the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Incorporating changes in albedo in estimating the climate mitigation benefits of land use change projects
Abstract. Some climate scientists are questioning whether the practice of converting of non-forest lands to forest land (afforestation or reforestation) is an effective climate change mitigation option. The discussion focuses particularly on areas where the new forest is primarily coniferous and there is significant amount of snow since the increased climate forcing due to the change in albedo may counteract the decreased climate forcing due to carbon dioxide removal.
In this paper, we develop a stand-based model that combines changes in surface albedo, solar radiation, latitude, cloud cover and carbon sequestration. As well, we develop a procedure to convert carbon stock changes to equivalent climatic forcing or climatic forcing to equivalent carbon stock changes. Using the model, we investigate the sensitivity of combined affects of changes in surface albedo and carbon stock changes to model parameters. The model is sensitive to amount of cloud, atmospheric absorption, timing of canopy closure, carbon sequestration rate among other factors. The sensitivity of the model is investigated at one Canadian site, and then the model is tested at numerous sites across Canada.
In general, we find that the change in albedo reduces the carbon sequestration benefits by approximately 30% over 100 years, but this is not drastic enough to suggest that one should not use afforestation or reforestation as a climate change mitigation option. This occurs because the forests grow in places where there is significant amount of cloud in winter. As well, variations in sequestration rate seem to be counterbalanced by the amount and timing of canopy closure.
We close by speculating that the effects of albedo may also be significant in locations at lower latitudes, where there are less clouds, and where there are extended dry seasons. These conditions make grasses light coloured and when irrigated crops, dark forests or other vegetation such as biofuels replace the grasses, the change in carbon stocks may not compensate for the darkening of the surface.
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RC S690: 'Review of Bird et al', Anonymous Referee #2, 28 May 2008
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RC S702: 'Anonymous Referee #1', Anonymous Referee #1, 30 May 2008
- AC S907: 'In response to Anonymous Referee #1', David Neil Bird, 24 Jun 2008
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RC S702: 'Anonymous Referee #1', Anonymous Referee #1, 30 May 2008
- AC S904: 'In response to Anonymous Referee #2', David Neil Bird, 24 Jun 2008
-
RC S690: 'Review of Bird et al', Anonymous Referee #2, 28 May 2008
-
RC S702: 'Anonymous Referee #1', Anonymous Referee #1, 30 May 2008
- AC S907: 'In response to Anonymous Referee #1', David Neil Bird, 24 Jun 2008
-
RC S702: 'Anonymous Referee #1', Anonymous Referee #1, 30 May 2008
- AC S904: 'In response to Anonymous Referee #2', David Neil Bird, 24 Jun 2008
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Cited
15 citations as recorded by crossref.
- Assessing climatic benefits from forestation potential in semi-arid lands S. Rohatyn et al. 10.1088/1748-9326/ac29e9
- Albedo-induced global warming impact of Conservation Reserve Program grasslands converted to annual and perennial bioenergy crops M. Abraha et al. 10.1088/1748-9326/ac1815
- Quantifying the climate impacts of albedo changes due to biofuel production: a comparison with biogeochemical effects F. Caiazzo et al. 10.1088/1748-9326/9/2/024015
- Enhancement of life cycle assessment (LCA) methodology to include the effect of surface albedo on climate change: Comparing black and white roofs T. Susca 10.1016/j.envpol.2011.12.019
- The climate impact of land use change in the miombo region of south central Africa S. Wilson & R. Scholes 10.1080/1943815X.2020.1825228
- Including CO2-emission equivalence of changes in land surface albedo in life cycle assessment. Methodology and case study on greenhouse agriculture I. Muñoz et al. 10.1007/s11367-010-0202-5
- Limited climate change mitigation potential through forestation of the vast dryland regions S. Rohatyn et al. 10.1126/science.abm9684
- Critical review and methodological issues in integrated life-cycle analysis on road networks U. Hasan et al. 10.1016/j.jclepro.2018.09.148
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- Contextual heat island assessment for pavement preservation S. Sen & J. Roesler 10.1080/10298436.2016.1213842
- Intercomparison of MODIS albedo retrievals and in situ measurements across the global FLUXNET network A. Cescatti et al. 10.1016/j.rse.2012.02.019
- Microscale Heat Island Characterization of Rigid Pavements S. Sen & J. Roesler 10.3141/2639-10
- Combined biogeophysical and biogeochemical effects of large-scale forest cover changes in the MPI earth system model S. Bathiany et al. 10.5194/bg-7-1383-2010
- Spatiotemporal variations of albedo in managed agricultural landscapes: inferences to global warming impacts (GWI) P. Sciusco et al. 10.1007/s10980-020-01022-8
- Use phase assessment of photocatalytic cool pavements A. Baral et al. 10.1016/j.jclepro.2018.04.155