadi: Permodelan Pengaruhnya terhadap Transpirasi Lansium domesticum Corr. Palembang: Jurusan Biologi, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Sriwijaya. Crossref

Sujinah & Jamil, A. (2016). . Mekanisme Respon Tanaman Padi terhadap Cekaman Kekeringan dan Varietas Toleran. Iptek Tanaman Pangan, 11(1), 1–8. Retrieved from Link

Suryani, E. & Dariah, A. (2012). Peningkatan Produktivitas Tanah Melalui Sistem Agroforestri. Peningkatan Produktivitas Tanah Melalui Sistem Agroforestri. Jurnal Sumberdaya Lahan, 6(2), 101–109. Retrieved from Link

Yoshida, S. (1981). Fundamental of Rice Crop Science. Philippines: The International Rice Research and Institute. Retrieved from Link

Yuspradana, R. (2017). Toleransi Tanaman Padi (Oryza sativa L.) dengan Perlakuan Cendawan Endofit Terhadap Cekaman Kekeringan. Bogor Agricultural University (IPB). Retrieved from Link