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DescriptionFood-, land-, and climate change mitigation-gaps for 2050.jpg |
English: "Projected global population increase from 2010 to 2050 and the corresponding projected gaps in agricultural food production, land use, and climate mitigation. All projections are based on data reported in the World Resources Institute (2019) report. (a) The projected population increase is 3 billion people, a 43% increase. (b) The projected agricultural food gap, assuming a business-as-usual scenario and measured in energy required from all crops intended for direct human consumption, animal feed, industrial uses, seeds, and biofuels, is 7.4 trillion kilocalories, a 56% increase. (c) The projected agricultural land gap, assuming a business-as-usual scenario and measured in land area required to support all agricultural food production, is 0.4 billion ha of pastureland and 0.2 billion ha of cropland, a total 12% increase. Note the non-zero baseline in this panel. (d) The projected agricultural climate mitigation gaps are the differences between the projected level of greenhouse gas emissions in 2050 and the emission levels necessary to achieve the Intergovernmental Panel on Climate Change stabilized temperature increase targets of 1.5°C and 2.0°C. The projected increase in greenhouse gas emissions, assuming a business-as-usual scenario and measured in CO2 equivalents emitted from the food production process itself and land-use change, is 3 Gt CO2e, a 25% increase."
"By 2050, the world’s population is projected to approach 10 billion people. It is projected that global food production will need to increase by up to 56% to meet the nutritional demands of this growing and increasingly affluent population (Figure 1; Godfray et al., 2010; World Resources Institute, 2019). Yet, even today’s food production is unsustainable and insufficient. On land, agriculture provides the backbone of the global food production system; however, its benefits come at the expense of negative impacts on land use and carbon emissions (Figure 1) as well as freshwater resources and biodiversity" |
Date | |
Source | https://tos.org/oceanography/article/transforming-the-future-of-marine-aquaculture-a-circular-economy-approach |
Author | Authors of the study: Charles H. Greene, Celina M. Scott-Buechler, Arjun L.P. Hausner, Zackary I. Johnson, Xin Gen Lei, Mark E. Huntley |
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From the study "Transforming the Future of Marine Aquaculture: A Circular Economy Approach"
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 12:28, 26 November 2022 | ![]() | 2,813 × 719 (329 KB) | Prototyperspective | Uploaded a work by Authors of the study: Charles H. Greene, Celina M. Scott-Buechler, Arjun L.P. Hausner, Zackary I. Johnson, Xin Gen Lei, Mark E. Huntley from https://tos.org/oceanography/article/transforming-the-future-of-marine-aquaculture-a-circular-economy-approach with UploadWizard |
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JPEG file comment | CREATOR: gd-jpeg v1.0 (using IJG JPEG v80), quality = 90 |
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