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Spatial Mapping of Acidity and Vegetal Multi-micronutrients in Soils Of the Meghalaya Plateau, Northeastern Himalaya, India


Affiliations
1 ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103, India
2 ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
3 ICAR-National Research Centre for Makhana, Darbhanga 846 005, India
4 Central Rainfed Upland Rice Research Station, ICAR-National Rice Research Institute, Hazaribagh 825 301

This study explores the high-precision mapping (1 : 50 K stratified random sampling) of spatial variability in soil acidity (pH), soluble aluminium (Al) and plantavailable micronutrients (Fe, Mn, Cu and Zn extracted by DTPA) for the acid soils of the Meghalaya Plateau northeastern Himalaya, India. Results revealed that soils in nearly 88% of the total geographical area (TGA: 22,429 sq. km) fell below the pH limit of 5.5, of which significant areas (13.9% TGA) were strongly acidic in reaction (pH < 4.5). In close to 90% of the plateau soils, Al exceeded the critical toxicity threshold (>9.0 mg kg<sup>–1<sup> ). Over 93% of the soils were high in Fe concentration (>10.5–100.0 mg kg<sup>–1<sup> ). Mn, Cu, and Zn were found to be deficient in 12% (Mn < 5.0 mg kg<sup>–1<sup> ), 20% (Cu < 0.6 mg kg<sup>–1<sup> ), and 27% (Zn < 0.9 mg kg<sup>–1<sup> ) of TGA respectively. The multi-micronutrient composite maps of Fe, Mn, Cu and Zn displayed an intricate spatial dimension in the deficiency zones. The study concludes that there is a pressing need to manage site-specific micronutrients to improve crop productivity and the quality of the produce.

Keywords

Crop productivity, deficiency zone, micronutrients, soil acidity, soluble aluminium, spatial mapping
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  • Spatial Mapping of Acidity and Vegetal Multi-micronutrients in Soils Of the Meghalaya Plateau, Northeastern Himalaya, India

Abstract Views: 49  | 

Authors

Burhan U. Choudhury
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103, India
Md. Zafar
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
Arumugam Balusamy
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
Prabha Moirangthem
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
Ramesh Thangavel
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
Manoj Kumar
ICAR-National Research Centre for Makhana, Darbhanga 846 005, India
Bibhash C. Verma
Central Rainfed Upland Rice Research Station, ICAR-National Rice Research Institute, Hazaribagh 825 301
Hammylliende Talang
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
Samarendra Hazarika
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103
Vinay K. Mishra
ICAR-Research Complex for Northeastern Hill Region, Umiam 793 103

Abstract


This study explores the high-precision mapping (1 : 50 K stratified random sampling) of spatial variability in soil acidity (pH), soluble aluminium (Al) and plantavailable micronutrients (Fe, Mn, Cu and Zn extracted by DTPA) for the acid soils of the Meghalaya Plateau northeastern Himalaya, India. Results revealed that soils in nearly 88% of the total geographical area (TGA: 22,429 sq. km) fell below the pH limit of 5.5, of which significant areas (13.9% TGA) were strongly acidic in reaction (pH < 4.5). In close to 90% of the plateau soils, Al exceeded the critical toxicity threshold (>9.0 mg kg<sup>–1<sup> ). Over 93% of the soils were high in Fe concentration (>10.5–100.0 mg kg<sup>–1<sup> ). Mn, Cu, and Zn were found to be deficient in 12% (Mn < 5.0 mg kg<sup>–1<sup> ), 20% (Cu < 0.6 mg kg<sup>–1<sup> ), and 27% (Zn < 0.9 mg kg<sup>–1<sup> ) of TGA respectively. The multi-micronutrient composite maps of Fe, Mn, Cu and Zn displayed an intricate spatial dimension in the deficiency zones. The study concludes that there is a pressing need to manage site-specific micronutrients to improve crop productivity and the quality of the produce.

Keywords


Crop productivity, deficiency zone, micronutrients, soil acidity, soluble aluminium, spatial mapping



DOI: https://doi.org/10.18520/cs%2Fv126%2Fi6%2F694-705