76 research outputs found
Change in time of agrochemical soil parameters after tomato mineral fertilization
The paper presents the results regarding the effect of different NPK fertilization doses on change, during
three years of agrochemical soil parameters after tomato mineral fertilization. The following agrochemical
indicators were analyzed: pH, humus, total nitrogen, mobile phosphorus and mobile potassium content.
The experience was done in a cambric cernosium soil, with low acidity reaction, very good content in
nitrogen, phosphorus and potassium and the high natural fertility potential favorable vegetables cultivation in
Romanian Western Plain area. The experimental field is located in temperate climatic area, characterized by
Koppen classification in the formula Cfbx. The study was performed on control soil samples (without
fertilizers) and soil samples after differentiated NPK fertilization in variable dozes: N30P30K30, N45P45K45,
N60P60K60 and N120P60K60. Tomato fertilization with mineral fertilizer determines, in time, significant
modifications of agrochemical soil parameters. To preserve the soil quality must find the optimum dose of
NPK fertilizer in tomato crop fertilization
Snail survival as bioindicator of cadmium contaminated soils under semi-realistic field conditions
Juvenile brown garden snails (Helix aspersa Müller) were exposed to Cd-contaminated soils for 60 days
under semi-realistic field conditions. The soils were contaminated with increasing concentrations of cadmium
chloride (0–2900 mg kg-1 Cd2+/solution CdCl2). The snails were housed in terrariums and were fed
exclusively with nettle leaves. The experiments were carried out in Timisoara on 1000 snails.The survival
rates differed significantly for different Cd treatments. Only higher cadmium concentrations (> 1000 mg kg-1
Cd2+/solution CdCl2) had a significant influence on survival curves of snails exposed to Cd-contaminated
soils. The maximal death rate reached 81.00±9.9% for snails exposed to soils contaminated with 2900 mg kg1
Cd /solution CdCl2. We found dose-dependent survival rates, whereas the half maximal effective
concentration was 1365 mg kg-1 Cd2+/solution CdCl2. Our results suggested that longer-term studies are
required for assessing the real potential of snail survival rate as bioindicator of Cd-contaminated soils in field conditions
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