| Autor: |
Mazumdar, S P, Bhattacharya, R., Saha, A R, Majumdar, B, Kundu, D K, Behera, M S, Ghorai, A K, Barman, D, Saha, R, Padhy, S R, Kar, G, Bhattacharyya, P |
| Předmět: |
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| Zdroj: |
Archives of Agronomy & Soil Science; Mar2023, Vol. 69 Issue 3, p417-430, 14p |
| Abstrakt: |
Soil stability, yield decline and higher carbon decomposition are the key issues in intensive agriculture. Long-term integrated nutrient management (INM) influences carbon (C) dynamics and maintains the soil aggregate stability, which driven by the type of cropping system and climatic zone. Therefore, the specific effects of rice-wheat-jute cropping system on soil aggregate distribution, C-stability, and trade-off between C-storage and decomposition rate were studied of a long-term INM trial in the sub-tropical zone. We investigated the effect of four long-term nutrient management practices that include, control, N (nitrogen (N) and no phosphorus (P), and potassium (K)), NPK (N, P and K) and INM (N, P, K + farmyard manure (FYM)). Results showed that the addition of FYM with NPK improved macro-aggregates by 71%, and associated C-pools by 30%. The INM enhanced C-storage (20%), however, the decomposition rate was also higher (28%) over control at 35 °C at field capacity. A trade-off exists between the soil-aggregate stabilization and C-decomposition rate. The proportion of C-storage was higher than decomposition in INM. Further, the C-sequestration varied (0.17 to 0.26 t ha−1 y−1) under different treatments and were found highest in INM, indicating long-term soil stability and yield sustainability in the rice-wheat-jute system. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
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