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Forest-related greenhouse gas fluxes


Net forest-related greenhouses gas flux represents the net exchange of greenhouses gas between forests and the atmosphere between 2001 and 2020. This net flux layer is part of the forest carbon flux model described in Harris et al. (2021). Here, the average annual net fluxes in MtCO₂e is shown at global level and the average annual net fluxes in MtCO₂e/ha in protected areas and outside protected areas at national level.

The researcher estimated the Net Forest Carbon Flux calculating the balance between carbon emitted and sequestered by forests during the last 20 years (2001-2020). Negative values are found where forests sequestered more carbon from the atmosphere than what they emitted and positive values are found where emissions from stand-replacing forest disturbances were higher than removals. Emissions include all relevant ecosystem carbon pools (aboveground biomass, belowground biomass, dead wood, litter, soil) and greenhouse gases (CO2, NH4, N2O) while removals are into the aboveground and belowground biomass pools.

Source:Harris et al. (2021). Global maps of 21st century forest carbon fluxes, from Global Forest Watch.CC BY 4.0

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Data Uploaded by Simona Lippi using the BIOPAMA Services (2022)

Ranking
off
Make Map Points
Off
State
climate
Global Data

Forest-related greenhouse gas fluxes

Net forest carbon flux represents the net exchange of carbon between forests and the atmosphere between 2001 and 2020. This net flux layer is part of the forest carbon flux model described in Harris et al. (2021).This net flux layer is part of the forest carbon flux model described in Harris et al. (2021). At the global level we show the average annual net fluxes in MtCO₂e. The researcher estimated the Net Forest Carbon Flux calculating the balance between carbon emitted and sequestered by forests during the last 20 years (2001-2020). Negative values are found where forests sequestered more carbon from the atmosphere than what they emitted and positive values are found where emissions from stand-replacing forest disturbances were higher than removals. Emissions include all relevant ecosystem carbon pools (aboveground biomass, belowground biomass, dead wood, litter, soil) and greenhouse gases (CO2, NH4, N2O) while removals are into the aboveground and belowground biomass pools.

 

Source:Harris et al. (2021). Global maps of 21st century forest carbon fluxes, from Global Forest Watch.CC BY 4.0

https://api.biopama.org/api/climate/function/api_netcarbonforestfluxes
{"name":"country", "show": true, "nameLocation": "middle", "nameGap": 80, "type":"category", "data":"isoa3_id"}
{"name":"Forest net flux", "nameLocation": "middle", "nameGap": 80, "type":"value", "data":"net_forest_carbon_flux_totalcountry"}
{"name":"Average annual net fluxes in MtCO₂e", "type":"bar", "bp_count":"Average annual net fluxes in MtCO₂e", "data":"net_forest_carbon_flux_totalcountry"}
Descending
No
REST
4
Natural Breaks (Jenks)
sequential-14
National Data

Forest-related greenhouse gas fluxes

Net forest carbon flux represents the net exchange of carbon between forests and the atmosphere between 2001 and 2020. This net flux layer is part of the forest carbon flux model described in Harris et al. (2021).

At the national level it is displayed the average annual net fluxes in MgCO₂e/ha in protected areas and outside protected areas. The researcher estimated the Net Forest Carbon Flux calculating the balance between carbon emitted and sequestered by forests during the last 20 years (2001-2020). Negative values are found where forests sequestered more carbon from the atmosphere than what they emitted and positive values are found where emissions from stand-replacing forest disturbances were higher than removals. Emissions include all relevant ecosystem carbon pools (aboveground biomass, belowground biomass, dead wood, litter, soil) and greenhouse gases (CO2, NH4, N2O) while removals are into the aboveground and belowground biomass pools.

Source:Harris et al. (2021). Global maps of 21st century forest carbon fluxes, from Global Forest Watch.CC BY 4.0

https://api.biopama.org/api/climate/function/api_netcarbonforestfluxes/isoa3_id=ISO3
{"name":"country", "show": true, "nameLocation": "middle", "nameGap": 80, "type":"category", "data":"isoa3_id"}
{"name":"MgCO₂e/ha in protected areas", "nameLocation": "middle", "nameGap": 80, "type":"value", "data":"net_fluxes_mean_ha_protected_area"}
{"name":"net flux in protected areas (MgCO₂e/ha)", "type":"bar", "bp_count":"net flux in protected areas (MgCO₂e/ha)", "data":"net_fluxes_mean_ha_protected_area"}
{"name":"net flux in unprotected areas (MgCO₂e/ha)", "type":"bar", "bp_count":"net flux in unprotected areas (MgCO₂e/ha)", "data":"net_fluxes_mean_ha_unprotected_area"}
Descending
No
REST
Natural Breaks (Jenks)
Topic