ahad faalian; M. Abolhasani Zeraatkar; A. Lakziyan; A. Akhgar
Abstract
Abstract
Incorporation of plant residues in soils is an important agricultural practice for maintaining soil fertility under organic management systems. Plant residues quality, soil physical and chemical properties, and the microbial population diversity of soils are the most important factors influencing ...
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Abstract
Incorporation of plant residues in soils is an important agricultural practice for maintaining soil fertility under organic management systems. Plant residues quality, soil physical and chemical properties, and the microbial population diversity of soils are the most important factors influencing the decomposition of added organic matter to soils. Decomposition rate of municipal wastes compost, vermi compost, manure and pistaco compost was studied in two soil samples with contrasting texture, two herbicides and three salt concentrations under laboratory condition. Soil moisture was adjusted at 50% water holding capacity and soil samples were incubated at 28 oC. The CO2 production was used as an index for decomposition rate of organic matter. Result showed that decomposition rate of pistaco compost is higher than those municipal wastes compost of vermi compost and manure. The CO2 evolution concentration and the rate of organic matter decomposition followed , and equations, respectively. A positive correlation was found between the rate of organic matter decomposition and K value. The results also showed that high decomposition rate based on K value, belong to pistaco compost, manure, municipal wastes compost and vermi compost, respectively.
Keywords: Organic matter, Decomposition rate, Soil texture, Soil salinity, Pistaco compost
M. Abolhasani Zeraatkar; A. Lakziyan; A. Jafari Gholamhossien pour; A. Akhgar
Abstract
Abstract
Osmoreguolation is a physiological processes that plant cell uses to maintain water balance and it is generally caused by metabolite accumulation inside the cell. Inoculated legumes by some drought tolerant Sinorhizobium isolates helps osmoreguolation by increasing biological nitrogen fixation. ...
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Abstract
Osmoreguolation is a physiological processes that plant cell uses to maintain water balance and it is generally caused by metabolite accumulation inside the cell. Inoculated legumes by some drought tolerant Sinorhizobium isolates helps osmoreguolation by increasing biological nitrogen fixation. In order to find some drought tolerant sinorhizobium isolates, 80 isolates were isolated and purified from different parts of Kerman province. They were tested for drought tolerant in liquid Trypton Yeast medium with different water potential (0, -1, -2 and -3.5 MPa using PEG 6000) and then they were classified into tolerant and sensitive groups. Four out of eighty isolates of Sinorhizobium (two from each group) were selected for a greenhouse experiment. The experiment was carried out in a factorial arrangement with a completely randomized design. The results showed that in water stress condition, inoculated plant substantially increased the nitrogenase activity, shoot dry weight, proline content, root soluble sugars, soluble protein concentration, K/Na in shoot and root by 2, 3, 2.7, 1.7, 1.1, 3 and 2 times, respectively.
Keywords: Sinorhizobium, Alfalfa, Water stress, Nitrogenase activity, Reducing sugars, Proline
