Potato cyst nematode (Globodera rostochiensis [Wollenweber] Behrens) is a nematode species of worldwide regulatory concern. This nematode caused serious economic of potato losses in Indonesia. This research studied by factorial designed to evaluated the effect of temperature (10, 20, and 30ºC), potato varieties (`Granola´, `Margahayu´, and `Cipanas´), and origin of cyst (West, Central, and East Java) on reproductive biology of G. rostochiensis in the growth chamber. The research was conducted by observed of produced the new cyst number, reproduction fitness, survival, fecundity, and multiplication of G. rostochiensis. The result showed that all of the potato varieties were infected by G. rostochiensis when they were grown at the temperature ranging of 20 and 30ºC but not at 10ºC. The optimum temperature for maximum number of cysts with the highest reproduction factor, survival, fecundity and multiplication rate for all populations was 20ºC. The origin of cyst did not have any effect on the reproductive rate. The temperature of 20ºC provided is best environment for the life of G. rostochiensis on Granola.

INTISARI

Nematoda sista kentang (Globodera rostochiensis [Wollenweber] Behrens) adalah spesies nematoda yang mendapatkan perhatian khusus di seluruh dunia. G. rostochiensis menyebabkan kerugian ekonomi yang serius pada pertanaman kentang di Indonesia. Penelitian ini menguji pengaruh perbedaan suhu (10, 20, dan 30ºC), varietas kentang (Granola, Cipanas, dan Margahayu), dan asal sista (Jawa Barat, Jawa Tengah, dan Jawa Timur) terhadap biologi reproduksi G. rostochiensis di growth chamber menggunakan rancangan acak lengkap faktorial. Pengamatan dilakukan terhadap jumlah sista baru, kemampuan reproduksi, daya tahan hidup, keperidian dan multiplikasi G. rostochiensis. Seluruh varietas kentang yang diuji terserang G. rostochiensis pada suhu 20 dan 30ºC kecuali pada suhu 10ºC. Kisaran suhu optimum untuk memperoleh jumlah sista baru yang maksimum dengan kemampuan reproduksi, daya tahan hidup, keperidian dan multiplikasi untuk semua populasi adalah 20ºC. Asal sista tidak berpengaruh terhadap biologi reproduksi yang diteliti. Kentang varietas Granola yang ditanam pada suhu 20ºC merupakan inang yang sesuai untuk kehidupan G. rostochiensis.

Anonymous. 1980. Keputusan Menteri Pertanian Nomor: 154/Kpts/Um/4/1980, Tanggal: 10 Maret 1980 tentang Deskripsi Kentang Varietas Cipanas.

Anonymous. 2008. Keputusan Menteri Pertanian Nomor: 447/Kpts/SR.120/4/2008, Tanggal: 22 April 2008 tentang Deskripsi Kentang Varietas Margahayu.

Bacic J, P. Barsi, & P. Strbac. 2011. Life Cycle of the Potato Golden Cyst Nematode (Globodera rostochiensis) Grown under Climatic Conditions in Belgrade. Archives of Biological Sciences 63: 1069−1075.

Bridge, J. & J. L. Starr. 2010. Plant Nematodes of Agricultural Importance. Academic Press, Boston. 152 p.

Hodda, M. & D.C. Cook, 2009. Economic Impact from Unrestricted Spread of Potato Cyst Nematodes in Australia. Phytopathology 99: 1387‒1393.

Indarti, S., Bambang, R.T.P., D. Mulyadi & B. Triman. 2004. First Record of Potato Cyst Nematode Globodera rostochiensis in Indonesia. Australasian Plant Pathology 33: 325−326.

Ingham, R.E., D. Kroese, & .A. Zasada. 2015. Effect of Storage Environment on Hatching of the Cyst Nematode Globodera ellingtonae. Journal of Nematology 47: 45–51.

Kaczmarek, A., K. Mac Kenzie, H. Kettle, & V.C. Blok. 2014. Influence of Soil Temperature on Globodera rostochiensis and Globodera pallida. Phytopathologia Mediterranea. 53: 396−405.

Lisnawita. 2007. Identifikasi, Kajian Biologi dan Ketahanan Tanaman terhadap Nematoda Sista Kentang (Globodera spp.) Indonesia. Disertasi. Sekolah Pascasarjana Institut Pertanian Bogor, Bogor. 110 p.

Marks, R. J. & Rojancovski. 1998. Potato Cyst Nematodes (Globodera species) in Central Europe, the Balkans and the Baltic States, p. 299−315. In R.J. Marks & B.B. Brodie (eds.), Potato Cyst Nematodes: Biology, Distribution, and Control. CAB International, Oxon.

Mulder, H. 1988. Temperature Response of G. rostochiensis Woll. and G. pallida Stone. Nematologia Mediterranea 45: 434–440.

Mulyadi, B. Rahayu, B. Triman & S. Indarti. 2004. Studi Bioekologi Nematoda Sista Kuning (Globodera rostochiensis). Kerja sama antara Balai Penelitian Sayuran Lembang Bandung dengan Fakultas Pertanian Universitas Gadjah Mada, Yogyakarta. Laporan Penelitian. 20 p.

Noe, J.P. & R.A. Sikora. 1995. Efek Iklim Tropik pada Distribusi dan Hubungan Inang-Parasit pada Nematoda Parasitik Tumbuhan, p. 786−789. In M. Luc, R.A. Sikora, & J. Bridge (eds.), Nematoda Parasitik Tumbuhan di Pertanian Subtropik dan Tropik. Gadjah Mada University Press, Yogyakarta.

Oerke E.C. 2006. Crop Losses to Pests. Journal of Agri­cultural Science 144: 31–43.

Rinus, K. 2014. A Molecular, Morphological and Biological Characterisation of the Genus Globodera (Nematoda: Heteroderinae) in South Africa. Dissertation. Agricultural Sciences at the University of Stellenbosch, Stellenbosch. 284 p.

Salazar & E.J. Ritter. 1993. Effects of Daylength during Cyst Formation, Storage Time and Temperature of Cysts on the In vitro Hatching of Globodera rostochiensis and G. pallida. Fundamental and Applied Nematology 16: 567−572.

Sysoeva, M,I., V.V. Lavrova, E.M. Matveeva, E.G. Sherudilo, & L.V. Topchieva. 2011. Cross Adaptation of Potato Plants to Low Temperatures and Potato Cyst Nematode Infestation. Russian Journal of Plant Physiology 58: 999–1004.

Tiilikkala, K.A. 1992. Influence of Soil Temperature on Initial Energy Reserves of Globodera rostochiensis larvae. Fundamental and Applied Nematology 15: 49−54.

Turner, S. & K. Evans, 1998. The Origin, Global Distribution, and Biology of Potato Cyst Nematodes (Globodera rostochiensis Woll and G. pallida Stone), p. 7−23. In R.Y. Marks & B.B. Brodie (eds.), Potato Cyst Nematodes, Biology, Distribution, and Control. CAB International, Wallingford, UK.