Spatial Distribution of Trace Elements in Rice Field at Prafi District Manokwari
Aplena Elen S. Bless(1*), Samen Baan(2), Yahya Darmawan(3)
(1) Soil Science Department, Agricultural Faculty, Papua University,Papua Barat, Indonesia.
(2) Soil Science Department, Agricultural Faculty, Papua University,Papua Barat, Indonesia.
(3) Indonesian Agency for Meteorological, Climatological and Geophys-ics (BMKG) Region I
(*) Corresponding Author
Abstract
Keywords
Full Text:
PDFReferences
Alvim Ferraz, M.C.M., & Lourenço, J.C.N., (2000). The influence of organic matter content of contaminated soils on leaching rate of heavy metals. Environmental Progress and Sustainable Energy. 19(1), 53-8.
Aminudin (2011). Upaya peningkatan produksi padi sawah di Kampung Udapi Hilir Distrik Prafi Kabupaten Manokwari. Journal Penyuluhan Pertanian. 6(1), 212-220. (in bahasa indonesia)
Balai Penelitian Tanah (2009). Petunjuk teknis analisis kimia tanah, tanaman, air dan pupuk, Badan Penelitian dan Pengembangan Pertanian Depertemen Pertanian.(in bahasa indonesia)
Becker M. & Asch F., (2005). Iron toxicity in rice--Conditions and management concepts. Journal of Plant Nutrition and Soil Science. 168(4), 558-573.
Bless A.E.S., (2012). Citrate root exudation under Zn and P Deficiency. Journal of Tropical Soil. 17(3), 219-225.
Du Laing G., Rinklebe J., Vandecasteele B., Meers E. ,& Tack F.
M. G. (2008). Trace metal behaviour in estuarine and riverine floodplain soils and sediments: A review, Science of the Total Environment 407 (2009),3972-3985
Gao XP, F Zhang & Hoffland E. (2009). Malate exudation by six aerob rice genotypes varying in zinc uptake efficiency. J. Environ Qual. 38(6), 2315-2321.
Goovaerts P. (1998). Geostatistic in soil science: state-of-the-art and perspectives. Geoderma. 89(1-2), 1-45.
Hiddayati D. (2013). Kesuburan tanah sawah di Kampung Sidey Baru Manokwari. Skripsi.Universitas Negeri Papua. Manokwari.(in bahasa indonesia)
Hoffland, E., Wei, C.Z. & Wissuwa, M. (2006). Organic anion exudation by lowland rice (Oryza sativa L.) at zinch and phosphorus deficiency. Plant soil 283(1),155-165.
Jo I. S & Koh M. H., (2004). Chemical change in agricultural soils of Korea: date review and suggested countermeasures. Environmental Geochemistry and Health. 26(2004), 105-107.
Kementrian Pertanian Republik Indonesia (2015). Basis data pertanian (data file), retrieved from http://aplikasi.pertanian.go.id/bdsp/hasil_lok.asp.(in bahasa indonesia)
Kirk G. J. D., (2004). The biogeochemistry of submerged soils. John Willey and Sons.Chichester,.UK.
Kurnia U., Suganda H., Saraswati R. & Nurjaya (2005). Teknologi pengendalian pencencemaran lahan sawah dan Teknologi Pengelolaannya. pg 249-283. Jakarta.
Noya A.I, Djuuna I.A.F., & Bachri S., 2009, Pemanfaatan pupuk biologi sebagai alternative pengganti pupuk N dan P di Distrik Masni Kabupaten Manokwari Papua Barat, Universitas Negeri Papua, Manokwari.
Pan Y., Bonten L.T.C., Koopmans G.F., Song J., Luo Y., Temminghoff E.J.M., Comans R.N.J., (2015).Solubility of trace metals in two contaminated paddy soils exposed to alternating flooding and drainage. Goderma. 261(2015),59-69.
Romic, M. (2003). Heavy metal distribution in agricultural topsoil in urban area. Environmental Geology . 43:795-805.
Ruth B. & Lennartz B., (2008). Spatial variability of soil properties and rice yield along two catenas in southeast China. Pedospehere. 18(4), 409-420.
Sajwan K. S., & Lindsay W. L., (1998). Effect of redox on zinc deficiency in paddy rice. Soil Sci Soc. Am. J. 50(5), 1264-1269.
Simmons R.W., Pongsakul P., Saiyasitpanich D., & Klinphoklap S., (2005). Elevated levels of cadmium and zinc in paddy soils and elevated levels of cadmium in rice grain downstream of a zinc mineralized area in Thailand: Implication for public health.
Environ. Geochem. Health. 27(5), 501-511.
Syafruddin, J. Langsa & Saidah (2008). Hasil kegiatan program prima tani di Kabupaten Tolitoli. Lokakarya laporan kemajuan kegiatan prima tani wilayah Sulawesi dan Maluku di Kendari, April 2008.(in Bahasa Indonesia)
Wei C.Y., & Chen T.B., (2001). Hyper accumulators and phytoremediation of heavy metal contaminated soil: a review of studies in China and abroad. Acta Ecologica Sinica. 21 (7)1196-1203.
Zachara J.M., Smith S.C., Resch C.T., & Cowan C.E., (1992). Cadmium sorption on silicates and oxides. Soil Sci. Soc. Am. Journal. 56(4). 1074– 1084.
Zarcinas B.A., Fauziah Ishak C., McLaughlin M.J., & Cozens G., (2004). Heavy metals in soils and crops in southeast Asia.1. Penisulasr Malaysia. Environ. Geochem. Health. 26(3), 343-357.
Zhao K., Liu X., Xu J., & Selim H.M., (2010). Heavy metal contamination in a soil-rice system: Identification of spatial dependence in relation to soil properties of paddy fields. Journal of Hazardous Material. 181(1-3), 778-787.
DOI: https://doi.org/10.22146/ijg.12430
Article Metrics
Abstract views : 2486 | views : 2439Refbacks
- There are currently no refbacks.
Copyright (c) 2016 Indonesian Journal of Geography
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Accredited Journal, Based on Decree of the Minister of Research, Technology and Higher Education, Republic of Indonesia Number 225/E/KPT/2022, Vol 54 No 1 the Year 2022 - Vol 58 No 2 the Year 2026 (accreditation certificate download)
ISSN 2354-9114 (online), ISSN 0024-9521 (print)
IJG STATISTIC