Abstract / Description of output
Agriculture, and its impact on land, contributes almost a third of total human emissions of greenhouse gases (GHG). At the same time, it is the only sector which has significant potential for negative emissions through offsetting via the supply of feedstock for energy and sequestration in biomass and soils.
Perennial crops represent 30% of the global cropland area. However, the positive effect of biomass storage on net GHG emissions has largely been ignored. Reasons for this include the inconsistency in methods of accounting for biomass in perennials. In this study, we present a generic model to calculate the carbon
balance and GHG emissions from perennial crops, covering both bioenergy and food crops. The model can be parametrized for any given crop if the necessary empirical data exists. We illustrate the model for four perennial crops e apple, coffee, sugarcane, and Miscanthuse to demonstrate the importance of
biomass in overall farm GHG emissions.
Perennial crops represent 30% of the global cropland area. However, the positive effect of biomass storage on net GHG emissions has largely been ignored. Reasons for this include the inconsistency in methods of accounting for biomass in perennials. In this study, we present a generic model to calculate the carbon
balance and GHG emissions from perennial crops, covering both bioenergy and food crops. The model can be parametrized for any given crop if the necessary empirical data exists. We illustrate the model for four perennial crops e apple, coffee, sugarcane, and Miscanthuse to demonstrate the importance of
biomass in overall farm GHG emissions.
Original language | English |
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Pages (from-to) | 292-305 |
Journal | Environmental Modelling and Software |
Volume | 102 |
Early online date | 28 Feb 2018 |
DOIs | |
Publication status | Published - Apr 2018 |
Keywords / Materials (for Non-textual outputs)
- Above ground biomass
- Below ground biomass
- Carbon
- Carbon dioxide
- Decomposition
- Greenhouse gas emissions
- Modelling
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Jonathan Hillier
- Royal (Dick) School of Veterinary Studies - Chair of Mathematical Modelling and Global Food Systems
- Global Academy of Agriculture and Food Systems
Person: Academic: Research Active