mization can be done by utilizing the idle land into productive farmland and increasing cropping index. Land optimization can be performed by undertaking land suitability assessment for particular commodities that could be planted on an agricultural area Wandahwa and van Ranst, 1996; Bojorquez-Tapia et al., 2001; Boonyanuphap et al., 2004; Hossain et al., 2007; Pradana et al., 2013. The purpose of this study was to analyze the optimal land for sugarcane in East Seram, eastern Indonesia, an area that is currently of interest to many investors.

2. Sugarcane and eastern Indonesian region

Sugarcane Saccharum spp. is an agro-industrial crop with a very high economic value, because of sugar’s widespread use by consumers and in food manufacturing. Sugar consumption is increasing steadily in Indonesia because of population growth, increasing wealth, and increased demand from indus- try. Currently, Indonesia is only 60 self-sufficient in sugar, with remaining demand met by imports from Thailand, Brazil, Australia, El Salvador and Guatemala BPS, 2011. Eastern Indonesia still holds considerable potential for agricultural expansion. The province of Maluku, comprising a group of island, has substantial unde- veloped land resources. Maluku Province has two major islands, Seram and Buru, and the Climate of the region is tropical. The Rainfall pattern in Maluku is similar to that Papua Province where sugarcane was first domesticated around 6000 BC James, 2004. Eastern Seram District SBT in Maluku is a new district founded in 2003. Lack of attention by provincial and local governments to investment in mining, plantations, and forestry in this region has been low, 80 of the land with potential for plantation crops has not been planted or lies dormant Osly et al., 2012. The SBT District Spatial Plan 2008-2028 includes a strategy to accelerate the economic devel- opment of the region through the key sectors of plantations, fisheries and mining Anonymous, 2012. Soil surveys conducted by the Land Research Center PPT, 1985 and the Soil and Agro-climate Research Center PUSLITANAK, 1996 also indicate that conditions on SBT are widely suitable for sugarcane plantations.

3. Materials and Methods

3.1 Study Area

The study area of East Seram district in Maluku Province Fig. 1 is bordered by the Seram Sea to the north, the Banda Sea to the south, the Arafura Sea to the east and Central Maluku district to the west. The total land area of East Seram district is 5,779,123 km 2 BPS, 2009. The study area’s tropical maritime cli- mate has a high annual rainfall distributed throughout the year. The average annual rainfall is 2,172 mm BPS, 2009. The average number of rain days per month is between 11 and 18 days, with an annual average of 15 days per month. The study area is in the agro-climatic zone C-1 and rain type A Oldeman et al., 1980. Five month of the year are regarded as ‘wet’ ≥200 mm and one month is regarded as ‘dry’ ＜100 mm. The analysis was conducted on land within the study area with a land zoning status that permits plantation agriculture of a total area of 206,235 ha Fig. 1. Landsat TM ＋5 band 543 Path 107Row 62 image acquisition March 9, 2008; April 26, 2008; April 22, 2009; November 23, 2009 and January 28, 2010 Anonymous, 2010, were interpreted referring to the 1:50,000 RBI Rupa Bumi IndonesiaTopographic maps Indonesia sheet 2713-13, 2713-32, 2712-61 to 2712-64, 2812-41 to 2812-43, 2712-33 to 2712-34 and 2812-11 to 2812-14 collected from Geospatial Infor- mation Bureau. Maps and secondary data used in- clude 1:250,000 maps Land Unit Seram Island in 2008. Contour maps C intervals of 5 m and 12.5 m from the Digital Elevation Model were interpreted from SRTM Data Anonymous, 2009, climate data collected from Geser Station of Climate and Geophysics Bureau and geological maps of the island of Seram 1:250,000 sheet Bula and Watubela Gafoer et al., 1993. Field survey conducted in the study area from July 2010 to August 2010. Laboratory analysis was con- ducted in August 2010 until November 2010. Pa- rameters tested were soil texture, pH H 2 0 and KCl, organicmaterials, P 2 O 5 Olsen and Bray 1 and NH 4 . Spatial analysis was done using ESRI’s ArcView software version 3.30 and Global Mapper version 11.20.

3.2 Method of Land Suitability Assessment