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Plant Sciences

2020

Cropping system

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Full-Text Articles in Physical Sciences and Mathematics

Yield Trends And Soil Mineral Changes In Three Summer Winter Forage Cropping Systems For 5 Consecutive Years In Southern Kyushu, Japan, Sachiko Idota, Yasuyuki Ishii Aug 2020

Yield Trends And Soil Mineral Changes In Three Summer Winter Forage Cropping Systems For 5 Consecutive Years In Southern Kyushu, Japan, Sachiko Idota, Yasuyuki Ishii

IGC Proceedings (1997-2023)

No abstract provided.

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Tillage Management Strategy In Fodder-Food Cropping System For Sustainable Production, A, K. Dixit, Rajiv K. Agrawal, S. K. Das, C. S. Sahai, A. K. Rai Apr 2020

Tillage Management Strategy In Fodder-Food Cropping System For Sustainable Production, A, K. Dixit, Rajiv K. Agrawal, S. K. Das, C. S. Sahai, A. K. Rai

IGC Proceedings (1997-2023)

The per capita availability of land is consistently decreasing, while food and fodder demand is increasing. Indiscriminate and injudicious use of farm inputs for achieving potential yield of crops has not only enhanced the cost of cultivation but also threatened the environment and sustainability of the system. Combination of these factors and their interface are serious threats to agriculture and mankind. In rainfed condition of central India, fodder sorghum+cowpea –wheat is potential cropping system among farmers maintaining 2-4 livestock’s. The conventional tillage system which inverts and mixes the soil, introduces large amounts of oxygen into the soil and thus stimulates …

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Eco-Efficiency Of Forage Production In Northern Germany, Antje Herrmann, Sandra Claus, Christof Kluß, Friedhelm Taube Feb 2020

Eco-Efficiency Of Forage Production In Northern Germany, Antje Herrmann, Sandra Claus, Christof Kluß, Friedhelm Taube

IGC Proceedings (1997-2023)

A 2-year field experiment was conducted at two sites in Schleswig-Holstein, northern Germany, to quantify and evaluate the carbon footprint of arable forage cropping systems (continuous silage maize, maize-wheat-grass rotation, perennial ryegrass ley) as affected by N fertilizer type and N amount. Total greenhouse gas emission showed a linear increase with N application, with mineral N supply resulting in a higher slope. Product carbon footprint ranged between -66 and 119 kg CO2eq/(GJ NEL) and revealed a quadratic or linear response to fertilizer N input, depending on the cropping system. At N input required for achieving maximum energy yield, perennial ryegrass …

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