Phosphorus (P) is 2 nd most important macronutrient for the growth of plants. The soils of Pakistan are alkaline and calcareous in nature which causes precipitation of P and making it less available to the plants. To overcome this issue, excessive P fertilization is used, some part of fertilizer is used by plants while remaining is either fixed as unavailable form or lost due to runoff. So deficiency of P affects the plant growth while runoff of excess fertilizer may result in eutrophication of our aquatic systems. Use of arbuscular mycorrhizal fungi (AMF) may be an appropriate method to enhance the P uptake efficiency of plants and reduce the use of P fertilizers. Plant growth promoting rhizobacteria (PGPR) are also well known for solubilization of P. Therefore, a pot experiment was conducted in 2019 at Research Farm of Institute of Soil and Environmental Sciences, University of Agriculture Faisalabad, Pakistan to check the efficiency of compost, PGPR and AMF to enhance availability of P in onion. The impact of PGPR and AMF were evaluated separately and in combination. At harvest, data regarding plant fresh and dry weight, onion bulb circumference, bulb fresh and dry weight, chlorophyll a and b, carotenoids, and P concentration in plants were analyzed. Results showed that combined inoculation of endomycorrhizae and rhizobacteria improved plant fresh and dry weight, onion bulb circumference, bulb fresh and dry weight, chlorophyll a and b, carotenoids. Overall, integrated application of endomycorrhizae and rhizobacteria enhanced P uptake by 77% as compared to control treatment.
A major threat for sustainable agriculture is the continuous increase in salt-affected area. Salt stress causes the land degradation, ecological imbalance, Environmental pollution and reduce the crop production. It changes different physical and chemical processes taking place in plant body such as seed germination and uptake of different nutrients and water. Wheat is the main cereal crop and primary diet for one third population of the humans. It can tolerate the salinity effect to some extent but at higher level of salinity, its production reduces significantly. Salt-affected soils have relatively more number of salts which are easily solubilize in water and exchangeable sodium as compared to the normal soil. These salts are ionized and produce different types of cations (Mg2+, Ca2+ and Na+) and anions (Cl-, CO32-, SO42-, and HCO3-). Sulphate salinity is also toxic for plant growth as chloride salinity. The objective of this research is to assess the effect of salinity with various Cl-:SO42- ratios on wheat growth. A pot trial was conducted on wheat by creating salinity with different levels of chloride and sulphate (4:1, 3:1, 2:1, 1:1, 1:2, 1:3 and 1:4). Experimental design was complete randomized design (CRD). Different physiochemical parameters of soil before and after harvesting of the crop and also growth parameters were determined. Data was analysed using statistical software. On the basis of these results, it was determined that both types of salinity reduced the wheat growth significantly, but chloride type salinity has more injurious effect than sulphate salinity. It was concluded that chloride ion has more toxic effect than sulphate ion for wheat growth and development.
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