Artikkelit jotka sisältää sanan 'boron'

Theodore Karyotis, Athanasios Haroulis, Evagelia Vavoulidou, Pericles Papadopoulos. Soil properties and distribution of heavy metals and boron within three Greek Histosols.
Avainsanat: heavy metals; boron; histosols; sequential extraction; soil subsidence
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Three Greek soil profiles originating mostly from lacustrine deposits in the district of Filippoi (Northern Greece), were studied. These soils have been formed both from organic and inorganic materials that were deposited by precipitation and developed through the action of aquatic organisms. According to Soil Taxonomy (1992), they are classified as Histosols and belong to the suborder of Saprists. The pH of the soil horizons ranged among soil horizons from 6.2 to 7.8. The total soil nitrogen content ranged between 7.5 and 17.0 g kg–1 and the soil organic matter was between 108.7 and 206.4 g kg–1 . Calcium carbonate was detected into ten horizons and ranged between 1.4 and 27.8%, whilst it was not found in five of the examined soil layers. This is suggested to reflect the presence or absence of aquatic organisms, the shells of which contain CaCO3 and enrich soil by means of weathering. Heavy metals extracted by 4 M HNO3 were in the following order Fe>Mn>Zn>Pb>Ni>Cu>Cd, and their average concentrations were 7190, 294, 72.3, 58.2, 33.3, 17.3 and 5.1 µg g–1 , respectively. The distribution of trace elements greatly differs amongst the examined samples and the range of the pseudototal form of Fe was 1873–18550 µg g–1 , of Mn 54.7–585, of Cu 4.5–40, of Zn 22.0–185, of Pb 20.5–143, of Ni 15–64.7 and Cd 3.3–6.9 µg g–1 . The sequentially extracted by Na2 -EDTA, HNO3 and NaOH were found to be the prevailing metal forms. Iron deficiency symptoms have been observed in certain crops, and manganese deficiency was also detected in some maize crops cultivated in slightly alkaline soils. Furthermore, the plant available boron concentration was determined, as deficiency symptoms were observed in some districts cultivated with sugar beets. The distribution was generally not influenced by soil properties, although a weak relationship between organic carbon and boron was found. Measures such as rational water management, tillage practices, and fertilization could be applied towards minimization of soil degradation, micronutrient disorders and optimization of crop productivity.
  • Karyotis, National Agricultural Research Foundation, Institute for Soil Mapping and Classification, 1 Theophrastou Str., 41335 Larissa, Greece Sähköposti: ei.tietoa@nn.oo (sähköposti)
  • Haroulis, Sähköposti: ei.tietoa@nn.oo
  • Vavoulidou, Sähköposti: ei.tietoa@nn.oo
  • Papadopoulos, Sähköposti: ei.tietoa@nn.oo
Heikki Veijalainen, Klaus Silfverberg, Jyrki Hytönen. Metsäteollisuuden bioliete ja kivihiilen tuhka rauduskoivun taimien ravinnelahteenä.
English title: Pulp biosludge and coal ash as nutrient sources for silver birch seedlings.
Avainsanat: fertilization; Boron toxicity; peat substrate; recycling
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Biosludge from a biological waste-water treatment plant was tested in a greenhouse experiment on three substrates at 7 levels (0-240 m3/ha). The growth of birch seedlings was best on nitrogen poor substrate collected from a Vaccinium vitis-idaea (VT) forest site. NPK-fertilization was superior to sludge treatments on poor peat substrate. Biosludge increased the foliar nitrogen content on all three soils. Nutritional value of coal ash was tested at 17 levels (0.4-160 t/ha) on mineral soil from an afforested field. Low application levels of coal ash (400-1600 kg/ha) increased the growth of the birch seedlings more than other applications. However, even extremely high coal ash amounts (up to 160 t/ha) were not lethal for birch seedlings. Coal ash increased foliar boron contents two to three fold and with applications higher than 20 t/ha increase was five to seven fold. Birches planted in 1978 on a coal ash landfilling area showed good survival and growth, despite toxic boron contents and visual disturbances in the leaves. Key words: Boron toxicity, fertilization, peat substrate, recycling
  • Veijalainen, The Finnish Forest Research Institute, Box 18, FIN-01301 Vantaa Sähköposti: ei.tietoa@nn.oo (sähköposti)
  • Silfverberg, Sähköposti: ei.tietoa@nn.oo
  • Hytönen, Sähköposti: ei.tietoa@nn.oo

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