Agricultural research communication centre
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- Bu səhifədəki naviqasiya:
- Temperature
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Soil acidity:
Plant growth and most soil processes, including nutrient availability and microbial activity, are favoured by a soil pH range of 5.5 – 8. When pH of the soil declines, aluminium solubility in soil solution increases which is toxic to plants as a result of which root growth is retarded. In India, nearly 25 million hectares of cultivated lands with pH less than 5.5 are critically degraded. The productivity of these soils is very low (one tonne/ha) due to deficiencies of P, Ca, Mg, Mo and B and toxicities of Al and Fe (IISS Vision 2030). Low pH in top layer of the soil may affect microbial activity, significantly decreasing legume nodulation. Most leguminous plants require a neutral or slightly acidic soil for growth. Soil acidity limits symbiotic nitrogen fixation by reducing the chances of Rhizobium survival and its persistence in soils, and ultimately reducing nodulation in legumes (Taylor et al, 1991). In most of the cases, a pH sensitive stage in nodulation occurs early in the infection process and that Rhizobium attachment to root hairs is one of the stages affected by acidic conditions in soils. At or below pH 4.8, aluminium will reduce root growth while manganese disrupts photosynthesis and other functions of growth, resulting in the reduction of nitrogen fixation by rhizobia (Zahran, 1999) Temperature: High soil temperature is one of the most critical factors which can prevent the development of a symbiotic association between the host plant and micro- symbiont especially in arid and semi-arid regions. For most of rhizobia, optimum temperature range for growth is 28 to 31 o C and majority of them are unable to grow at 38 o C (Graham, 1992). Temperature influences the survival of free rhizobia as well as the molecular dialogue between host and rhizobia. Elevated temperature can have inhibiting effect on microsymbiont adherence to root nodules, on nodule structure and on legume root nodule functioning (Zahran, 1999). Rupela and Rao (1984) reported that with increase in the temperature to 35 o C there was significant decrease in nodule number as well as nodule dry mass which may be attributed to drastic decrease in photosynthesis at high temperature and hence reduced supply of photosynthates to Rhizobium . These findings are in line with that of Jain et al (2014) who also revealed the negative effects of high temperature on nitrogen fixation in chickpea. However, it has been reported that when plant is subjected to high temperature conditions specific set of proteins are over produced, termed as heat shock protein, which are important for survival during temperature stress conditions (Rodrigues, 2006). Yüklə 302,71 Kb. Dostları ilə paylaş:
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