Soil quality assessment provides a tool for evaluating the sustainability of soils under different crop cafeterias. Our objective was to develop the soil quality index for evaluating the soil quality indicators under different cropping systems in northwest Himalaya-India. Composite soil samples were taken from the study area from different cropping systems which include T1 (forest soil control), T2 (rice-oilseed, lower belts), T3 (rice-oilseed, higher belts), T4 (rice-oats), T5 (rice-fallow), T6 (maize-oats), T7 (maize-peas), T8 (apple), T9 (apple-beans), and T10 (apple-maize). Physical, chemical, and biological soil indicators were determined, and it was found that soil enzyme activities involved in nutrient cycling were significantly higher in forest soils, which were reflected in higher levels of available pool of nutrients. Carbon stocks were found significantly higher in forest soil which was translated in improved soil physical condition. Principal component analysis (PCA) was performed to reduce multidimensionality of data followed by scoring by homothetic transformation of the selected indicators. Pearson's interclass correlation was performed to avoid redundancy, and highly correlated variables were not retained. Inclusion of legumes in the apple orchard floor recorded highest soil quality rating across the treatments. Cereal-based cropping systems were found in lower soil quality rating; however, the incorporation of peas in the system improved soil health.
Understanding how nutrients accumulate and change throughout the developmental stages according to the BBCH scale can be a very effective technique for developing fertilization programmes for high-quality, marketable grape production. Accordingly, the macro- and micronutrient concentrations at different growth stages were analyzed for two commercial grape cultivars, viz., “Anab-e-Shahi” and “Perlette”, by using an extended BBCH scale. The results show nitrogen content was reduced during the sampling period (D1 to D6) from 1.76 percent to 1.09 percent. Potassium concentration in developing berries kept on increasing from 0.15%, at principal growth stage 7 with BBCH code 73 (D1), to 0.26% at principal growth stage 8 code 89 (D6). The lowest phosphorus content of 253.88 ppm and the highest of 338.43 ppm were found in growth stages D1 and D6, respectively. The berry Ca however showed an increase first and thereafter decreased to 225.18 ppm at harvest. Mg content also recorded a similar trend from stages D1 to D6 of the BBCH scale and decreased to 116.08 ppm at D6. B and Cu concentrations increased from D1 to D6, and Mn and Zn increased first and decreased thereafter until harvest. No specific trend was recorded in Fe concentration. The concentration of nutrients in berries at different developmental stages can be used as the standard reference for growing berries using proper fertilization.
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