GIS-based soil fertility assessment of a micro-watershed of semi-arid tropics in southern India

KUMAR, PRAVEEN

doi:10.47815/apsr.2021.10216

Cited by 1 publication

(1 citation statement)

References 8 publications

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“…The role played by organic matter in maintenance of soil fertility in more than one ways is well established (Johnston, 1986) which is also evident from highly significant positive correlation (r=0.99 ** ) between the two as found in the present studies (Table 4). These results are comparable with the findings of Kumar et al (2022) and Singh and Singh (2022) where available N in soils had significant positive correlations with soil OC. High levels of OM not only provide part of the N requirement of crop plants but also enhance nutrients and water retention capacity of soils and creates favourable physical, chemical and biological environment.…”

Section: Macronutrientssupporting

confidence: 90%

Physico-chemical properties, available nutrient content and their inter-relationship in soils under rain fed maize-wheat cropping system, district Reasi (J&K)

CHAUDHARY

2024

APSR

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Composite soil samples representing rain fed maize-wheat cropping system in district Reasi of Jammu and Kashmir were analyzed for important physico-chemical properties and available nutrients. These soils were found to be sandy loam in texture with pH, EC and OC varying from 5.89 to 8.73, 0.04 to 0.47 dS/m and 3.5 to 21.9 g/kg, respectively. Content of available major nutrients viz. N, P, K and S varied from 207.6 to 663.6, 0.89 to 78.0, 22.71 to 349.45 kg/ha and 0.50 to 52.30 mg/kg, respectively, while that of available micronutrients viz. Fe, Zn and B varied from 0.89 to 30.20, 0.18 to 3.85 and 0.11 to 0.70 mg/kg, respectively. As per Nutrient Index values, these soils fell in high category of available Fe, medium category of available N, P, Zn, B and low category of available K and S. Soil pH, EC and OC were significantly and positively correlated with each other as well as with available N, K and B; and negatively with available Zn. Soil pH was also significantly negatively correlated with available Fe whereas, EC was positively correlated with available S and P. Further, available P was significantly positively correlated with OC, available N, K, S, Fe and B. Available N had a synergistic relationship with available K and B; and antagonistic relationship with available Zn. Available Zn showed significant and positive correlation with available Fe; however its correlation with available K and B was significantly negative. Available B had a significant positive correlation with available K and negative correlation with available Fe. The step down regression analysis indicated that nearly whole of variability in available N could be attributed to OC alone. About 28% of total variability in available P could be attributed to pH and EC together; while 13% of that in available S could be attributed to EC alone. Nearly 58 and 82% of the respective variability in available K and B could be due to OC and EC together. Soil pH and OC together contributed about 80 and 86% of the total variability towards available Fe and Zn in order.

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Section: Macronutrientssupporting

confidence: 90%

Physico-chemical properties, available nutrient content and their inter-relationship in soils under rain fed maize-wheat cropping system, district Reasi (J&K)

CHAUDHARY

2024

APSR

View full text Add to dashboard Cite

show abstract

GIS-based soil fertility assessment of a micro-watershed of semi-arid tropics in southern India

Cited by 1 publication

References 8 publications

Physico-chemical properties, available nutrient content and their inter-relationship in soils under rain fed maize-wheat cropping system, district Reasi (J&K)

Physico-chemical properties, available nutrient content and their inter-relationship in soils under rain fed maize-wheat cropping system, district Reasi (J&K)

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