IMPACT4SOIL OpenAire Bielefeld Academic Search Engine (BASE) UnpayWall Crossref Microsoft Academic Graph Soil and Tillage Research Open Access 2006-03-24 Abstract Soil organic matter (SOM) contributes to the productivity and physical properties of soils. Although crop productivity is sustained mainly through the application of organic manure in the Indian Himalayas, no information is available on the effects of long-term manure addition along with mineral fertilizers on C sequestration and the contribution of total C input towards soil organic C (SOC) storage. We analyzed results of a long-term experiment, initiated in 1973 on a sandy loam soil under rainfed conditions to determine the influence of different combinations of NPK fertilizer and fertilizer + farmyard manure (FYM) at 10 Mg ha −1 on SOC content and its changes in the 0–45 cm soil depth. Concentration of SOC increased 40 and 70% in the NPK + FYM-treated plots as compared to NPK (43.1 Mg C ha −1 ) and unfertilized control plots (35.5 Mg C ha −1 ), respectively. Average annual contribution of C input from soybean ( Glycine max (L.) Merr.) was 29% and that from wheat ( Triticum aestivum L. Emend. Flori and Paol) was 24% of the harvestable above-ground biomass yield. Annual gross C input and annual rate of total SOC enrichment were 4852 and 900 kg C ha −1 , respectively, for the plots under NPK + FYM. It was estimated that 19% of the gross C input contributed towards the increase in SOC content. C loss from native SOM during 30 years averaged 61 kg C ha −1  yr −1 . The estimated quantity of biomass C required to maintain equilibrium SOM content was 321 kg ha −1  yr −1 . The total annual C input by the soybean–wheat rotation in the plots under unfertilized control was 890 kg ha −1  yr −1 . Thus, increase in SOC concentration under long-term (30 years) rainfed soybean–wheat cropping was due to the fact that annual C input by the system was higher than the required amount to maintaining equilibrium SOM content. Rainfed cropping Carbon sequestration 2. Zero hunger Loamy sand Sandy soils Soybean based cropping system India 04 agricultural and veterinary sciences 15. Life on land Soil fertility 630 Wheat Farmyard manure 0401 agriculture, forestry, and fisheries Sub-temperate Indian Himalayas Kundu, S., Bhattacharyya, Ranjan, Prakash, Ved, Ghosh, B.N., Gupta, H.S., 2007-01-01 journalpaper Abstract Soil organic matter (SOM) contributes to the productivity and physical properties of soils. Although crop productivity is sustained mainly through the application of organic manure in the Indian Himalayas, no information is available on the effects of long-term manure addition along with mineral fertilizers on C sequestration and the contribution of total C input towards soil organic C (SOC) storage. We analyzed results of a long-term experiment, initiated in 1973 on a sandy loam soil under rainfed conditions to determine the influence of different combinations of NPK fertilizer and fertilizer + farmyard manure (FYM) at 10 Mg ha −1 on SOC content and its changes in the 0–45 cm soil depth. Concentration of SOC increased 40 and 70% in the NPK + FYM-treated plots as compared to NPK (43.1 Mg C ha −1 ) and unfertilized control plots (35.5 Mg C ha −1 ), respectively. Average annual contribution of C input from soybean ( Glycine max (L.) Merr.) was 29% and that from wheat ( Triticum aestivum L. Emend. Flori and Paol) was 24% of the harvestable above-ground biomass yield. Annual gross C input and annual rate of total SOC enrichment were 4852 and 900 kg C ha −1 , respectively, for the plots under NPK + FYM. It was estimated that 19% of the gross C input contributed towards the increase in SOC content. C loss from native SOM during 30 years averaged 61 kg C ha −1  yr −1 . The estimated quantity of biomass C required to maintain equilibrium SOM content was 321 kg ha −1  yr −1 . The total annual C input by the soybean–wheat rotation in the plots under unfertilized control was 890 kg ha −1  yr −1 . Thus, increase in SOC concentration under long-term (30 years) rainfed soybean–wheat cropping was due to the fact that annual C input by the system was higher than the required amount to maintaining equilibrium SOM content. Carbon Sequestration And Relationship Between Carbon Addition And Storage Under Rainfed Soybean-Wheat Rotation In A Sandy Loam Soil Of The Indian Himalayas 10.1016/j.still.2006.01.009 https://doi.org/10.1016/j.still.2006.01.009