Abstract
Cadmium (Cd) is a heavy metal that can contaminate agricultural soils, in which one of the sources of Cd in agricultural soils is the use of phosphate fertilizers. Some plant species are known to have the ability to accumulate large amounts of Cd in their organs despite the Cd content in soil is relatively small. Cadmium distribution in various organs of plants also shows a diverse variation. Maize is able to accumulate Cd in its organs, either in roots, leaves or grains. This study aims to determine the distribution of Cd in sweet corn plants grown on a peat soil. Samples of maize plants were taken from nine maize fields in the village of Rasau Jaya 1, Rasau Jaya subdistrict, Kubu Raya district, West Kalimantan. The cultivars of sweet corn planted were Zea mays saccharata cultivar Bonanza and Zea mays saccharata cultivar Secada. Samples for roots, leaves, stems and panicles were taken at the stage of early grain filling. Grain samples were taken at the phase of fresh pod consumption. The Cd contents in the plant organ tissues were determined using dry ashing method. The results showed that the distribution of Cd in plant organs of sweet corn cultivars Secada and Bonanza follows the pattern of Cd in leaves > roots > grains > panicles > stems. The leaves contain the highest concentration of Cd, while the stems contain the lowest amount of Cd. The Cd concentration in leaves is about 3.5 times higher than that in grains, and 1.5 times higher than that in roots. The average Cd content in grains of sweet corn is 0.037 mg kg-1, which is still below the safe limit of Cd content in grains allowed by the Standar Nasional Indonesia, i.e. 0.2 mg kg-1.
Highlights
Forest plantation establishment outside island of Java Indonesia has started since early 1980s most of which were established for short rotation pulpwood and MDF
Even applying 210 g of Triple Super Phosphate (TSP) mixed with soil at planting point of A. mangium may still have low P availability due to fixation the amount fixed in Ultisols may be different
P fertilizer application in planting hole of A. mangium or applying N in slits near the E. hybrid did not affect the soil extractable P or total N concentration significantly at plot level (010 cm layer) despite changes in all treatments with time when subsequently sampled until 24 months after planting
Summary
Forest plantation establishment outside island of Java Indonesia has started since early 1980s most of which were established for short rotation pulpwood and MDF (medium fiber board). Major species planted are A. mangium (860,000 ha), A. crassicarpa (245,000 ha), Eucalyptus pellita and E. hybrid (83,000 ha) as well as Gmelina arborea (15.000 ha) and the area keeps on increasing. Increased productivity from these established plantations is very important to meet demand for an increased wood and fiber supply, so strategy to achieve that is through combination of tree improvement, intensive silviculture and improved harvesting techniques (Hardiyanto 2010). Factors affecting sustained production are genetics of planting stock, long term changes in climatic factors such as rainfall, soil compaction through mechanized operations, weeds and competition for site resources, harvesting and inter-.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
