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Land cover change and carbon emissions over 100 years in an African biodiversity hotspot

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dc.creator Willcock, Simon
dc.creator Phillips, Oliver L.
dc.creator Platts, Philip J.
dc.creator Swetnam, Ruth D.
dc.creator Balmford, Andrew
dc.creator Burgess, Neil D.
dc.creator Ahrends, Antje
dc.creator Bayliss, Julian
dc.creator Doggart, Nike
dc.creator Doody, Kathryn
dc.creator Fanning, Eibleis
dc.creator Green, Jonathan
dc.creator Hall, Jaclyn
dc.creator Howell, Kim
dc.creator Lovett, Jon C.
dc.creator Marchant, Rob A.
dc.creator Marshall, Andrew R.
dc.creator Mbilinyi, Boniface P.
dc.creator Munishi, Pantaleo
dc.creator Owen, Nisha
dc.creator Jørgensen, Elmer T.
dc.creator Lewis, Simon L.
dc.date 2016-07-19T13:04:40Z
dc.date 2016-07-19T13:04:40Z
dc.date 2016-07
dc.date.accessioned 2021-05-03T13:29:45Z
dc.date.available 2021-05-03T13:29:45Z
dc.identifier Willcock, S., Phillips, O.L., Platts, P.J., Swetnam, R.D., Balmford, A., Burgess, N.D., Ahrends, A., Bayliss, J., Doggart, N., Doody, K. and Fanning, E., 2016. Land cover change and carbon emissions over 100 years in an African biodiversity hotspot. Global change biology.
dc.identifier http://hdl.handle.net/20.500.11810/3305
dc.identifier 10.1111/gcb.13218
dc.identifier.uri http://hdl.handle.net/20.500.11810/3305
dc.description Agricultural expansion has resulted in both land use and land cover change (LULCC) across the tropics. However, the spatial and temporal patterns of such change and their resulting impacts are poorly understood, particularly for the pre-satellite era. Here we quantify the LULCC history across the 33.9 million ha watershed of Tanzania's Eastern Arc Mountains, using geo-referenced and digitised historical land cover maps (dated 1908, 1923, 1949 and 2000). Our time series from this biodiversity hotspot shows that forest and savanna area both declined, by 74% (2.8 million ha) and 10% (2.9 million ha), respectively, between 1908 and 2000. This vegetation was replaced by a five-fold increase in cropland, from 1.2 million ha to 6.7 million ha. This LULCC implies a committed release of 0.9 Pg C (95% CI: 0.4-1.5) across the watershed for the same period, equivalent to 0.3 Mg C ha−1 yr−1. This is at least three-fold higher than previous estimates from global models for the same study area. We then used the LULCC data from before and after protected area creation, as well as from areas where no protection was established, to analyse the effectiveness of legal protection on land cover change despite the underlying spatial variation in protected areas. We found that, between 1949 and 2000, forest expanded within legally protected areas, resulting in carbon uptake of 4.8 (3.8-5.7) Mg C ha−1, compared to a committed loss of 11.9 (7.2-16.6) Mg C ha−1 within areas lacking such protection. Furthermore, for nine protected areas where LULCC data is available prior to and following establishment, we show that protection reduces deforestation rates by 150% relative to unprotected portions of the watershed. Our results highlight that considerable LULCC occurred prior to the satellite era, thus other data sources are required to better understand long-term land cover trends in the tropics. Discover the world's research 100 million publications 2.5 million new publications each month 10 million members Join for free
dc.language en
dc.subject Afforestation
dc.subject Carbon
dc.subject Deforestation
dc.subject Ecosystem service
dc.subject Emission
dc.subject Land use change
dc.subject Protected area
dc.subject Reforestation
dc.title Land cover change and carbon emissions over 100 years in an African biodiversity hotspot
dc.type Journal Article, Peer Reviewed


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